CN201521211U - Vacuum glass device with touch control module and touch control device - Google Patents

Abstract

The utility model discloses a touch control device, which comprises a touch control module and a vacuum glass device, wherein the vacuum glass includes a first glass substrate and a second glass substrate which are mutually parallel, the peripheries of the first glass substrate and the second glass substrate are sintered and combined closely by employing heat insulation glue. A vacuum gas is formed in the gap between the first glass substrate and the second glass substrate through vacuum air exhaustion, the touch control module disposed on the vacuum glass comprises a conductive layer and an insulation layer and is used for receiving a touch control signal inputted by a user, and a driving module is connected with the touch control module and used for receiving the touch control signal and generating a driving signal to drive electronic devices on the periphery.

Description

Vacuum glass device and contactor control device with touch-control module

Technical field

The utility model is meant a kind of vacuum glass with touch controllable function especially about a kind of vacuum glass.

Background technology

In recent years, stand in great numbers in various shops and sales field, and it is more fierce that commercial competition also becomes.So the showcase of various kenels is released invariably to attract the customer in each shop and sales field, wherein, shows that refrigerator-freezer is a common equipment with all strength.

Figure 1 shows that the schematic diagram of traditional displaying refrigerator-freezer.

Show that refrigerator-freezer 1 has a glass door 11, it has a housing, and middlely makes to form an observation port with glass, and a transparent display surface can be provided, and shows that refrigerator-freezer 1 has an inner space to hold and to display a plurality of commodity 12.Therefore, show that the commodity 12 that refrigerator-freezer 1 can display the inner space by the glass door 11 of display surface show the customer, are convenient to choose the commodity 12 of its display for the customer.Therefore, the customer can directly can observe the commodity 12 of display by the observation port of glass door 11 outside showing refrigerator-freezer 1, and does not need to open displaying refrigerator-freezer 1.

In addition, in showing the refrigerator-freezer 1 inner standing lighting device 13 of putting, when opening the glass door 11 of showing refrigerator-freezer 1, promptly can open lighting device 13 to produce an illuminating ray, the commodity 12 of showing refrigerator-freezer 1 inside more clearly can be showed by an internal switch.Or, the switch control that lighting device 13 can be by an outside, can be in the shop or the sales field business hours continue to open lighting device 13 and carry out commodity for the customer and observe and choose.

Because, the customer can directly observe the commodity 12 of display by the observation port of glass door 11 outside showing refrigerator-freezer 1, therefore do not need to open continually and show refrigerator-freezer 1, show that then the temperature of refrigerator-freezer 1 inner space can remain on a steady temperature, thereby can save expending of the energy significantly.But, the glass of showing the glass door 11 of refrigerator-freezer 1 only is general glass, this kind glass is generally good Heat Conduction Material, therefore, though glass door 11 has display function, do not have heat insulating function, also can cause the mode of outside heat by material contact conduction to import into from the glass of glass door 11 shows the refrigerator-freezer 1, cause and show that refrigerator-freezer 1 need carry out temperature control continually to keep the steady temperature of showing refrigerator-freezer 1 inside, therefore, carries out the consume that temperature control will cause the energy continually.Similarly, also have radiation conduction heat directly the glass of the observation port by glass door 11 enter and show in the refrigerator-freezer 1, but show that the refrigerator-freezer 1 inside and outside common difference of temperature is not very big, so radiation conduction heat just can be left in the basket.

And because lighting device 13 just throws light on when generally being designed to open glass door 11 or utilizing an external switch to open continues illumination, this part also can cause the consume of the energy.Again, the switch of these lighting devices 13 is generally mechanical structure, uses and operate the application life that also can shorten these switches itself for a long time.

Therefore, how reducing environment's heat and import into as the glass door 11 of showing refrigerator-freezer 1 reducing energy consume, and increase the application life of the switch of lighting device 13, is an important developing direction.

The utility model content

The technical problems to be solved in the utility model provides a kind of contactor control device, comprising: a vacuum glass; One touch-control module is disposed at this vacuum glass surface, to detect a touching signals; And a drive unit, electrically connect with this touch-control module, receive this detection signal, and produce one according to this and drive signal to drive an electronic installation.

Optionally, this vacuum glass comprises:

One first glass substrate;

One second glass substrate, and this first substrate is parallel each other with this second substrate; And

One adiabatic gum is coated around this first glass substrate and this second glass substrate and the sintering driving fit.

This touch-control module comprises: a conductive layer is disposed at this second glass baseplate surface, to receive a touching signal; And an insulating layer, be disposed at this conductive layer surface.

This conductive layer is electro-conductive glass or carbon nanotube conduction material.

This insulating layer is the rupture pressure disc of an insulation.

