CN205140042U - Lavatory with switch regionally - Google Patents
Lavatory with switch regionally Download PDFInfo
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- CN205140042U CN205140042U CN201520894903.9U CN201520894903U CN205140042U CN 205140042 U CN205140042 U CN 205140042U CN 201520894903 U CN201520894903 U CN 201520894903U CN 205140042 U CN205140042 U CN 205140042U
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- door
- travel switch
- lavatory
- relay
- negative pole
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Abstract
The utility model discloses a lavatory with switch regionally, including the men's lavatory that separates each other is regional and the women's lavatory is regional, the lavatory still includes: the switching of locating between men's lavatory region and the women's lavatory region is regional, switch over regional being equipped with respectively and be used for keeping apart men's lavatory region and regional just the same A door and the B door of structure of women's lavatory, and be used for locking an electromagnetic locking devices of A door and B door, the A door includes A door leaf and A door frame, locates the A door travel switch group on A door frame both sides, the B door includes B door leaf and B door frame, locates the B door travel switch group on B door frame both sides: the lavatory still includes the control circuit who is connected with an electromagnetic locking devices, a door travel switch group, B door travel switch group electricity, during electromagnetic locking devices outage, a door and B door keep opening, and perhaps lock status is unchangeable. The utility model relates to a rationally, can solve the practical problem, can widely popularize and be applied to in the life.
Description
Technical field
The utility model relates to urban public infrastructure, particularly relates to a kind of lavatory.
Background technology
At present, the public situation that some flows are large, such as: dining room, square etc. exist the not enough situation in region, lavatory, particularly women's lavatory region and often there is crouching bit quantity deficiency, and the phenomenon causing region, lavatory to stand in a long queue occurs.And the place that flow of the people is large, often commercial economic region, if the floor area of building in region, lavatory is large, very uneconomical.Therefore, some places adopt region, men and women's common type lavatory, and man uses urinal can be more convenient, and adopt full crouching position formula men and women to share region, lavatory, the time that the male sex uses region, lavatory can be extended, often can not solving practical problems, and men and women shares region, lavatory can bring a lot of inconvenience.
Utility model content
In order to overcome above-mentioned the deficiencies in the prior art part, the purpose of this utility model is to provide and is a kind ofly provided with Zone switched lavatory, according to the actual demand of men and women to lavatory, and the region in reasonable distribution lavatory.
The technical solution of the utility model is: be a kind ofly provided with Zone switched lavatory, and comprise men's lavatory region spaced apart from each other and women's lavatory region, described lavatory also comprises: that is located between men's lavatory region and women's lavatory region is Zone switched; Describedly Zone switchedly to be respectively equipped with for isolating men's lavatory region with women's lavatory region and the identical A door of structure and B door, and for locking the first electromagnetic locking device of A door and B door; Described A door comprises A door leaf and A doorframe, is located at the A door travel switch group on A doorframe both sides; Described B door comprises B door leaf and B doorframe, is located at the B door travel switch group on B doorframe both sides: described lavatory also comprises the control circuit be electrically connected with the first electromagnetic locking device, A door travel switch group, B door travel switch group; During described first electromagnetic locking device power-off, A door and B door stay open or locking state constant.
Its further technical scheme is: described first electromagnetic locking device is two electromagnetic locks in parallel, and it comprises A door electromagnetic lock and B door electromagnetic lock; Described A door electromagnetic lock comprises the A door Electromagnetic lock being fixed on A doorframe one side, is individually fixed in A left electromagnetism lock and the right electromagnetism lock of A on A door leaf both sides; Described B door electromagnetic lock comprises the B door Electromagnetic lock being fixed on B doorframe one side, is individually fixed in B left electromagnetism lock and the right electromagnetism lock of B on B door leaf both sides; Described A door Electromagnetic lock and B door Electromagnetic lock are electrically connected with control circuit respectively.
