CN202651408U - Wireless power signal transmission device for movable glass door leaves - Google Patents

Abstract

Disclosed is a wireless power signal transmission device for movable glass door leaves, comprising a controller, two fixed conductive elements electrically connected with the controller, and at least one glass door leaf. The glass door leaf consists of a frame seat, two pieces of glass plates fixedly and oppositely arranged on the frame base, a display device which is clamped in the glass plates and can be driven by the controller, and two movable conductive elements installed on the frame base and respectively provided with a base and a conductive pin. Both the conductive pins have telescopic elasticity, penetrate through the base and are electrically connected with the display device, and each conductive pin is provided with an outer end exposed on the frame seat; the glass door leaf can move between a non-conductive position and a conductive position relative to the fixed conductive elements; and when the glass door leaf is in the conductive position, the outer ends are electrically connected with the fixed conductive elements respectively so that the display device can be driven by the controller.

Description

Portable glass door power supply signal radio transmitting device

Technical field

The utility model relates to a kind of portable glass door device, particularly relates to a kind of portable glass door power supply signal radio transmitting device.

Background technology

Existing movable partition system, often be installed in the places such as office block, dining room, large-scale sales field and communal facility, use as the mobility compartment to cooperate different space user demands, such as the U.S. the 6th, 460, No. 293 Patent Cases and the U.S. the 3rd, 098, No. 519 Patent Case exposure are example, all have a trapped orbit and several can move and be installed on along this trapped orbit the movable doorboard of this trapped orbit.

And recent popular a kind of glass swing leaf, each swing leaf has two glass sheets, and in described glass plate, be folded with the display unit (such as LED lamp etc.) that can show according to demand different messages, except intrinsic compartment function, also increased the effect of showing message, yet, because display unit need to be electrically connected with the power supply signal controller and could use, and described swing leaf may often be folded and be launched again, if use traditional wire rod as the transmission medium materials of power supply signal, not only in the process of installation and removal, need to expend many manpowers and time, after the installation also easily because of wire rod expose cause not attractive in appearance.

Summary of the invention

The purpose of this utility model provides a kind of portable glass door power supply signal radio transmitting device that can Fast Installation.

Portable glass door power supply signal radio transmitting device of the present utility model comprises:

A controller comprises two control terminals;

Two fixing conductive units, the interval arranges and is electrically connected with described control terminal respectively; And

At least one glass door, comprise a linear skeleton frame that extends, two glass plates that relatively are fixedly arranged on this skeleton frame, the display unit that a slice is located between the described glass plate and has two conducting terminals and can be driven by this controller, and two mobile conductive units that are installed on respectively these skeleton frame two opposition side edge, each moves conductive unit and has a pedestal, a cage and a conduction group, each pedestal has a body that is fixedly arranged in this skeleton frame, and locating part that is arranged at this body and has a room, described cage is fixed in respectively described body and is resisted against this skeleton frame, each conduction group have one movable and be extended through the conductive pin of one of them locating part and cage, and in room that is arranged at this locating part and make this conductive pin expose to the elastic component of this cage, each conductive pin has an outer end that exposes to adjacent lid, and one in contrast to this outer end and the inner that is electrically connected with a conducting terminal wherein;

This glass door can move between a conductive site and a non-conductive position with respect to described fixedly conductive unit, when this conductive site, described outer end is electrically connected with described fixedly conductive unit respectively and is compressed and compress corresponding elastic component, so that this display unit is driven by this controller, when this non-conductive position, described outer end is away from described fixedly conductive unit, and non-electric-connecting with described fixedly conductive unit and butted by described elastic component and expose to corresponding cage respectively.

Portable glass door power supply signal radio transmitting device described in the utility model, comprise several and be arranged in the described fixedly glass door between the conductive unit, wherein two outer ends that are positioned at the conductive pin of outermost glass door are electrically connected with described fixedly conductive unit respectively, and the outer end of the conductive pin of the glass door in the middle of being positioned at is electrically connected with the outer end of the conductive pin of adjacent glass door leaf respectively.

Portable glass door power supply signal radio transmitting device described in the utility model, one of them of adjacent described glass door move conductive unit and are articulated in another and move conductive unit.

