CN207775064U - A kind of novel reinforced glass production facility - Google Patents

Abstract

The utility model discloses a kind of novel reinforced glass production facility, including glass tempering furnace, cold quenching device, thermal transfer devices, the glass tempering furnace includes furnace body, heating device, the first wind turbine, the first air inlet pipe；The cold quenching device includes high pressure cold wind grid, the second wind turbine, the second air inlet pipe；The thermal transfer devices include heat pump, the first heat conducting pipe, the second heat conducting pipe, the heat pump includes heating end and refrigeration end, the heating end of the heat pump is connected by the first heat conducting pipe with the first air inlet pipe, and the refrigeration end of the heat pump is connected by the second heat conducting pipe with the second air inlet pipe.The utility model shifts heat between the first air inlet pipe and the second air inlet pipe using heat pump, has energy-saving effect during producing tempered glass.

Description

A kind of novel reinforced glass production facility

Technical field

The utility model is related to a kind of reinforced glass production facilities, are set more particularly to a kind of novel tempering glass production It is standby.

Background technology

Tempered glass makees the safety glass being known in daily life, is widely used in building, automobile, glass curtain The fields such as wall, glass household products.In the manufacturing process of tempered glass, to improve the intensity of glass, usually glass is carried out After heating, then uniform cold quenching is carried out to be made, there is higher energy consumption, in the back of the body of big epoch for advocating energy-saving and environmental protection, low-carbon now Under scape, reduces production tempered glass and played an important role in the process with energy use.

Utility model content

The utility model provides a kind of novel reinforced glass production facility, at least to solve tempered glass in the prior art The higher problem of production energy consumption

The utility model provides a kind of novel reinforced glass production facility, including glass tempering furnace, cold quenching device, heat Transfer device, the glass tempering furnace include furnace body, heating device, the first wind turbine, the first air inlet pipe, the furnace body be equipped with into Material mouth, discharge port, air inlet, the heating device is mounted in furnace body, and, first air inlet pipe adjacent with the air inlet One end be connected with the air inlet of furnace body, the other end of first assembling in the first air inlet pipe；The cold quenching device packet Include high pressure cold wind grid, the second wind turbine, the second air inlet pipe, the high pressure cold wind grid include upper cold wind grid and lower cold wind grid, it is described on Cold wind grid are set to right over lower cold wind grid, and the upper cold wind grid are responsible for by the first cold wind and are connected with the first cold wind supervisor multiple Upper cold wind gas blow pipe composition, the upper cold wind gas blow pipe include upper cold wind gas-guide tube and the upper cold wind that is connected with upper cold wind gas-guide tube Gas outlet；Multiple lower cold wind gas blow pipes that the lower cold wind grid are responsible for by the second cold wind and are connected with the second cold wind supervisor form, The lower cold wind gas blow pipe includes lower cold wind gas-guide tube and the lower cold wind gas outlet that is connected with lower cold wind gas-guide tube, the upper cold wind Gas outlet, the outgassing direction of lower cold wind gas outlet are opposite, second air inlet pipe respectively with the first cold wind supervisor, the second cold wind master Pipe is connected, and second assembling is in second air inlet pipe one end；The thermal transfer devices include heat pump, the first heat conducting pipe, Second heat conducting pipe, the heat pump include heating end and refrigeration end, the heating end of the heat pump by the first heat conducting pipe and first into Tracheae is connected, and the refrigeration end of the heat pump is connected by the second heat conducting pipe with the second air inlet pipe.

Further, the heat pump is semiconductor cooler.

Further, first heat conducting pipe and the first air inlet pipe connecting place are sleeve structure, described sleeve pipe close structure It is sleeved on the outside of the first air inlet pipe.

Further, second heat conducting pipe and the second air inlet pipe connecting place are sleeve structure, described sleeve pipe close structure It is sleeved on the outside of the second air inlet pipe.

Further, first air inlet pipe, the second air inlet pipe are red copper material.

The utility model compared with prior art, by using thermal transfer devices, is made using heat pump at the second air inlet pipe Heat is transferred at the first air inlet pipe, compared to heat is directly manufactured, can effectively reduce tempered glass production process In energy consumption, effectively play energy-efficient effect.

