CN220574351U - Rotary feeding mechanism for cold rolling processing of stainless steel tube - Google Patents

Abstract

The utility model discloses a rotary feeding mechanism for cold rolling processing of stainless steel pipes, which comprises a supporting component and a feeding component, wherein the feeding component comprises a transverse plate arranged on one side of a supporting seat, a chute arranged on the top of the transverse plate, a connecting shaft movably arranged in the chute, a first feeding wheel arranged on the top of the connecting shaft, a first belt wheel arranged on the outer side of the connecting shaft, a bearing base arranged at the bottom of the connecting shaft and a screw rod movably arranged in the bearing base, a worker can rotate the screw rod to adjust the position of the first feeding wheel, thereby controlling the distance between the first feeding wheel and the second feeding wheel, further ensuring the clamping effect on the stainless steel pipes, avoiding shaking during transportation, enlarging the contact surface between a concave rubber sleeve and the stainless steel pipes, increasing friction force, avoiding slipping phenomenon during transportation of the stainless steel pipes, and providing great convenience for transportation of the stainless steel pipes.

Description

Rotary feeding mechanism for cold rolling processing of stainless steel tube

Technical Field

The utility model relates to the technical field of feeding mechanisms, in particular to a rotary feeding mechanism for cold rolling machining of stainless steel pipes.

Background

The cold rolling is carried out by taking hot rolled steel as raw material, washing with acid to remove oxide skin, and cold continuous rolling, which has the advantages of quick forming speed, high yield, no damage to coating, and the like, and can be made into various section forms to adapt to the requirements of use conditions.

The rotary feeding mechanism is needed to be used when the stainless steel tube is cold rolled, so that smooth transportation of the stainless steel tube is guaranteed, but most of the conventional rotary feeding mechanisms for cold rolling processing of the stainless steel tube are easy to deform and dent when being used for a long time, so that the stainless steel tube cannot be effectively clamped, shaking is easy to occur during transportation, the contact surface between the dent rubber sleeve and the stainless steel tube is reduced, friction force is also reduced, slipping phenomenon is easy to occur during transportation of the stainless steel tube, and a plurality of inconveniences are caused for transportation of the stainless steel tube.

Disclosure of Invention

The utility model aims to provide a rotary feeding mechanism for cold rolling processing of stainless steel pipes, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a stainless steel pipe cold rolling processing is with rotatory feeding mechanism, includes supporting component and feeding component, the supporting component includes supporting seat, symmetrical support and the movable mounting at the horizontal transfer roller at the support top of installing at the supporting seat top, feeding component is including installing the diaphragm in supporting seat one side, offer at the spout at diaphragm top, movable mounting at the inside linking axle of spout, install at the first feed wheel at linking axle top, install at the first band pulley in linking axle outside, install at the bearing base of linking axle bottom and movable mounting at the inside lead screw of bearing base.

Preferably, the first pulley is located below the cross plate, and the bearing mount is located below the first pulley.

Preferably, the bottoms of the supporting seat and the transverse plate are provided with supporting feet.

Preferably, a side plate is installed on one side of the supporting seat, and the inner wall of the side plate is contacted with the outer side of the screw rod.

Preferably, the bottom of supporting seat installs the stabilizer blade, one side and the one end swing joint of lead screw of stabilizer blade, the stabilizer blade is located one side of spout.

Preferably, the second feeding wheel is installed at the top of supporting seat, the second feeding wheel is located one side of first feeding wheel, the motor is installed to the bottom of supporting seat, the pivot is installed to the output of motor, the top of pivot is connected with the bottom of second feeding wheel.

