`
`[19]
`
`ltoh et al.
`
`[11] Patent Number:
`[45] Date of Patent:
`
`4,870,333
`Sep. 26, 1989
`
`[54] AUTOMATIC OPENING AND CLOSING
`DEVICE FOR A WINDOW ·
`
`[75] Inventors: Takeshi ltoh, Katsuta; Akibiko
`Tsukabara, Fujisawa, both of Japan
`
`[73] Assignee: Jidosha Denki Kogyo Kabushiki
`Kaisha, Kanagawa, Japan
`
`[21] Appl. No.
`
`: 103,767
`
`_
`
`[22] Filed:
`
`Oct. 2, 1987
`
`[30]
`Foreign Application Priority Data
`Japan ................................ 61-234658
`Oct. 3, 1986 [JP]
`Japan ................................ 61-240378
`Oct. 9, 1986 [JP]
`[51] Int. Q.4 ............................................... H02P 1/22
`[52] u.s. a . .................................... 318/286; 318/266;
`318/466
`[58] Field of Search ............... 318/256, 265, 266, 466,
`318/467, 468, 469, 470, 603, 280, 286; 29/26,
`28, 199
`
`[56]
`
`References Cited
`
`U.S. PATENT DOCUMENTS
`4,035,702 7/1977 Petter sen et al . ............... 318/467 X
`r ett ............................ 318/468 X
`4,234,833 11/1980 Bar
`4,514,670 4/1985 Fassel et al . .................... 318/266 X
`4,529,920 7/1985 Yoshida eta!. ..................... 318/466
`
`l/1986 Kornbrekke eta!. .............. 318/603
`4,563,625
`4,608,637 8/1986 Okuyama eta!. ................... 318/466
`FOREIGN PATENT DOCUMENTS
`2580717 10/1986 F rance .................................. 49/199
`Primary Examiner-Bentsu Ro
`Attorney, Agent, or Firm-Sughrue, Mion, Zinn,
`Macpeak & Seas
`[57]
`
`ABSTRACT
`
`An automatic opening and closing device for a window
`which has a forwardly and reversely rotatable motor
`for opening and closing the widow, switching means
`which instructs said motor to rotate, pulse-detecting
`means which detects a pulse generated along with a
`rotation of said motor, counting means which counts a
`pulse number detected by said pulse-detecting means
`and rotation-controlling means which performs rota
`tion-control to said motor on basis of a count number
`counted by said counting means and a predetermined
`count number is dislosed, by which it is possible to stop
`the opening or closing action of the window at a
`halfway, or possible to convert the action of the win
`dow in the reverse direction.
`
`5 Oaims, 12 Drawing Sheets
`
`
`
`BNA/Brose Exhibit 1007
`Page 1
`
`
`
`U.S. Patent Sep. 26, 1989
`
`Sheet 1 of 12 4,870,333
`
`FIG.1
`
`
`
`
`
`3
`
`
`
`I I I I I
`J / / / /
`// � P{
`
`
`
`Ia
`
`I
`I
`I
`j
`
`� � � �
`
`� � �
`
`BNA/Brose Exhibit 1007
`Page 2
`
`
`
`U.S. Patent Sep. 26, 1989
`FIG.2 (a)
`
`Sheet 2 of 12
`
`4,870,333
`
`6 a
`
`to '
`4 a Jumn __ ---
`
`t2
`
`:
`f
`�: I
`
`/Ia
`
`
`
`
`
`
`
`
`
`
`
`
`
`FIG.2 (b)
`
`
`-- _JlflJUIJ1
`
`t2
`1
`
`p
`
`to
`I
`
`t1
`I
`
`I
`I
`I
`
`I
`'
`
`1
`
`FIG.2 (c)
`
`6b
`
`4 a
`
`
`
`13a
`
`to
`I
`
`I
`
`p
`
`t1
`
`.
`
`t,2
`I
`
`I I
`
`I
`
`
`6 b
`4a _J_ -_JmJlilfl _-----�
`:
`
`lOa
`
`'
`I
`I
`
`'
`
`13a
`
`BNA/Brose Exhibit 1007
`Page 3
`
`
`
`-u.s. Patent Sep.26, 1989
`
`Sheet 3 of 12
`
`4,870,333
`
`FIG.3
`
`
`
`
`
`4
`
`
`
`
`
`
`
`BNA/Brose Exhibit 1007
`Page 4
`
`
`
`U.S. Patent
`
`Sep.26, 1989
`
`Sheet 4 of 12
`
`4,870,333
`
`a.