Description of the drawings

Fig. 1 is the utility model embodiment structural schematic diagram.

Specific implementation mode

In order to make those skilled in the art more fully understand the utility model, below in conjunction with the utility model reality The attached drawing in example is applied, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of the utility model part, instead of all the embodiments.Based on the reality in the utility model Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts is all answered When the range for belonging to the utility model protection.

It should be noted that term " first " in the specification and claims of the utility model and above-mentioned attached drawing, " second " etc. is for distinguishing similar object, without being used to describe specific sequence or precedence.

The utility model embodiment discloses a kind of novel reinforced glass production facility, as shown in Figure 1, including glass tempering Stove, cold quenching device, thermal transfer devices, the glass tempering furnace include furnace body 11, heating device 12, the first wind turbine 14, first Air inlet pipe 13, the furnace body 1 are equipped with feed inlet, discharge port, air inlet, and the heating device 12 is mounted in furnace body 1, and with The air inlet is adjacent, and one end of first air inlet pipe 13 is connected with the air inlet of furnace body 1, and first wind turbine 14 is mounted on The other end of first air inlet pipe 13；The cold quenching device includes high pressure cold wind grid, the second wind turbine 28, the second air inlet pipe 27, described High pressure cold wind grid include upper cold wind grid and lower cold wind grid, and the upper cold wind grid are set to right over lower cold wind grid, the upper cold wind grid It is made of the first cold wind supervisor 21 and the multiple upper cold wind gas blow pipes being connected with the first cold wind supervisor 21, the upper cold wind is blown Manage the upper cold wind gas outlet 23 for including upper cold wind gas-guide tube 22 and being connected with upper cold wind gas-guide tube 22；The lower cold wind grid are by Two cold wind supervisor 24 and the multiple lower cold wind gas blow pipes being connected with the second cold wind supervisor 24 form, and the lower cold wind gas blow pipe includes Lower cold wind gas-guide tube 25 and the lower cold wind gas outlet 26 being connected with lower cold wind gas-guide tube 25, the upper cold wind gas outlet 23, under it is cold The outgassing direction of wind gas outlet 26 is opposite, and second air inlet pipe 27 is responsible for the 21, second cold wind supervisor 24 with the first cold wind respectively It is connected, second wind turbine 28 is mounted on 27 one end of the second air inlet pipe；The thermal transfer devices include heat pump 31, the first heat conduction Pipe 32, the second heat conducting pipe 33, the heat pump 31 include heating end and refrigeration end, and the heating end of the heat pump 31 passes through the first heat conduction Pipe 32 is connected with the first air inlet pipe 14, and the refrigeration end of the heat pump 31 is connected by the second heat conducting pipe 33 with the second air inlet pipe 27.

Wherein, as shown in Figure 1, heat pump 31 absorbs 27 heat of the second air inlet pipe by the second heat conducting pipe 33, and pass through first Heat conducting pipe 32 passes to the first air inlet pipe 14, so that the first air inlet pipe 14 is had higher temperature, can be blown into the first wind turbine 14 Air heats.And the second air inlet pipe 27 carries out effective temperature-reducing under the action of heat pump 31, the air that the second wind turbine 28 is blown into Row cooling.Glass enters from the feed inlet of furnace body 11, after the Hot-blast Heating being blown into through the first wind turbine 14, is flowed out from discharge port, And the cold wind cold quenching being blown by the second wind turbine 28 is carried out at high pressure cold wind grid, achieve the effect that glass tempering.

The utility model embodiment makes heat at the second air inlet pipe 27 turn by using thermal transfer devices, using heat pump 31 It moves on at the first air inlet pipe 14, compared to heat is directly manufactured, can effectively reduce in tempered glass production process Energy consumption effectively plays energy-efficient effect.

Optionally, the heat pump 31 is semiconductor cooler

The utility model embodiment, as heat pump 31, utilizes semiconductor cooler structure letter by using semiconductor cooler It is single, effectively simplify thermal transfer devices.