Its further technical scheme is: described A door travel switch group comprises the left travel switch of A and the right travel switch of A of being located at A doorframe both sides respectively; Described B door travel switch group comprises the left travel switch of B and the right travel switch of B of being located at B doorframe both sides respectively; Described control circuit comprises power interface, pushbutton switch, the first relay, the second relay, energization delay relay; The positive pole of described pushbutton switch is connected with the positive pole of power interface; The positive pole of described first relay normally closed contact is connected with the negative pole of pushbutton switch; Second relay positive pole is connected with the negative pole of the first relay normally closed contact contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of described second relay is in parallel with pushbutton switch; Described energization delay relay is in parallel with the second relay; The normally opened contact of described second relay is connected with the first electromagnetic locking device, and its positive pole is connected with power interface positive pole; The negative pole of described first electromagnetic locking device is connected with the negative electricity of power interface respectively; The normally opened contact of described energization delay relay is connected with the positive pole of power interface; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the left travel switch of B; The negative pole of the left travel switch of described B is connected with the positive pole of the first relay; The left travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The described negative pole of the first relay is connected with the negative pole of power interface.
Its further technical scheme is: described A door leaf is slidably connected to described A doorframe; Described B door leaf is slidably connected to described B doorframe; Described lavatory also comprises the A door drive for driving the movement of A door leaf, for driving the B door drive of B door leaf movement, and for the control device of control A door drive and B door drive.
Its further technical scheme is: the described Zone switched C door be also provided with between A door and B door, and for locking the second electromagnetic locking device of C door; Described C door comprises C door leaf and C doorframe, is located at the C door travel switch group on C doorframe both sides; Described C door travel switch group is electrically connected with control circuit; Described second electromagnetic locking device is in parallel with the first electromagnetic locking device; Described C door travel switch group comprises the left travel switch of C and the right travel switch of C of being located at C doorframe both sides respectively; Described A door travel switch group comprises the left travel switch of A and the right travel switch of A of being located at A doorframe both sides respectively; Described B door travel switch group comprises the left travel switch of B and the right travel switch of B of being located at B doorframe both sides respectively.
Its further technical scheme is: described second electromagnetic locking device comprises the C door Electromagnetic lock being fixed on C doorframe, is individually fixed in C left electromagnetism lock and the right electromagnetism lock of C on C door leaf both sides; Described C door Electromagnetic lock is electrically connected with control circuit.
Its further technical scheme is: described control circuit comprises power interface, pushbutton switch, the first relay, the second relay, energization delay relay; The positive pole of described pushbutton switch is connected with the positive pole of power interface; The positive pole of described first relay normally closed contact is connected with the negative pole of pushbutton switch; Second relay positive pole is connected with the negative pole of the first relay normally closed contact contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of described second relay is in parallel with pushbutton switch; Described energization delay relay is in parallel with the second relay; The normally opened contact of described second relay is connected with the first electromagnetic locking device and the second electromagnetic locking device respectively, and its positive pole is connected with power interface positive pole; Described first electromagnetic locking device is connected with the negative pole of power interface respectively with the negative pole of the second electromagnetic locking device; The normally opened contact of described energization delay relay is connected with the positive pole of power interface; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the left travel switch of C; The negative pole of the left travel switch of described C is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the right travel switch of C; The negative pole of the right travel switch of described C is connected with the left travel switch of B; The negative pole of the left travel switch of described B is connected with the positive pole of the first relay; The left travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the right travel switch of C; The negative pole of the right travel switch of described C is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The described negative pole of the first relay is connected with the negative pole of power interface.
Its further technical scheme is: described C door leaf is slidably connected to described C doorframe; Described lavatory also comprises the C door drive for driving the movement of C door leaf, and for the control device of control C door drive.
Its further technical scheme is: the described Zone switched crouching position be provided with for entering lavatory.
Its further technical scheme is: described control circuit is provided with the fuse of connecting with power interface.
The utility model technique effect is compared with prior art: be a kind ofly provided with Zone switched lavatory, be provided with Zone switched in the joint portion in men's lavatory region and women's lavatory region, Zone switched be provided with respectively with A door and the B door of men's lavatory region and women's lavatory region UNICOM, wherein lavatory is provided with and is respectively used to the electromagnetic locking device of locking A door and B door and the travel switch of whether closing for induction door, and controls control circuit.Lavatory is when setting, and control circuit controls locking device power-off, thus makes locking device locking A door and B door reach the object switching toilet areas.When the demand of man to region, lavatory is greater than Ms, A door is opened, and B door is closed; When the demand of Ms to region, lavatory is greater than man, A door is closed, and B door is opened.
