CN217054972U - Controller - Google Patents

Abstract

The utility model discloses a controller, this controller includes the supporting body and the control body, the bearing of bearing the weight of the carrier switches on the piece and can dismantle with the control of the control body and be connected, and be electric connection when bearing the weight of the piece that switches on and the control switches on the piece and be connected, the power supply of the control body can provide the power to the actuating mechanism of shutter through the electric connection who bears the weight of the piece that switches on and control, moreover, the steam generator is simple in structure, need not to change the window frame structure, not only reduce the production degree of difficulty and the installation degree of difficulty, still conveniently be used for changing or charging the power supply, and the convenience in use is improved.

Description

A kind of control device

Technical Field

The utility model relates to an automatic (window) curtain controlling means technical field specifically relates to a controller.

Background

With the development of the times, the electric curtain is more and more widely applied. The blind window in the electric curtain comprises a window frame, a driving mechanism, a blind, window glass and a controller, wherein the driving mechanism is arranged in the window frame, the blind is connected to the output end of the driving mechanism, the window glass seals two sides of the window frame, the controller is arranged on the window frame and is electrically connected with the driving mechanism, a control signal is output to the driving mechanism through the controller, and the driving mechanism drives the blind to open and close according to the control signal. Because the work of actuating mechanism needs the support of power, consequently need connect the power for actuating mechanism when installation shutter, install the battery on the window frame at present, provide the power to actuating mechanism by the battery, so just need set up the mounting structure of battery on the window frame, cause the window frame structure complicated to the production degree of difficulty and the installation degree of difficulty have been increased, simultaneously in the use, also be convenient for user's dismantlement battery.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art, the utility model provides a controller.

The utility model discloses a controller, include:

the bearing body comprises a bearing piece, a bearing connecting piece and a bearing conducting piece, wherein the bearing connecting piece and the bearing conducting piece are arranged on the bearing piece, and the bearing conducting piece is electrically connected with the driving mechanism of the shutter; and

the control body comprises a control shell, a control element, a power supply element, a control connecting element and a control conduction element, wherein the control element, the power supply element, the control connecting element and the control conduction element are arranged on the control shell, and the power supply element and the control conduction element are electrically connected with the control element;

the bearing connecting piece is detachably connected with the control connecting piece, the bearing conducting piece is detachably connected with the control conducting piece, when the bearing conducting piece is connected with the control conducting piece, the bearing conducting piece is electrically connected with the control conducting piece, and the power supply piece supplies power to the driving mechanism through the bearing conducting piece and the control conducting piece.

According to the utility model discloses an embodiment, it corresponds to bear and switches on a department and is equipped with and bears conduction portion to bear the weight of, and control shell spare corresponds control conduction piece department and is equipped with the control conduction portion, bears conduction portion and control conduction portion and pegs graft.

According to the utility model discloses an embodiment, bearing the weight of and being equipped with on one side that the control shell was kept away from to carrier and bearing the position of switching on, bear the position of switching on the position and bear the position correspondence of conduction portion, bear the one end that the control shell was kept away from to switch on and stretch into and bear the weight of in the position of switching on.

According to the utility model discloses an embodiment holds carrier and is equipped with the wiring position on one side that the control shell spare was kept away from to carrier, and the wiring position with bear and switch on the position intercommunication, the wiring position is used for laying of power cord.

According to the utility model discloses an embodiment, the quantity of wiring position is two, and two wiring positions are the symmetry setting, and the wiring position has a plurality of not equidirectional notches.

According to the utility model discloses an embodiment holds carrier and corresponds and to bear connecting piece department and be equipped with and bear connecting portion, and control shell corresponds control connection spare department and is equipped with control connection portion, bears connecting portion and pegs graft with control connection portion.

According to the utility model discloses an embodiment holds and is equipped with on one side that carrier keeps away from control shell spare and bears the weight of the hookup location, and the position that bears the weight of the hookup location corresponds with the position that bears connecting portion, bears the weight of the connecting piece and locates in bearing the weight of the hookup location.

According to the utility model discloses an embodiment, the quantity that bears the connecting piece is at least two, and at least two bear the weight of the connecting piece dispersion and lay on bearing the piece.

According to the utility model discloses an embodiment bears the quantity that switches on the piece and is two, and control switches on the piece and bears the number of pieces of switching on the quantity the same, bears the piece that switches on and control a one-to-one.