Optionally, 32 and first air inlet pipe of the first heat conducting pipe, 14 connecting place is sleeve structure, and described sleeve pipe structure is tight It is close to be sleeved on 14 outside of the first air inlet pipe.

The utility model embodiment makes the contact surface of the first heat conducting pipe 32 and the first air inlet pipe 14 by the way that sleeve structure is arranged Product increases, and improves heat conduction efficiency.

Optionally, 33 and second air inlet pipe of the second heat conducting pipe, 27 connecting place is sleeve structure, and described sleeve pipe structure is tight It is close to be sleeved on 27 outside of the second air inlet pipe.

The utility model embodiment makes the contact surface of the second heat conducting pipe 33 and the second air inlet pipe 27 by the way that sleeve structure is arranged Product increases, and improves heat conduction efficiency.

Optionally, first air inlet pipe 14, the second air inlet pipe 27 are red copper material.

The utility model embodiment, as the first air inlet pipe 14, the second air inlet pipe 27, effectively improves by using red copper The heat transfer efficiency of one air inlet pipe 14, the second air inlet pipe 27, reaches energy-saving effect.

Finally it should be noted that above example is only to illustrate the technical solution of the utility model rather than limits it System, although the utility model is described in detail with reference to above-described embodiment, those of ordinary skill in the art should Understand, technical staff read present specification after can still modify to specific embodiment of the present utility model or Equivalent replacement, but these are changed or are changed within all without departing from present utility model application accompanying claims protection domain.

Claims (5)

1. a kind of novel reinforced glass production facility, which is characterized in that the reinforced glass production facility include glass tempering furnace, Cold quenching device, thermal transfer devices, the glass tempering furnace include furnace body, heating device, the first wind turbine, the first air inlet pipe, institute Furnace body is stated equipped with feed inlet, discharge port, air inlet, the heating device is mounted in furnace body, and adjacent with the air inlet, One end of first air inlet pipe is connected with the air inlet of furnace body, the other end of first assembling in the first air inlet pipe； The cold quenching device includes high pressure cold wind grid, the second wind turbine, the second air inlet pipe, and the high pressure cold wind grid include upper cold wind grid under Cold wind grid, the upper cold wind grid be set to lower cold wind grid right over, the upper cold wind grid be responsible for by the first cold wind and with the first cold wind Multiple upper cold wind gas blow pipes compositions that supervisor is connected, the upper cold wind gas blow pipe include upper cold wind gas-guide tube and with upper cold wind air guide The connected upper cold wind gas outlet of pipe；The lower cold wind grid by the second cold wind be responsible for and with the second cold wind supervisor be connected it is multiple under it is cold Wind tracheae forms, and the lower cold wind gas blow pipe includes lower cold wind gas-guide tube and the lower cold wind outlet that is connected with lower cold wind gas-guide tube Mouthful, the upper cold wind gas outlet, the outgassing direction of lower cold wind gas outlet are opposite, second air inlet pipe respectively with the first cold wind master Pipe, the second cold wind supervisor are connected, and second assembling is in second air inlet pipe one end；The thermal transfer devices include heat Pump, the first heat conducting pipe, the second heat conducting pipe, the heat pump include heating end and refrigeration end, and the heating end of the heat pump passes through first Heat conducting pipe is connected with the first air inlet pipe, and the refrigeration end of the heat pump is connected by the second heat conducting pipe with the second air inlet pipe.

2. reinforced glass production facility according to claim 1, which is characterized in that the heat pump is semiconductor cooler.

3. reinforced glass production facility according to claim 1, which is characterized in that first heat conducting pipe and the first air inlet Pipe connecting place is sleeve structure, and described sleeve pipe close structure is sleeved on the outside of the first air inlet pipe.

4. reinforced glass production facility according to claim 1, which is characterized in that second heat conducting pipe and the second air inlet Pipe connecting place is sleeve structure, and described sleeve pipe close structure is sleeved on the outside of the second air inlet pipe.

5. reinforced glass production facility according to claim 1, which is characterized in that first air inlet pipe, the second air inlet Pipe is red copper material.