`w
`;: -I
`
`� 1
`a: w u. w a:
`
`w
`
`FIG.4
`
`CAR
`
`Vo
`SPEED --
`
`BNA/Brose Exhibit 1007
`Page 5
`
`
`
`U.S. Patent
`
`Sep.26, 1989
`
`Sheet 5 of 12 4,870,333
`
`FIG.5
`
`START
`
`116
`
`YES
`
`117
`
`DESCENDING
`ACTION
`
`BNA/Brose Exhibit 1007
`Page 6
`
`
`
`U.S. Patent Sep.26, 1989
`Sheet 6 of 12 4,870,333
`FIG.6
`
`NO
`
`56
`
`PULSE COUNTER
`DECREMENT
`
`PULSE COUNTER
`INCREMENT
`
`NO
`
`YES
`
`62
`
`PUTTING Tp INTO
`S PEED DATA TABLE
`
`64
`
`BNA/Brose Exhibit 1007
`Page 7
`
`
`
`U.S. Patent Sep.26, 1989
`
`Sheet 7 of 12
`
`4,870,333
`
`FIG.7
`
`+B
`
`32
`
`SWITCH PANEL
`38
`40a
`
`'
`
`28
`
`44a
`
`CPU
`
`MOTOR
`DRIVING
`CIRCUIT
`
`PULSE
`DETECTING
`CIRCUIT
`
`I I I
`I I I
`I I
`I I
`
`46
`
`24
`WINDOW
`FRAME
`
`26WINDOW
`
`I I
`---- -'
`
`22
`DOOR
`
`BNA/Brose Exhibit 1007
`Page 8
`
`
`
`U.S. Patent
`
`Sep.26, 1989
`
`Sheet 8 of 12
`
`4,870,333
`
`FIG.B
`
`0. 1 msec
`
`TIMER INTERRUPTION
`SIGNAL
`
`MOTOR PULSE SIGNAL
`(HIGH SPEED)
`
`MOTOR PULSE SIGNAL
`(LOW SPEED)
`
`:Tp ± 0.1 msec
`
`Tp ± 0.1 msec
`
`FIG.9
`
`n
`
`Tpn
`Tpn-1
`
`Tpn-2
`
`'
`
`Tp2
`
`Tp1
`Tp
`
`SPEED DATA OF THE LAST TIME BUT ONE
`
`SPEED DATA OF THE LAST TIME
`SPEED DATA OF THE PRESENT TIME
`
`BNA/Brose Exhibit 1007
`Page 9
`
`
`
`U.S. Patent Sep.26, 1989
`
`Sheet 9 of 12 4,870,333
`
`FIG.10( A)
`
`INITIAL
`OPERATION
`
`
`
`ASCENDING
`OPERATION
`
`0
`
`* I
`a:
`0 1-0
`::E
`
`FULL OPENED
`POSITION
`
`-
`WI NDOW
`POSITION
`
` CLOSE D
`POSITION
`(MOTOR LOCK)
`RANGE OF
`CLOSED POSITION
`
`FIG.10(B)
`
`FULL OPENED
`POSITION
`
`-
`WIN DOW
`POSITION
`
`ENTIRELY CLOSED
`POSITION
`
`BNA/Brose Exhibit 1007
`Page 10
`
`
`
`U.S. Patent Sep.26, 1989
`
`Sheet 10 of 12 4,870,333
`
`FIG.1 1( A)
`
`INITIAL
`OPERATION
`
`'�
`
`� t
`
`a:
`0 1-
`0
`::
`
`FULL OPENED
`POSITION
`(2000)
`
`-WINDOW
`POSITION
`
`SQUEEZING THE OBSTACLE
`(REVERSE TUR N OPERATION)
`
`RA NGE O F CLOSE D POSITION
`�
`'
`'
`'
`'
`'
`'
`ENTIRELY CLOSED
`POSITION
`(0)
`
`A
`
`FIG.1 1(B)
`
`--
`
`'
`I �
`I
`I
`I
`
`E
`t: c.
`
`� t �
`2
`<t: J: C,.)
`0 w w c. en
`u.
