CN220746412U - Caching equipment of steel pipe yardage roll - Google Patents

Abstract

The application relates to a caching device for a steel pipe cloth roll, which comprises a caching table and splitting machines symmetrically arranged on two sides of the caching table; the buffer table comprises buffer bases capable of moving towards the splitting machines on two sides respectively and buffer tables slidably mounted on the buffer bases, the sliding direction of the buffer tables is perpendicular to the moving direction of the buffer bases, buffer driving mechanisms for driving the buffer tables to slide are arranged on the buffer bases, and bearing mechanisms for bearing steel pipe cloth rolls are arranged on two sides of the buffer tables. Through placing the both ends of steel pipe yardage roll on the accepting mechanism of buffering workstation in this application, the buffering base can be moved towards the cutting machine, and buffering workstation can carry out the position of sliding adjustment steel pipe yardage roll, through above-mentioned setting, can adjust the position of steel pipe yardage roll for the steel pipe yardage roll can enter into the cutting machine in quick installation, thereby has effectively improved cutting work efficiency.

Description

Caching equipment of steel pipe yardage roll

Technical Field

The application relates to the technical field of slitting equipment, in particular to caching equipment for steel pipe yardage rolls.

Background

Along with the continuous improvement of the technology level, a more intelligent and convenient warehouse system has become a new trend of managing warehouses of large factories and logistics companies.

In the production process of the reflective fabric, the steel pipe is arranged on production equipment of the reflective fabric, and after the production equipment finishes the production of the reflective fabric, the reflective fabric is wound on the steel pipe through the production equipment, so that the steel pipe cloth roll is formed. When the steel pipe cloth roll is cut, the steel pipe cloth roll is placed on the cutting equipment, and the cutting equipment cuts the reflective fabric on the steel pipe cloth roll. At present, as disclosed in the chinese patent with application number CN2022224590710, the non-woven fabric splitting machine comprises a splitting machine body, wherein a non-woven fabric roll is arranged on a roll of the splitting machine body, a clamping component is arranged below the non-woven fabric roll by the splitting machine body, and the non-woven fabric roll is fixed by the clamping component.

Aiming at the related technology, the inventor finds that the steel pipe cloth roll needs to be lifted, and then the positions of the two ends of the steel pipe cloth roll are continuously adjusted, so that the steel pipe cloth roll can be fixed in the splitting machine body, and the splitting work efficiency of the steel pipe cloth roll is lower, therefore, certain improvement exists.

Disclosure of Invention

In order to improve the work efficiency of cutting, this application provides a buffer memory equipment of steel pipe yardage roll.

The application provides a buffer memory equipment of steel pipe yardage roll adopts following technical scheme:

the caching equipment of the steel pipe cloth roll comprises a caching table and splitting machines symmetrically arranged on two sides of the caching table;

the buffer table comprises buffer bases capable of moving towards the splitting machines on two sides respectively and buffer work tables slidably mounted on the buffer bases, the sliding direction of the buffer work tables is perpendicular to the moving direction of the buffer bases, buffer driving mechanisms for driving the buffer work tables to slide are arranged on the buffer bases, and bearing mechanisms for bearing steel pipe rolls are arranged on two sides of the buffer work tables.

Optionally, a buffer track is arranged between the two splitting machines, a buffer moving wheel matched with the buffer track is arranged on the buffer base, and a rotating motor for driving the buffer moving wheel to rotate is arranged on the buffer base.

Optionally, the buffer memory actuating mechanism is including fixed setting up the drive rack on the buffer memory base, the drive rack is followed the slip direction of buffer memory workstation is arranged, be provided with buffer memory driving motor on the buffer memory workstation, install on buffer memory driving motor's the output shaft with drive rack engaged drive gear.

Optionally, the mechanism of accepting includes two and accepts the portion that the interval set up side by side, it includes first accepting seat and articulates to install the second accepting seat on the first accepting seat, be provided with first face of accepting on the first accepting seat, be provided with the second face of accepting on the second accepting seat, first face of accepting with form the groove of accepting that is used for supplying the steel pipe yardage roll to place between the second face of accepting, be provided with on the buffering workstation and be used for driving the second accepting seat upset makes the second accept the upset portion of personally submitting the level setting.

Optionally, the turnover part includes slidable mounting the turnover block on the buffer memory workstation, have horizontal plane of accepting and slope plane of accepting on the turnover block, install on the second seat of accepting the gyro wheel, be provided with the upset actuating cylinder on the buffer memory workstation, the upset actuating cylinder is used for driving the turnover block slides so that accept the gyro wheel and contradict respectively on horizontal plane of accepting and slope plane of accepting first plane of accepting with the second plane of accepting forms the groove of accepting when accepting the gyro wheel conflict on the horizontal plane of accepting the second plane of accepting and be the level setting.