Preferably, a second belt wheel is arranged on the outer side of the rotating shaft, the second belt wheel is located on one side of the first belt wheel, an elastic belt is movably arranged on the outer sides of the second belt wheel and the first belt wheel, and rubber sleeves are arranged on the outer sides of the first feeding wheel and the second feeding wheel.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

according to the stainless steel tube clamping device, when the rubber sleeve is deformed and sunken in the long-term use process, a worker can rotate the screw rod to adjust the position of the first feeding wheel, so that the distance between the first feeding wheel and the second feeding wheel is controlled, the elastic belt has certain ductility and can stretch along with the first feeding wheel, smooth adjustment work is guaranteed, the clamping effect on the stainless steel tube is further guaranteed, shaking during transportation is avoided, the contact surface between the sunken rubber sleeve and the stainless steel tube is enlarged, friction force is increased, slipping phenomenon is avoided during transportation of the stainless steel tube, and great convenience is provided for transportation of the stainless steel tube.

Drawings

Fig. 1 is a schematic perspective view of the whole device of the present utility model.

FIG. 2 is a schematic cross-sectional view of a feed assembly according to the present utility model.

In the figure: 100. a support assembly; 101. a support base; 102. a bracket; 103. a horizontal transfer roller; 104. supporting feet;

200. a feeding assembly; 201. a cross plate; 202. a chute; 203. a connecting shaft; 204. a first feed wheel; 205. a first pulley; 206. a bearing base; 207. a screw rod; 208. a side plate; 209. a stabilizing plate; 210. a second feed wheel; 211. a motor; 212. a rotating shaft; 213. a second pulley; 214. an elastic belt; 215. a rubber sleeve.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the utility model discloses a rotary feeding mechanism for cold rolling of stainless steel pipes, which comprises a connecting shaft 203, a first feeding wheel 204, a bearing base 206 and a screw rod 207, wherein a bracket 102 is symmetrically arranged at the top of a supporting seat 101, a horizontal conveying roller 103 is movably arranged at the top of the bracket 102, supporting feet 104 are arranged at the bottoms of the supporting seat 101 and a transverse plate 201, the transverse plate 201 is arranged at one side of the supporting seat 101, a chute 202 is arranged at the top of the transverse plate 201, a connecting shaft 203 is movably arranged in the chute 202, a first feeding wheel 204 is arranged at the top of the connecting shaft 203, a first belt pulley 205 is arranged at the outer side of the connecting shaft 203, the first belt pulley 205 is positioned below the transverse plate 201, a bearing base 206 is arranged at the bottom of the connecting shaft 203, a screw rod 207 is movably arranged in the bearing base 206, a side plate 208 is arranged at one side of the supporting seat 101, the inner wall of the side plate 208 is mutually contacted with the outer side of the screw rod 207, a stabilizing plate 209 is arranged at the bottom of the supporting seat 101, one side of the stabilizing plate 209 is movably connected with one end of the 207, a motor 202 is movably arranged at one side of the stabilizing plate 209, a motor 202 is movably connected with one side of the screw rod 207, a first belt pulley 212 is arranged at the outer side of the first belt pulley 212, a motor 212 is arranged at the outer side of the first belt pulley 212 and the outer side of the first belt pulley 212, a second belt pulley 212 is arranged at the outer side of the first belt pulley 212, a second belt pulley 212 is arranged at the outer side 212, and 212 is arranged at the outer side 212 is, and 212 is arranged at the outer side 212, and has the side is and has the side and has, and side is.

Specifically, when the device is used, the stainless steel pipe is located between the first feeding wheel 204 and the second feeding wheel 210, the rubber sleeve 215 arranged on the first feeding wheel 204 and the second feeding wheel 210 is used for extruding the stainless steel pipe, the motor 211 is started, the motor 211 drives the second feeding wheel 210 and the second feeding wheel 213 to rotate, the second feeding wheel 213 drives the first feeding wheel 205 to rotate through the elastic belt 214, the first feeding wheel 204 also rotates, feeding operation on the stainless steel pipe is completed, the horizontal conveying roller 103 is installed on the supporting seat 101 through the support 102, the stainless steel pipe can be supported and erected through the horizontal conveying roller 103, stability of the stainless steel pipe in transportation is guaranteed, the supporting foot 104 supports the whole device, the device is supported on a proper height, feeding operation on the stainless steel pipe is facilitated, the sliding groove 202 formed in the transverse plate 201 provides a movable space for movement of the first feeding wheel 204, the first feeding wheel 204 is installed with the first feeding wheel 205 and the bearing base 206 through the connecting shaft 203, the working staff rotates the lead screw 207 to drive the bearing base 206 to move, accordingly the first feeding wheel 204 and the lead screw 207 can be stably erected on the side plate 209, and the lead screw 207 can be stably and stably erected on the lead screw 207.