`0 w
`�
`a:
`
`
`
`'
`:
`'
`'
`I
`A
`
`:
`:
`RANGE OF
`�
`:
`: CLOSED POSITION
`'
`'
`
`E NTIRELY CLOSED
`POSITION
`(0)
`
`-W
`
`IN DOW
`POSITION
`
`FULL OPENED
`POSITION
`(2000)
`
`BNA/Brose Exhibit 1007
`Page 11
`
`
`
`U.S. Patent Sep.26, 1989
`FIG.12
`
`Sheet 11 of 12
`
`4,870,333
`
`YES
`
`EXTINCTION OF
`ASCENDING
`OUTPUT SIGNAL
`
`
`
`GENERATION OF
`ASCENDING
`OUTPUT SIGNAL
`
`EXTINCTION OF
`DESCENDING
`OUTPUT SIGNAL
`
`EXTINCTION OF
`ASCENDING
`OUTPUT SIGNAL
`
`EXTINCTION OF
`ASCENDING
`OUTPUT SIGNAL
`
`CANCELLING OF
`DESCENDING
`DEMAND
`
`194
`
`196
`
`GENERATION OF
`ABNORMAL
`SIGNAL
`
`COUNTER = 0
`
`174
`
`I 6
`
`BNA/Brose Exhibit 1007
`Page 12
`
`
`
`US. Patent Sep.26, 1989
`
`Sheet 12 of 12 4,870,333
`
`FIG.13
`
`INTERRUPTION
`
`200
`
`YES
`
`204
`
`NO
`
`208
`
`YES
`
`206
`
`(COUNTER)
`(COU NTER) - 1
`=
`
`(COUNTER)
`(COU NTER) + 1
`=
`
`RTI
`
`BNA/Brose Exhibit 1007
`Page 13
`
`
`
`1
`
`4,870,333
`
`2
`pattern of electric charging data of a motor for ascend
`ing and descending the window under the normal state
`is memorized previously and an abnormality such as
`squeezing of the obstacle is detected by comparing said
`5 data as a reference pattern with data at actual operation.
`However, concerning the method described in said
`Patent Publication No. 60-185626 it is necessary to as
`semble an expensive optical fiber into the window
`frame, working steps increase and a special detecting
`device must be provided In general, on the occasion of
`mounting a sensor for squeezing detection it is the pres-
`ent situation that a practical application is difficult for
`the problem in mounting due to limitations in manufac
`turing of the door part including the window frame and
`the window and a substantial increase in cost following
`this and a problem in reliability.
`With respect to the method described in Patent Publi
`cation No. 60-185625, although the influence of fluctua
`tions of motor load including a slide resistance between
`the window and the wind frame mounted on the car can
`be solved, it is necessary to operate the manual memo
`ry-switch for memorizing the reference data when the
`window is ascended or descended. Further, it is neces-
`sary to provide a limit switch for detecting whether the
`window gets to the full-opened position or full-closed
`position. Furthermore, there is no consideration con
`cerning the fact that the reference data is the data under
`normal operation.
`
`AUTOMATIC OPENING AND CLOSING DEVICE
`FOR A WINDOW
`
`BACKGROUND OF THE INVENTION
`
`1. Field Of The Invention
`This invention relates to an automatic opening and
`closing device for a window, and in particular to motor
`driven automatic opening and closing device for a win
`dow which is suitable for opening and closing a window 10
`and which is also called a power window in the case of
`use for an automobile.
`2.Description of the Prior Art
`Two types of opening and closing devices for a win
`dow of an automobile are known. One of them is a type 15
`which is wound-up and wound-down by manual opera
`tion, and another type is a power window herein the
`window is activated up and down automatically by a
`drive motor with a switching operation. Among them,
`the latter has been popularized recently, because it is 20
`possible that the window can be opened or closed only
`by a switching operation while driving the automobile.
`The automatic opening and closing device for the win
`dow is, generally, a device wherein the window is
`moved to be opened or closed by activating the for- 25
`wardly and reversely rotatable motor with a manual
`operation switch. The window continues to ascend or
`descend while the manual operation switch is switched
`on.