Optionally, a lifting mechanism for lifting the steel pipe from the splitting machine is arranged on the buffer workbench.

Optionally, the lifting mechanism is including setting up respectively the lifting portion of cache workstation both sides, the lifting portion includes two and rotates side by side installs the lifting arm on the cache bench, the tip rotation of two lifting arms is installed and is used for supplying the lifting frame that the steel pipe placed, be provided with on the cache workstation and be used for driving lifting arm pivoted lifting drive portion.

Optionally, the lifting driving part is a lifting driving motor, and an output shaft of the lifting driving motor is connected to one of the lifting arms.

In summary, the present application includes at least one of the following beneficial technical effects:

through placing the both ends of steel pipe yardage roll on the accepting mechanism of buffering workstation in this application, the buffering base can be moved towards the cutting machine, and buffering workstation can carry out the position of sliding adjustment steel pipe yardage roll, through above-mentioned setting, can adjust the position of steel pipe yardage roll for the steel pipe yardage roll can enter into the cutting machine in quick installation, thereby has effectively improved cutting work efficiency.

Drawings

Fig. 1 is a schematic structural view of a slitting apparatus.

Fig. 2 is a schematic diagram of the structure of the cache table.

Fig. 3 is a schematic diagram of the flipped state of the flipping portion.

Reference numerals illustrate: 1. a slitting device; 11. a cache table; 111. a buffer base; 112. a buffer moving wheel; 113. a rotating motor; 114. caching the track; 115. caching a workbench; 116. a cache driving mechanism; 1161. a drive rack; 1162. a buffer drive motor; 1163. a drive gear; 117. a receiving mechanism; 1171. a first socket; 1172. a second socket; 1173. a first receiving surface; 1174. a second receiving surface; 1175. a turnover block; 1176. a horizontal receiving surface; 1177. tilting the bearing surface; 1178. a receiving roller; 1179. a turnover driving cylinder; 12. a splitting machine; 13. a lifting mechanism; 131. lifting the arm; 132. lifting the frame; 133. a lifting groove; 134. lifting the driving motor.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The utility model provides a buffer memory equipment of steel pipe yardage roll for cut the reflection of light surface fabric on the steel pipe yardage roll, the steel pipe yardage roll is the product that this application needs to cut, and the steel pipe yardage roll comprises steel pipe and reflection of light surface fabric, through installing the steel pipe on the production facility of reflection of light surface fabric, after the production facility accomplished the production of reflection of light surface fabric, reflection of light surface fabric is coiled on the steel pipe through production facility, from this forms the steel pipe yardage roll. When the steel pipe cloth roll is cut, the steel pipe cloth roll is placed on the cutting equipment 1, the cutting equipment 1 cuts the reflective fabric on the steel pipe cloth roll, and after the reflective fabric is cut, only the steel pipe is left on the cutting equipment 1.

Referring to fig. 1 and 2, the slitting device 1 includes a buffer table 11, and slitting machines 12 symmetrically disposed on two sides of the buffer table 11, where the buffer table 11 is used to receive the transferred steel tube rolls, two steel tube rolls can be stored on one buffer table 11, and the buffer table 11 can be moved to the slitting machines 12 on two sides respectively, so that the steel tube rolls are fed into the slitting machines 12 for slitting.

The buffer table 11 comprises a buffer base 111 and a buffer workbench 115, the buffer base 111 can respectively move towards the splitting machines 12 at two sides, namely, a buffer track 114 is arranged between the two splitting machines 12, a buffer moving wheel 112 matched with the buffer track 114 is arranged on the buffer base 111, and a rotating motor 113 for driving the buffer moving wheel 112 to rotate is arranged on the buffer base 111. The buffer moving wheel 112 is driven to rotate by the rotating motor 113, so that the buffer base 111 can move on the buffer track 114.

The buffer workbench 115 is slidably mounted on the buffer base 111, the sliding direction of the buffer workbench 115 is perpendicular to the moving direction of the buffer base 111, namely, a sliding rail is arranged on the buffer base 111, the setting direction of the sliding rail is perpendicular to the setting direction of the buffer track 114, a sliding block is arranged on the buffer workbench 115, and the sliding of the buffer workbench 115 on the buffer base 111 is realized through the matching of the sliding rail and the sliding block.

