CN210048192U

CN210048192U - Cold-end cullet tunnel dust collecting system

Info

Publication number: CN210048192U
Application number: CN201920721726.2U
Authority: CN
Inventors: 舒尚武; 蔡兴华
Original assignee: Honghu Changli Glass Co Ltd
Current assignee: Honghu Changli Glass Co Ltd
Priority date: 2019-05-20
Filing date: 2019-05-20
Publication date: 2020-02-11
Anticipated expiration: 2029-05-20

Abstract

The utility model relates to a cold junction cullet gallery dust collecting system, its difference lies in: the glass sheet separating and falling device comprises a glass sheet separating and falling device; the crusher is arranged at the tail end of the glass sheet separating and falling device; the tunnel is arranged below the ground, and an opening is formed in the position of the tunnel, which corresponds to the glass slicing and falling plate device and the crusher; the cullet conveyor is arranged in the tunnel; the funnel-shaped glass bin is arranged in the tunnel, an opening at the upper end of the funnel-shaped glass bin extends to the opening, and an opening at the lower end of the funnel-shaped glass bin extends to be close to the upper end of the cullet conveyor; the dust removal device comprises a dust remover and two dust collection air pipes connected to the dust remover, wherein the head end opening of one dust collection air pipe is arranged close to the lower end opening of the glass bin, and the head end opening of the other dust collection air pipe is arranged close to the crusher; and the barrier curtain is vertically arranged in the tunnel. The utility model is not only simple in structure, improved the dust collection and dust removal efficiency in broken glass of glass cold junction production and the transportation moreover.

Description

Cold-end cullet tunnel dust collecting system

Technical Field

The utility model belongs to the technical field of glass manufacturing and specifically relates to a garrulous glass gallery dust collecting system of cold junction.

Background

At present, a plurality of domestic glass production line processes are arranged into a one-layer scheme, cold end plate falling, edge breaking and cullet processing and conveying are all arranged in the same layer of space, and the cold end plate falling, edge breaking and cullet breaking and conveying links of a glass production line can all generate large glass dust. Along with the improvement of requirements of people, glass products and equipment on production clean environment, some glass production lines use dust-free workshops for ensuring clean production environment, but the dust-free workshops are high in manufacturing cost and high in running cost. Therefore, how to improve the dust collecting and dust removing efficiency with less investment and running cost is an important subject of the environment-friendly work of cold-end glass production.

Disclosure of Invention

An object of the utility model is to overcome prior art's shortcoming, provide a cold junction cullet gallery dust collecting system, not only simple structure has improved the dust collection and dust removal efficiency in broken and the transportation of glass cold junction production damaged glass moreover.

For solving the above technical problem, the technical scheme of the utility model is that: cold junction cullet gallery dust collecting system, its difference lies in:

the glass sheet separating and falling device comprises a glass sheet separating and falling device;

the crusher is arranged at the tail end of the glass sheet separating and falling device;

the tunnel is arranged below the ground, and an opening is formed in the position of the tunnel, which corresponds to the glass sheet separating and falling device and the crusher;

the cullet conveyor is arranged in the tunnel;

the funnel-shaped glass bin is arranged in the tunnel, an opening at the upper end of the funnel-shaped glass bin extends to the opening, and an opening at the lower end of the funnel-shaped glass bin extends to be close to the upper end of the cullet conveyor;

the dust removal device comprises a dust remover and two dust collection air pipes connected to the dust remover, wherein the head end opening of one dust collection air pipe is arranged close to the lower end opening of the glass bin, and the head end opening of the other dust collection air pipe is arranged close to the crusher; and

and the edge of the barrier curtain is fixed with the tunnel so as to surround the dust removal device and the glass bin in a space surrounded by the dust removal device and the tunnel.

According to the technical scheme, the crusher comprises a first shell fixed on the bottom surface of the tunnel, a first feeding hole, a first discharging hole and a first dust suction hole are formed in the first shell, the first feeding hole is in butt joint with the glass sheet falling device, the first discharging hole is located above an opening at the upper end of the glass bin, and the first dust suction hole is connected with the dust suction air pipe.

According to the technical scheme, the bottom surface of the tunnel is constructed into a horizontal plane, and the cullet conveyor is fixed on the bottom surface of the tunnel.

According to the technical scheme, the dust removal device further comprises a fan and an outer exhaust pipe, the dust remover, the fan and the outer exhaust pipe are sequentially connected, and the outer exhaust pipe extends out of the tunnel.

According to the technical scheme, a first through hole suitable for the dust collection air pipe to penetrate through and a second through hole suitable for the outer air exhaust pipe to penetrate through are formed in the ground.

According to the technical scheme, the baffle curtain is provided with an opening through which the cullet conveyor can pass.

According to the technical scheme, the system further comprises a feeding machine, and the feeding machine is arranged at the lower end opening of the glass bin.

According to the technical scheme, the batcher has the second shell that is fixed in the gallery, second feed inlet, second discharge gate and second dust absorption mouth have been seted up on the second shell, the second feed inlet with the lower extreme opening in glass storehouse is fixed, the second discharge gate is seted up down and is close to the garrulous glass conveyer setting, the second dust absorption mouth is located one side top of second discharge gate and with the dust absorption tuber pipe is connected.