Portable glass door power supply signal radio transmitting device described in the utility model, also comprise at least one and be abutted against the unit, this is abutted against the unit and comprises first a closing section that is formed at the outer end end face of one of them conductive pin, and second closing section that butts up against this first closing section, this the first closing section is protruding dome shape, and this second closing section is the concave spherical surface shape corresponding to this first closing section.

Portable glass door power supply signal radio transmitting device described in the utility model, the locating part of this glass door also have respectively surrounding wall that an annular basal wall, one extend along these basal wall outer peripheral edges, one connect this surrounding wall and be resisted against this body and be located in this body and this cage between annular retaining wall, and the guiding walls of this cage that extended outwardly by this annular retaining wall inner peripheral and be placed through, the basal wall of each locating part, this surrounding wall and this retaining wall define this room jointly.

Portable glass door power supply signal radio transmitting device described in the utility model, the conductive pin of this glass door respectively also has a shaft that is extended through this locating part and this cage and has this inner and outer end, and a block edge that is formed at this shaft outer peripheral face and is positioned at this room, described elastic component arranges respectively and is butted between corresponding basal wall and block edge.

Portable glass door power supply signal radio transmitting device described in the utility model, the locating part of this glass door also has respectively the housing of two docking, and the basal wall of each locating part, this surrounding wall, this retaining wall and this guiding walls are comprised of described housing respectively.

Portable glass door power supply signal radio transmitting device described in the utility model, described fixedly conductive unit comprises respectively a substrate and an electric-conductor that is placed through this substrate, each electric-conductor have one be positioned at this substrate near a side of mobile conductive unit and for a conductive pin outer end wherein against the discoid conductive plate that is electrically connected, and one extended and place the conducting rod that is fixed in this substrate and is electrically connected with one of them control terminal by this conductive plate.

Portable glass door power supply signal radio transmitting device described in the utility model, described fixedly conductive unit also has respectively one and is bolted in this conducting rod and against the locking part of this substrate, described conducting rod forms respectively the external screw thread that screws togather for this locking part near the outer peripheral face of this substrate.

Portable glass door power supply signal radio transmitting device described in the utility model, this glass door also comprises two socket unit, each socket unit comprises that a spool, one clamping and that be electrically connected on one of them conducting terminal are extended by this spool and is clamping and be electrically connected on the pin pipe of the inner of one of them conductive pin, and the insulated tube that can be removed and be sheathed on outside this spool and this pin pipe.

The beneficial effects of the utility model are: be electrically connected with described fixedly conductive unit respectively when this conductive site by described conductive pin, and this display unit is driven by this controller, the user only need move this glass door by this non-conductive position movement to this conductive site, the wire rod that does not need again to connect in addition conduction is rapidly installation and transmit power supply signal just.

Description of drawings

Fig. 1 is a use schematic diagram, and several glass doors of the portable glass door power supply signal radio transmitting device of first preferred embodiment of demonstration the utility model are a non-conductive position;

Fig. 2 is a stereogram of one of them glass door of this first preferred embodiment;

A partial sectional view of one of them glass door of this first preferred embodiment of Fig. 3;

Fig. 4 is one and uses schematic diagram, shows that the described glass door of this first preferred embodiment is a conductive site;

Fig. 5 is a use schematic diagram, and several glass doors of the portable glass door power supply signal radio transmitting device of second preferred embodiment of demonstration the utility model are a conductive site;

Fig. 6 is a use schematic diagram, and several glass doors of the portable glass door power supply signal radio transmitting device of the 3rd preferred embodiment of demonstration the utility model are a non-conductive position;

Fig. 7 is one and uses schematic diagram, shows that the described glass door of the 3rd preferred embodiment is a conductive site; And

Fig. 8 is a use schematic diagram, and several glass doors of the portable glass door power supply signal radio transmitting device of the 4th preferred embodiment of demonstration the utility model are a conductive site.

Embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent, below in conjunction with accompanying drawing embodiment of the present utility model is elaborated.At first need to prove, the utility model is not limited to following embodiment, those skilled in the art should understand the utility model from the spirit that following execution mode embodies, and each technical term can be done the most wide in range understanding based on Spirit Essence of the present utility model.Same or analogous member uses the same reference numerals to represent among the figure.

