CN212511988U - Bearing steel pipe cooling device - Google Patents

Abstract

The utility model discloses a bearing steel pipe cooling device; the cooling device comprises a support column, a cooling device platform, a main transmission shaft, a secondary transmission shaft, a cooling conveying mesh belt and a bearing steel pipe support unit; the cooling conveying net belt is arranged on the main transmission shaft and the driven transmission shaft and driven by the external transmission motor to move; the interior of the upper box body is divided into a blowing area, a water spraying cooling area and a spraying cooling area; the bearing steel pipe body is arranged on the bearing steel pipe supporting unit and is driven by the cooling conveying mesh belt to slowly pass through the blowing area, the water spraying cooling area and the spraying cooling area from right to left. Compared with the traditional cooling mode, the device can realize continuous cooling operation and improve the overall efficiency. Meanwhile, in the cooling process, the fan on the upper box body is started, and hot air is pumped out from inside to outside.

Description

Bearing steel pipe cooling device

Technical Field

The utility model relates to a bearing steel pipe cooling field, what specifically say relates to is a bearing steel pipe cooling device.

Background

The bearing steel pipe generally needs cooling treatment when the production and processing to make the bearing steel pipe cooling, improve bearing steel pipe hardness, the subsequent processing of being convenient for, traditional bearing steel pipe cooling method generally is that the mode that the cooling bath soaked cools off. In addition, through the retrieval discovery, application number CN 201820200070.5's utility model discloses a bearing steel pipe drawing processing water smoke cooling preheats and utilizes device, comprises a workbench, the equal fixedly connected with bracing piece in both sides at workstation top, the inboard fixedly connected with spray plate of bracing piece. The utility model discloses a set up workstation, loading board, first logical groove, the second leads to groove, drain pipe, support column, oral siphon, bracing piece, connecting pipe, atomizer, recess, steel pipe body, spout the cooperation of board, solenoid valve, filter screen, notch, dead lever, refrigerator, fixed block, water pump, support frame, backup pad and output tube and use. In addition, for the traditional bearing steel pipe cooling tank, the bearing steel pipe is cooled by placing the high-temperature bearing steel pipe in the cooling tank, and the bearing steel pipe cooling device needs to manually place and salvage the bearing steel pipe, so that the use is very inconvenient; and the traditional mode is inconvenient for continuous operation, and has small cooling treatment capacity and low efficiency.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned deficiencies, the present invention provides a bearing steel pipe cooling device; compared with the traditional cooling mode, the device can realize continuous cooling operation and improve the overall efficiency. Meanwhile, in the cooling process, the fan on the upper box body is started, and hot air is pumped out from inside to outside.

The utility model is realized in such a way, a bearing steel pipe cooling device is constructed, and the cooling device comprises a support column, a cooling device platform, a main transmission shaft, a secondary transmission shaft, a cooling conveying mesh belt and a bearing steel pipe support unit; the cooling conveying mesh belt is arranged on the main transmission shaft and the driven transmission shaft and driven by the external transmission motor to move; the cooling conveying net belt transversely passes through the upper box body; the interior of the upper box body is divided into a blowing area, a water spraying cooling area and a spraying cooling area; the bearing steel pipe body is arranged on the bearing steel pipe supporting unit and is driven by the cooling conveying mesh belt to slowly pass through the blowing area, the water spraying cooling area and the spraying cooling area from right to left.

Optimally, a plurality of groups of high-pressure blowing nozzles are arranged in the blowing area, and the high-pressure blowing nozzles are positioned at the top of the upper box body; a plurality of groups of cooling water spray heads are arranged in the water spray cooling area and are positioned at the top of the upper box body; a plurality of groups of upper mist-shaped spray heads and lower mist-shaped spray heads are arranged in the spray cooling area, and the upper mist-shaped spray heads are positioned at the top of the upper box body; the lower mist spray nozzle is positioned in the cooling conveying mesh belt and is supported by the inner wall below the upper box body.

Optimally, a plurality of barrier strips for preventing the bearing steel pipe supporting unit from moving are fixed on the surface of the cooling conveying mesh belt; the cooling conveying mesh belt is a stainless steel mesh belt, and is provided with through holes with the aperture of 1-3 cm.

Preferably, the bearing steel pipe supporting unit is integrally net-shaped, the inner part of the bearing steel pipe supporting unit is a cavity, and the upper part of the bearing steel pipe supporting unit is concave.

Preferably, a cooling water collecting hopper groove is arranged in the water spray cooling area, the cooling water collecting hopper groove is integrally arranged in an inclined mode, the outer portion of the cooling water collecting hopper groove extends out of the upper box body, and a cooling water collecting box is arranged below the cooling water collecting hopper groove.