According to the utility model discloses an embodiment, the control body still includes the piece that charges, and the piece that charges is located control shell spare on, charges piece and control piece electric connection.

Compared with the prior art, the utility model discloses a controller has following advantage:

the utility model discloses a controller, it includes the supporting body and the control body, bear the weight of the control of bearing the weight of the switch-on piece and the control body and switch on the piece and can dismantle and be connected, and bear and be electric connection when being connected with the control switch-on piece, the power supply of the control body can provide the power to the actuating mechanism of shutter through the electric connection who bears the weight of the switch-on piece and the control switch-on piece, moreover, the steam generator is simple in structure, need not to change the window frame structure, not only reduce the production degree of difficulty and the installation degree of difficulty, still conveniently be used for changing or charging the power supply, improve the convenience in use.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a first exploded view of a controller according to an embodiment;

FIG. 2 is a second exploded view of the controller according to the embodiment;

figure 3 is an exploded view of the carrier body of the embodiment;

FIG. 4 is an internal structural view of a control panel casing in the embodiment;

FIG. 5 is an internal structure diagram of the control bottom case in the embodiment;

FIG. 6 is a schematic view of an embodiment in which a controller controls the installation of a set of blinds;

fig. 7 is a schematic view illustrating the installation of two sets of blinds controlled by the controller according to the embodiment.

Description of reference numerals:

1. a blind window; 11. a window frame; 12. a drive mechanism; 121. a power line; 13. a blind curtain; 14. a window glass; 2. a controller; 21. a carrier; 211. a carrier; 2111. a load bearing connection; 2112. carrying a connection position; 2113. a load-bearing conduction part; 2114. carrying a conducting bit; 2115. arranging wire positions; 212. a load bearing mount; 213. a load bearing connector; 214. carrying a conducting piece; 22. a control body; 221. a control housing; 2211. a control panel shell; 2212. a control bottom shell; 22121. a control connection; 22122. controlling the conduction part; 2213. a key section; 222. a control member; 223. a power supply member; 224. a charging member; 225. a control connection; 226. the conducting piece is controlled.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of various embodiments of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 and 2, a controller 2 includes a carrier 21 and a control body 22, the carrier 21 is disposed on the window of the blind 1, and the control body 22 is detachably disposed on the carrier 21.

Referring to fig. 1-3, the carrier 21 includes a carrier 211, a carrier mounting member 212, a carrier connecting member 213 and a carrier conducting member 214, wherein the carrier mounting member 212, the carrier conducting member 214 and the carrier connecting member 213 are disposed on the carrier 211. Specifically, the number of the bearing installation components 212, the number of the bearing connection components 213 and the number of the bearing conduction components 214 are at least one, the bearing installation components 212 are installed on one side of the bearing components 211 facing the window, the bearing connection components 213 are installed on one side of the bearing components 211 facing the window or the control body 22, and the bearing conduction components 214 are installed on the bearing components 211 and penetrate through the bearing components 211. The carrier mounting 212 is used for mounting the carrier 21 on the window, the carrier connection 213 is used for connecting the carrier 21 to the control body 22, and the carrier connection 214 is used for connecting the control body 22 to the drive mechanism 12 of the blind 1.

Referring to fig. 1-2 and 4-5, the control body 22 includes a control casing 221, a control member 222, a power supply member 223, a charging member 224, a control connector 225 and a control conductor 226, and the control member 222, the power supply member 223, the charging member 224, the control connector 225 and the control conductor 226 are disposed on the control casing 221. Specifically, the number of the control connectors 225 is the same as that of the carrying connectors 213, and the number of the control conductors 226 is the same as that of the carrying conductors 214. The control housing 221 includes a control panel 2211 and a control bottom 2212, and the control panel 2211 is connected to the control bottom 2212. The control member 222 and the power supply member 223 are installed in the control panel housing 2211, the charging member 224 is installed on the side portion of the control panel housing 2211, the control connecting member 225 is installed on the control bottom housing 2212, the control conducting member 226 is installed on the control member 222 and extends out of the control bottom housing 2212, and the power supply member 223, the charging member 224 and the control conducting member 226 are all electrically connected with the control member 222. The control member 222 is used for outputting a control signal to the driving mechanism 12, the power supply member 223 is used for supplying power to the control member 222 and the driving mechanism 12, the charging member 224 is used for connecting a charging power source, the control connecting member 225 is used for controlling the connection between the body 22 and the carrier 21, and the control conducting member 226 is used for controlling the conducting connection between the body 22 and the driving mechanism 12. In this embodiment, the power supply 223 is a rechargeable battery, the charging unit 224 is a connection port, and the power supply is connected to the charging unit 224, so that the power supply 223 can be charged.

