CN218786647U - Sizing cooling device for high-efficiency seamless steel pipe - Google Patents

Abstract

The utility model discloses a high efficiency is sizing cooling device for seamless steel pipe, its structure includes base pole and mounting panel, base pole top and mounting panel bottom both ends fixed connection around, mounting panel bottom middle part right-hand member and seamless steel pipe fixed block upper end fixed connection, through having set up lower pulley, spring adjusting block, spring, upper pulley, the spring can press from both sides tight seamless steel pipe and make it move and rotate and not destroyed in the middle of lower pulley and upper pulley, just so can realize moving and rotating seamless steel pipe, also can make this device adapt to the seamless steel pipe of different pipe diameters; through having set up supplementary bevel gear, connection bevel gear, controller, just can realize the regulation of water direction of transfer, make the water spout and need carry out the refrigerated place on the seamless steel pipe, make the cooling of seamless steel pipe more high-efficient.

Description

Sizing cooling device for high-efficiency seamless steel pipe

Technical Field

The utility model relates to a seamless steel pipe technical field, concretely relates to sizing cooling device is used to seamless steel pipe of high efficiency.

Background

In the process of manufacturing the steel pipe, for the steel pipe product with important application, quenching treatment is needed to obtain ideal mechanical properties, cooling is taken as a key link of the quenching treatment, and the production efficiency, the final product quality and the economic benefit of the steel pipe heat treatment are all influenced significantly.

The existing cooling device for the seamless steel pipe is difficult to adapt to the cooling treatment of the seamless steel pipes with different pipe diameters, cannot rotate the seamless steel pipe while moving the seamless steel pipe, and is difficult to control the spraying angle of water when cooling the seamless steel pipe.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects in the prior art, a sizing cooling device for a high-efficiency seamless steel pipe is provided, and the problem that the conventional cooling device for the seamless steel pipe is difficult to adapt to cooling treatment of seamless steel pipes with different pipe diameters, cannot rotate the seamless steel pipe while moving the seamless steel pipe, and is difficult to control the spraying angle of water when cooling the seamless steel pipe is solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a high efficiency is sizing cooling device for seamless steel pipe, including base pole, mounting panel, seamless steel pipe fixed block, transmission steel pipe subassembly, base pole top and mounting panel bottom front and back both ends fixed connection, mounting panel bottom middle part right-hand member and seamless steel pipe fixed block upper end fixed connection, mounting panel left and right sides both sides and transmission steel pipe subassembly top fixed connection; the method is characterized in that: the cooling device is characterized by further comprising a cooling assembly, a controller and a seamless steel tube, wherein the middle parts of the rear ends of two vertical rods at the front end of the base rod are fixedly connected with the cooling assembly, the middle part of the front end of the left vertical rod at the front end of the base rod is fixedly connected with the rear end of the controller, and the inner contact surfaces of the middle parts of the support plates and the middle lower end of the middle part of the fixing block of the seamless steel tube are in contact with the outer surface contact surface of the seamless steel tube.

The transmission steel pipe assembly comprises a transmission assembly base, a base rotating block, a fixed block, a pulley vertical block, a lower pulley shaft, a lower pulley, a pulley motor, an upper vertical frame, a spring adjusting block, a spring, an upper sliding block, an upper pulley shaft and an upper pulley, the transmission assembly base is arranged at the bottom of the transmission steel pipe assembly, the center of the top of the transmission assembly base is rotatably connected with the center of the bottom of the base rotating block, an arc-shaped chute is arranged at the left end of the base rotating block, the left end of the top of the transmission assembly base is fixedly connected with the fixed block, the fixed block is slidably connected with the arc-shaped chute of the base rotating block, the front end and the rear end of the top of the base rotating block are fixedly connected with the bottom of the pulley vertical block, the upper end of the pulley vertical block is penetrated by the lower pulley shaft and rotatably connected with the lower pulley shaft, the middle part of the outer surface of the lower pulley shaft is fixedly connected with the inner surface of the lower pulley, the rear end of the lower pulley shaft is fixedly connected with an output shaft at the front end of the pulley motor, the left end and the right end of the support plate is fixedly connected with two sides of the upper vertical frame, the top of the upper vertical frame is penetrated by the spring adjusting block and rotatably connected with the middle part of the spring adjusting block, and the upper pulley shaft.

