CN214781480U

CN214781480U - Air guide device of toughening furnace for glass production and processing

Info

Publication number: CN214781480U
Application number: CN202120368921.9U
Authority: CN
Inventors: 徐勇; 徐枫
Original assignee: Tianjin Shengshi Lianmeng Energy Saving Glass Technology Co ltd
Current assignee: Tianjin Shengshi Lianmeng Energy Saving Glass Technology Co ltd
Priority date: 2021-02-08
Filing date: 2021-02-08
Publication date: 2021-11-19
Anticipated expiration: 2031-02-08

Abstract

The utility model discloses a glass production and processing is with air ducting of tempering furnace, the air-supply line of air ducting casing, installation air ducting casing left end and the play tuber pipe of installing air ducting casing right-hand member, all install the board that flow equalizes in air-supply line and the air-out, air ducting casing internal rotation is connected with first pivot and second pivot, belt pulley drive transmits the mechanism transmission with the second pivot and is connected, be fixed with a plurality of negative pressure blades through the bracing piece in the second pivot, be fixed with a plurality of dust absorption boards through the connecting rod in the first pivot, the air ducting casing is fixed with the filter screen with the kneck that goes out the tuber pipe. The utility model discloses avoid the dust to exert an influence to glass's production quality, be convenient for adjust the air output, reduced the limitation of using.

Description

Air guide device of toughening furnace for glass production and processing

Technical Field

The utility model relates to a glass production technical field especially relates to a glass production and processing is with air ducting of tempering furnace.

Background

Present air ducting of tempering furnace for glass production and processing can not adsorb the processing to the dust of air intake, can not adjust the air output simultaneously, uses and has the limitation, for this reason, the utility model provides an above-mentioned problem is solved with tempering furnace's air ducting for glass production and processing.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides a glass production and processing is with air ducting of tempering furnace avoids the dust to exert an influence to glass's production quality, is convenient for adjust the air output, has reduced the limitation of using.

(II) technical scheme

The utility model provides a glass production and processing is with air ducting of tempering furnace, the air-supply line of air ducting casing, installation air ducting casing left end and the play tuber pipe of installing air ducting casing right-hand member, all install the board that flow equalizes in air-supply line and the air-out, air ducting casing internal rotation is connected with first pivot and second pivot, belt pulley drive transmits the mechanism transmission with the second pivot and is connected, be fixed with a plurality of negative pressure blades through the bracing piece in the second pivot, be fixed with a plurality of dust absorption boards through the connecting rod in the first pivot, the air ducting casing is fixed with the filter screen with the kneck that goes out the tuber pipe.

In an optional embodiment, a front-back symmetrical U-shaped plate is fixed at the opening of the air outlet pipe, and two baffle plates which are arranged up and down are connected between the two U-shaped plates in a sliding manner.

In an optional embodiment, a second driving motor is fixed on the air outlet pipe, a driving bevel gear is fixed at the output end of the second driving motor, a bearing is fixed on one side of the filter screen through a connecting rod, a bidirectional threaded rod is fixed on the inner ring of the bearing, and a driven bevel gear in meshed connection with the driving bevel gear is fixed at the top end of the bidirectional threaded rod.

In an optional embodiment, moving blocks are symmetrically screwed on the bidirectional threaded rod, L-shaped connecting rods are fixed on the two moving blocks, and the two L-shaped connecting rods penetrate through the U-shaped plate on the rear side and are respectively and fixedly connected with the two baffle plates.

In an optional embodiment, a through groove for the up-and-down movement of the L-shaped connecting rod is formed in the surface of the U-shaped plate on the rear side.

In an optional embodiment, the belt wheel transmission mechanism comprises a driving belt wheel fixedly sleeved on the second rotating shaft and a driven belt wheel fixedly sleeved on the first rotating shaft, and the driving belt wheel and the driven belt wheel are in transmission connection through a belt.

In an optional embodiment, a first driving motor is fixed on the upper surface of the air guiding device casing, and an output end of the first driving motor penetrates through the upper surface of the air guiding device casing and is fixedly connected with the top end of the second rotating shaft.

