CN214991145U - Vacuum toughened glass wind accuse system - Google Patents

Abstract

The utility model discloses a vacuum toughened glass wind control system, including the main part workshop, be equipped with wind ring system, filtration subsystem, detection subsystem, compensation subsystem, central electric control subsystem and tempering cooling subsystem in the main part workshop, wind ring system includes the air cooling unit, the air cooling unit is used for cooling treatment to the air inlet, the delivery outlet of air cooling unit with filtration subsystem links to each other, filtration subsystem is used for removing dust to the wind of air cooling unit output and goes out water treatment, detection subsystem is used for detecting the amount of wind, wind pressure and the wind temperature of filtration subsystem air outlet; the central electric control subsystem is electrically connected with the detection subsystem and the compensation subsystem. The utility model provides a vacuum toughened glass air control system utilizes the toughened air control system to provide the air current through dust removal dewatering processing, can improve vacuum glass's cleanliness factor.

Description

Vacuum toughened glass wind accuse system

Technical Field

The utility model relates to a toughened glass production technical field specifically is a vacuum toughened glass air control system.

Background

The rapid, low-cost and batch processing production of the vacuum glass is one of the pain points of the current glass industry, and the key problems are that no special glass toughening furnace suitable for rapid, low-cost and batch processing production of the vacuum glass exists in the glass industry, and the toughened glass required for rapid, low-cost and batch processing production of the vacuum glass is not solved. Such tempered glass must have two conditions: firstly, cleaning is carried out, and the glass does not need to be cleaned after being tempered. Secondly, the deep drying of the glass, in particular to the deep drying of the glass surface in the vacuum cavity of the finished vacuum glass product. If the two problems cannot be solved, the vacuumizing time and the vacuumizing quality are seriously influenced, and the production quality of the vacuum glass is further influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vacuum toughened glass air control system, through setting up wind ring subsystem and filtration subsystem, can provide the air current through dust removal dewatering processing for tempering cooling subsystem, can improve vacuum glass's cleanliness factor.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a vacuum toughened glass wind control system, includes the main part workshop, be equipped with wind ring system, filtration subsystem, detection subsystem, compensation subsystem, central electric control subsystem and tempering cooling subsystem in the main part workshop, wind ring system includes the air cooling unit, the air cooling unit is used for cooling treatment to the air inlet, the delivery outlet of air cooling unit with filtration subsystem links to each other, filtration subsystem is used for removing dust the wind of air cooling unit output and goes out water treatment, detection subsystem is used for detecting the amount of wind, wind pressure and the wind temperature of filtration subsystem air outlet;

central authorities ' automatically controlled subsystem with detect the subsystem with the equal electric connection of compensation subsystem, central authorities ' automatically controlled subsystem is used for control the compensation subsystem is right the amount of wind, the wind pressure and the wind temperature of filtration subsystem air outlet compensate the regulation, tempering cooling subsystem's inlet end with it is connected to filter the subsystem air outlet, tempering cooling subsystem is used for providing the cooling air current to the tempering furnace.

Preferably, the filtration subsystem comprises a dust-free filtration unit and a water-free filtration unit, the output end of the air cooling unit is connected with the input end of the dust-free filtration unit, the output end of the dust-free filtration unit is connected with the input end of the water-free filtration unit, and the output end of the water-free filtration unit is connected with the input end of the detection subsystem.

Preferably, the main body workshop comprises a thousand-level dust-free area and a ten-thousand-level dust-free area, the air cleanliness level of the thousand-level dust-free area is higher than that of the ten-thousand-level dust-free area, the air cooling unit is arranged in the thousand-level dust-free area, and the filtering subsystem and the tempering cooling subsystem are arranged in the ten-thousand-level dust-free area.

Preferably, the wind circulation system comprises a dehydration and dust removal unit, the gas inlet end of the dehydration and dust removal unit is connected with the gas outlet end of the toughening furnace, and the output end of the dehydration and dust removal unit is connected with the gas inlet end of the filtering subsystem.

Preferably, the wind circulation system comprises a heating unit, the air inlet end of the heating unit is connected with the air outlet end of the toughening furnace, and the output end of the heating unit is connected with a heating system of the main workshop.

Preferably, the central electronic control subsystem comprises a temperature sensor and an air pressure and air volume tester which are arranged at the output end of the detection subsystem and are respectively used for measuring the air temperature, the air volume and the air pressure at the output end of the detection subsystem.

Preferably, the compensation subsystem comprises a heater and a gas pressure regulator arranged at the gas inlet end of the filtering subsystem, and the heater and the gas pressure regulator are respectively used for regulating the temperature and the pressure of the gas.

