CN212431466U - Air-cooled glass production high temperature cooling device - Google Patents

Abstract

The utility model discloses an air-cooled glass production high temperature cooling device, including support frame, conveying mechanism, reservoir chamber and fan, the inboard of support frame is provided with conveying mechanism, and the top of support frame is provided with the reservoir chamber to the top bolt fastening of reservoir chamber has the fan, the inside of reservoir chamber is inlayed and is had the mounting panel, and the inside of mounting panel runs through there is the loose axle to the top of reservoir chamber is inlayed and is had the wind-guiding hose, the below of wind-guiding hose is connected with the shell that blows. This air-cooled glass production high temperature cooling device is provided with reservoir chamber and loose axle, and the accessible reservoir chamber filters the air that the fan pumped for impurity dissolves in the water of reservoir chamber, can be cooled down and the humidification after gaseous process reservoir chamber simultaneously, improves the cooling effect of follow-up gaseous effect when glass surface, and installation axle can cooperate the flabellum to stir the liquid in the reservoir chamber simultaneously, improves the filter effect of liquid to gas.

Description

Air-cooled glass production high temperature cooling device

Technical Field

The utility model relates to a glass production technical field specifically is an air-cooled glass production high temperature cooling device.

Background

Along with the continuous development of the building industry in China, various buildings are gradually built, glass is an important decoration part in the buildings, the glass is widely applied to various building places and used for isolating wind and transmitting light, a cooling device is required to be used in the production process of the glass, but the existing air-cooled glass production high-temperature cooling device has certain defects:

1. when the existing air-cooled cooling device is used for blowing air to cool glass, because a fan is easy to suck impurities such as dust and the like, the impurities are adhered to the surface of high-temperature glass when being blown to the surface of the glass subsequently, so that the processing quality of the glass is reduced, and meanwhile, the temperature of blown air is higher when the temperature rises, so that the glass cannot be cooled more quickly;

2. its air outlet of current air-cooled cooling device is mostly fixed structure, leads to glass receive the blown area and receives the restriction, to the effective area decline of blowing on glass surface, has reduced the cooling effect of device and the practicality of device.

In order to solve the problems, innovative design is urgently needed on the basis of the original air-cooled cooling device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an air-cooled glass production high temperature cooling device to solve the air-cooled cooling device that has now on the existing market that above-mentioned background art provided and when cooling down blowing to glass, because the fan inhales impurity such as dust easily, follow-up glass surface that blows with the adhesion on high temperature glass's surface, thereby reduce glass's processingquality, and its air outlet of current air-cooled cooling device is mostly fixed structure, lead to glass receive the blowing area and receive the restriction, the problem that the effective blowing area to glass surface descends.

In order to achieve the above object, the utility model provides a following technical scheme: an air-cooled glass production high-temperature cooling device comprises a support frame, a conveying mechanism, a water storage chamber and a fan, wherein the conveying mechanism is arranged on the inner side of the support frame, the water storage chamber is arranged above the support frame, the fan is fixed on the upper side of the water storage chamber through bolts, a mounting plate is embedded in the water storage chamber, a movable shaft penetrates through the mounting plate, an air guide hose is embedded above the water storage chamber, a blowing shell is connected below the air guide hose, connecting plates are arranged on the front side and the rear side of the blowing shell and embedded on the inner side surface of the support frame, a first mounting shaft is embedded on the front side of the blowing shell, a second mounting shaft is embedded on the rear side of the blowing shell, a movable plate is arranged above the second mounting shaft and located in the connecting plate, and a low-speed motor is fixed on the rear side surface of the connecting plate through bolts, and an output shaft is installed at the front side of the low-speed motor.

Preferably, a water inlet is formed in the upper portion of the water storage chamber, a water outlet is formed in the left lower portion of the water storage chamber, and an integrated structure is formed between the water storage chamber and the supporting frame.

Preferably, the surface of the movable shaft is embedded with fan blades, the movable shaft and the mounting plate are connected through a bearing, and the movable shaft is arranged in bilateral symmetry with respect to the center line of the mounting plate.

Preferably, all constitute the integral structure between blowing shell and first installation axle and the second installation axle, and the central line of first installation axle and the central line coincidence setting of second installation axle to constitute rotation structure between first installation axle and the connecting plate.

Preferably, a first connecting gear is embedded on the surface of the second mounting shaft, the first connecting gear and the movable plate form a meshing connection, and the movable plate and the connecting plate form a left-right sliding structure.

Preferably, the surface of the output shaft is embedded with a second connecting gear, the second connecting gear and the first connecting gear form a meshing connection, and the second connecting gear and the movable plate form a meshing connection.

