CN203285275U - Thermal insulation control system for hollow glass - Google Patents

Abstract

The utility model relates to a thermal insulation control system for low-air-tightness hollow glass. Aiming at a leakage problem in the prior art, a timely and effective monitoring device is provided, and the leakage problem can be solved in time, a bottleneck of the hollow glass (1), a power supply (10), an electromagnetic valve (3) and an air pipe (9) are connected in sequence, and the air pipe (9) is connected with the bottom of the hollow glass (1). The bottleneck of the hollow glass (1), a power supply (5), a vacuum pump (6) and a vacuum tank (7) are connected in sequence, an electromagnetic valve (4) is connected between the vacuum pump (6) and the vacuum tank (7), and the other end of the electromagnetic valve (4) is connected with the power supply (5).

Description

A kind of hollow glass heat insulating, heat preservation control system

Technical field

The utility model relates to energy-saving glass, specifically a kind of low air tightness hollow glass heat insulating, heat preservation control system.

Background technology

Hollow glass is to consist of two-layer or multi-layer planar glass.Surrounding is with high-strength high-air-tightness composite caking agent, two or multi-disc glass and weather strip, glass bar is bonding, sealing.Centre is filled with dry gas, fill in frame with desiccant, with the aridity of air between the assurance sheet glass, form the dry air reduction coefficient of heat conduction and the decibels of environmental noise thereby make in its glass chamber, effectively block heat insulation amount conduction loss and reach the anti-condensation texts.But on production line without tightness, watertightness detection means.In order further to reduce the hollow glass coefficient of heat conduction and environmental noise decibels, current people are filled with again inert gas in hollow layer, and it adopts " vertical, quick, row catches up with inflation " (laminar flow aeration); The method deficiency be: product cost is high, and the inert gas charge reaches and realizes by rule of thumb by gas flow, thereby its finished product property indices is stable not, the watertightness of hollow layer, tightness are without the visual inspection means, especially its inert gas, because the factors such as various forms small opening phenomenon cause its service time short, does not reach the effect of heat-insulation noise-reduction, insulation in using more hollow curtain wall product at present.In prior art, the vacuum glass cost is high, often has " small opening " phenomenon to occur, simultaneously also without monitoring device.

Summary of the invention

The utility model is mainly in order to solve problems of the prior art, and a kind of low air tightness hollow glass heat insulating, heat preservation control system are provided.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals:

low air tightness hollow glass heat insulating, heat preservation control system comprises: hollow glass and the piston that arranges on the hollow glass hollow glass aluminum frame and the gas that is filled with setting air pressure on piston, the bottom of hollow glass is connected to tracheae, electromagnetic valve is installed on tracheae, one end of electromagnetic valve is connected to power supply by wire, one end of power supply be arranged on hollow glass and be connected by wire, terminate on vacuum tank at one of tracheae, vacuum tank is connected to vacuum pump, vacuum pump is connected to power supply, power supply is connected with the wire that hollow glass is provided with, vacuum pump and vacuum tank are provided with electromagnetic valve, the electromagnetic valve other end is connected with power supply, when piston moves up, hollow glass is communicated with power supply, when piston moves down, hollow glass is communicated with simultaneously with power supply and power supply.

Preferably, described gas is inert gas.

Preferably, electromagnetic valve has a plurality of main valve plugs, is arranged on respectively on a plurality of tracheaes.

Preferably, piston is that elastomeric material is made, and inside is provided with conductor chip.

The advantage that the utility model hangs down air tightness hollow glass heat insulating, heat preservation control system is the appearance for prior art " small opening " phenomenon, a kind of monitoring device timely and effectively is provided, and can have solved timely " small opening " phenomenon.