According to the technical scheme, the lower end of the feeding machine is provided with a box-shaped dust cover, the lower end of the dust cover is close to the cullet conveyor, the end face of the lower end of the dust cover is constructed into an opening face, and the upper end of the dust cover is provided with an inlet communicated with the second discharge hole.

According to the technical scheme, the dust cover is symmetrically provided with the position-giving openings along two ends of the conveying direction of the glass conveyor.

Contrast prior art, the beneficial characteristics of the utility model are that: this cold junction cullet gallery dust collecting system, broken glass fall into the gallery through the glass storehouse in to transport through the cullet conveyer in the gallery, not only avoided producing subaerial raise dust appearing, utilize the easy sealed characteristics of gallery and dust collector during operation to be in little negative pressure state in the gallery in addition, glass dust is excessive when reducing or even having eliminated cold junction production, simple structure not only, with low costs, improved dust collection and removal efficiency moreover, make the production environment cleaner.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the feeder structure in the embodiment of the present invention;

wherein: 1-glass sheet falling device, 2-crusher (201-first shell, 202-first feeding hole, 203-first discharging hole, 204-first dust suction hole), 3-tunnel (301-bottom surface of tunnel), 4-cullet transporter (x-cullet transporter transporting direction), 5-glass bin (501-upper opening of glass bin, 502-lower opening of glass bin), 6-dust remover (601-dust remover, 602-first dust suction air pipe, 603-second dust suction air pipe, 604-fan, 605-outer exhaust air pipe), 7-baffle curtain (701-opening), 8-ground, 9-opening (901-opening inner wall), 10-cover plate (1001-cullet inlet), 11-first through hole, 11-cullet inlet, 12-a second through hole, 13-a feeder (1301-a second shell, 1302-a second feeding hole, 1303-a second discharging hole, 1304-a second dust suction hole) and 14-a dust cover (1401-a position-giving hole).

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a cold-end cullet tunnel dust collecting system according to an embodiment of the present invention includes a glass fragment plate dropping device 1, a crusher 2, a tunnel 3, a cullet conveyor 4, a glass bin 5, a dust removing device 6, and a barrier curtain 7. The crusher 2 is arranged at the tail end of the glass sheet separating and falling device 1 and is used for bearing and crushing damaged glass. The tunnel 3 is arranged below the ground 8, and an opening 9 is formed in the position, corresponding to the glass sheet falling device 1 and the crusher 2, of the tunnel 3. The cullet conveyor 4 is arranged in the tunnel 3. The glass bin 5 is arranged in the tunnel 3, the glass bin 5 is of a funnel-shaped structure with a large upper part and a small lower part, an opening 501 at the upper end of the glass bin extends to the opening 9 and is fixedly sealed with the inner wall 901 of the opening, and an opening 502 at the lower end of the glass bin extends to be close to the upper end of the cullet conveyor 4. The dust removing device 6 comprises a dust remover 601 and dust-collecting air pipes connected to the dust remover 601, the number of the dust-collecting air pipes is two, namely a first dust-collecting air pipe 602 and a second dust-collecting air pipe 603, the opening at the head end of the first dust-collecting air pipe 602 is close to the crusher 2, and the opening at the head end of the second dust-collecting air pipe 603 is close to the lower opening 502 of the glass bin. The blocking curtain 7 is vertically arranged in the tunnel 3, the edge of the blocking curtain 7 is fixed with the tunnel 3 so as to surround the dust removal device 6 and the glass bin 5 in a space surrounded by the glass bin 5 and the tunnel 3, and when the dust removal device 6 works, the space surrounded by the tunnel 3 and the blocking curtain 7 is in a micro negative pressure state, so that glass dust overflow during cold end production is reduced or even eliminated.

Specifically, the crusher 2 includes a first housing 201 fixed on the tunnel bottom surface 301, the first housing 201 is provided with a first feeding hole 202, a first discharging hole 203, and a first dust suction hole 204, the first feeding hole 202 is in butt joint with the glass sheet dropping device 1, the first discharging hole 202 is located above the opening 501 at the upper end of the glass bin, and the first dust suction hole 204 is connected with a first dust suction duct 602.

Specifically, in order to ensure that the dust remover works, a micro negative pressure state can be formed in the tunnel 3, a cover plate 10 is arranged at an opening 501 at the upper end of the glass bin, and a cullet inlet 1001 is formed in a position, corresponding to the crusher 2, of the cover plate 10.

Specifically, the bottom surface 301 of the tunnel is configured as a horizontal surface, and the cullet conveyor 4 is fixed to the bottom surface 301 of the tunnel.