Consult Fig. 1, Fig. 3 and Fig. 4, the portable glass door power supply signal radio transmitting device of first preferred embodiment of the utility model, comprise a controller 1, two fixedly conductive unit 2, several glass doors 3, several are abutted against unit 4 and several socket unit 5.Be understandable that, when the utility model uses as the door sheet, a glass door 3, one also can only be set be abutted against unit 4 and a socket unit 5.

This controller 1 comprises two control terminals 11.

Described fixedly conductive unit 2 intervals arrange and are electrically connected with described control terminal 11, and comprise respectively respectively a substrate 21, an electric-conductor 22 that is placed through this substrate 21, and a locking part 23.

Described glass door 3 is arranged in respectively between the described fixedly conductive unit 2, and comprise that linear skeleton frame 31, the two glass plate 32(that relatively are fixedly arranged on this skeleton frame 31 that extend see Fig. 2), a slice is located between the described glass plate and the display unit 33 that has two conducting terminals 331 and can be driven by this controller 1, and two mobile conductive units 6 that are installed on respectively 31 two opposite lateral margins of this skeleton frame.

In the present embodiment, this display unit 33 can be selected general LED lamp group or electrochromism film (Electrochromic layer), described skeleton frame 31 is to be installed on respectively described glass plate 32 tops, and make described glass door 3 be suspended to respectively ceiling and along pre-buried rail moving, but be understandable that, described skeleton frame 31 also can be installed on respectively described glass plate 32 belows, make described glass door 3 mobile or along ground pre-buried rail moving on ground, more preferably, described skeleton frame 31 is installed on respectively top and the below of described glass plate 32, can also increases the stationarity of described glass plate 32.

Consult Fig. 2, Fig. 3 and Fig. 4, each moves conductive unit 6 and has a pedestal 7, a cage 8 and a conduction group 9.

Each pedestal 7 has a body 71 that is fixedly arranged in this skeleton frame 31, and a locating part 72 that is arranged at this body 71.

Each locating part 72 is comprised of the housing 721 of two docking, and have surrounding wall 723 that an annular basal wall 722, one extend along these basal wall 722 outer peripheral edges, one and connect this surrounding wall 723 and be resisted against this body 71 and be located in annular retaining wall 724 between this body 71 and this cage 8, and the guiding walls 725 of this cage 8 that extended outwardly by these annular retaining wall 724 inner peripherals and be placed through, and room 726 that is jointly defined by this basal wall 722, this surrounding wall 723 and this retaining wall 724.

Described cage 8 is fixed in respectively described body 71, and is resisted against respectively this skeleton frame 31.

Each conduction group 9 have one movable and be extended through the conductive pin 91 of one of them locating part 72 and cage 8, and in room 726 that is arranged at this locating part 72 and make this conductive pin 91 expose to the elastic component 92 of this cage 8.

Each conductive pin 91 has an outer end 911 that exposes to adjacent lid 8, one in contrast to this outer end 911 and the inner 912 that is electrically connected with one of them conducting terminal 331, one are extended through this locating part 72 and this cage 8 and have the shaft 913 of this inner 911 and this outer end 912, and a block edge 914 that is formed at these shaft 913 outer peripheral faces and is positioned at this room 726.

In the present embodiment, described elastic component 92 is Compress Spring, and respectively setting and butted between corresponding basal wall 722 and block edge 914.

Wherein two outer ends 911 that are positioned at the conductive pin 91 of outermost glass door 3 are electrically connected with the electric-conductor 22 of described fixedly conductive unit 2 respectively, and the outer end 911 of the conductive pin 91 of the glass door 3 in the middle of being positioned at is electrically connected with the outer end 911 of the conductive pin 91 of adjacent glass door leaf 3 respectively.

Each fixedly the electric-conductor 22 of conductive unit 2 have one be positioned at this substrate 21 near a side of mobile conductive units 6 and for the outer end 911 of a conductive pin 91 wherein against the discoid conductive plate 221 that is electrically connected, and one extended and place the conducting rod 222 that is fixed in this substrate 21 and is electrically connected with one of them control terminal 11 by this conductive plate 221.

Described conducting rod 222 forms respectively the external screw thread that screws togather for this locking part 23 near the outer peripheral face of this substrate 21.This locking part 23 is bolted in this conducting rod 222 and against this substrate 21.