Further, the number of the carrier mounts 212 is two, wherein one carrier mount 212 is mounted on the upper portion of the carrier 211, and the other carrier mount 212 is mounted on the lower portion of the carrier 211. Through two upper and lower carrier installation pieces 212 with bearing the weight of 211 and fix on the window, guarantee to bear the weight of the installation intensity of 211, avoid bearing the weight of 211 and drop. In this embodiment, the carrier mounting member 212 is a double-sided film, which is simple to use and low in cost.

Further, the positions of the carrying connectors 213 correspond to the positions of the control connectors 225 one-to-one, the carrying connectors 213 are detachably connected to the control connectors 225, and when the carrying connectors 213 are connected to the control connectors 225, the carrying connectors 213 are electrically connected to the control connectors 225. The number of the bearing connecting pieces 213 is two, wherein one bearing connecting piece 213 is located at the upper part of the bearing piece 211, and the other bearing connecting piece 213 is located at the lower part of the bearing piece 211. Accordingly, the number of the control links 225 is two, wherein one control link 225 is located at an upper portion of the control bottom case 2212, and the other control link 225 is located at a lower portion of the control bottom case 2212. The one-to-one connection between the bearing connecting member 213 and the control connecting member 225 strengthens the connection strength between the bearing body 21 and the control body 22, and prevents the control body 22 from falling off from the bearing body 21. In this embodiment, the bearing connector 213 and the control connector 225 are both made of magnets, and the connection can be achieved by magnetic attraction. Wherein, bear the weight of connecting piece 213 and install on the one side that bears the weight of 211 face the window, control connecting piece 225 is installed in control drain casing 2212, can avoid bearing the weight of the phenomenon that can not separate and lead to one of them to drop appearing after connecting piece 213 and control connecting piece 225 attract mutually.

Preferably, the carrier 211 has carrier connection portions 2111 provided at upper and lower portions of a side of the carrier 211 facing the control bottom 2212, and the control bottom 2212 has control connection portions 22121 provided at upper and lower portions of a side of the carrier 211 facing the control bottom. In this embodiment, the bearing connection portions 2111 are bosses, the control connection portions 22121 are cavities, the shapes of the bearing connection portions 2111 are matched with the shapes of the control connection portions 22121, and the bearing connection positions 2112 are respectively formed on the side of the bearing member 211 facing the window body, corresponding to the bearing connection portions 2111. The bearing connectors 213 are respectively fixed in the bearing connection positions 2112, and the control connectors 225 are respectively fixed in the control bottom housing 2212 at the corresponding control connection portions 22121. Through the insertion of the bearing connection portion 2111 and the control connection portion 22121, the positioning and the docking of the bearing member 211 and the control housing member 221 can be ensured, and the bearing lead-through member 214 and the control lead-through member 226 can be further ensured to be accurately docked. Wherein the carrier mount 212 covers the carrier connection site 2112 and prevents the carrier connection 213 from falling out of the carrier connection site 2112.

Further, the carrying conductive elements 214 correspond to the control conductive elements 226 one by one, and the carrying conductive elements 214 are detachably connected to the control conductive elements 226. The number of the carrying conduction pieces 214 is two, and the two carrying conduction pieces 214 are arranged side by side, and a single carrying conduction piece 214 is electrically connected to the driving mechanism 12 of the single group of blinds 1. Accordingly, the number of the control vias 226 is also two, and the two control vias 226 are arranged side by side. This enables one or two sets of blinds 1 to be controlled by the same controller 2. In this embodiment, the carrying conducting element 214 is a thimble socket, and the control conducting element 226 is a pogo pin, so that the carrying conducting element 214 can be electrically connected to the control conducting element 226 when contacting the same.