Specifically, the dust removing device 6 further comprises a fan 604 and an outer air exhaust pipe 605, the dust collecting air pipe, the dust remover 601, the fan 604 and the outer air exhaust pipe 605 are sequentially connected, and the outer air exhaust pipe 605 extends out of the tunnel 3. The ground 8 is provided with a first through hole 11 for the first dust suction duct 602 to pass through and a second through hole 12 for the outer exhaust duct 605 to pass through. In order to ensure that a micro-negative pressure state can be formed in the tunnel 3 when the dust remover 601 works, a sealing structure is arranged between the outer wall of the first dust suction duct 602 and the inner wall of the first through hole 11, and a sealing structure is arranged between the outer wall of the outer exhaust duct 605 and the inner wall of the second through hole 12.

Specifically, in order to avoid interference with the transportation of the cullet, the barrier curtain 7 is provided with an opening 701 through which the cullet conveyor 4 passes.

Preferably, in order to avoid that cullet falls directly from the glass silo 5 onto the cullet conveyor 4, the system further comprises a feeder 13, the feeder 13 being provided at the lower end opening 502 of the glass silo. Specifically, the feeding machine 13 is provided with a second casing 1301 fixed in the tunnel 3, the second casing 1301 is provided with a second feeding hole 1302, a second discharging hole 1303 and a second dust suction hole 1304, the second feeding hole 1302 is fixed with the lower end opening 502 of the glass bin, the second discharging hole 1303 is downward provided and is close to the cullet conveyor 4, and the second dust suction hole 1304 is located above one side of the second discharging hole 1303 and is connected with the second dust suction air pipe 603. More preferably, in order to sufficiently avoid the generation of the dust, the lower end of the feeder 13 is provided with a box-shaped dust cover 14, the lower end of the dust cover 14 is disposed near the cullet conveyor 4, and the lower end face of the dust cover 14 is configured as an open face located right above the cullet conveyor 4, and the upper end of the dust cover 14 is opened with an inlet communicated with the second discharge port 1303. In order to avoid interfering with the transportation of the glass cullet, abdicating openings 1401 are symmetrically formed at two ends of the dust cover 14 along the transportation direction x of the glass transporter.

The embodiment of the utility model provides a cold junction cullet gallery dust collecting system, damaged glass is through 2 broken backs on the glass burst board device that falls, glass after the breakage falls to cullet conveyer 4 in gallery 3 through glass storehouse 5 and batcher 13 on, cullet conveyer 4 in the rethread gallery 3 transports to next process station department, raise dust appears more than ground 8 in the production process not only, and utilize in 3 easy sealed characteristics of gallery and the 6 during operation galleries of dust collector 3 in be in little negative pressure state, glass dust is excessive when reducing or even having eliminated the cold junction production, simple structure not only, and is with low costs, and dust collecting and dust removing efficiency has been improved, make production environment and undamaged glass cleaner.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and it is not to be understood that the specific embodiments of the present invention are limited to these descriptions. To the utility model belongs to the technical field of the ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims

1. Cold junction cullet gallery dust collecting system, its characterized in that:

the cullet conveyor is arranged in the tunnel;

2. The cold end cullet tunnel dust collection system of claim 1, wherein: the crusher comprises a first shell fixed on the bottom surface of the tunnel, a first feeding hole, a first discharging hole and a first dust suction hole are formed in the first shell, the first feeding hole is in butt joint with the glass fragment plate falling device, the first discharging hole is located above an opening in the upper end of the glass bin, and the first dust suction hole is connected with the dust suction air pipe.

3. The cold end cullet tunnel dust collection system of claim 1, wherein: the bottom surface of the tunnel on which the cullet conveyor is fixed is configured as a horizontal plane.

4. The cold end cullet tunnel dust collection system of claim 1, wherein: the dust removal device further comprises a fan and an outer exhaust pipe, the dust remover, the fan and the outer exhaust pipe are sequentially connected, and the outer exhaust pipe extends out of the tunnel.

5. The cold end cullet tunnel dust collection system of claim 4, wherein: and a first through hole suitable for the dust collection air pipe to pass through and a second through hole suitable for the outer air exhaust pipe to pass through are formed in the ground.

6. The cold end cullet tunnel dust collection system of claim 1, wherein: the baffle curtain is provided with an opening suitable for the cullet conveyor to pass through.

7. The cold end cullet tunnel dust collection system of claim 1, wherein: the system further comprises a feeding machine, wherein the feeding machine is arranged at the lower end opening of the glass bin.

8. The cold end cullet tunnel dust collection system of claim 7, wherein: the feeding machine is provided with a second shell fixed in the tunnel, a second feeding hole, a second discharging hole and a second dust collection hole are formed in the second shell, the second feeding hole is fixed with the lower end opening of the glass bin, the second discharging hole is formed downwards and is close to the cullet conveyor, and the second dust collection hole is located above one side of the second discharging hole and is connected with the dust collection air pipe.

9. The cold end cullet tunnel dust collection system of claim 8, wherein: the lower end of the feeder is provided with a box-shaped dust cover, the lower end of the dust cover is close to the cullet conveyor, the end face of the lower end of the dust cover is constructed into an open face, and the upper end of the dust cover is provided with an inlet communicated with the second discharge hole.

10. The cold end cullet tunnel dust collection system of claim 9, wherein: and the dust cover is symmetrically provided with a position-giving opening along two ends of the conveying direction of the glass conveyor.