Further, the travel switch of A door and B door is provided with two kinds of electrical coupling modes, when A door and B door reach the state of setting, control circuit has a circuit meeting conducting, and the normally closed switch of the first relay can disconnect upon power-up, thus the second relay, energization delay relay also can dead electricity, first locking device of connecting with the second relay also dead electricity lock A door and B door, thus form the Region dividing region, lavatory determined.
Further, door leaf and the doorframe of A door, B door are slidably connected, and are respectively equipped with the drive unit for driving door leaf movement both it, and control device, control the movement of two fan doors, avoid the embarrassing incident that people directly enters lavatory district management with drive unit.
Further, the Zone switched C door be also provided with between A door and B door, and for locking the second electromagnetic locking device of C door; Goalkeeper C is Zone switched is divided into two parts, and when the demand of men and women to region, lavatory reaches balance, C door is closed, and A door and B door are opened.
Further, the travel switch of A door, B door, C door is provided with two kinds of electrical coupling modes, when A door and B door reach the state of setting, control circuit has a circuit meeting conducting, and the normally closed switch of the first relay can disconnect upon power-up, thus the second relay, energization delay relay also can dead electricity, first locking device of connecting with the second relay also dead electricity lock A door, B door, C door, thus form the Region dividing region, lavatory determined.
Further, C door is also provided with drive unit, and does not need artificial to open or close C door.
Below in conjunction with the drawings and specific embodiments, the utility model is further described.
Accompanying drawing explanation
Fig. 1 is a kind of floor map being provided with Zone switched lavatory first embodiment of the utility model.
Fig. 2 is the control circuit figure of Fig. 1 embodiment.
Fig. 3 is a kind of floor map being provided with Zone switched lavatory second embodiment of the utility model.
Fig. 4 is the control circuit figure of Fig. 3 embodiment.
Reference numeral
10 men's lavatory region, lavatories 1
2 women's lavatory regions 3 are Zone switched
31A door 311A door leaf
312A doorframe 313A door travel switch group
32B door 321B door leaf
322B doorframe 323B door travel switch group
33 first electromagnetic locking device 331A door electromagnetic locks
332B door electromagnetic lock 34C door
341C door leaf 342C doorframe
343C door travel switch group 35 second electromagnetic locking device
KM1 first relay K M2 second relay
KT energization delay relay SB pushbutton switch
The right travel switch of ST11A left lateral journey switch S T12A
The right travel switch of ST21B left lateral journey switch S T22B
The right travel switch of ST31C left lateral journey switch S T32C
Embodiment
In order to more fully understand technology contents of the present utility model, below in conjunction with schematic diagram the technical solution of the utility model being introduced further and illustrating, but being not limited to this.
As depicted in figs. 1 and 2, be a kind ofly provided with Zone switched lavatory 10, comprise men's lavatory region 1 spaced apart from each other and women's lavatory region 2, lavatory 10 also comprises: be located at Zone switched 3 between men's lavatory region 1 and women's lavatory region 2; Zone switched 3 are respectively equipped with for isolating men's lavatory region 1 with women's lavatory region 2 and the identical A door 31 of structure and B door 32, and for locking the first electromagnetic locking device 33 of A door 31 and B door 32.A door 31 comprises A door leaf 311 and A doorframe 312, is located at the A door travel switch group 313 on A doorframe 312 both sides.B door 32 comprises B door leaf 321 and B doorframe 322, is located at the B door travel switch group 323 on B doorframe 322 both sides.Lavatory 10 also comprises the control circuit (composition graphs 2) be connected with the first electromagnetic locking device 33, A door travel switch group 313, B door travel switch group 323.During the first electromagnetic locking device 33 power-off, A door 31 and B door 32 stay open or locking state constant.
First electromagnetic locking device 33 is two electromagnetic locks in parallel, and it comprises A door electromagnetic lock 331 and B door electromagnetic lock 332.A door electromagnetic lock 331 comprises the A door Electromagnetic lock (not indicating in figure) being fixed on A doorframe 312 one side, is individually fixed in A left electromagnetism lock (not indicating in figure) and the right electromagnetism lock (not indicating in figure) of A on A door leaf 311 both sides.B door electromagnetic lock 332 comprises the B door Electromagnetic lock (not indicating in figure) being fixed on B doorframe 322 one side, is individually fixed in B left electromagnetism lock (not indicating in figure) and the right electromagnetism lock (not indicating in figure) of B on B door leaf 321 both sides.A door Electromagnetic lock (not indicating in figure) and B door Electromagnetic lock (not indicating in figure) are connected with control circuit (composition graphs 2) respectively.A door electromagnetic lock 331, B door electromagnetic lock 332 electric after, the lock core of electromagnetism lock exits, and A door 31 and B door 32 are in releasing locking state.When after A door electromagnetic lock 331, B door electromagnetic lock 332 dead electricity, the lock core of electromagnetism lock reaches in corresponding electromagnetism lock, makes A door 31, B door 32 is in locking state.