Preferably, the carrier 211 has a carrier conduction portion 2113 on a side facing the control bottom housing 2212, and the control bottom housing 2212 has a control conduction portion 22122 on a side facing the carrier 211. The bearing conducting piece 214 is mounted on the bearing conducting portion 2113 and penetrates through the bearing conducting portion 2113, the control conducting piece 226 extends out through the control conducting portion 22122, and the bearing conducting portion 2113 is inserted into the control conducting portion 22122, so that the bearing conducting piece 214 and the control conducting piece 226 can be accurately butted. In this embodiment, the carrier conduction portion 2113 is a boss, the control conduction portion 22122 is a cavity, and the shape of the carrier conduction portion 2113 is adapted to the shape of the control conduction portion 22122. In addition, a carrying conducting position 2114 is formed by recessing the side of the carrying element 211 facing the window corresponding to the carrying conducting portion 2113, and an end of the carrying conducting element 214 away from the control bottom shell 2212 extends into the carrying conducting position 2114. The side of the bearing part 211 facing the window body is provided with two wiring positions 2115 which are symmetrically arranged, the wiring positions 2115 are provided with three notches in different directions, and one of the notches is communicated with the bearing conducting position 2114, so that the layout of a hidden power line is facilitated. Preferably, the wiring position is T-shaped.

In a specific application, the controller 2 can control one set of blinds 1 or two sets of blinds 1, and the installation method of the two cases will be briefly described below.

Referring to fig. 6, the controller 2 controls an installation method of a set of blinds 1:

a power line 121 electrically connected to the driving mechanism 12 of the window blind 1 is routed through the inside of the window frame 11 of the window body, the power line 121 penetrates through the window frame 11 and then is fixedly connected to one of the carrying conducting pieces 214 through welding, gluing or other methods, and the power line 121 is electrically connected to the carrying conducting piece 214; the carrier 211 is fixed to the window pane 14 of the window by the carrier mounting member 212, and the position of the carrier 211 corresponds to the position where the power supply line 121 passes through the window frame 11, the position where the power supply line 121 passes through the window frame 11 being shielded by the carrier 211; after control housing 221 is placed on carrier 211, carrier links 213 are connected to corresponding control links 225, so that control housing 221 is fixed relative to carrier 211, i.e. control body 22 is fixed relative to carrier 21; meanwhile, the control via 226 is pressed against the corresponding carrying via 214, that is, the control via 226 is electrically connected to the carrying via 214; therefore, the power supply element 223 supplies power to the driving mechanism 12 through the control element 222, the control conduction element 226, the carrying conduction element 214 and the power cord 121, and the control unit on the control element 222 is driven by pressing the key portion 2213 of the control shell 221 to output a control signal to the driving mechanism 12 through the control conduction element 226, the carrying conduction element 214 and the power cord 121, so that the driving mechanism 12 drives the shutter 13 to open and close according to the control signal.

Referring to fig. 7, the controller 2 controls the installation method of two sets of blinds 1:

the two groups of shutters 1 are arranged side by side, the power line 121 electrically connected with the driving mechanism 12 in the single group of shutters 1 is routed through the inside of the window frame 11 of the window where the single group of shutters 1 is located, the power line 121 penetrates through the window frame 11 and is fixedly connected with one bearing conducting piece 214 through welding, gluing or other modes after extending out, the power line 121 is electrically connected with the bearing conducting piece 214, and the two power lines 121 penetrate through the window frame 11 and are close to each other so as to facilitate the installation of the bearing piece 211; the bearing piece 211 is fixed on the window frames 11 of the two sets of blinds 1 through the bearing installation piece 212, the position of the bearing piece 211 corresponds to the position of the two power lines 121 penetrating through the window frames 11, and the position of the two power lines 121 penetrating through the window frames 11 is shielded by the bearing piece 211; after control housing 221 is placed on carrier 211, carrier links 213 are connected to corresponding control links 225, so that control housing 221 is fixed relative to carrier 211, i.e. control body 22 is fixed relative to carrier 21; meanwhile, the control via 226 is pressed against the corresponding carrying via 214, that is, the control via 226 is electrically connected to the carrying via 214; therefore, the power supply 223 supplies power to the driving mechanisms 12 of the two sets of blinds 1 through the control member 222, the control conduction member 226, the carrying conduction member 214 and the power cord 121, and the control unit on the driving control member 222 outputs control signals to the two sets of driving mechanisms 12 through the control conduction member 226, the carrying conduction member 214 and the power cord 121 by pressing the key portion 2213 of the control shell 221, so that the two sets of driving mechanisms 12 drive the opening and closing of the blinds 13 according to the control signals.