Compared with the prior art, the beneficial effects of the utility model are that: the air-cooled glass production high-temperature cooling device;

(1) the glass surface cooling device is provided with the water storage chamber and the movable shaft, air pumped by the fan can be filtered through the water storage chamber, impurities are dissolved in water in the water storage chamber, meanwhile, the air can be cooled and humidified after passing through the water storage chamber, the cooling effect of subsequent air acting on the glass surface is improved, meanwhile, the mounting shaft can be matched with the fan blades to stir liquid in the water storage chamber, the filtering effect of the liquid on the air is improved, and the functionality of the device is improved;

(2) be provided with first installation axle, second installation axle and fly leaf, the shell of blowing can rotate between the surface of connecting plate under the effect of first installation axle and second installation axle, and the removal of the continuous normal running fit fly leaf of gear is connected to the second simultaneously can drive first connecting gear and carry out continuous reciprocal rotation to the angle of blowing that makes the shell of blowing swings, improves the area that blows of device, increases the practicality of device.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is a schematic view of the water storage chamber of the present invention;

FIG. 3 is a schematic view of a top-down structure of the connecting plate of the present invention;

fig. 4 is the first connecting gear main cut-open structure schematic diagram of the present invention.

In the figure: 1. a support frame; 2. a conveying mechanism; 3. a water storage chamber; 301. a water inlet; 302. a water outlet; 4. a fan; 5. mounting a plate; 6. a movable shaft; 601. a fan blade; 7. an air guide hose; 8. blowing the shell; 9. a first mounting shaft; 10. a connecting plate; 11. a second mounting shaft; 1101. a first connecting gear; 12. a low-speed motor; 13. an output shaft; 1301. a second connecting gear; 14. a movable plate.

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.

Referring to fig. 1-4, the present invention provides a technical solution: an air-cooled high-temperature cooling device for glass production comprises a support frame 1, a conveying mechanism 2, a water storage chamber 3, a fan 4, a mounting plate 5, a movable shaft 6, an air guide hose 7, an air blowing shell 8, a first mounting shaft 9, a connecting plate 10, a second mounting shaft 11, a low-speed motor 12, an output shaft 13 and a movable plate 14, wherein the conveying mechanism 2 is arranged on the inner side of the support frame 1, the water storage chamber 3 is arranged above the support frame 1, the fan 4 is fixed on the upper portion of the water storage chamber 3 through bolts, the mounting plate 5 is embedded in the water storage chamber 3, the movable shaft 6 penetrates through the mounting plate 5, the air guide hose 7 is embedded above the water storage chamber 3, the air blowing shell 8 is connected below the air guide hose 7, the connecting plates 10 are arranged on the front side and the rear side of the air blowing shell 8, the connecting plates 10 are embedded on the inner side surface of the support frame 1, the first mounting, a second mounting shaft 11 is embedded in the rear side of the blowing shell 8, a movable plate 14 is arranged above the second mounting shaft 11, the movable plate 14 is located inside the connecting plate 10, a low-speed motor 12 is fixed on the rear side surface of the connecting plate 10 through bolts, and an output shaft 13 is mounted on the front side of the low-speed motor 12;

a water inlet 301 is formed above the water storage chamber 3, a water outlet 302 is formed in the lower left of the water storage chamber 3, an integrated structure is formed between the water storage chamber 3 and the support frame 1, and the structure design can purify and cool the subsequent gas through the water storage chamber 3, so that the subsequent cooling effect of the device is improved;

the fan blades 601 are embedded on the surface of the movable shaft 6, the movable shaft 6 is connected with the mounting plate 5 through a bearing, the movable shaft 6 is arranged in bilateral symmetry with the center line of the mounting plate 5, and the fan blades 601 can be blown by gas to rotate through the structural design, so that liquid in the water storage chamber 3 is stirred, and the dissolving rate of subsequent impurities is improved;

the blowing shell 8, the first mounting shaft 9 and the second mounting shaft 11 form an integrated structure, the center line of the first mounting shaft 9 and the center line of the second mounting shaft 11 are overlapped, and a rotating structure is formed between the first mounting shaft 9 and the connecting plate 10;

the surface of the second mounting shaft 11 is embedded with a first connecting gear 1101, the first connecting gear 1101 is in meshed connection with the movable plate 14, and a left-right sliding structure is formed between the movable plate 14 and the connecting plate 10, the structural design can drive the second mounting shaft 11 to rotate through the rotation of the subsequent first connecting gear 1101, so as to drive the blowing shell 8 to rotate;

the surface of the output shaft 13 is inlaid with a second connecting gear 1301, the second connecting gear 1301 and the first connecting gear 1101 form a meshing connection, the second connecting gear 1301 and the movable plate 14 form a meshing connection, and the structural design can drive the first connecting gear 1101 to rotate through the rotation of the second connecting gear 1301 so as to provide a power source for the first connecting gear 1101.