Described vacuum glass device also comprises a drive unit, electrically connects with this touch-control module, receives this detection signal, and produces a driving signal according to this to drive an electronic installation, and this driver module comprises:

One processor unit electrically connects with this conductive layer, and according to this touching signal to produce a control signal; And

One driver element electrically connects with this processor unit, and produces this driving signal according to this control signal, to drive this electronic installation.

According to embodiment of the present utility model, a kind of switching device is provided, comprising: a vacuum glass, with isolated heat transmission; One touch-control module is disposed at this vacuum glass surface, for input one touching signals; And a drive unit, electrically connect with this touch-control module, receive this touching signals, and produce one according to this and drive signal to drive an electronic installation.

Optionally, this vacuum glass comprises:

One first glass substrate:

One second glass substrate, and this first substrate is parallel each other with this second substrate; And

One adiabatic gum is coated around this first glass substrate and this second glass substrate and the sintering driving fit.

This touch-control module comprises: a conductive layer is disposed at this second glass baseplate surface, to receive a touching signal; And an insulating layer, be disposed at this conductive layer surface.

This driver module comprises:

One processor unit electrically connects with this conductive layer, and according to this touching signal to produce a control signal; And

One driver element electrically connects with this processor unit, and produces this driving signal according to this control signal, to drive this electronic installation.

Embodiment of the present utility model has following beneficial effect:

In the such scheme, this case utility model provides a kind of contactor control device, can have the function of heat insulation and switch simultaneously.

Above general introduction and ensuing detailed description and accompanying drawing all are to be to reach to be scheduled to mode, means and the effect that purpose is taked in order to further specify the utility model.And relevant other purpose of the present utility model and advantage, will follow-up explanation and graphic in set forth.

Description of drawings

Figure 1 shows that the schematic diagram of traditional displaying refrigerator-freezer.

Figure 2 shows that according to the structure of contactor control device of the present utility model and the schematic diagram of its driver module.

Fig. 3 is the application schematic diagram according to the contactor control device of this new embodiment.

The primary clustering symbol description

1: show refrigerator-freezer

2: contactor control device

11: glass door

12: commodity

13: lighting device

20: the vacuum glass device

21: the first glass substrates

22: the second glass substrates

23: adiabatic gum

24: the gap

25: conductive layer

26: insulating layer

27: vacuum glass

28,281,282,283: touch-control module

29: gap

30: driver module

31: processor unit

32: driver element

40: electronic installation

41: TV

42: sound equipment

43: electric light

51: window

52: lead

The specific embodiment

For technical problem, technical scheme and advantage that embodiment of the present utility model will be solved is clearer, be described in detail below in conjunction with the accompanying drawings and the specific embodiments.

Figure 2 shows that according to the structure of contactor control device of the present utility model and the schematic diagram of its driver module.

The contactor control device 2 of this new embodiment has a vacuum glass device 20 and a driver module 30.Vacuum glass device 20 comprises a vacuum glass 27 and a touch-control module 28.Vacuum glass 27 comprises one first glass substrate 21, one second glass substrate 22, an adiabatic gum 23 and gap 29, and first glass substrate 21 and second glass substrate, 22 edges have adiabatic gum 23 with first glass substrate 21 and the 22 sintering driving fits of second glass substrate.28 of touch-control modules are the combination of a conductive layer 25 and an insulating layer 26.

First glass substrate 21 of vacuum glass 27 and second glass substrate 22 are two relative and parallel substrates, and has a gap 24 between first glass substrate 21 and second glass substrate 22, during the period crack 24 has made gap 29 of a plurality of heat-barrier materials usually, to support the gap 24 between first glass substrate 21 and second glass substrate 22.And, around first glass substrate 21 and second glass substrate 22, be coated with adiabatic gum 23 and sintering driving fit, and carry out vacuum suction so that the gap between first glass substrate 21 and second glass substrate 22 24 is formed a vacuum space, this promptly forms a vacuum glass 27.Therefore, utilize first glass substrate 21 of this vacuum glass 27 and the vacuum characteristic between second glass substrate 22 to conduct, can make this vacuum glass 27 have good insulative properties with the contact that stops heat.