`Meanwhile, in the case of smoking in a car compart- 30
`ment, air in the car compartment is tainted, so that the
`window is sometimes opened sufficiently to accelerate
`ventilation of air. In this case, it is necessary to operate
`an up-down-switch delicately. Therefore, if the driver
`performs such a switching operation while driving the 35
`car, the driving operation is disturbed, so that there is
`the possibility of causing an accident.
`To prevent the above mentioned problem accompa
`nied by the operation for opening and closing the win
`dow, for example, there is a device disclosed in Japa- 40
`nese Utility Model Publication No. 60-169015. Consid
`ering the fact that a smoker uses an ashtray during
`smoking, the device is designed such that drawing the
`ashtray from a retainer of a smoking fixture provided in
`the car compartment, the window begins to open in 45
`linkage with it, and stops automatically when the win
`dow is opened a predetermined amount so desirable
`ventilation is obtained.
`However, in the device described in said Publication,
`the cost of the parts and assembling increases because it 50
`is necessary to additionally provide a switching means
`for the machinery for ascent and descent related to the
`smoking fixture in order to open and close the window.
`Furthermore, it is necessary to draw the ashtray for the
`ventilation even if tobacco is not smoked.
`On the other hand, in the automatic opening and
`closing device for the window, there is a problem that if
`an obstacle such as a hand or a head of an occupant is
`inserted between the window and a window frame in
`the ascending process of the window, the obstacle is 60
`caught between them. Therefore, various methods have
`been examined to resolve the problem.
`For example, Japanese Patent Publication No.
`60-185626 discloses a method wherein an abnormality
`such as squeezing of the obstacle is detected by means 65
`of detecting the bending of an optical fiber assembled
`into the window frame. Further, Japanese Patent Publi
`cation No. 60-185625 discloses a method wherein a
`
`55
`
`SUMMARY OF THE INVENTION
`
`This invention is made in view of the above men
`tioned problems of the prior art, its object is to provide
`an automatic opening and closing device for a window
`which is easy to operate, fast in its response, further
`more unnecessary to provide a special switching device
`and a kind of sensor, possible to exhibit a desirable ven
`tilative ability, and can prevent the accident of squeez
`ing an obstacle.
`In order to accomplish said object, an automatic
`opening and closing device for a window according to
`one aspect of the invention is characterized in that it has
`a forwardly and reversely rotatable motor to open and
`close a window, a switching means to instruct said
`motor to rotate, a pulse-detecting means to detect a
`pulse generated along with a rotation of said motor, a
`counting means to count a pulse-number detected by
`said pulse-detecting means and to reset a count number
`into a predetermined count number according to a pre
`scribed signal, a holding means to hold the rotation of
`said motor according to a signal issued from said
`switching means, and a holding-cancel signal generat
`ing means to detect a count number counted by said
`counting means and to cancel a holding state of said
`holding means by generating a holding-cancel signal
`when the count number amounts to a predetermined
`reference value in an opening operation of the window.
`According to the automatic opening and closing de
`vice for the window having a structure as described
`above, at the time when the window is descending and
`opening if the count number detected by the counting
`means reaches a predetermined reference value, a hold
`ing state of the holding means which holds the rotating
`action of the motor is cancelled and the motor stops
`rotating whereby the descent of the window stops at the
`position settled previously and the window is opened as
`much as necessary to ventilate.
`
`BNA/Brose Exhibit 1007
`Page 14
`
`
`
`10
`
`3
`Namely, in the structure as described above, the win
`dow descends and closes by operating the switching
`means and driving the motor, when said window
`reaches the fully closed state, the rotation of the motor
`is restricted, the pulse frequency of said pulse detecting 5
`means goes below the reference frequency and the
`count number of the counting means is reset to value
`predetermined such as initial value zero and the motor
`stops by discontinuing the switching operation.
`Next, as said switching means is operated to descend,
`a descending signal issues and the window descends by
`motor driving. At this time the rotation of the motor is
`held by said holding means even if a descending signal
`by a subsequent switching operation does not issue, and 15
`the window continues to descend.
`When the window descends a predetermined distance
`the count number of said counting means reaches to the
`value set previously, and said holding-cancel signal
`generating means detects it and issues a holding-cancel 20
`signal. The holding means cancels the rotation-holding
`state of the motor according to said signal, and the
`motor stops at the position where the window descends
`a prescribed distance.
`In accordance with such action, the opening distance 25
`of a window sufficient to accelerate ventilation is ob
`tained by a simple operation of a switching means.