A door travel switch group 313 comprises the A left lateral journey switch S T11 and A right lateral journey switch S T12 that are located at A doorframe 312 both sides respectively.
B door travel switch group 323 comprises the B left lateral journey switch S T21 and B right lateral journey switch S T22 that are located at B doorframe 322 both sides respectively.
A door leaf 311 is slidably connected to A doorframe 312, B door leaf 321 and is slidably connected to B doorframe 322.Lavatory 10 also comprises the A door drive (not shown) for driving A door leaf 311 movement, for driving the B door drive (not shown) of B door leaf 321 movement, and for the control device (not shown) of control A door drive and B door drive; With the movement of drive unit control A door 31 and B door 32, managerial personnel do not need to enter the division that region, two lavatories just can realize lavatory regions, it also avoid the appearance of awkward scene simultaneously.
Zone switched 3 are provided with the crouching position for entering lavatory, the facility that men's lavatory region 1, women's lavatory region 2 are respectively equipped with and are applicable to man, Ms enters lavatory.
Control circuit comprises power interface, pushbutton switch SB, the first relay K M1, the second relay K M2, energization delay relay KT; The positive pole of pushbutton switch SB is connected with the positive pole of power interface; The positive pole of the first relay K M1 normally closed contact is connected with the negative pole of pushbutton switch SB; Second relay K M2 positive pole is connected with the negative pole of the first relay K M1 normally closed contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of the second relay K M2 is in parallel with pushbutton switch SB; Energization delay relay KT is in parallel with the second relay K M2; The normally opened contact of the second relay K M2 is connected with the first electromagnetic locking device 33YA1 and YA2, and its positive pole is connected with power interface positive pole; The negative pole of the first electromagnetic locking device 33YA1 with YA2 is connected with the negative pole of power interface respectively; The normally opened contact of energization delay relay KT is connected with the positive pole of power interface; A right lateral journey switch S T12 is connected with the negative pole of energization delay relay KT normally opened contact, and its negative pole is connected with B left lateral journey switch S T21; The negative pole of B left lateral journey switch S T21 is connected with the positive pole of the first relay K M1; A left lateral journey switch S T11 is connected with the negative pole of energization delay relay KT normally opened contact, and its negative pole is connected with B right lateral journey switch S T22; The negative pole of B right lateral journey switch S T22 is connected with the positive pole of the first relay K M1; The negative pole of the first relay K M1 is connected with the negative pole of power interface.
Two kinds of circuit connecting relations are formed between A left lateral journey switch S T11, A right lateral journey switch S T12, B left lateral journey switch S T21, B right lateral journey switch S T22, before whole circuit is not energized, first electromagnetic locking device 33YA1 and YA2 is in power failure state, electromagnetic lock is locked A door 31 and B door 32, A door 31 and B door 32 and cannot be moved and change the general layout in region, lavatory.When pushbutton switch SB closes, second relay K M2, energization delay relay KT obtain electric, make to close with the second relay K M2 normally opened contact of pushbutton switch SB parallel connection, the normally opened contact of the second relay K M2 of connecting with the first electromagnetic locking device 33YA1 and YA2.Now, first locking device obtains electric, thus A door 31, B door 32 removes locking state, the normally opened contact of energization delay relay KT also can close after setting-up time, keeper can pass through control device (not shown) control A door 31 within this time period, the movement of B door 32, when A door 31 and B door 32 reach a kind of state of keeper's setting, two circuit between travel switch have a conducting, make obtaining of the first relay K M1 electric, and now the normally closed contact of the first relay K M1 can disconnect, second relay K M2 also can dead electricity thereupon, thus make the first electromagnetic locking device 33YA1 and YA2 dead electricity and lock A door 31 and B door 32, region, lavatory is made to form the layout of setting.