Each is abutted against unit 4 and comprises first a closing section 41 that is formed at outer end 911 end faces of one of them conductive pin 91, and second a closing section 42 that butts up against this first closing section 41.Described the first closing section 41 is protruding dome shape, and described the second closing section 42 is the concave spherical surface shape corresponding to described the first closing section 41.

Every suit order unit 5 comprises that a spool 51, one clamping and that be electrically connected on one of them conducting terminal 331 are extended by this spool 51 and is clamping and be electrically connected on the pin pipe 52 of the inner 912 of one of them conductive pin 91, and one can be removed and be sheathed on the outer insulated tube 53 of this spool 51 and this pin pipe 52.

Consult Fig. 1 and Fig. 4, described glass door 3 can move between a conductive site and a non-conductive position with respect to described fixedly conductive unit 2, when this conductive site, described outer end 911 is electrically connected with the conductive plate 221 of described fixedly conductive unit 2 respectively and is compressed and compress corresponding elastic component 92, so that described display unit 33 forms the loop with this controller 1 and can be driven by this controller 1, when this non-conductive position, described outer end 911 is away from the conductive plate 221 of described fixedly conductive unit 2, and non-electric-connecting with the conductive plate 221 of described fixedly conductive unit 2 and butted by described elastic component 92 and expose to corresponding cage 8 respectively.

What deserves to be explained is, described glass door 3 also can arrange respectively in order to described glass door 3 fixing spacing ground lock (not shown), increases the stability of compartment.

When usually not using described glass door 3, described glass door 3 can be collapsed in (as shown in Figure 1) in the wall, at this moment, described glass door 3 is positioned at this non-conductive position, when needs use described glass door 3, glass door 3 as described in only the track (shown in imaginary line among Fig. 1) of need along pre-plugged in ceiling moves, and respectively described glass door 3 is moved to this conductive site, described mobile conductive unit 6 is docked (as shown in Figure 4) in twos, and utilize and describedly be abutted against unit 4 so that described outer end 911 quick butts, just described display unit 33 display unit 33 that is positioned at described glass door 3 can be formed the loop of connecting with this controller 1, so that can be driven by this controller 1.

By above explanation, advantage of the present utility model can be summarized as follows:

One, when carrying out compartment by mobile described glass door 3, utilize the described described outer end 911 of 4 quick closings, unit of being abutted against, the display unit 33 that will be positioned at described glass door 3 forms the loop with this controller 1, the action that does not need to carry out in addition wiring just can be so that described display unit 33 can be driven by this controller 1, when not using described glass door 3, only need described glass door 3 overlapped folding, except not needing to take time in addition arrangement dismounting wire rod to save the time of installing, and have fast, outside the advantage, also significantly increased aesthetic property because use wireless transmission easily.

Two, the utility model utilize the discoid conductive plate 221 of described fixedly conductive unit 2 have larger area for described outer end 911 be abutted against, described elastic component 92 911 can be compressed when adjacent to each other and increase the be abutted against distance of described glass door 3 in described outer end, and described the first closing section 41 increases the be abutted against angle of described glass door 3 with the shape of described the second closing section 42, can also increase the tolerance tolerance between the described glass door sheet 3, have the effect that lowers manufacturing cost.

Consult Fig. 5, second preferred embodiment of the portable glass door power supply signal of the utility model radio transmitting device, identical with this first preferred embodiment haply, comprise a controller 1, two fixedly conductive unit 2, several glass doors 3, several are abutted against unit 4 and several sockets unit 5(figure does not show).

Difference is, the described skeleton frame 31 of described glass door 3 is top and the belows that are installed on respectively described glass plate 32.When mobile described glass door 3 by this non-conductive position movement to this conductive site, loop that just can the display unit 33 that be positioned at described glass door 3 is in parallel with this controller 1 formation is so that described display unit 33 can be by this controller 1 driving.

So, this second preferred embodiment is except can reaching the purpose and effect identical with above-mentioned first preferred embodiment, also be electrically connected with this controller 1 in parallel by described glass door 3, so that described glass door 3 does not need the total display unit 33 of launching just can make way in the glass door 3 that is electrically connected with this controller 1 driven, also has advantages of the applying flexible of increasing degree.