Further, the cooling assembly comprises a connecting cross rod, an auxiliary bevel gear shaft, an auxiliary bevel gear, a connecting bevel gear shaft, a bevel gear motor, a water spray pipe, a spray nozzle, a connecting pipe, a water diversion pipe, a valve water outlet pipe, a valve and a water inlet pipe, wherein the middle part of the rear end of two vertical rods at the front end of the base rod is fixedly connected with the connecting cross rod, the front end of the connecting cross rod is penetrated through by the auxiliary bevel gear shaft, the front end of the auxiliary bevel gear shaft is fixedly connected with the auxiliary bevel gear, the auxiliary bevel gear is meshed with the connecting bevel gear, the center of the connecting bevel gear is fixedly connected with the connecting bevel gear shaft, the rear end of the connecting bevel gear shaft is rotatably connected with the connecting cross rod, the intermediate shaft of the auxiliary bevel gear is fixedly connected with the output shaft at the rear end of the bevel gear motor, the rear end of the auxiliary bevel gear shaft is fixedly connected with the front end of the water spray pipe, the lower end of the water spray pipe is fixedly connected with the spray nozzle, the rear end of the connecting pipe is rotatably connected with the front end of the connecting pipe, the rear end of the connecting pipe is rotatably connected with the water diversion pipe, the center of the rear end of the water diversion pipe is fixedly connected with the front end of the valve water outlet pipe, the valve water outlet pipe is fixedly connected with the front end of the water inlet pipe.

Further, the lower pulley and the upper pulley have the same structure.

Furthermore, the transmission steel pipe assembly is provided with two transmission steel pipes which are respectively distributed at the left end and the right end of the seamless steel pipe.

Furthermore, the auxiliary bevel gear shaft and the auxiliary bevel gears are five in total and distributed at the front end of the connecting cross rod.

Furthermore, the number of the connecting bevel gears and the connecting bevel gear shafts is four.

Furthermore, six water spray pipes are arranged on the spray head, and five water spray pipes are arranged.

Furthermore, the material of water spray pipe is PVC.

Furthermore, the auxiliary bevel gear is made of forged steel.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) A sizing cooling device for high efficiency seamless steel pipe, through having set up lower pulley, spring regulating block, spring, upper pulley, the spring can press from both sides tight seamless steel pipe and make it remove and rotatory and not destroyed by it in the middle of lower pulley and upper pulley, just so can realize removing the seamless steel pipe and rotate, also can make the seamless steel pipe of this device adaptation different pipe diameters.

2) A high efficiency sizing cooling device for seamless steel pipe, through having set up supplementary bevel gear, connecting bevel gear, controller, just can realize the regulation of water transmission direction, make water spout and need carry out refrigerated place on the seamless steel pipe, make the cooling of seamless steel pipe more high-efficient.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the transmission steel pipe assembly of the present invention;

FIG. 3 is a schematic structural view of the cooling module of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

In the figure: the device comprises a base rod-1, a support plate-2, a seamless steel pipe fixing block-3, a transmission steel pipe assembly-4, a transmission assembly base-41, a base rotating block-42, a fixing block-43, a pulley vertical block-44, a lower pulley shaft-45, a lower pulley-46, a pulley motor-47, an upper vertical frame-48, a spring adjusting block-49, a spring-410, an upper sliding block-411, an upper pulley shaft-412, an upper pulley-413, a cooling assembly-5, a connecting cross rod-51, an auxiliary bevel gear shaft-52, an auxiliary bevel gear-53, a connecting bevel gear-54, a connecting bevel gear shaft-55, a bevel gear motor-56, a water spraying water pipe-57, a spray head-58, a connecting pipe-59, a water diversion pipe-510, a valve water outlet pipe-511, a valve-512, a water inlet pipe-513, a controller-6 and a seamless steel pipe-7.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a sizing cooling device for a high-efficiency seamless steel pipe: the steel tube transmission device comprises a base rod 1, a support plate 2, a seamless steel tube fixing block 3 and a transmission steel tube assembly 4, wherein the top of the base rod 1 is fixedly connected with the front end and the rear end of the bottom of the support plate 2, the right end of the middle of the bottom of the support plate 2 is fixedly connected with the upper end of the seamless steel tube fixing block 3, and the left end and the right end of the support plate 2 are fixedly connected with the two sides of the top of the transmission steel tube assembly 4; the method is characterized in that: still include cooling module 5, controller 6, seamless steel pipe 7, base pole 1 front end two pole setting rear end middle part and cooling module 5 fixed connection, base pole 1 front end left side pole setting front end middle part and 6 rear end fixed connection of controller, the inside contact surface of 3 middle part lower extremes of mounting panel 2 middle part and seamless steel pipe fixed block contacts with 7 outer surface contact surfaces of seamless steel pipe, transmission steel pipe subassembly 4 is equipped with two both ends of controlling that distribute respectively at seamless steel pipe 7.