The buffer base 111 is provided with a buffer driving mechanism 116 for driving the buffer workbench 115 to slide, the buffer driving mechanism 116 comprises a driving rack 1161 fixedly arranged on the buffer base 111, the driving rack 1161 is arranged along the sliding direction of the buffer workbench 115, the buffer workbench 115 is provided with a buffer driving motor 1162, and an output shaft of the buffer driving motor 1162 is provided with a driving gear 1163 meshed with the driving rack 1161. The buffer work table 115 slides on the buffer base 111 by the buffer drive motor 1162 driving the drive gear 1163 to rotate, the drive gear 1163 being meshed with the drive rack 1161.

Both sides of the buffer workbench 115 are provided with a bearing mechanism 117 for bearing the steel pipe cloth roll, when the steel pipe cloth roll is borne on the bearing mechanism 117, the position of the steel pipe cloth roll can be adjusted through the buffer workbench 115, so that both ends of the steel pipe cloth roll can be better aligned with the installation position of the splitting machine 12, and the loading of the steel pipe cloth roll is completed.

Referring to fig. 2 and 3, the receiving mechanism 117 includes two receiving parts arranged side by side at intervals, and two ends of the steel pipe cloth roll can be suspended and received by the receiving parts. The receiving portion includes a first receiving base 1171 fixedly disposed on the cache table 115, and a second receiving base 1172 hinged on the first receiving base 1171, wherein a first receiving surface 1173 is disposed on the first receiving base 1171, and the first receiving surface 1173 is disposed obliquely upward in a horizontal direction. The second supporting seat 1172 is provided with a second supporting surface 1174, a supporting groove for placing the steel tube cloth roll is formed between the first supporting surface 1173 and the second supporting surface 1174, the supporting groove is integrally arranged in a V shape, and the buffer workbench 115 is provided with a turnover part for driving the second supporting seat 1172 to turn over so that the second supporting surface 1174 is horizontally arranged.

The turnover part comprises a turnover block 1175 slidably mounted on the cache workbench 115, the turnover block 1175 is provided with a horizontal bearing surface 1176 and an inclined bearing surface 1177, the second bearing surface 1172 is provided with a bearing roller 1178, the cache workbench 115 is provided with a turnover driving cylinder 1179, the turnover driving cylinder 1179 is used for driving the turnover block 1175 to slide so that the bearing roller 1178 is respectively abutted against the horizontal bearing surface 1176 and the inclined bearing surface 1177, when the bearing roller 1178 is abutted against the horizontal bearing surface 1176, the first bearing surface 1173 and the second bearing surface 1174 form a bearing groove, and when the bearing roller 1178 is abutted against the inclined bearing surface 1177, the second bearing surface 1174 is horizontally arranged.

When the receiving portion is to receive the steel pipe cloth roll, the overturning portion does not drive the second receiving seat 1172 to overturn, and a receiving groove is formed between the first receiving surface 1173 and the second receiving surface 1174 so as to facilitate hanging placement of two ends of the steel pipe cloth roll. When the buffer table 11 moves towards the splitting machine 12, after the steel tube rolls on the receiving portion are transferred onto the splitting machine 12, the buffer table 11 needs to withdraw from the splitting machine 12, and as the steel tubes of the steel tube rolls interfere with the withdrawal of the second receiving seat 1172, the overturning portion overturns the second receiving seat 1172, so that the second receiving surface 1174 is horizontally arranged, the second receiving seat 1172 does not interfere with the steel tubes of the steel tube rolls, and the buffer table 11 is convenient to withdraw from the splitting machine 12.

Before the steel tube rolls are fed into the slitting machine 12 by the buffer table 11, the slitting machine 12 needs to be finished, and the steel tubes left in the slitting machine 12 are transferred out of the slitting machine 12. The buffer workbench 115 is provided with a lifting mechanism 13 for lifting the steel pipe from the splitting machine 12.

The lifting mechanism 13 comprises lifting parts which are respectively arranged on two sides of the cache workbench 115, each lifting part comprises two lifting arms 131 which are arranged on the cache workbench 115 in a parallel rotating mode, two ends of each lifting arm 131 are respectively hinged to the ends of each lifting arm 131, each lifting frame 132 is used for placing a steel pipe, a lifting groove 133 for placing the steel pipe is formed in each lifting frame 132, and because the lifting frames 132 are hinged to the ends of the two lifting arms 131, the two lifting arms 131 rotate synchronously, the lifting frames 132 are always in a horizontal state, so that the steel pipe can be lifted conveniently, and the steel pipe can be recovered from the lifting frames 132 conveniently.