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

the dust collection plate rotates to disturb the entering airflow and capture dust and pollutants in the airflow at the same time, the airflow filters the dust again through the filter screen, and meanwhile, the dust is uniformly distributed through the flow equalizing plate in the air outlet pipe, so that the influence on the quality of glass is avoided;

the second driving motor is close to or far away from each other, so that the opening of the air outlet pipe is blocked, and the air outlet quantity can be conveniently adjusted.

Drawings

FIG. 1 is a schematic structural view of an air guiding device of a tempering furnace for glass production and processing according to the present invention;

fig. 2 is the utility model provides a side view structure schematic diagram of a second driving motor in the air ducting of tempering furnace for glass production and processing.

In the figure: the air inlet pipe comprises an air inlet pipe 1, a flow equalizing plate 2, a dust collecting plate 3, a belt wheel transmission mechanism 4, a first driving motor 5, a first rotating shaft 6, a second rotating shaft 7, a negative pressure blade 8, a filter screen 9, a second driving motor 10, a U-shaped plate 11, a baffle plate 12, a driving bevel gear 13, a driven bevel gear 14, a bidirectional threaded rod 15, a bearing 16, a moving block 17, an air guiding device shell 18 and an air outlet pipe 19.

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.

As shown in fig. 1-2, the utility model provides an air ducting of tempering furnace for glass production and processing, including air ducting casing 18, install the air-supply line 1 of 18 left ends of air ducting casing and install the play tuber pipe 19 of 18 right-hand members of air ducting casing, all install the flow equalizing plate 2 in air-supply line 1 and the

play tuber pipe

19, 18 internal rotations of air ducting casing are connected with first pivot 6 and second pivot 7, first pivot 6 is connected through the transmission of band pulley drive mechanism 4 with second pivot 7, be fixed with a plurality of negative pressure blades 8 through the bracing piece in the second pivot 7, be fixed with a plurality of dust absorption plates 3 through the connecting rod in the first pivot 6, air ducting casing 18 is fixed with filter screen 9 with the kneck of play tuber pipe 19.

In an alternative embodiment, the opening of the air outlet pipe 19 is fixed with U-shaped plates 11 which are symmetrical front and back, and two baffles 12 which are arranged up and down are connected between the two U-shaped plates 11 in a sliding manner.

In an alternative embodiment, a second driving motor 10 is fixed on the air outlet pipe 19, a driving bevel gear 13 is fixed at the output end of the second driving motor 10, a bearing 16 is fixed at one side of the filter screen 9 through a connecting rod, a bidirectional threaded rod 15 is fixed at the inner ring of the bearing 16, and a driven bevel gear 14 in meshed connection with the driving bevel gear 13 is fixed at the top end of the bidirectional threaded rod 15.

In an optional embodiment, the bidirectional threaded rod 15 is symmetrically screwed with moving blocks 17, L-shaped connecting rods are fixed on both the two moving blocks 17, and both the two L-shaped connecting rods penetrate through the U-shaped plate 11 on the rear side and are respectively fixedly connected with the two baffle plates 12.

In an alternative embodiment, a through groove for the L-shaped connecting rod to move up and down is formed on the surface of the U-shaped plate 11 on the rear side.

In an alternative embodiment, the pulley transmission mechanism 4 includes a driving pulley fixedly sleeved on the second rotating shaft 7, and further includes a driven pulley fixedly sleeved on the first rotating shaft 6, and the driving pulley and the driven pulley are in transmission connection through a belt.

In an alternative embodiment, the first driving motor 5 is fixed on the upper surface of the air guiding device housing 18, and the output end of the first driving motor 5 penetrates through the upper surface of the air guiding device housing 18 and is fixedly connected with the top end of the second rotating shaft 7.