Optimally, a plurality of groups of fans which draw air outwards are arranged on the upper box body.

The utility model has the advantages that: the utility model provides a bearing steel pipe cooling device through improving, as shown in figures 1-5, has the following improvements and advantages;

the cooling device comprises a support column, a cooling device platform, a main transmission shaft, a secondary transmission shaft, a cooling conveying mesh belt and a bearing steel pipe supporting unit; the cooling conveying mesh belt is arranged on the main transmission shaft and the driven transmission shaft and driven by the external transmission motor to move; the cooling conveying net belt transversely passes through the upper box body; the interior of the upper box body is divided into a blowing area, a water spraying cooling area and a spraying cooling area; the bearing steel pipe body is arranged on the bearing steel pipe supporting unit and is driven by the cooling conveying mesh belt to slowly pass through the blowing area, the water spraying cooling area and the spraying cooling area from right to left. The utility model is operated; the bearing steel pipe supporting unit is arranged on the cooling conveying mesh belt (specifically clamped between the barrier strips), a bearing steel pipe body to be cooled is arranged on the bearing steel pipe supporting unit (specifically arranged in the concave area), and then the cooling conveying mesh belt is started to control the cooling conveying mesh belt to run, wherein the cooling conveying mesh belt is arranged on the main transmission shaft and the auxiliary transmission shaft and is driven by an external transmission motor to slowly move from right to left; sequentially passing through a purging zone, a water spray cooling zone and a spray cooling zone; wherein, when the air passes through the blowing zone, the air is blown by a plurality of groups of high-pressure blowing nozzles at the top of the upper box body; on one hand, the bearing steel pipe can be initially cooled, and on the other hand, slag on the surface of the bearing steel pipe body can be removed; when the cooling water passes through the water spraying cooling zone, the cooling water spraying head is opened to spray and cool the bearing steel pipe body, and the cooled water is collected to the cooling water collecting tank through the cooling water collecting hopper groove; when passing through the spray cooling zone, an upper fog-shaped spray head and a lower fog-shaped spray head are simultaneously opened, and the bearing steel pipe body is simultaneously cooled by fog from the upper part and the lower part; and the bearing steel pipe body is taken down after being output to the upper box body. Compared with the traditional cooling mode, the device can realize continuous operation and has high efficiency. Meanwhile, in the cooling process, the fan on the upper box body is started, and hot air is pumped out from inside to outside.

2, when the device is implemented, a plurality of groups of high-pressure air blowing nozzles are arranged in the blowing area (the high-pressure air blowing nozzles are communicated with external air blowing equipment through hoses), and the high-pressure air blowing nozzles are positioned at the top of the upper box body; a plurality of groups of cooling water spray heads (the cooling water spray heads are communicated with external spray control equipment through hoses) are arranged in the water spray cooling area and are positioned at the top of the upper box body; a plurality of groups of upper mist-shaped spray heads and lower mist-shaped spray heads are arranged in the spray cooling area (the upper mist-shaped spray heads and the lower mist-shaped spray heads are respectively communicated with an external water vapor mist source through hoses), and the upper mist-shaped spray heads are positioned at the top of the upper box body; the lower mist spray nozzle is positioned in the cooling conveying mesh belt and is supported by the inner wall below the upper box body. When the bearing steel pipe body transmission device is implemented, a corresponding sensing assembly can be arranged in the upper box body and used for detecting whether the bearing steel pipe body is transmitted in place or not.

3, a plurality of barrier strips for preventing the bearing steel pipe supporting unit from moving are fixed on the surface of the cooling conveying mesh belt; the cooling conveying mesh belt is a stainless steel mesh belt, and is provided with through holes with the aperture of 1-3 cm; the steel pipe is cooled by cold air or mist.

And 4, the bearing steel pipe supporting unit is integrally netted (cooling water flows down conveniently and mist penetrates conveniently), the inside of the bearing steel pipe supporting unit is a cavity, and the upper part of the bearing steel pipe supporting unit is concave.

And 5, a cooling water collecting hopper groove is arranged in the water spray cooling area, the cooling water collecting hopper groove is integrally arranged in an inclined mode, the outer portion of the cooling water collecting hopper groove extends out of the upper box body, and a cooling water collecting box is arranged below the cooling water collecting hopper groove.

6, a plurality of groups of fans which draw air outwards are arranged on the upper box body; in the cooling process, a fan on the upper box body is started, and hot air is pumped out from inside to outside.