Preferably, the filtration subsystem further comprises an air cleanliness detection unit, and an input end of the air cleanliness detection unit is connected with an output end of the anhydrous filtration unit and used for detecting air cleanliness of the gas subjected to water removal and dust removal.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a toughened glass air control system can provide the cooling air current that just satisfies air cleanliness factor detection standard through the dust removal dewatering treatment to the cooling system of tempering furnace, has guaranteed glass's cleanliness factor.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a vacuum tempered glass air control system of the present invention;

fig. 2 is a schematic structural view of a second embodiment of the vacuum tempered glass air control system of the present invention;

fig. 3 is a schematic structural diagram of a third embodiment of the vacuum tempered glass wind control system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a first embodiment, including the main part workshop, be equipped with wind ring system, filtration subsystem, detection subsystem, compensation subsystem, central electronic control subsystem and tempering cooling subsystem in the main part workshop, wind ring system includes the air cooling unit, the air cooling unit is used for cooling the air inlet and handles, the delivery outlet of air cooling unit with filtration subsystem links to each other, filtration subsystem is used for removing dust to the wind of air cooling unit output and goes out water treatment, detection subsystem is used for detecting the amount of wind, wind pressure and the wind temperature of filtration subsystem air outlet; the central electric control subsystem is electrically connected with the detection subsystem and the compensation subsystem, the central electric control subsystem is used for controlling the compensation subsystem to compensate and adjust the air quantity, the air pressure and the air temperature of the air outlet of the filtering subsystem, and the compensation subsystem can be provided with an air blower to adjust the air quantity and the air pressure; arranging corresponding heating components to uniformly heat the gas; the inlet end of the toughening cooling subsystem is connected with the air outlet of the filtering subsystem, and the toughening cooling subsystem is used for providing cooling airflow for the toughening furnace. The outside air enters the filtering subsystem after being cooled by the air ring subsystem, the feedback information of the detection subsystem is transmitted by the central electric control subsystem to instruct the compensation subsystem to compensate, then the detection and adjustment are carried out, the outside air enters the main dust-free workshop, the detection system monitors and feeds back the central control system to the dust-free workshop, and the outside air enters the toughening process after being compensated by the compensation system.

As shown in fig. 2, the second embodiment of the present invention is different from the first embodiment in that the filtration subsystem includes a dust-free filtration unit and a water-free filtration unit, the output end of the air cooling unit is connected to the input end of the dust-free filtration unit, the output end of the dust-free filtration unit is connected to the input end of the water-free filtration unit, and the output end of the water-free filtration unit is connected to the input end of the detection subsystem; the main body workshop comprises a thousand-level dust-free area and a ten-thousand-level dust-free area, the air cleanliness level of the thousand-level dust-free area is higher than that of the ten-thousand-level dust-free area, the air cooling unit is arranged in the thousand-level dust-free area, and the filtering subsystem and the tempering cooling subsystem are arranged in the ten-thousand-level dust-free area.

Preferably, the wind circulation system comprises a dehydration and dust removal unit, the gas inlet end of the dehydration and dust removal unit is connected with the gas outlet end of the toughening furnace, and the output end of the dehydration and dust removal unit is connected with the gas inlet end of the filtering subsystem. The dust-free and water-free clean dry gas used in the whole glass toughening process is recycled after dehydration and dust removal, so that the energy is saved, and the benefit is improved.

Preferably, the wind circulation system comprises a heating unit, the air inlet end of the heating unit is connected with the air outlet end of the toughening furnace, and the output end of the heating unit is connected with a heating system of the main workshop. Tempering refrigerated discharges hot-blastly and is used for filtering back workshop heating and uses, according to the difference of the regional requirement of workshop temperature, adjusts how much of its heating energy, and the summer temperature is higher, and glass tempering cooling effect is not good, gets into toughened glass after the air inlet cooling, outside the hot-blast workshop of discharging, the air inlet cooling effect is good winter, and the air exhaust after the tempering is used for the workshop heating, all is carried out by the wind ring system.

As shown in fig. 3, the third embodiment of the present invention is different from the second embodiment in that the central electronic control subsystem includes a temperature sensor and a wind pressure and wind volume tester arranged at the output end of the detection subsystem, and is respectively used for measuring the wind temperature, the wind volume and the wind pressure at the output end of the detection subsystem, the wind pressure and wind volume tester includes a pressure sensor installed at the tested wind port and used for detecting the wind pressure of the tested wind port, the sizes of the tested wind port and the wind pipe are determined and known, and the wind volume can be determined by the wind pipe method; the detection subsystem can measure the average value of the temperature through a plurality of temperature sensors arranged at the detected wind gap; the compensation subsystem comprises a heater and an air pressure regulator which are arranged at the air inlet end of the filtering subsystem and are respectively used for regulating the temperature and the pressure of air; the filtration subsystem further comprises an air cleanliness detection unit, wherein the input end of the air cleanliness detection unit is connected with the output end of the anhydrous filtration unit and used for carrying out air cleanliness detection on the gas subjected to water removal and dust removal so as to fully guarantee the cleanliness of the discharged gas.