Referring to fig. 2 and 4, the present invention provides a sizing cooling device for high efficiency seamless steel pipe, the transmission steel pipe assembly 4 includes a transmission assembly base 41, a base rotary block 42, a fixed block 43, a pulley upright block 44, a lower pulley shaft 45, a lower pulley 46, a pulley motor 47, an upper upright frame 48, a spring adjusting block 49, a spring 410, an upper sliding block 411, an upper pulley shaft 412, and an upper pulley 413, the transmission assembly base 41 is disposed at the bottom of the transmission steel pipe assembly 4, the center of the top of the transmission assembly base 41 is rotatably connected with the center of the bottom of the base rotary block 42, an arc chute is disposed at the left end of the base rotary block 42, the left end of the top of the transmission assembly base 41 is fixedly connected with the fixed block 43, the fixed block 43 is slidably connected with the arc chute of the base rotary block 42, the front and rear ends of the top of the base rotary block 42 are fixedly connected with the bottom of the pulley upright block 44, the upper end of the pulley upright block 44 is penetrated by the lower pulley shaft 45 and is rotationally connected with the lower pulley shaft 45, the middle part of the outer surface of the lower pulley shaft 45 is fixedly connected with the inner surface of the lower pulley 46, the rear end of the lower pulley shaft 45 is fixedly connected with an output shaft at the front end of the pulley motor 47, the left end and the right end of the support plate 2 are fixedly connected with two sides of the upper end of the upper upright frame 48, the top part of the upper upright frame 48 is penetrated by the spring adjusting block 49 and is in threaded connection with the spring adjusting block 49, the bottom part of the spring adjusting block 49 is fixedly connected with the top part of the spring 410, the bottom part of the spring 410 is fixedly connected with the top part of the upper pulley 411, the middle parts of the front side and the rear side of the upper pulley shaft 412 are penetrated and are rotationally connected with the upper pulley shaft 412, the outer surface of the middle part of the upper pulley shaft 412 is fixedly connected with the inner surface of the upper pulley 413, and the lower pulley 46 and the upper pulley 413 have the same structure.

Referring to fig. 3, the present invention provides a high efficiency sizing cooling device for seamless steel pipe, the cooling assembly 5 comprises a connecting cross bar 51, an auxiliary bevel gear shaft 52, an auxiliary bevel gear 53, a connecting bevel gear 54, a connecting bevel gear shaft 55, a bevel gear motor 56, a water spray pipe 57, a nozzle 58, a connecting pipe 59, a water distribution pipe 510, a valve outlet pipe 511, a valve 512, a water inlet pipe 513, the middle parts of the rear ends of two vertical rods at the front end of a base rod 1 are fixedly connected with the connecting cross bar 51, the front end of the connecting cross bar 51 is penetrated by the auxiliary bevel gear shaft 52, the front end of the auxiliary bevel gear shaft 52 is fixedly connected with the auxiliary bevel gear 53, the auxiliary bevel gear 53 is meshed with the connecting bevel gear 54, the center of the connecting bevel gear 54 is fixedly connected with the connecting bevel gear shaft 55, the rear end of the connecting bevel gear shaft 55 is rotatably connected with the connecting cross bar 51, the auxiliary bevel gear shaft 52 is fixedly connected with an intermediate shaft of a bevel gear motor 56, the rear end of the auxiliary bevel gear shaft 52 is fixedly connected with the front end of a water spray pipe 57, the lower end of the water spray pipe 57 is fixedly connected with a spray head 58, the rear end of the water spray pipe 57 is rotatably connected with the front end of a connecting pipe 59, the rear end of the connecting pipe 59 is rotatably connected with the front end of a water distribution pipe 510, the center of the rear end of the water distribution pipe 510 is fixedly connected with the front end of a valve outlet pipe 511, the rear end of the valve outlet pipe 511 is fixedly connected with the front end of a valve 512, the rear end of the valve 512 is fixedly connected with the front end of a water inlet pipe 513, five auxiliary bevel gear shafts 52 and five auxiliary bevel gears 53 are distributed at the front end of a connecting cross rod 51, four connecting bevel gears 54 and four connecting bevel gears 55 are arranged, six spray heads 58 are arranged on the water spray pipe 57, and five water spray pipes 57 are arranged.