Drawings

FIG. 1 is a schematic view of the overall internal structure of the cooling device of the present invention;

FIG. 2 is a schematic view of the overall external structure of the cooling device of the present invention;

FIG. 3 is a schematic view of a cooling belt conveyor of the present invention;

fig. 4-5 are schematic views of the support unit of the middle bearing steel tube of the present invention.

Wherein: the cooling device comprises a support column 1, a cooling device platform 2, a main transmission shaft 3, a driven transmission shaft 4, a cooling conveying mesh belt 5, a bearing steel pipe support unit 6, a barrier strip 7, a through hole 8, an upper box body 9, a purging area 10, a water spray cooling area 11, a spray cooling area 12, a bearing steel pipe body 13, a high-pressure air blowing nozzle 14, a cooling water spray nozzle 15, an upper mist spray nozzle 16, a lower mist spray nozzle 17, a concave shape 18, a cooling water collecting hopper groove 19, a cooling water collecting box 20 and a fan 21.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, 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.

The examples are as follows; the utility model provides a bearing steel pipe cooling device through the improvement, as shown in figures 1-5, can be implemented as follows; the cooling device comprises a support column 1, a cooling device platform 2, a main transmission shaft 3, a secondary transmission shaft 4, a cooling conveying mesh belt 5 and a bearing steel pipe support unit 6; the cooling device comprises a support column 1, a cooling device platform 2, a main transmission shaft 3, a driven transmission shaft 4, an upper box body 9, a cooling conveying mesh belt 5, a cooling conveying mesh belt and a cooling conveying mesh belt, wherein the support column 1 and the cooling device platform 2 are welded into a whole, the main transmission shaft 3 and the driven transmission shaft 4 are respectively installed at the upper end of the cooling device platform 2, the upper end of the cooling device platform 2 is fixedly provided with the upper box body 9, the main transmission shaft 3 is; the cooling conveying mesh belt 5 transversely penetrates through the upper box body 9; the interior of the upper box body 9 is divided into a purging area 10, a water spray cooling area 11 and a spray cooling area 12; the bearing steel pipe body 13 is arranged on the bearing steel pipe supporting unit 6 and is driven by the cooling conveying mesh belt 5 to slowly pass through the blowing area 10, the water spraying cooling area 11 and the spraying cooling area 12 from right to left.

During implementation, a plurality of groups of high-pressure air blowing nozzles 14 are arranged in the blowing area 10 (the high-pressure air blowing nozzles 14 are communicated with external air blowing equipment through hoses), and the high-pressure air blowing nozzles 14 are positioned at the top of the upper box body 9; a plurality of groups of cooling water spray heads 15 (the cooling water spray heads 15 are communicated with external spray control equipment through hoses) are arranged in the water spray cooling area 11 and are positioned at the top of the upper box body 9; a plurality of groups of upper mist spray heads 16 and lower mist spray heads 17 are arranged in the spray cooling area 12 (the upper mist spray heads 16 and the lower mist spray heads 17 are respectively communicated with an external water vapor mist source through hoses), and the upper mist spray heads 16 are positioned at the top of the upper box body 9; the lower fog-like spray head 17 is positioned in the cooling conveyer belt 5 and supported by the lower inner wall of the upper box 9. When the bearing steel pipe body 13 is implemented, a corresponding sensing assembly can be arranged in the upper box body 9 and used for detecting whether the bearing steel pipe body is transmitted in place or not.

When in implementation, a plurality of barrier strips 7 for preventing the bearing steel pipe supporting unit 6 from moving are fixed on the surface of the cooling conveying mesh belt 5; the cooling conveying mesh belt 5 is a stainless steel mesh belt, and is provided with through holes 8 with the aperture of 1-3cm, so that cold air or mist can conveniently permeate to cool the steel pipe.

In implementation, the bearing steel pipe support unit 6 is entirely in a net shape (which is convenient for cooling water to flow down and mist to penetrate), and has a hollow interior and a concave upper portion 18.

In the implementation, a cooling water collecting hopper groove 19 is arranged in the water spray cooling area 11, the cooling water collecting hopper groove 19 is integrally arranged in an inclined manner, the outer part of the cooling water collecting hopper groove 19 extends out of the upper box body 9, and a cooling water collecting box 20 is arranged below the cooling water collecting hopper groove 19.

When in use, a plurality of groups of fans 21 which draw air outwards are arranged on the upper box body 9. In the cooling process, the fan 21 on the upper box body 9 is started to draw out hot air from inside to outside.