The working principle is as follows: the utility model provides a toughened glass air control system can provide the cooling air current that just satisfies air cleanliness factor detection standard through the dust removal dewatering treatment to the cooling system of tempering furnace, has guaranteed glass's cleanliness factor.

The external air is cooled by the air cooling unit and then sent into the filtering subsystem, is subjected to dust removal and water removal treatment by the dust-free filtering unit and the water-free filtering unit in sequence and then reaches the detecting subsystem for detecting the air volume, the air pressure and the air temperature, and then enters the toughening cooling subsystem to provide cooling air flow for the toughening furnace; when the air volume, the air pressure or the air temperature of the air outlet of the filtering subsystem does not meet the preset conditions, the central electric control subsystem is used for controlling the compensation subsystem to carry out compensation adjustment on the air volume, the air pressure or the air temperature of the air inlet end of the filtering subsystem. The output gas is anhydrous dry gas, so that the glass cannot be polluted by water molecules in the toughening process, and deep drying is promoted to be formed on the surface of the glass.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a vacuum toughened glass wind control system, includes the main part workshop, its characterized in that, be equipped with wind ring subsystem, filtration subsystem, detection subsystem, compensation subsystem, central electric control subsystem and tempering cooling subsystem in the main part workshop, wind ring subsystem includes the air cooling unit, the air cooling unit is used for cooling treatment to the air inlet, the delivery outlet of air cooling unit with filtration subsystem links to each other, filtration subsystem is used for removing dust the wind of air cooling unit output and goes out water treatment, detection subsystem is used for detecting the amount of wind, wind pressure and the wind temperature of filtration subsystem air outlet;

central authorities ' automatically controlled subsystem with detect the subsystem with the equal electric connection of compensation subsystem, central authorities ' automatically controlled subsystem is used for control the compensation subsystem is right the amount of wind, the wind pressure and the wind temperature of filtration subsystem air outlet compensate the regulation, tempering cooling subsystem's inlet end with it is connected to filter the subsystem air outlet, tempering cooling subsystem is used for providing the cooling air current to the tempering furnace.

2. The vacuum tempered glass air control system as claimed in claim 1, wherein: the filtration subsystem comprises a dust-free filtration unit and a waterless filtration unit, the output end of the air cooling unit is connected with the input end of the dust-free filtration unit, the output end of the dust-free filtration unit is connected with the input end of the waterless filtration unit, and the output end of the waterless filtration unit is connected with the input end of the detection subsystem.

3. The vacuum tempered glass air control system as claimed in claim 2, wherein: the main body workshop comprises a thousand-level dust-free area and a ten-thousand-level dust-free area, the air cleanliness level of the thousand-level dust-free area is higher than that of the ten-thousand-level dust-free area, the air cooling unit is arranged in the thousand-level dust-free area, and the filtering subsystem and the tempering cooling subsystem are arranged in the ten-thousand-level dust-free area.

4. A vacuum tempered glass air control system as claimed in any one of claims 1 to 3 wherein: the air circulation system comprises a dehydration and dust removal unit, the air inlet end of the dehydration and dust removal unit is connected with the air outlet end of the toughening furnace, and the output end of the dehydration and dust removal unit is connected with the air inlet end of the filtering subsystem.

5. A vacuum tempered glass air control system as claimed in any one of claims 1 to 3 wherein: the air circulation system comprises a heating unit, the air inlet end of the heating unit is connected with the air outlet end of the toughening furnace, and the output end of the heating unit is connected with the heating system of the main workshop.

6. The vacuum tempered glass air control system as claimed in claim 3, wherein: the central electric control subsystem comprises a temperature sensor and an air pressure and air volume tester which are arranged at the output end of the detection subsystem and are respectively used for measuring the air temperature, the air volume and the air pressure at the output end of the detection subsystem.

7. The vacuum tempered glass air control system as claimed in claim 6, wherein: the compensation subsystem comprises a heater and an air pressure regulator which are arranged at the air inlet end of the filtering subsystem and are respectively used for regulating the temperature and the pressure of air.

8. The vacuum tempered glass air control system as claimed in claim 7, wherein: the filtration subsystem further comprises an air cleanliness detection unit, wherein the input end of the air cleanliness detection unit is connected with the output end of the anhydrous filtration unit and used for carrying out air cleanliness detection on the gas subjected to water removal and dust removal.

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