Description of drawings

The present invention will be further described in detail below in conjunction with the drawings and specific embodiments

Fig. 1 structural representation of the present utility model

The specific embodiment

The structure that the utility model hangs down air tightness hollow glass heat insulating, heat preservation control system as shown in Figure 1.Hollow glass 1 is made the shape of open bottles, at hollow glass 1 top bottleneck, is provided with a piston that can be free to slide 2, and piston 2 is made by elastomeric material, and inside is provided with conductor chip, is filled with the gas 8 of setting pressure values in the confined space on piston 2.The bottom of hollow glass 1 is connected to tracheae 9, seamless link between tracheae 9 and hollow glass 1, and tightness is good.Terminate on vacuum tank 7 at one of tracheae 9, and be provided with electromagnetic valve 3 on the indirectly tracheae 9 of vacuum tank 7 and hollow glass 1, in order to tracheae is reached the effect of opening or closing.Electromagnetic valve 3 one terminations have power supply 10, the bottle mouth position of power supply 10 access hollow glasss 1, and the inside of hollow glass 1 is provided with conductor chip.Vacuum pump 6 one terminates on vacuum tank 7, and the other end is received on power supply 5, is connected to electromagnetic valve 4 between vacuum pump 6 and vacuum tank 7, and electromagnetic valve 4 one terminates on power supply 5, and the other end is received the bottleneck of hollow glass 1, and power supply 5 is received the bottleneck of hollow glass 1.Be filled with inert gas in hollow glass 1, when 1 gas leakage of hollow glass makes the pressure of gas reduce, piston moves inwards, loop between hollow glass 1 and electromagnetic valve 3 and power supply 10 is connected, hollow glass 1 is connected with the loop in power supply 5, electromagnetic valve 4, vacuum tank 7, this moment, electromagnetic valve 4 and electromagnetic valve 3 were opened, and vacuum pump 6 is opened and made the air of vacuum tank 7 inside enter hollow glass 1 by tracheae 9, made the pressure of hollow glass 1 inside increase to the former pressure of recovery.On the contrary, gas pressure intensity increases, piston is moved upward, loop between hollow glass 1 and electromagnetic valve 3 and power supply 10 is connected, hollow glass 1 disconnects with the loop in power supply 5, electromagnetic valve 4, vacuum tank 7, and electromagnetic valve 3 is opened, and hollow glass 1 internal gas enters vacuum tank 7 by tracheae 9, until the interior pressure of hollow glass 1 recovers setting value, the loop between hollow glass 1 and electromagnetic valve 3 and power supply 10 disconnects.

The above, be only the specific embodiment of the present utility model, but protection domain of the present utility model is not limited to this, and any variation or replacement of expecting without creative work, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be with the protection domain that claims were limited.

Claims (4)

1. hollow glass heat insulating, heat preservation control system, it is characterized in that: comprise hollow glass (1) and the piston (2) that arranges and the gas (8) that is filled with setting air pressure on piston on the hollow glass hollow glass aluminum frame, the bottom of hollow glass (1) is connected to tracheae (9), electromagnetic valve (3) is installed on tracheae (9), one end of electromagnetic valve (3) is connected to power supply (10) by wire, one end of power supply (10) be arranged on hollow glass (1) and be connected by wire, terminate on vacuum tank (7) at one of tracheae (9), vacuum tank (7) is connected to vacuum pump (6), vacuum pump (6) is connected to power supply (5), power supply (5) is connected with the wire that hollow glass (1) is provided with, vacuum pump (6) is provided with electromagnetic valve (4) with vacuum tank (7), electromagnetic valve (4) other end is connected with power supply (5), when piston (2) while moving up, hollow glass (1) is communicated with power supply (10), when piston (2) while moving down, hollow glass (1) is communicated with simultaneously with power supply (10) and power supply (5).

2. hollow glass heat insulating heat preservation control system according to claim 1, it is characterized in that: described gas (8) is inert gas.

3. hollow glass heat insulating heat preservation control system according to claim 1, it is characterized in that: described electromagnetic valve (3) has a plurality of main valve plugs, is arranged on respectively on a plurality of tracheaes (9).

4. hollow glass heat insulating heat preservation control system according to claim 1, it is characterized in that: described piston (2) is made for elastomeric material, and inside is provided with conductor chip.