The utility model provides a sizing cooling device for a high-efficiency seamless steel pipe through improvement, and the working principle is as follows;

firstly, when the device is used, the device is firstly placed in a seamless steel pipe machining working area, and then the device is connected with an external power supply, so that the required electric energy can be provided for the device to work;

secondly, when the seamless steel tube 7 is moved and rotated, the seamless steel tube 7 is firstly placed between the lower pulley 46 and the upper pulley 413, then the spring adjusting block 49 is adjusted to clamp the seamless steel tube 7, then the pulley motor 47 is controlled to operate by the controller 6, the pulley motor 47 operates to drive the lower pulley 45 to rotate clockwise, the lower pulley 45 rotates to drive the lower pulley 46 to rotate clockwise, friction is generated on the seamless steel tube 7, thereby driving the seamless steel tube 7 to move to the right side, then the seamless steel tube 7 passes through the middle of the seamless steel tube fixing block 3 to reach the middle of the transmission steel tube component 4 at the other end, the controller 6 controls the base rotating block 42 to rotate, the fixing block 43 slides in the arc-shaped chute on the base rotating block 42, the pulley vertical block 44 can be driven to rotate, the pulley vertical block 44 rotates to drive the lower pulley 46 to rotate, the lower pulley 46 can drive the seamless steel tube 7 to rotate by inclining, when the seamless steel tube 7 with different diameters meets the seamless steel tube, the seamless steel tube 7 can be adjusted to move upwards by the spring adjusting block 413, thereby enabling the upper pulley 413 to move upwards and the upper pulley 410 to move to clamp the seamless steel tube 7, thereby enabling the seamless steel tube to move to clamp the seamless steel tube 7 and the upper pulley 411 to move too tightly, and the spring 410 to move too tightly, thereby enabling the seamless steel tube to move downwards, the problem that the seamless steel pipes with different pipe diameters are difficult to adapt to cooling treatment can be solved;

thirdly, when the seamless steel pipe 7 is to be cooled, an external water pipe is connected with the water inlet pipe 513, then the controller 6 controls the valve 512 to be opened, water enters the valve outlet pipe 511 through the valve 512, enters the water diversion pipe 510 from the valve outlet pipe 511, enters the connecting pipe 59 through the water diversion pipe 510, enters the water spray pipe 57 to be sprayed out from the spray head 58, then the controller 6 controls the bevel gear motor 56 to work, the bevel gear motor 56 works to drive the auxiliary bevel gear shaft 52 in the middle to rotate clockwise, the auxiliary bevel gear shaft 52 rotates to drive the auxiliary bevel gear 53 to rotate, the auxiliary bevel gear 53 rotates clockwise to drive the connecting bevel gear 54 to rotate counterclockwise, the connecting bevel gear 54 rotates counterclockwise to drive the auxiliary bevel gear 53 beside to rotate clockwise, the water spray pipe 57 rotates to drive the spray head 58 to rotate, the water transmission direction can be adjusted, and water is sprayed to a place on the seamless steel pipe 7 to be cooled, so that the seamless steel pipe 7 is cooled more efficiently.

The utility model relates to a high efficiency is sizing cooling device for seamless steel pipe, through having set up lower pulley 46, spring regulating block 49, spring 410, upper pulley 413 optimally, spring 410 can press from both sides tight seamless steel pipe 7 and make it move and rotate and not destroyed by it in the middle of lower pulley 46 and upper pulley 413, just so can realize moving seamless steel pipe 7 and rotate, also can make this device adapt to the seamless steel pipe 7 of different pipe diameters; through the auxiliary bevel gear 53, the connecting bevel gear 54 and the controller 6, the adjustment of the water transmission direction can be realized, water is sprayed to the position needing to be cooled on the seamless steel pipe 7, and the cooling of the seamless steel pipe 7 is more efficient.

Claims (8)