`An automatic opening and closing device for a win
`dow according to another aspect of the invention com
`prises a forwardly and reversely rotatable motor to 30
`open and close a window, a switching means to instruct
`said motor to rotate a pulse-detecting means to detect a
`pulse generated along with the rotation of said motor, a
`counting means to count a pulse-number detected by
`said pulse-detecting means, a window position-detect- 35
`ing means to detect whether or not said window is near
`to a closed position on the basis of the count number of
`said counting means, a speed operation means to calcu
`late a rotational speed of said motor on the basis of the
`pulse detected by said pulse-detecting means a speed 40
`change operation means to calculate a rate of rotational
`speed change against the previously measured value of
`said motor on the basis of an output signal of said speed
`operation means, a window action-detecting means to
`detect whether said window is in a closing action a 45
`reversing instructive signal generating means to reverse
`said motor for opening said window if an output from
`said speed change operation means exceeds a predeter
`mined first set point when said window action-detecting 50
`means detects said window to be the closing action and
`said window position-detecting means detects said win
`dow to be not near to the closed position and a stop
`instructive signal-generating means to stop said motor if
`the output from said speed change operation means 55
`exceeds a predetermined second set point when said
`window action-detecting means detects said window to
`be in the closing action and said window position
`detecting means detects said window to be near to the
`closed position.
`In the automatic opening and closing device for the
`window as described above when an obstacle is caught
`between a window frame and the window, damage or
`injury to a squeezed obstacle can be prevented without
`mounting of a special sensor, because the squeezing of 65
`the obstacle is detected before the stop of rotation of the
`motor and the window is made to descend by rotation
`of the motor in the reverse direction.
`
`60
`
`4,870,333
`
`4
`
`BRIEF DESCRIPTION OF THE DRAWING
`
`FIG. 1 is a block diagram of a ftrst embodiment of the
`automatic opening and closing device for a window
`according to this invention;
`FIGS. 2(a), FIG. 2(b) and FIG. 2(c) are time charts
`showing action of the block diagram in FIG. 1. respec
`tively;
`FIG. 3 is a block diagram of a second embodiment of
`the automatic opening and closing device for the win
`dow according to this invention;
`FIG. 4 is a diagram showing the relationship of car
`speed and reference value;
`FIG. 5 is a flow chart illustrating action of a third
`embodiment of the automatic opening and closing de
`vice for the window according to this invention;
`FIG. 6 is a flow chart of the method to obtain the
`window position and the motor speed in the third em
`bodiment;
`FIG. 7; is a block diagram of the third embodiment;
`FIG. 8 is a diagram illustrating the timer interruption
`signal and motor pulse signals given by a pulse generat
`ing circuit;
`FIG. 9 is a diagram explaining an example of the data
`table of speed of motor used to calculate the rate of
`speed change of motor;
`FIG. 10(A) is a diagram showing the relationship of
`window position and rotational speed of motor;
`FIG. 10(B) is a diagram showing the relationship of
`window position and rate of speed change of motor;
`FIG. ll(A) is a diagram explaining the speed change
`of the case of squeezing an obstacle;
`FIG. ll(B) is a diagram explaining the rate of speed
`change of motor in the case of squeezing an obstacle;
`and
`FIG. 12 and FIG. 13 are flow charts illustrating ac
`tion of the other automatic opening and closing device
`for the window.
`
`DETAILED DESCRIPTION OF THE
`INVENTION
`Embodiment I
`FIG. 1 and FIG. 2 are drawings to explain the first
`embodiment of this invention. In FIG. 1, an automatic
`opening and closing device for a window comprises
`mainly a forwardly and reversely rotatable motor 3
`which causes a window 2 of a door 1 to ascend and
`descend, to thereby open and close, a pulse-detecting
`circuit 4 as a pulse-detecting means for detecting a pulse
`generated along with rotation of the motor 3, a motor
`driving circuit 5 for driving the motor 3, a switch 6 as a
`switching means which gives instructions for rotation
`of the motor 3 to said driving circuit 5, a counter 7 as a
`counting means which counts a pulse detected by said
`pulse detecting circuit 4, an initial value-setting circuit 8
`as a counting means similarly which resets said counter
`7 to an initial value, a holding circuit 9 as a holding
`means which holds the rotation of the motor 3, and a
`holding-cancel signal generating circuit as a holding
`cancel signal-generating means.