Therefore, vacuum glass 27 is applied to as shown in Figure 1 displaying refrigerator-freezer 1, then can be effectively will shows that refrigerator-freezer 1 inner space and space outerpace keep apart, and can stop effectively that the mode of external heat utilization contact conduction imports the inner space of displaying refrigerator-freezer 1 into.Similarly, the glass curtain etc. that also this technology can be applied to refrigerator, baking box, climatic chamber, shielded box, isolated area gate, window or building need have the range of application of the contact conduction of isolating heat.For example: be applied to baking box, the mode of the high temperature that can avoid baking box inside by the contact conduction heat that runs off, and can directly observe the state of baking box interior items in the outside of baking box by the light transmission of vacuum glass 27, in addition, as be applied to the glass curtain in window or building etc., then can utilize the insulative properties and the light transmission features of this vacuum glass 27, keep the room or the more comfortable temperature of inside, building, and the higher or lower temperature of isolated building external environment condition, and utilize its light transmission features to keep good daylighting effect, therefore, the required energy that expends of room or building air-conditioning can be effectively reduced, and illumination can be reduced to save the energy.Similarly, the novel vacuum glass 27 of basis also can be applicable to many other need completely cut off the place of the contacts conduction of heat, and basis is novel to be not limited to this.

Vacuum glass device 20 has the surface that a touch-control module 28 is disposed at vacuum glass 27 in addition.Touch-control module 28 can be the combination of a conductive layer 25 and an insulating layer 26, and conductive layer 25 is formed at the surface of vacuum glass 27, and insulating layer 26 is formed at the top of conductive layer 25.Wherein, conductive layer 25 can be opaque, a translucent or transparent conductive metal layer, in general, utilize transparent metal level 25 can avoid influencing the light transmission of vacuum glass 27, can utilize electro-conductive glass (ITO) or carbon nanotube conduction material (CNT) to be achieved in this.Insulating layer 26 can be the rupture pressure disc of an insulation, can avoid the vacuum glass 27 unexpected cracked personnel's of causing injury, to increase the safety that vacuum glass 27 is used.

Touch-control module 28 is for utilizing the formed touch-control module 28 of capacitive touch control method, it utilizes human body institute static electrification, when user's desire is imported a touching signals and touched this touch-control module 28, then human body institute static electrification can make conductive layer 25 produce corresponding capacitance reaction, therefore can produce a touching signals.According to this novel spirit, touch-control module 28 also can utilize the touch-control module of other touch-control principle to reach, for example, utilize the contact panel of resistance-type, capacitive contact panel, or even the contact panel of optical profile type etc., all novel purpose of attainable cost, and, utilize these contact panels to be disposed on the vacuum glass 27, can increase the fineness that the user controls, that is, the user can utilize various sign languages, can carry out the input of signal.

Driver module 30 comprises a processor unit 31 and a driver element 32, and wherein, processor unit 31 electrically connects with the conductive layer 25 of touch-control module 28, and driver element 32 electrically connects with a processor unit 31 and an electronic installation 40.

Touch-control module 28 receives a touching signals of user's input, processor unit 31 electrically connects to receive the touching signals of touch-control module 28 with the conductive layer 25 of touch-control module 28, and then processor unit 31 produces a control signal according to this touching signals and drives signal with 32 generations one of control driver element.At last, electronic installation 40 receives this and drives signal, and carries out corresponding operation.Therefore, when the user imports a touching signals on the touch-control module 28 of vacuum glass device 20, then this touching signals can be inputed to processor unit 31 with the processing of carrying out touching signals and interpretation to produce a control signal, then driver element 32 produces according to this control signal and drives signal with control or operating electronic devices 40.

According to this new embodiment, this contactor control device 2 can be installed on the glass door 11 as the displaying refrigerator-freezer 1 of Fig. 1, and electronic installation 40 can be the lighting device 13 as Fig. 1.Therefore, the observation port that the glass door 11 of displaying refrigerator-freezer 1 can have a good thermal insulation and light transmission, can reduce because of the material contact conduction heat that causes imports into making displaying refrigerator-freezer 1 need carry out temperature control continually significantly, thereby reduce the energy consume that frequent temperature control is caused.And the touch-control module 28 that can allow the customer utilize to be disposed on the vacuum glass 27 carries out the control of lighting device 13.Therefore, the customer can see through transparent vacuum glass 27 formed observation ports and directly observe the commodity 12 of showing that refrigerator-freezer 1 inside is displayed, and when consumer wants is further observed the commodity 12 that display displaying refrigerator-freezer 1 inside, only need touch the touch-control module 28 on glass door 11 surfaces, can open lighting device 13.Utilize the contactor control device 2 of this new embodiment just to open lighting device 13 when consumer wants throws light on, all the other times then can be closed lighting device 13, can further produce energy-conservation effect by this kind method.

Fig. 3 is the application schematic diagram according to the contactor control device of this new embodiment.