Consult Fig. 6 and Fig. 7, the 3rd preferred embodiment of the portable glass door power supply signal of the utility model radio transmitting device, identical with this first preferred embodiment haply, comprise a controller 1, two fixedly conductive unit 2, several glass doors 3, several are abutted against unit 4 and several socket unit 5, difference is, one of them of adjacent described glass door 3 moves conductive unit 6 and be articulated in another and move conductive unit 6.

So, the 3rd preferred embodiment is except can reaching the purpose and effect identical with above-mentioned first preferred embodiment, described glass door 3 also moves conductive unit 6 by one of them of adjacent described glass door 3 and is articulated in another and moves conductive unit 6, so that can also be applicable to the mobile partition system of folding type or use as being positioned over screen on the ground merely.

Consult Fig. 8, the 4th preferred embodiment of the portable glass door power supply signal of the utility model radio transmitting device, identical with this first preferred embodiment haply, comprise a controller 1, two fixedly conductive unit 2, several glass doors 3, several are abutted against unit 4 and several sockets unit 5(figure does not show).

Difference is, one of them of adjacent described glass door 3 moves conductive unit 6 and be articulated in another and move conductive unit 6, and the described skeleton frame 31 of described glass door 3 is top and the belows that are installed on respectively described glass plate 32.When mobile described glass door 3 by this non-conductive position movement to this conductive site, loop that just can the display unit 33 that be positioned at described glass door 3 is in parallel with this controller 1 formation is so that described display unit 33 can be by this controller 1 driving.

So, the 4th preferred embodiment is except can reaching the purpose and effect identical with above-mentioned first preferred embodiment, wherein one moving conductive unit 6 and be articulated in another and move conductive unit 6 by adjacent described glass door 3 on the one hand, so that described glass door 3 can also be applicable to mobile partition system or the simple screen use as being positioned on the ground of folding type, on the other hand, also be electrically connected with this controller 1 in parallel by described glass door 3, so that described glass door 3 does not need the total display unit 33 of launching just can make way in the glass door 3 that is electrically connected with this controller 1 driven, and increase the flexibility ratio of using.

Generally speaking, can be abutted against fast also wireless transmission power supply signal by the described unit 4 that is abutted against, therefore have fast, advantage convenient and attractive in appearance, add that this controller 1 and described glass door 3 can be with connecting or mode in parallel is electrically connected, can also increase further the flexibility ratio that product is used, in addition, the discoid conductive plate 221 of described fixedly conductive unit 2, the conduction group 9 of described mobile conductive unit 6 has matching that elasticity is abutted against with the described unit 4 that is abutted against, so cost in the time of can increasing the tolerance tolerance of installing between the described glass door sheet 3 and lower manufacturing is the purpose of certain attainable cost utility model.

It is worth mentioning that, when glass door 3 of the present utility model uses as the door sheet, described fixedly conductive unit 2 can be installed on respectively doorframe, and change between this conductive site and non-conductive position by the action of closing the door and opening the door, be installed in department store and work as glass door 3 of the present utility model, the sales field, the restaurant, when the public places such as dining room use as movable partition, also this controller 1 can be combined with emergency lighting system, and when occuring, emergency situations is activated with emergency lighting system, and then the display unit 33 indicating emergency escape routes that utilize described glass door 3 are to increase security against fire, in addition, glass plate 32 of the present utility model also can select acrylic or be embedded with glass plank etc. other have the material of local transparent visual effect.

Should be understood that those skilled in the art can make various changes or modifications the utility model after having read above-mentioned instruction content of the present utility model, these equivalent form of values fall within the application's appended claims limited range equally.