The buffer workbench 115 is provided with a lifting driving part for driving the lifting arms 131 to rotate, and the lifting arms 131 can respectively rotate towards the slitter 12 at two sides under the action of the lifting driving part. In one embodiment, the lift drive is a lift drive motor 134, with the output shaft of the lift drive motor 134 being coupled to one of the lift arms 131.

It should be noted that, the two sides of the buffer workbench 115 are both provided with lifting driving motors 134, synchronous rotation of the lifting arms 131 at two sides is achieved through the two lifting driving motors 134, one lifting driving motor 134 may also be provided at one side of the buffer workbench 115, the lifting arms 131 at two sides are connected through a transmission shaft, synchronous rotation of the lifting arms 131 at two sides is achieved through one lifting driving motor 134, and the synchronous rotation can be specifically selected as required, and the embodiment is not limited specifically.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The caching equipment for the steel pipe cloth roll is characterized by comprising a caching table (11) and splitting machines (12) symmetrically arranged on two sides of the caching table (11);

the utility model provides a steel pipe cloth roll is characterized in that the buffer table (11) comprises buffer bases (111) capable of moving towards two sides splitting machine (12) respectively and buffer work tables (115) slidably mounted on the buffer bases (111), the sliding direction of the buffer work tables (115) is perpendicular to the moving direction of the buffer bases (111), buffer drive mechanisms (116) for driving the buffer work tables (115) to slide are arranged on the buffer bases (111), and bearing mechanisms (117) for bearing the steel pipe cloth roll are arranged on two sides of the buffer work tables (115).

2. The steel pipe cloth roll caching device according to claim 1, characterized in that a caching track (114) is arranged between two splitting machines (12), a caching moving wheel (112) which is matched with the caching track (114) is arranged on a caching base (111), and a rotating motor (113) which drives the caching moving wheel (112) to rotate is arranged on the caching base (111).

3. The steel pipe cloth roll caching device according to claim 1, wherein the caching driving mechanism (116) comprises a driving rack (1161) fixedly arranged on the caching base (111), the driving rack (1161) is arranged along the sliding direction of the caching workbench (115), a caching driving motor (1162) is arranged on the caching workbench (115), and a driving gear (1163) meshed with the driving rack (1161) is arranged on an output shaft of the caching driving motor (1162).

4. The caching device for steel pipe rolls according to claim 1, wherein the receiving mechanism (117) comprises two receiving parts arranged at intervals side by side, the receiving parts comprise a first receiving seat (1171) and a second receiving seat (1172) hinged on the first receiving seat (1171), a first receiving surface (1173) is arranged on the first receiving seat (1171), a second receiving surface (1174) is arranged on the second receiving seat (1172), a receiving groove for placing the steel pipe rolls is formed between the first receiving surface (1173) and the second receiving surface (1174), and a turnover part for driving the second receiving seat (1172) to turn over so that the second receiving surface (1174) is arranged horizontally is arranged on the caching workbench (115).

5. A caching device for a steel tube roll according to claim 4, characterized in that the turning part comprises a turning block (1175) slidably mounted on the caching table (115), the turning block (1175) is provided with a horizontal receiving surface (1176) and an inclined receiving surface (1177), the second receiving seat (1172) is provided with a receiving roller (1178), the caching table (115) is provided with a turning driving cylinder (1179), the turning driving cylinder (1179) is used for driving the turning block (1175) to slide so that the receiving roller (1178) is respectively abutted against the horizontal receiving surface (1176) and the inclined receiving surface (1177), the first receiving surface (1173) and the second receiving surface (1174) form a receiving groove when the receiving roller (1178) is abutted against the inclined receiving surface (1177), and the second receiving surface (1174) is horizontally arranged when the receiving roller (1178) is abutted against the inclined receiving surface (1177).

6. A steel pipe cloth roll buffering device according to claim 1, characterized in that a lifting mechanism (13) for lifting the steel pipe from the splitting machine (12) is arranged on the buffering workbench (115).

7. The steel pipe cloth roll caching device according to claim 6, wherein the lifting mechanism (13) comprises lifting parts which are respectively arranged on two sides of the caching workbench (115), the lifting parts comprise two lifting arms (131) which are installed on the caching workbench (11) in a side-by-side rotating mode, lifting frames (132) used for placing steel pipes are installed at the end portions of the two lifting arms (131) in a rotating mode, and lifting driving parts used for driving the lifting arms (131) to rotate are arranged on the caching workbench (115).

8. The steel pipe cloth roll buffer storage device according to claim 7, wherein the lifting driving part is a lifting driving motor (134), and an output shaft of the lifting driving motor (134) is connected to one of the lifting arms (131).