`The motor 3 for ascending and descending said win
`dow 2 can rotate in the forward and reverse direction,
`the rotational direction being decided on the basis of an
`ascending demand signal 6a and a descending demand
`signal 6 generated by the operation of switch 6. Driving
`circuit 5 rotates motor 3 in the ascending direction
`(closing direction) under the ascending demand signal
`
`BNA/Brose Exhibit 1007
`Page 15
`
`
`
`4,870,333
`
`Embodiment 2
`
`6
`5
`6a from the switch 6, and rotates motor 3 in the de-
`operation of the switch 6 at the time tt , the descending
`demand signal 6b halts, but the output of the holding
`scending direction (opening direction) under the de-
`circuit 9, i.e., the holding signal 9a continues to issue, so
`scending signal 13a from OR gate 13 which selects
`either descending demand signal6b or holding signal9a
`that the OR gate 13 outputs the descending signal 13a,
`5 the motor 3 still rotates in the descending direction of
`described later.
`the window 2.
`The pulse-detecting circuit 4 connected with the
`driving circuit 5 amplifies a ripple of motor current
`On the other hand, the pulse-detecting circuit 4 issues
`the pulse signal 4a accompanied by rotation of the
`generated along with the rotation of the motor 3, and
`outputs a pulse signal 4a into the counter 7 and the
`motor 3 the counter 7 is counted up by input of the pulse
`10 signal 4a. When the time tz comes soon, the count num-
`initial value-setting circuit 8.
`The counter 7 counts the pulse number of the pulse
`ber of counter 7 amounts to said reference value P cor-
`signal 4a from the pulse-detecting circuit 4, and com-
`responding to the opening distance of the window 2
`poses the counting means together with the initial val-
`settled previously. Then the holding-cancel signal gen-
`ue-setting circuit 8. The initial value-setting circuit 8 is
`erating circuit 10 issues the holding-cancel signal lOa ,
`composed of a rotation-detecting circuit 11 which issues 15 its output is input into holding circuit 9. The holding
`a signal lla when a frequency of the pulse signal 4a
`circuit 9 is cancelled from the holding state and the
`holding signal 9a halts. The descending signal 13a from
`input from the pulse-detecting circuit 4 decreases below
`the OR gate 13 halts by extinction of the holding signal
`a reference frequency determined previously and an
`9a, so that the motor 3 stops.
`AND gate 12 which outputs a reset signal 12a resetting
`the counter 7 into zero corresponding to the initial 20 According to the above mentioned action the win-
`value by the signal 11a and ascending demand signal 6a
`dow 2 descends down to the position where the dis-
`tance between window 2 and window frame 1a is 1, a
`from the switch 6 as an input.
`predetermined distance from the entirely closed posi-
`Further, the descending demand signal 6b of said
`tion, and stops automatically by one-touch-operation of
`switch 6 is input into the holding circuit 9, the holding
`circuit 9 outputs the holding signal 9a by the generating 25 the switch 6.
`of said descending demand signal 6b as a trigger, the
`Above described action concerns the case of opening
`holding state is cancelled by a holding-cancel signal lOa
`the window 2 a predetermined distance by the one-
`touch-operation of the switch 6, on the occasion of
`input from a holding cancel signal generating circuit 10.
`Said holding-cancel signal generating circuit 10 has a
`ordinary and continuous operation of the switch 6 with-
`function that a count number of the counter 7 is com- 30 out interruption, it acts in accordance with the time
`pared with the count number P (hereinafter, designated
`chart as shown in FIG. 2(c).
`as a reference value) corresponding to an opening dis-
`Namely, in FIG. 2(c) the descending demand signal
`6b issues by operating the switch 6 at the time to , the
`tance 1 of the window 2, and said holding-cancel signal
`lOa is outputted when the count number of the counter
`holding signal 9a and the descending signal 13a issue
`7 amounts to the value not less than said reference value 35 whereby the motor 3 rotates in the descending direction
`7.
`. of the window 2. Next, when the count number of
`counter 7 amounts to said reference value P at the time
`Secondly, an action of the automatic opening and
`tt, the holding-cancel signal generating circuit 10 out-
`closing device for the window composed as described
`puts the holding cancel signal lOa. Although the hold-
`above is explained in reference to the time charts shown
`40 ing signal9a halts by this output the OR gate 13 contin-
`in FIGS. 2(a), (b) and (c).