As shown in Figure 3 and Figure 4, the second embodiment is on the basis of the first embodiment, and Zone switched 3 are also provided with the C door 34 between A door 31 and B door 32, and for locking the second electromagnetic locking device 35 of C door 34.C door 34 comprises C door leaf 341 and C doorframe 342, is located at the C door travel switch group 343 on C doorframe 342 both sides.C door travel switch group 343 is connected with control circuit (composition graphs 4), and the second electromagnetic locking device 35 is in parallel with the first electromagnetic locking device (composition graphs 1).C door travel switch group 343 comprises the C left lateral journey switch S T31 and C right lateral journey switch S T32 that are located at C doorframe 342 both sides respectively, A door travel switch group 313 comprises the A left lateral journey switch S T11 and A right lateral journey switch S T12 that are located at A doorframe 312 both sides respectively, and B door travel switch group 323 comprises the B left lateral journey switch S T21 and B right lateral journey switch S T22 that are located at B doorframe 322 both sides respectively.When the demand of men and women to region, lavatory is identical, close C door, A door 31, B door 32 are opened, and make the region of Zone switched 3 separately be incorporated into men's lavatory region 1 and women's lavatory region 2.
Second electromagnetic locking device 35 comprises the C door Electromagnetic lock (not indicating in figure) being fixed on C doorframe 342 one side, is individually fixed in C left electromagnetism lock (not indicating in figure) and the right electromagnetism lock (not indicating in figure) of C on C door leaf 341 both sides; C door Electromagnetic lock (not indicating in figure) is connected with control circuit (composition graphs 4).
C door leaf is slidably connected to C doorframe 342; Lavatory 10 also comprises the C door 34 drive unit (not shown) for driving C door leaf 341 movement, and for the control device (not shown) of control C door 34 drive unit.
Control circuit comprises power interface, pushbutton switch SB, the first relay K M1, the second relay K M2, energization delay relay KT.The positive pole of pushbutton switch SB is connected with the positive pole of power interface, and the positive pole of the first relay K M1 normally closed contact is connected with the negative pole of pushbutton switch SB; Second relay K M2 positive pole is connected with the negative pole of the first relay K M1 normally closed contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of the second relay K M2 is in parallel with pushbutton switch SB, and energization delay relay KT is in parallel with the second relay K M2.The normally opened contact of the second relay K M2 is connected with the first electromagnetic locking device 33YA1 and YA2 and the second electromagnetic locking device 35YA3 respectively, and its positive pole is connected with power interface positive pole; First electromagnetic locking device 33YA1 with YA2 is connected with the negative pole of power interface respectively with the negative pole of the second electromagnetic locking device 35YA3, and the normally opened contact of energization delay relay KT is connected with the positive pole of power interface.A right lateral journey switch S T12 is connected with the negative pole of energization delay relay KT normally opened contact, and its negative pole is connected with the positive pole of C left lateral journey switch S T31; The negative pole of C left lateral journey switch S T31 is connected with B right lateral journey switch S T22; The negative pole of B right lateral journey switch S T22 is connected with the positive pole of the first relay K M1; A right lateral journey switch S T12 is connected with the negative pole of energization delay relay KT normally opened contact, and its negative pole is connected with the positive pole of C right lateral journey switch S T32; The negative pole of C right lateral journey switch S T32 is connected with B left lateral journey switch S T21; The negative pole of B left lateral journey switch S T21 is connected with the positive pole of the first relay K M1; A left lateral journey switch S T11 is connected with the negative pole of energization delay relay KT normally opened contact, and its negative pole is connected with the positive pole of C right lateral journey switch S T32; The negative pole of C right lateral journey switch S T32 is connected with B right lateral journey switch S T22; The negative pole of B right lateral journey switch S T22 is connected with the positive pole of the first relay K M1; The negative pole of the first relay K M1 is connected with the negative pole of power interface.
Three kinds of circuit connecting relations are formed between A left lateral journey switch S T11, A right lateral journey switch S T12, B left lateral journey switch S T21, B right lateral journey switch S T22, C left lateral journey switch S T31, C right lateral journey switch S T32.Before whole circuit is not energized, first electromagnetic locking device 33YA1 and YA2, the second electromagnetic locking device 35YA3 are in power failure state, electromagnetic lock locking A door 31, B door 32, C door 34, A door 31, B door 32, C door 34 cannot move and change the general layout in region, lavatory.