The working principle is as follows: when the air-cooled glass is used for producing the high-temperature cooling device, firstly, as shown in figure 1, glass to be cooled is transmitted through the conveying mechanism 2, and is cooled through the air blowing shell 8 when passing through the lower part of the air blowing shell 8, before the device is used, a proper amount of water is firstly added into the water storage chamber 3 through the water inlet 301, then the water inlet 301 is sealed, the fan 4 can be started during cooling to pump air into the water storage chamber 3, so that impurities in the air are dissolved in the water body, meanwhile, the air can be cooled and humidified through the water body, the subsequent cooling effect is improved, as shown in figure 2, simultaneously, the fan blades 601 are driven to rotate through the movable shaft 6 during air blowing, the liquid in the water storage chamber 3 is stirred, the subsequent dust is favorably dissolved, and then the air enters the air blowing shell 8 through the air guide hose 7, blowing out through the blowing shell 8;

referring to fig. 2 and 3, the low-speed motor 12 is started to drive the output shaft 13 to rotate, the output shaft 13 drives the second connecting gear 1301 to rotate, the second connecting gear 1301 drives the first connecting gear 1101 to rotate through meshing with the first connecting gear 1101, when the second connecting gear 1301 is disengaged from the meshing with the first connecting gear 1101, the second connecting gear 14 is meshed with the movable plate 14 to drive the movable plate 14 to move, the movable plate 14 drives the first connecting gear 1101 to rotate in the opposite direction, so that the second mounting shaft 11 performs continuous reciprocating motion, the blowing shell 8 is driven to swing in cooperation with the first mounting shaft 9, the blowing area of the blowing shell 8 is increased, and the practicability of the device is improved.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides an air-cooled glass production high temperature cooling device, includes support frame (1), conveying mechanism (2), reservoir chamber (3) and fan (4), its characterized in that: the air-conditioning device is characterized in that a conveying mechanism (2) is arranged on the inner side of the support frame (1), a water storage chamber (3) is arranged above the support frame (1), a fan (4) is fixed on the upper portion of the water storage chamber (3) through a bolt, a mounting plate (5) is inlaid in the water storage chamber (3), a movable shaft (6) penetrates through the mounting plate (5), an air guide hose (7) is inlaid above the water storage chamber (3), an air blowing shell (8) is connected to the lower portion of the air guide hose (7), connecting plates (10) are arranged on the front side and the rear side of the air blowing shell (8), the connecting plates (10) are inlaid on the inner side surface of the support frame (1), a first mounting shaft (9) is inlaid on the front side of the air blowing shell (8), a second mounting shaft (11) is inlaid on the rear side of the air blowing shell (8), and a movable plate (14) is arranged above the second mounting, the movable plate (14) is located inside the connecting plate (10), the rear side surface of the connecting plate (10) is fixed with the low-speed motor (12) through bolts, and the front side of the low-speed motor (12) is provided with the output shaft (13).

2. The air-cooled high-temperature cooling device for glass production according to claim 1, wherein: a water inlet (301) is formed in the upper portion of the water storage chamber (3), a water outlet (302) is formed in the lower left portion of the water storage chamber (3), and an integrated structure is formed between the water storage chamber (3) and the support frame (1).

3. The air-cooled high-temperature cooling device for glass production according to claim 1, wherein: flabellum (601) are inlayed on the surface of loose axle (6), and constitute the bearing connection between loose axle (6) and mounting panel (5), and loose axle (6) are around the central line bilateral symmetry setting of mounting panel (5).

4. The air-cooled high-temperature cooling device for glass production according to claim 1, wherein: blow and all constitute the integral structure between shell (8) and first installation axle (9) and second installation axle (11), and the central line of first installation axle (9) and the central line looks coincidence of second installation axle (11) set up to constitute revolution mechanic between first installation axle (9) and connecting plate (10).

5. The air-cooled high-temperature cooling device for glass production according to claim 1, wherein: the surface of the second mounting shaft (11) is embedded with a first connecting gear (1101), the first connecting gear (1101) and the movable plate (14) form a meshing connection, and the movable plate (14) and the connecting plate (10) form a left-right sliding structure.

6. The air-cooled high-temperature cooling device for glass production according to claim 5, wherein: the surface of the output shaft (13) is embedded with a second connecting gear (1301), the second connecting gear (1301) and the first connecting gear (1101) form meshing connection, and the second connecting gear (1301) and the movable plate (14) form meshing connection.

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