The working principle is as follows: the air guide device of the existing tempering furnace for glass production and processing cannot adsorb dust at an air inlet and cannot adjust air output at the same time, and has limitation in use, in the embodiment, the air guide device works after being powered on by a first driving motor 5, so that a second rotating shaft 7 rotates to drive a negative pressure blade 8 to rotate, so that gas is discharged from an air inlet pipe 1 and an air outlet pipe 19, in the rotating process of the second rotating shaft 7, a first rotating shaft 6 rotates through a belt wheel transmission mechanism 4, so that a dust collection plate 3 rotates, dust and pollutants in air flow are captured while entering air flow is disturbed, the air flow is filtered again through a filter screen 9, and meanwhile, the air flow is evenly distributed through a flow equalizing plate 2 in the air outlet pipe 19, so that the influence on the quality of glass is avoided;

secondly, the second driving motor 10 works to drive the driving bevel gear 13 to rotate, so that the driven bevel gear 14 rotates, the driven bevel gear 14 drives the bidirectional threaded rod 15 to rotate, the moving block 17 drives the second driving motor 10 to mutually approach or keep away from under the action of the L-shaped connecting rod, the opening of the air outlet pipe 19 is blocked, and the air outlet quantity can be conveniently adjusted.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. An air guide device of a toughening furnace for glass production and processing is characterized by comprising an air guide device shell (18), an air inlet pipe (1) and an air outlet pipe (19), wherein the air inlet pipe (1) is used for installing the left end of the air guide device shell (18), the air outlet pipe (19) is used for installing the right end of the air guide device shell (18), flow equalizing plates (2) are respectively arranged in the air inlet pipe (1) and the air outlet pipe (19), a first rotating shaft (6) and a second rotating shaft (7) are rotationally connected in the air guide device shell (18), the first rotating shaft (6) is in transmission connection with the second rotating shaft (7) through a belt wheel transmission mechanism (4), a plurality of negative pressure blades (8) are fixed on the second rotating shaft (7) through a supporting rod, a plurality of dust collecting plates (3) are fixed on the first rotating shaft (6) through connecting rods, and a filter screen (9) is fixed at the interface of the air guide device shell (18) and the air outlet pipe (19).

2. The air guide device of the tempering furnace for glass production and processing as claimed in claim 1, wherein a U-shaped plate (11) which is symmetrical in front and back is fixed at the opening of the air outlet pipe (19), and two baffles (12) which are arranged up and down are connected between the two U-shaped plates (11) in a sliding manner.

3. The air guide device of the tempering furnace for glass production and processing as claimed in claim 2, wherein a second driving motor (10) is fixed on the air outlet pipe (19), a driving bevel gear (13) is fixed at an output end of the second driving motor (10), a bearing (16) is fixed at one side of the filter screen (9) through a connecting rod, a bidirectional threaded rod (15) is fixed at an inner ring of the bearing (16), and a driven bevel gear (14) meshed with the driving bevel gear (13) is fixed at a top end of the bidirectional threaded rod (15).

4. The air guide device of the tempering furnace for glass production and processing as claimed in claim 3, wherein moving blocks (17) are symmetrically and spirally connected to said bidirectional threaded rod (15), L-shaped connecting rods are fixed to both of said moving blocks (17), both of said L-shaped connecting rods pass through said U-shaped plate (11) at the rear side and are respectively and fixedly connected to both of said baffles (12).

5. The air guide device of the tempering furnace for glass production and processing as claimed in claim 4, wherein a through groove for the L-shaped connecting rod to move up and down is formed on the surface of said U-shaped plate (11) positioned at the rear side.

6. The air guide device of the tempering furnace for glass production and processing as claimed in claim 1, wherein the pulley transmission mechanism (4) comprises a driving pulley fixedly sleeved on the second rotating shaft (7) and further comprises a driven pulley fixedly sleeved on the first rotating shaft (6), and the driving pulley and the driven pulley are in transmission connection through a belt.

7. The air guide device of the tempering furnace for glass production and processing as claimed in claim 6, wherein a first driving motor (5) is fixed on the upper surface of the air guide device shell (18), and the output end of the first driving motor (5) penetrates through the upper surface of the air guide device shell (18) and is fixedly connected with the top end of the second rotating shaft (7).