When pushbutton switch SB closes, second relay K M2, energization delay relay KT obtain electric, make to close with the second relay K M2 normally opened contact of pushbutton switch SB parallel connection, the normally opened contact of the second relay K M2 of connecting with the first electromagnetic locking device 33YA1 and YA2 and the second electromagnetic locking device 35YA3.Now, first locking device obtains electric, thus A door 31, B door 32, C door 34 removes locking state, the normally opened contact of energization delay relay KT also can close after setting-up time, keeper can pass through control device (not shown) control A door 31 within this time period, B door 32, the movement of C door 34, when A door 31 and B door 32 reach a kind of state of keeper's setting, two circuit between travel switch have a conducting, make obtaining of the first relay K M1 electric, and now the normally closed contact of the first relay K M1 can disconnect, second relay K M2 also can dead electricity thereupon, thus make the first electromagnetic locking device 33YA1 and YA2 dead electricity and lock A door 31, B door 32, C door 34, region, lavatory is made to form the layout of setting.
When the demand of man to region, lavatory is greater than Ms, A door 31, C door 34 are opened, and B door 32 is closed.When the demand of Ms to region, lavatory is greater than man, B door 32, C door 34 are opened, and A door 31 is closed.
In other embodiments, control circuit is provided with the fuse of connecting with power interface.
Above-mentionedly only further illustrate technology contents of the present utility model with embodiment; so that reader is easier to understand; but do not represent embodiment of the present utility model and be only limitted to this, any technology done according to the utility model extends or recreation, all by protection of the present utility model.Protection domain of the present utility model is as the criterion with claims.
Claims (10)
1. be provided with a Zone switched lavatory, comprise men's lavatory region spaced apart from each other and women's lavatory region, it is characterized in that, described lavatory also comprises: that is located between men's lavatory region and women's lavatory region is Zone switched; Describedly Zone switchedly to be respectively equipped with for isolating men's lavatory region with women's lavatory region and the identical A door of structure and B door, and for locking the first electromagnetic locking device of A door and B door; Described A door comprises A door leaf and A doorframe, is located at the A door travel switch group on A doorframe both sides; Described B door comprises B door leaf and B doorframe, is located at the B door travel switch group on B doorframe both sides: described lavatory also comprises the control circuit be electrically connected with the first electromagnetic locking device, A door travel switch group, B door travel switch group; During described first electromagnetic locking device power-off, A door and B door stay open or locking state constant.
2. be according to claim 1ly provided with Zone switched lavatory, it is characterized in that, described first electromagnetic locking device is two electromagnetic locks in parallel, and it comprises A door electromagnetic lock and B door electromagnetic lock; Described A door electromagnetic lock comprises the A door Electromagnetic lock being fixed on A doorframe one side, is individually fixed in A left electromagnetism lock and the right electromagnetism lock of A on A door leaf both sides; Described B door electromagnetic lock comprises the B door Electromagnetic lock being fixed on B doorframe one side, is individually fixed in B left electromagnetism lock and the right electromagnetism lock of B on B door leaf both sides; Described A door Electromagnetic lock and B door Electromagnetic lock are electrically connected with control circuit respectively.
3. be according to claim 1ly provided with Zone switched lavatory, it is characterized in that, described A door travel switch group comprises the left travel switch of A and the right travel switch of A of being located at A doorframe both sides respectively; Described B door travel switch group comprises the left travel switch of B and the right travel switch of B of being located at B doorframe both sides respectively; Described control circuit comprises power interface, pushbutton switch, the first relay, the second relay, energization delay relay; The positive pole of described pushbutton switch is connected with the positive pole of power interface; The positive pole of described first relay normally closed contact is connected with the negative pole of pushbutton switch; Second relay positive pole is connected with the negative pole of the first relay normally closed contact contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of described second relay is in parallel with pushbutton switch; Described energization delay relay is in parallel with the second relay; The normally opened contact of described second relay is connected with the first electromagnetic locking device, and its positive pole is connected with power interface positive pole; The negative pole of described first electromagnetic locking device is connected with the negative electricity of power interface respectively; The normally opened contact of described energization delay relay is connected with the positive pole of power interface; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the left travel switch of B; The negative pole of the left travel switch of described B is connected with the positive pole of the first relay; The left travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The described negative pole of the first relay is connected with the negative pole of power interface.