`ues to issue the descending signal 13a and the motor 3
`In FIG. 2(a), by operating the switch 6, the ascending
`demand signal 6a issues at the time to the driving circuit
`still rotates in the descending direction of the window 2
`because the output of the descending demand signal 6b
`5 causes motor 3 to rotate in the ascending direction of
`does not halt by switching on the switch 6. If the de-
`the window 2. When the time tt comes soon after, the
`window 2 reaches the window frame la of the door 1, 45 scending signal 6b is extinguished by turning off the
`switch 6 at the time t2, the descending signal 13a of OR
`and becomes entirely closed. Thereupon, the rotation of
`the motor 3 is restrained, and the frequency of pulse
`gate 13 also fades out, so that the motor 3 stops. There-
`signal 4a detected by the pulse-detecting circuit 4 de-
`fore, the action of the motor 3 stops corresponding to
`the operation of the switch 6 after the time tt.
`creases into the reference frequency F at the time t2.
`When the frequency of pulse signal 4a becomes not 50 As described above, in the said first embodiment, the
`window 2 can be opened a predetermined distance from
`more than the reference frequency f, the rotation-
`the closed state by a one-touch-operation of the switch
`detecting circuit 11 issues a signal 11a . At this time,
`because the ascending demand signal 6a is output from
`6 in the descending direction. Furthermore, in this em-
`the switch 6, said signal 11a and the ascending demand
`bodiment it is not necessary to provide a switching
`signal 6a are output into the AND gate 12, the resetting 55 means linked with the ashtray as in the prior art. The
`switch 6 makes the window 2 ascend and descend, so
`signal 12a is output to the counter 7 from the AND gate
`that the above mentioned action can be realized by the
`12. The count number of the counter 7 is reset into zero.
`arrangement of an electric circuit so that the cost can be
`Thereafter, if the operation of the switch 6 ceases, the
`reduced.
`motor 3 stops.
`After the window 2 is entirely closed by the above 60
`action, if the descending demand signal 6b issues by
`operating the switch 6 at the time to as shown in FIG.
`2(b), the OR gate 13 issues the descending signal 13a,
`according to the input of the descending signal 13a the
`driving circuit 5 causes motor 3 to rotate in the descend- 65
`ing direction of the window 2. The holding circuit 9
`issues the holding signal 9a on the basis of the input of
`the descending demand signal 6b. Then, breaking the
`
`In the above-described first embodiment, the opening
`distance I of window 2 is constant corresponding to the
`reference value P settled previously, however in many
`cases the car speed is not constant, and the common
`speed range varies according to respective roads such as
`a city street, a country road or an expressway. There
`fore, the opening distance of the window corresponding
`
`BNA/Brose Exhibit 1007
`Page 16
`
`
`
`7
`to the car speed is sometimes required. Namely, it is
`necessary to open widely when running at a low speed,
`but it is possible to ventilate sufficiently through a
`smaller window opening at a high speed. From this
`viewpoint, it is found that it is very convenient to enable 5
`the opening distance of the window to be set corre
`sponding to a rung speed of the car.
`The second embodiment shown in FIG. 3 is made in
`view of the above mentioned point. A reference value
`setting circuit 14 which sets the reference value P for 10
`the count number of the counter 7 corresponding to the
`car speed is attached to the holding-cancel signal gener
`ating circuit 10 in the first embodiment, the holding
`cancel signal generating means is composed of the hold
`ing-cancel signal generating circuit 10 and the reference 15
`value-setting circuit 14. Said reference value-setting
`circuit 14 determines the reference value P correspond
`ing to the car speed by a car speed sensor 15 as shown
`in FIG. 3, and outputs the reference value P into the
`holding cancel signal-generating circuit 10. Therefore, 20
`the holding cancel signal generating circuit 10 com
`pares the count number output from the counter 7 with
`said reference value P.