Claims (10)

1. portable glass door power supply signal radio transmitting device is characterized in that comprising:

A controller comprises two control terminals;

Two fixing conductive units, the interval arranges and is electrically connected with described control terminal respectively; And

At least one glass door, comprise a linear skeleton frame that extends, two glass plates that relatively are fixedly arranged on this skeleton frame, the display unit that a slice is located between the described glass plate and has two conducting terminals and can be driven by this controller, and two mobile conductive units that are installed on respectively these skeleton frame two opposition side edge, each moves conductive unit and has a pedestal, a cage and a conduction group, each pedestal has a body that is fixedly arranged in this skeleton frame, and locating part that is arranged at this body and has a room, described cage is fixed in respectively described body and is resisted against this skeleton frame, each conduction group have one movable and be extended through the conductive pin of one of them locating part and cage, and in room that is arranged at this locating part and make this conductive pin expose to the elastic component of this cage, each conductive pin has an outer end that exposes to adjacent lid, and one in contrast to this outer end and the inner that is electrically connected with a conducting terminal wherein;

This glass door can move between a conductive site and a non-conductive position with respect to described fixedly conductive unit, when this conductive site, described outer end is electrically connected with described fixedly conductive unit respectively and is compressed and compress corresponding elastic component, so that this display unit is driven by this controller, when this non-conductive position, described outer end is away from described fixedly conductive unit, and non-electric-connecting with described fixedly conductive unit and butted by described elastic component and expose to corresponding cage respectively.

2. portable glass door power supply signal radio transmitting device according to claim 1, it is characterized in that: this movable type glass door power supply signal radio transmitting device comprises several and is arranged in the described fixedly glass door between the conductive unit, wherein two outer ends that are positioned at the conductive pin of outermost glass door are electrically connected with described fixedly conductive unit respectively, and the outer end of the conductive pin of the glass door in the middle of being positioned at is electrically connected with the outer end of the conductive pin of adjacent glass door leaf respectively.

3. portable glass door power supply signal radio transmitting device according to claim 2 is characterized in that: one of them of adjacent described glass door moves conductive unit and is articulated in another and moves conductive unit.

4. portable glass door power supply signal radio transmitting device according to claim 2, it is characterized in that: this movable type glass door power supply signal radio transmitting device also comprises at least one and is abutted against the unit, this is abutted against the unit and comprises first a closing section that is formed at the outer end end face of one of them conductive pin, and second closing section that butts up against this first closing section, this the first closing section is protruding dome shape, and this second closing section is the concave spherical surface shape corresponding to this first closing section.

5. portable glass door power supply signal radio transmitting device according to claim 1, it is characterized in that: the locating part of this glass door also have respectively surrounding wall that an annular basal wall, one extend along these basal wall outer peripheral edges, one connect this surrounding wall and be resisted against this body and be located in this body and this cage between annular retaining wall, and the guiding walls of this cage that extended outwardly by this annular retaining wall inner peripheral and be placed through, the basal wall of each locating part, this surrounding wall and this retaining wall define this room jointly.

6. portable glass door power supply signal radio transmitting device according to claim 5, it is characterized in that: the conductive pin of this glass door respectively also has a shaft that is extended through this locating part and this cage and has this inner and outer end, and a block edge that is formed at this shaft outer peripheral face and is positioned at this room, described elastic component arranges respectively and is butted between corresponding basal wall and block edge.

7. portable glass door power supply signal radio transmitting device according to claim 5, it is characterized in that: the locating part of this glass door also has respectively the housing of two docking, and the basal wall of each locating part, this surrounding wall, this retaining wall and this guiding walls are comprised of described housing respectively.

8. portable glass door power supply signal radio transmitting device according to claim 1, it is characterized in that: described fixedly conductive unit comprises respectively a substrate and an electric-conductor that is placed through this substrate, each electric-conductor has one and is positioned at this substrate near a side of mobile conductive unit and for the discoid conductive plate of one of them conductive pin outer end against electrical connection, reaches one by this conductive plate extension and places the conducting rod that is fixed in this substrate and is electrically connected with one of them control terminal.

9. portable glass door power supply signal radio transmitting device according to claim 8, it is characterized in that: described fixedly conductive unit also has respectively one and is bolted in this conducting rod and against the locking part of this substrate, described conducting rod forms respectively the external screw thread that screws togather for this locking part near the outer peripheral face of this substrate.

10. portable glass door power supply signal radio transmitting device according to claim 1, it is characterized in that: this glass door also comprises two socket unit, each socket unit comprises that a spool, one clamping and that be electrically connected on one of them conducting terminal are extended by this spool and is clamping and be electrically connected on the pin pipe of the inner of one of them conductive pin, and the insulated tube that can be removed and be sheathed on outside this spool and this pin pipe.

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