Working principle: when the device is used, a stainless steel pipe is positioned between the first feeding wheel 204 and the second feeding wheel 210, the stainless steel pipe is extruded by utilizing the rubber sleeve 215 arranged on the first feeding wheel 204 and the second feeding wheel 210, the motor 211 is started, the motor 211 drives the second feeding wheel 210 and the second belt wheel 213 to rotate, the second belt wheel 213 drives the first belt wheel 205 to rotate through the elastic belt 214, the first feeding wheel 204 also rotates, so that the feeding operation of the stainless steel pipe is completed, the bearing base 206 can be driven to move by the rotating screw rod 207 of a worker, and the first feeding wheel 204 can also move.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. The utility model provides a stainless steel tube cold rolling processing is with rotatory feeding mechanism which characterized in that includes:

the support assembly (100) comprises a support seat (101), a bracket (102) symmetrically arranged at the top of the support seat (101) and a horizontal conveying roller (103) movably arranged at the top of the bracket (102);

the feeding assembly (200) comprises a transverse plate (201) arranged on one side of the supporting seat (101), a sliding groove (202) formed in the top of the transverse plate (201), a connecting shaft (203) movably arranged in the sliding groove (202), a first feeding wheel (204) arranged on the top of the connecting shaft (203), a first belt wheel (205) arranged on the outer side of the connecting shaft (203), a bearing base (206) arranged at the bottom of the connecting shaft (203) and a screw rod (207) movably arranged in the bearing base (206).

2. The rotary feeding mechanism for cold rolling of stainless steel pipes according to claim 1, wherein the first belt wheel (205) is located below the transverse plate (201), and the bearing base (206) is located below the first belt wheel (205).

3. The rotary feeding mechanism for cold rolling of stainless steel pipes according to claim 1, wherein supporting feet (104) are mounted at the bottoms of the supporting base (101) and the transverse plate (201).

4. A rotary feeding mechanism for cold rolling of stainless steel pipes according to claim 3, characterized in that a side plate (208) is mounted on one side of the supporting base (101), and the inner wall of the side plate (208) is in contact with the outer side of the screw rod (207).

5. The rotary feeding mechanism for cold rolling machining of stainless steel pipes according to claim 4, wherein a stabilizing plate (209) is installed at the bottom of the supporting seat (101), one side of the stabilizing plate (209) is movably connected with one end of the screw rod (207), and the stabilizing plate (209) is located at one side of the sliding groove (202).

6. The rotary feeding mechanism for cold rolling machining of stainless steel pipes according to claim 5, wherein a second feeding wheel (210) is installed at the top of the supporting seat (101), the second feeding wheel (210) is located at one side of the first feeding wheel (204), a motor (211) is installed at the bottom of the supporting seat (101), a rotating shaft (212) is installed at the output end of the motor (211), and the top of the rotating shaft (212) is connected with the bottom of the second feeding wheel (210).

7. The rotary feeding mechanism for cold rolling machining of stainless steel pipes according to claim 2, wherein a second belt wheel (213) is installed on the outer side of the rotating shaft (212), the second belt wheel (213) is located on one side of the first belt wheel (205), an elastic belt (214) is movably installed on the outer sides of the second belt wheel (213) and the first belt wheel (205), and rubber sleeves (215) are installed on the outer sides of the first feeding wheel (204) and the second feeding wheel (210).