In addition, the control member 222 has a receiving unit, receives the wireless control signal through the receiving unit, converts the wireless control signal into a control signal, outputs the control signal to the driving mechanism 12 of the blind 1 through the control member 222, and drives the blind 13 to open and close according to the control signal through the driving mechanism 12.

To sum up, this controller includes the supporting body and the control body, the bearing of the supporting body switches on the piece and can dismantle with the control of the control body and be connected, and bear and switch on the piece and be electric connection when being connected with the control, the power supply of the control body can provide the power to the actuating mechanism of shutter through bearing the electric connection that switches on the piece and control, moreover, the steam generator is simple in structure, need not to change the window frame structure, not only reduce the production degree of difficulty and the installation degree of difficulty, still conveniently be used for changing or charging the power supply, and the convenience in use is improved.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A controller, comprising:

the window shade comprises a bearing body (21) and a control device, wherein the bearing body (21) comprises a bearing piece (211), a bearing connecting piece (213) and a bearing conducting piece (214), the bearing connecting piece (213) and the bearing conducting piece (214) are arranged on the bearing piece (211), and the bearing conducting piece (214) is electrically connected with a driving mechanism (12) of the window shade (1); and

the control body (22) comprises a control shell (221), a control piece (222), a power supply piece (223), a control connecting piece (225) and a control conducting piece (226), wherein the control piece (222), the power supply piece (223), the control connecting piece (225) and the control conducting piece (226) are arranged on the control shell (221), and the power supply piece (223) and the control conducting piece (226) are electrically connected with the control piece (222);

the bearing connecting piece (213) is detachably connected with the control connecting piece (225), the bearing conducting piece (214) is detachably connected with the control conducting piece (226), when the bearing conducting piece (214) is connected with the control conducting piece (226), the bearing conducting piece (214) is electrically connected with the control conducting piece (226), and the power supply piece (223) supplies power to the driving mechanism (12) through the bearing conducting piece (214) and the control conducting piece (226).

2. The controller according to claim 1, wherein the bearing member (211) is provided with a bearing conduction portion (2113) corresponding to the bearing conduction member (214), the control shell member (221) is provided with a control conduction portion (22122) corresponding to the control conduction member (226), and the bearing conduction portion (2113) is inserted into the control conduction portion (22122).

3. A controller according to claim 2, wherein a side of the bearing member (211) remote from the control casing member (221) is provided with a bearing conduction position (2114), a position of the bearing conduction position (2114) corresponds to a position of the bearing conduction portion (2113), and an end of the bearing conduction member (214) remote from the control casing member (221) extends into the bearing conduction position (2114).

4. A control as claimed in claim 3, characterised in that a wiring location (2115) is provided on the side of the carrier (211) remote from the control casing (221), the wiring location (2115) communicating with the carrier through location (2114), the wiring location (2115) being for the routing of power supply wires.

5. The controller according to claim 4, wherein the number of the wiring positions (2115) is two, the two wiring positions (2115) are symmetrically arranged, and the wiring positions (2115) have a plurality of notches with different directions.

6. The control device according to claim 1, wherein the bearing member (211) is provided with a bearing connection portion (2111) corresponding to the bearing connection member (213), the control shell member (221) is provided with a control connection portion (22121) corresponding to the control connection member (225), and the bearing connection portion (2111) is plugged with the control connection portion (22121).

7. A control according to claim 6, characterized in that a carrying connection location (2112) is provided on the side of the carrying member (211) remote from the control housing member (221), the position of the carrying connection location (2112) corresponding to the position of the carrying connection portion (2111), and the carrying connection member (213) being provided in the carrying connection location (2112).

8. A control according to claim 1, 6 or 7, characterized in that the number of load-bearing connections (213) is at least two, at least two load-bearing connections (213) being distributed over the load-bearing member (211).

9. The controller of claim 1, wherein the number of the carrier vias (214) is two, the number of the control vias (226) is the same as the number of the carrier vias (214), and the carrier vias (214) correspond to the control vias (226) one to one.

10. The controller according to claim 1, wherein the control body (22) further comprises a charging member (224), the charging member (224) is disposed on the control shell (221), and the charging member (224) is electrically connected to the control member (222).

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