1. A sizing cooling device for a high-efficiency seamless steel pipe comprises a base rod (1), a support plate (2), a seamless steel pipe fixing block (3) and a transmission steel pipe assembly (4), wherein the top of the base rod (1) is fixedly connected with the front end and the rear end of the bottom of the support plate (2), the right end of the middle of the bottom of the support plate (2) is fixedly connected with the upper end of the seamless steel pipe fixing block (3), and the left end and the right end of the support plate (2) are fixedly connected with the two sides of the top of the transmission steel pipe assembly (4); the method is characterized in that: still include cooling module (5), controller (6), seamless steel pipe (7), two pole setting rear end middle parts in base pole (1) front end and cooling module (5) fixed connection, base pole (1) front end left side pole setting front end middle part and controller (6) rear end fixed connection, mounting plate (2) middle part and seamless steel pipe fixed block (3) middle part lower extreme internal contact face and seamless steel pipe (7) surface contact face contact, transmission steel pipe subassembly (4) are including transmission assembly base (41), base revolving block (42), fixed block (43), pulley founding piece (44), lower sheave axle (45), lower sheave (46), pulley motor (47), go up upright frame (48), spring adjustment piece (49), spring (410), go up slider (411), upper sheave axle (412), upper sheave (413), transmission assembly subassembly (4) bottom is equipped with transmission assembly base (41), transmission assembly base (41) top center rotates with base revolving block (42) bottom center to be connected, base revolving block (42) left end is equipped with an arc-shaped sliding groove (42).

2. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 1, characterized in that: the transmission assembly is characterized in that the left end of the top of the transmission assembly base (41) is fixedly connected with a fixed block (43), the fixed block (43) is connected with an arc-shaped sliding groove of a base rotating block (42) in a sliding mode, the front end and the rear end of the top of the base rotating block (42) are fixedly connected with the bottom of a pulley upright block (44), the upper end of the pulley upright block (44) is penetrated through by a lower pulley shaft (45) and is connected with the lower pulley shaft (45) in a rotating mode, the middle of the outer surface of the lower pulley shaft (45) is fixedly connected with the inner surface of a lower pulley (46), the rear end of the lower pulley shaft (45) is fixedly connected with an output shaft at the front end of a pulley motor (47), the left end and the right end of a support plate (2) are fixedly connected with the two sides of the upper end of an upper upright frame (48), the top of the upper upright frame (48) is penetrated through by a spring adjusting block (49) and is connected with the spring adjusting block (49) in a threaded mode, the bottom of the spring adjusting block (49) is fixedly connected with the top of the upper pulley shaft (412), the middle of the upper pulley shaft (413) is fixedly connected with the inner surface of the upper pulley shaft (412).

3. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 1, characterized in that: the cooling assembly (5) comprises a connecting cross rod (51), an auxiliary bevel gear shaft (52), an auxiliary bevel gear (53), a connecting bevel gear (54), a connecting bevel gear shaft (55), a bevel gear motor (56), a water spraying pipe (57), a spray head (58), a connecting pipe (59), a water distribution pipe (510), a valve water outlet pipe (511), a valve (512) and a water inlet pipe (513), the middle parts of the rear ends of two vertical rods at the front end of the base rod (1) are fixedly connected with the connecting cross rod (51), the front end of the connecting cross rod (51) is penetrated through by the auxiliary bevel gear shaft (52), the front end of the auxiliary bevel gear shaft (52) is fixedly connected with the auxiliary bevel gear (53), the auxiliary bevel gear (53) is meshed with the connecting bevel gear (54), the center of the connecting bevel gear (54) is fixedly connected with the connecting bevel gear shaft (55), the rear end of the connecting bevel gear shaft (55) is rotatably connected with the connecting cross rod (51), the intermediate shaft of the auxiliary bevel gear shaft (52) is fixedly connected with the rear end of the bevel gear shaft (56) and the rear end of the connecting pipe (57) is fixedly connected with the water spraying pipe (57) and the lower end of the water spraying pipe (57), the water distribution pipe is characterized in that the rear end of the connecting pipe (59) is rotatably connected with the front end of the water distribution pipe (510), the center of the rear end of the water distribution pipe (510) is fixedly connected with the front end of the valve outlet pipe (511), the rear end of the valve outlet pipe (511) is fixedly connected with the front end of the valve (512), and the rear end of the valve (512) is fixedly connected with the front end of the water inlet pipe (513).

4. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 2, characterized in that: the lower pulley (46) and the upper pulley (413) have the same structure.

5. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 1, characterized in that: the transmission steel pipe assembly (4) is provided with two transmission steel pipes which are respectively distributed at the left end and the right end of the seamless steel pipe (7).

6. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 3, characterized in that: the auxiliary bevel gear shafts (52) and the auxiliary bevel gears (53) are five in total and are distributed at the front end of the connecting cross rod (51).

7. The sizing cooling device for the high-efficiency seamless steel pipe according to claim 3, wherein: the number of the connecting bevel gears (54) and the connecting bevel gear shafts (55) is four.

8. A sizing cooling device for a high-efficiency seamless steel pipe according to claim 3, characterized in that: six spray water pipes (57) are arranged on the spray head (58), and five spray water pipes (57) are arranged.

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