Contactor control device 2 according to this new embodiment is configurable in the window 51 in room, this window 51 also can be installed on the glass curtain in building, and configurable a plurality of touch-control modules 281,282,283 on vacuum glass 27, these touch-control modules 281,282,283 are identical with the touch-control module 28 of Fig. 2.These touch-control modules 281,282,283 and processor unit 31 electrically connect, wherein, can utilize the lead 52 that is disposed at vacuum glass 27 surfaces to be connected, lead 52 can utilize plain conductor, electro-conductive glass (ITO) or carbon nanotube conduction material (CNT) etc. to be achieved.30 of driver elements are same as shown in Figure 2.40 of electronic installations can be TV 41, sound equipment 42 and electric light 43 etc., and basis is novel to be not restricted to this.The assembly and the annexation thereof of the contactor control device 2 of present embodiment, and all identical with the annexation of electronic installation 40 with Fig. 2.

When the contactor control device 2 of this new embodiment is disposed at the window 51 in room or this window is installed on the glass curtain in building, because vacuum glass 27 has good light transmittance and thermal insulation, therefore can have good daylighting effect to save the spent energy of illumination, and can avoid room or building internal environment and external environment to see through material and contact the conduction heat-shift, save the room or the spent energy of building air-conditioning to reach.So the vacuum glass 2 that will have a touch-control module is disposed at the window in room or the curtain glass in building can be saved expending of many energy effectively.And, have a plurality of touch-control modules 281,282,283 in the contactor control device 2 of this new embodiment, therefore, when the user enters room or building, only need on window 51, to touch, can be by driver module 30 control electronic installations 40, as TV 41, sound equipment 42 or electric light 43 etc.If touch-control module 28 adopts the contact panel of other various technology, then the user can utilize various sign languages to control various electronic installations 40 more easily, for example, can pass through sign language simply, can operate TV 41 carries out the action of converted channel or adjusts sound size etc., or adjust music categories that sound equipment 42 plays or sound size etc., also can adjust the brightness of electric light 43 or colour temperature etc.

In addition, because the touch-control module 28 of the vacuum glass device 20 of this new embodiment is by utilizing as shown in Figure 2 a conductive layer 25 and an insulating layer 26 to be formed, therefore do not have mechanical module, so can increase the application life of touch-control module 28 effectively.Or the touch-control module 28 of this new embodiment does not then also possess mechanical structure for utilizing the contact panel of various touch technologies, therefore also can have long application life.

Therefore, see through above-mentioned contactor control device 2, can utilize a vacuum glass 27 that has isolated conduction heat and have light transmission, cooperate again and go up touch-control module 28, can produce a vacuum glass device 20 with thermal insulation, light transmission.

The above is a preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from principle described in the utility model; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. a vacuum glass device is characterized in that, comprising:

One vacuum glass; And

One touch-control module is disposed at this vacuum glass surface, to detect a touching signals.

2. vacuum glass device according to claim 1 is characterized in that, this vacuum glass comprises:

One first glass substrate;

One second glass substrate, and this first substrate is parallel each other with this second substrate; And

One adiabatic gum is coated around this first glass substrate and this second glass substrate and the sintering driving fit.

3. vacuum glass device according to claim 2 is characterized in that, this touch-control module comprises: a conductive layer is disposed at this second glass baseplate surface, to receive a touching signal; And an insulating layer, be disposed at this conductive layer surface.

4. vacuum glass device according to claim 3 is characterized in that, this conductive layer is electro-conductive glass or carbon nanotube conduction material.

5. vacuum glass device according to claim 3 is characterized in that, this insulating layer is the rupture pressure disc of an insulation.

6. vacuum glass device according to claim 1 is characterized in that, also comprises a drive unit, electrically connects with this touch-control module, receives this detection signal, and produces a driving signal according to this to drive an electronic installation, and this driver module comprises:

One processor unit electrically connects with this conductive layer, and according to this touching signal to produce a control signal; And

One driver element electrically connects with this processor unit, and produces this driving signal according to this control signal, to drive this electronic installation.

7. a contactor control device is characterized in that, comprising:

One vacuum glass is with isolated heat transmission;

One touch-control module is disposed at this vacuum glass surface, for input one touching signals; And

One driver module electrically connects with this touch-control module, receives this touching signals, and produces a driving signal according to this to drive an electronic installation.

8. contactor control device according to claim 7 is characterized in that, this vacuum glass comprises:

One first glass substrate:

One second glass substrate, and this first substrate is parallel each other with this second substrate; And

One adiabatic gum is coated around this first glass substrate and this second glass substrate and the sintering driving fit.

9. contactor control device according to claim 8 is characterized in that, this touch-control module comprises: a conductive layer is disposed at this second glass baseplate surface, to receive a touching signal; And an insulating layer, be disposed at this conductive layer surface.

10. contactor control device according to claim 7 is characterized in that, this driver module comprises:

One processor unit electrically connects with this conductive layer, and according to this touching signal to produce a control signal; And

One driver element electrically connects with this processor unit, and produces this driving signal according to this control signal, to drive this electronic installation.

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