4. be according to claim 1ly provided with Zone switched lavatory, it is characterized in that, described A door leaf is slidably connected to described A doorframe; Described B door leaf is slidably connected to described B doorframe; Described lavatory also comprises the A door drive for driving the movement of A door leaf, for driving the B door drive of B door leaf movement, and for the control device of control A door drive and B door drive.
5. be according to claim 1ly provided with Zone switched lavatory, it is characterized in that, the described Zone switched C door be also provided with between A door and B door, and for locking the second electromagnetic locking device of C door; Described C door comprises C door leaf and C doorframe, is located at the C door travel switch group on C doorframe both sides; Described C door travel switch group is electrically connected with control circuit; Described second electromagnetic locking device is in parallel with the first electromagnetic locking device; Described C door travel switch group comprises the left travel switch of C and the right travel switch of C of being located at C doorframe both sides respectively; Described A door travel switch group comprises the left travel switch of A and the right travel switch of A of being located at A doorframe both sides respectively; Described B door travel switch group comprises the left travel switch of B and the right travel switch of B of being located at B doorframe both sides respectively.
6. be according to claim 5ly provided with Zone switched lavatory, it is characterized in that, described second electromagnetic locking device comprises the C door Electromagnetic lock being fixed on C doorframe, is individually fixed in C left electromagnetism lock and the right electromagnetism lock of C on C door leaf both sides; Described C door Electromagnetic lock is electrically connected with control circuit.
7. be according to claim 5ly provided with Zone switched lavatory, it is characterized in that, described control circuit comprises power interface, pushbutton switch, the first relay, the second relay, energization delay relay; The positive pole of described pushbutton switch is connected with the positive pole of power interface; The positive pole of described first relay normally closed contact is connected with the negative pole of pushbutton switch; Second relay positive pole is connected with the negative pole of the first relay normally closed contact contact, and its negative pole is connected with the negative pole of power interface; The normally opened contact of described second relay is in parallel with pushbutton switch; Described energization delay relay is in parallel with the second relay; The normally opened contact of described second relay is connected with the first electromagnetic locking device and the second electromagnetic locking device respectively, and its positive pole is connected with power interface positive pole; Described first electromagnetic locking device is connected with the negative pole of power interface respectively with the negative pole of the second electromagnetic locking device; The normally opened contact of described energization delay relay is connected with the positive pole of power interface; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the left travel switch of C; The negative pole of the left travel switch of described C is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The right travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the right travel switch of C; The negative pole of the right travel switch of described C is connected with the left travel switch of B; The negative pole of the left travel switch of described B is connected with the positive pole of the first relay; The left travel switch of described A is connected with the negative pole of energization delay relay normally opened contact, and its negative pole is connected with the positive pole of the right travel switch of C; The negative pole of the right travel switch of described C is connected with the right travel switch of B; The negative pole of the right travel switch of described B is connected with the positive pole of the first relay; The described negative pole of the first relay is connected with the negative pole of power interface.
8. be according to claim 5ly provided with Zone switched lavatory, it is characterized in that, described C door leaf is slidably connected to described C doorframe; Described lavatory also comprises the C door drive for driving the movement of C door leaf, and for the control device of control C door drive.
9. being according to claim 1ly provided with Zone switched lavatory, it is characterized in that, the described Zone switched crouching position be provided with for entering lavatory.
10. according to claim 3 or 5, be provided with Zone switched lavatory, it is characterized in that, described control circuit is provided with the fuse of connecting with power interface.
Priority Applications (1)
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CN201520894903.9U CN205140042U (en) | 2015-11-11 | 2015-11-11 | Lavatory with switch regionally |
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CN201520894903.9U CN205140042U (en) | 2015-11-11 | 2015-11-11 | Lavatory with switch regionally |
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CN205140042U true CN205140042U (en) | 2016-04-06 |
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CN201520894903.9U Expired - Fee Related CN205140042U (en) | 2015-11-11 | 2015-11-11 | Lavatory with switch regionally |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112884950A (en) * | 2020-12-31 | 2021-06-01 | 李佳能 | Intelligent public toilet based on use distribution |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112884950A (en) * | 2020-12-31 | 2021-06-01 | 李佳能 | Intelligent public toilet based on use distribution |
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