The utility model is operated; the bearing steel pipe supporting unit 6 is arranged on the cooling conveying mesh belt 5 (specifically clamped between the barrier strips 7), the bearing steel pipe body 13 to be cooled is arranged on the bearing steel pipe supporting unit 6 (specifically arranged in the concave 18 area), and then the cooling conveying mesh belt 5 is started and controlled to run, wherein the cooling conveying mesh belt 5 is arranged on the main transmission shaft 3 and the auxiliary transmission shaft 4 and is driven by an external transmission motor to slowly move from right to left; the method comprises the following steps of sequentially passing a purging zone 10, a water spraying cooling zone 11 and a spraying cooling zone 12; wherein, when passing through the blowing area 10, the air is blown by a plurality of groups of high-pressure blowing nozzles 14 at the top of the upper box body 9; on one hand, the bearing steel pipe body 13 can be initially cooled, and on the other hand, slag on the surface of the bearing steel pipe body 13 can be removed; when the bearing steel pipe passes through the water spray cooling area 11, the cooling water spray header 1 is opened to spray and cool the bearing steel pipe body 13, and the cooled water is collected to the cooling water collection tank 20 through the cooling water collection hopper groove 19; when passing through the spray cooling area 12, the upper fog-shaped spray nozzle 16 and the lower fog-shaped spray nozzle 17 are opened simultaneously, and the bearing steel pipe body 13 is cooled by fog from the upper part and the lower part simultaneously; the bearing steel pipe body 13 is taken down after being output from the upper box 9. Compared with the traditional cooling mode, the device can realize continuous operation and has high efficiency. Meanwhile, in the cooling process, the fan 21 on the upper box body 9 is started, and hot air is pumped out from inside to outside.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a bearing steel pipe cooling device which characterized in that: the cooling device comprises a support column (1), a cooling device platform (2), a main transmission shaft (3), a secondary transmission shaft (4), a cooling conveying mesh belt (5) and a bearing steel pipe support unit (6); the cooling device comprises a support column (1), a cooling device platform (2), a main transmission shaft (3) and a driven transmission shaft (4), wherein the support column (1) and the cooling device platform (2) are welded into a whole, the main transmission shaft (3) and the driven transmission shaft (4) are respectively installed at the upper end of the cooling device platform (2), an upper box body (9) is fixedly arranged at the upper end of the cooling device platform (2), the main transmission shaft (3) is connected with an external transmission motor, and a cooling conveying mesh belt (5) is arranged on the main transmission shaft (3) and the driven transmission shaft (; the cooling conveying mesh belt (5) transversely penetrates through the upper box body (9); the interior of the upper box body (9) is divided into a purging area (10), a water spray cooling area (11) and a spray cooling area (12); the bearing steel pipe body (13) is arranged on the bearing steel pipe supporting unit (6) and is driven by the cooling conveying mesh belt (5) to slowly pass through the blowing area (10), the water spraying cooling area (11) and the spraying cooling area (12) from right to left.

2. A bearing steel pipe cooling device according to claim 1, characterized in that: a plurality of groups of high-pressure blowing nozzles (14) are arranged in the blowing area (10), and the high-pressure blowing nozzles (14) are positioned at the top of the upper box body (9); a plurality of groups of cooling water spray heads (15) are arranged in the water spray cooling area (11) and are positioned at the top of the upper box body (9); a plurality of groups of upper mist spray heads (16) and lower mist spray heads (17) are arranged in the spray cooling area (12), and the upper mist spray heads (16) are positioned at the top of the upper box body (9); the lower fog-shaped spray head (17) is positioned in the cooling conveying mesh belt (5) and is supported by the lower inner wall of the upper box body (9).

3. A bearing steel pipe cooling device according to claim 1, characterized in that: a plurality of barrier strips (7) for preventing the bearing steel pipe supporting unit (6) from moving are fixed on the surface of the cooling conveying mesh belt (5);

the cooling conveying mesh belt (5) is a stainless steel mesh belt and is provided with through holes (8) with the hole diameter of 1-3 cm.

4. A bearing steel pipe cooling device according to claim 1 or 3, characterized in that: the bearing steel pipe supporting unit (6) is integrally net-shaped, the inside of the bearing steel pipe supporting unit is a cavity, and the upper part of the bearing steel pipe supporting unit is concave (18).

5. A bearing steel pipe cooling device according to claim 1, characterized in that: and a cooling water collecting hopper groove (19) is arranged in the water spray cooling area (11), the cooling water collecting hopper groove (19) is integrally arranged in an inclined mode, the outer portion of the cooling water collecting hopper groove (19) extends out of the upper box body (9), and a cooling water collecting box (20) is arranged below the cooling water collecting hopper groove (19).

6. A bearing steel pipe cooling device according to claim 1 or 2, characterized in that: a plurality of groups of fans (21) which draw air outwards are arranged on the upper box body (9).

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