`Said reference value P is fixed into value Po in a range
`from car speed 0 to a certain speed V o, and the value P 25
`decreases inversely in the car speed range more than the
`threshold value Vas seen from FIG. 4. The reference
`value P is correlated with the opening of the window 2,
`i.e., the opening distance l from the window frame 1a to
`the top of the window 2 as aforementioned, so that said 30
`opening distance l decreases according to the lowering
`of the reference value P, so that the opening distance
`sufficient to ventilate can be obtained only by a one
`touch-operation of the switch 6. The other parts and
`actions which have not been explained are the same as 35
`that described for the first embodiment so that the ex
`planation concerning this embodiment is limited ac
`cordingly.
`As described above in the second embodiment, the
`cost is reduced and the desirable ventilation corre- 40
`sponding to the car speed can be performed in addition
`to the effects of the first embodiment because it is not
`necessary to provide a position detecting means such as
`a limit switch or the like which detects the opening
`distance l of the window 2.
`
`45
`
`Embodiment 3
`FIGS. 5 to 11 show the third embodiment of this
`invention.
`FIG. 7 is a block diagram showing the third embodi- 50
`ment of the automatic opening and closing device for
`the window according to the invention.
`In FIG. 7, a motor 20 is a rotatable motor in the
`forward and reverse direction which is provided on a
`respective door 22 of the automobile. The motor 20 55
`causes the window 26 fitted in a window frame 24 to
`ascend and descend, i.e, to open and close. The motor
`20 is connected with a power source B through a mo
`tor-driving circuit 28.
`The motor-driving circuit 28 is connected with a 60
`pulse-detecting circuit 30 which detects a pulse gener
`ated along with rotation of the motor 20 as a pulse
`detecting means and a central processing unit (CPU) 34
`of a controller 32. The controller 32 is connected with
`the power source B through a constant-voltage circuit 65
`(not shown) and provided inside with counter 36 as a
`counting means connected with the CPU 34. The CPU
`34 receives an ascending demand signal 40a or a de-
`
`4,870,333
`
`8
`scending demand signal 40b for the window 26 from an
`operation switch panel 38 which the occupant operates
`and instructs the rotational action of the motor 20 as a
`switching means, and outputs an ascending signal 42a or
`a descending signal 42b into the motor-driving circuit
`28. The driving circuit 28 issues forward driving signal
`making the window 26 ascend or a reverse driving
`signal making the window 2 descend to the motor 20
`according to the output signal of the CPU 34.
`The pulse-detecting circuit 30 detects a pulse signal
`described later and output into the CPU 34 and a
`counter 36. The CPU 34 detects a position of the win
`dow 26 in accordance with the pulse number counted
`by the counter 36. Namely, the CP 34 has a map 46 able
`to compare and contrast the position of window 26 with
`the pulse number, and detect that the window 26 is
`entirely closed when the pulse number is 0 and the
`window 26 is fully opened when the pulse number is
`200 (Pmax), for example. Further, an obstacle 48
`shown in FIG. 5 is caught between the window frame
`24 and the window 26.
`A function of the third embodiment composed as
`described above is as follows.
`Pushing an UP-botton on the operation switch panel
`38 when an occupant intends to raise the window 26,
`causes the ascending demand signal 40a to be input into
`the CPU 34 from the operation switch panel 38. The
`CPU 34 outputs the ascending signal 42a into the driv
`ing circuit 28 according to input of the ascending de
`mand signal 40a, the driving circuit 28 joins the motor
`20 with the power source B by outputting the normal
`turn driving signal and drives it to raise the window 26.
`By the rotation of the motor 20, a ripple current
`corresponding to the rotational frequency is generated
`in the motor current. A pulsating wave-form of the
`ripple current is transmitted to the pulse-detecting cir
`cuit 30 from the driving circuit 28. The pulse-detecting
`circuit 30 detects the ripple current, performs a wave
`shaping of the pulsating wave-form and outputs a motor
`pulse signal to the CPU 34 and the counter 36. The
`counter 36 is actuated to count down in the ascending
`action of the window 26 and to count up in the descend
`ing action of the window 26 by the CPU 34 as described
`later. Therefore, when the pulse-detecting circuit 30
`receives the motor pulse signal generated along with
`rotation of the motor 20 in the forward direction, the
`counter 36 counts down one by one corresponding to
`the number of pulse signal.
`On the other hand the CPU 34 detects at all times
`whether or not an obstacle 48 is caught between the
`window frame 24 and the window 26 in accordance
`with the flow chart shown in FIG. 5. The CPU 34
`determines whether or not the instruction (input of the
`ascending