CN220177878U - Stainless steel band automatic feeding system - Google Patents

Abstract

The utility model relates to an automatic stainless steel strip feeding system, which comprises a feeding car for placing a steel strip, a conveying track and a steel strip lifting device, wherein the conveying track is provided with a discharging area for placing the steel strip on the feeding car and a mounting area for mounting a steel strip on a frame, the recycling area for recycling the feeding car is provided with pulleys capable of running on the conveying track on two sides of the bottom of the feeding car, the feeding car is provided with a groove body capable of placing the steel strip, and the steel strip lifting device is positioned on the side edge of the mounting area and is used for lifting the steel strip to the upper frame. This feeding system can set up the material loading district in big spatial position, can have enough big space to use crane or hoist to place the steel band on the charge car, and through the steel band push away the position of lifting device and material loading frame relative, can be accurate with the steel band alignment fast, push away and put on the shelf.

Description

Stainless steel band automatic feeding system

Technical Field

The utility model relates to the field related to steel belt production, in particular to an automatic stainless steel belt feeding system.

Background

The steel strip is steel with large output, wide application and multiple varieties, the steel strip can be wound for convenient storage and transportation, when the steel strip is needed to be used, the steel strip is fed for processing, but the weight of the steel strip coil usually reaches several tons and cannot be manually transported for feeding, so that a forklift is usually used for transporting the steel strip coil, as in the Chinese patent with the application number of 202123381966.9 and the publication number of CN216655836U and the patent name of a steel strip feeding device for spiral welded pipe production, the device of the forklift is utilized, the steel strip is needed to be placed on the forklift and then driven to the position of a feeding frame for feeding, compared with the conventional lifting feeding frame, the time and labor are saved in the aspect of operation comparison of the feeding mode, but under the condition that the space of a face of a factory is smaller, the forklift is not enough for turning, the position adjustment and other series of driving behaviors are carried out by the forklift, and the application aspect is smaller.

Disclosure of Invention

The utility model aims to provide an automatic stainless steel strip feeding system which can solve the problem that the automatic stainless steel strip feeding system cannot be used when a small space is encountered in the process of feeding steel strips in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: stainless steel band automatic feeding system, the stack pallet of placing the steel band, transfer rail, the steel band is pushed up the device, be provided with on the transfer rail with the steel band place the blowing district on the stack pallet, install the installation district that the steel band put on the shelf, retrieve the recovery district of stack pallet, the bottom both sides of stack pallet are provided with can be in the pulley that the transfer rail goes, set up on the stack pallet and can place the cell body of steel band, the steel band is pushed up the device and is located the side in installation district, and will the steel band is pushed up to the upper charging frame.

Further, the cross section of the groove body is a circular arc-shaped groove.

Further, still include a plurality of left arc gasket and right arc gasket, left arc gasket with right arc gasket is symmetrical, left arc gasket is located the left side of cell body inner wall, right arc gasket is located the right side of cell body inner wall.

Further, the steel belt pushing and lifting device comprises a first hydraulic cylinder, a second hydraulic cylinder and a third hydraulic cylinder, wherein the first hydraulic cylinder is fixed on the side surface of an installation area on the conveying track, the output end of the first hydraulic cylinder is connected with a supporting rod, the upper end of the supporting rod is fixedly provided with a fixing table, the second hydraulic cylinder is fixed on the side surface of the fixing table, the output end of the second hydraulic cylinder is connected with a cross rod capable of penetrating through the center hole, the third hydraulic cylinder is fixed on the side surface of the fixing table and is located above and below the second hydraulic cylinder, and the output end of the third hydraulic cylinder is connected with a push rod capable of pushing the steel belt to a lifting frame.

Further, the feeding frame comprises a base body and a frame table, a central shaft is provided with a plurality of telescopic tensioning arms on the central shaft, the base body is fixed on the side edge of the installation area and is opposite to the steel belt pushing device in position, the frame table is fixed on the upper surface of the base body, the central shaft extends out of the side edge of the frame table, and a plurality of telescopic tensioning arms capable of internally supporting the steel belt are annularly arranged on the central shaft.

Further, a groove which is matched with the central shaft is formed in the side surface of the cross rod, which is close to one end of the steel belt.

Further, the deepest part of the groove is 0.3-0.5 m in height, the width of the groove is 0.15-0.3 m, and the longest part of the groove is 0.6-1 m in length.

The utility model has the beneficial effects that: compared with the prior art, this device utilizes the transfer rail, places the steel band on the charge car in the blowing district, and the position setting of blowing district is in the position relatively far away from the material loading frame, and this feeding system can set up the material loading district in big spatial position, can have enough big space to use crane or hoist to place the steel band on the charge car, and the position through steel band pushing equipment and material loading frame is relative, can be accurate with the steel band alignment fast, pushes away and carries out the loading frame.

Drawings

FIG. 1 is a schematic diagram of the structure of the device of the present utility model;

FIG. 2 is a schematic view of a steel belt lifting device according to the present utility model;

FIG. 3 is a front view in cross section of a feed car of the present utility model;

FIG. 4 is a side view cross section of a feed car in the present utility model;

fig. 5 is a schematic structural view of a left arc gasket according to the present utility model.

Wherein: 1. the feeding car, 2, the delivery track, 3, the blowing district, 4, the installation district, 5, the recovery district, 6, the cell body, 7, the material loading frame, 8, left arc gasket, 9, first pneumatic cylinder, 10, second pneumatic cylinder, 11, third pneumatic cylinder, 12, vaulting pole, 13, horizontal pole, 14, push rod, 15, pedestal, 16, the frame, 17, center pin, 18, tensioning arm, 19, steel band, 20, fixed station, 21, steel band push device.

Detailed Description

The utility model is further described below with reference to the accompanying drawings. For a better understanding, the present utility model is described with reference to the drawings and is not to be construed as limiting the utility model; the following terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 5, the present utility model provides an embodiment: stainless steel band automatic feeding system, stack pallet 1, the delivery track 2 of placing the steel band 19, steel band push away the device 21, be provided with on the delivery track 2 with the steel band 19 place the blowing district 3 on stack pallet 1, install the installation district 4 that the steel band 19 put on shelf, retrieve the recovery district 5 of stack pallet 1, the bottom both sides of stack pallet 1 are provided with can be in the pulley that delivery track 2 goes, set up on stack pallet 1 can place the cell body 6 of steel band 19, steel band push away the device 21 and be located the side of installation district 4, and will the steel band 19 is pushed away to upper material rest 7. In the position of blowing district 3 through crane or hoist with steel band 19 hoist in charge car 1, the cell body 6 of charge car 1 upper surface seting up can stand steel band 19 to make things convenient for follow-up steel band 19 to push up the lifting of device, continue transporting to installation district 4 by transfer rail 2, reach installation district 4 after steel band push up device 21 with the steel band 19 on the charge car 1 lift up, and promote steel band 19 to on the charging frame 7, the charge car 1 of accomplishing the material loading continues to transport to recovery district 5 through transfer rail 2, retrieve charge car 1.

With continued reference to fig. 1, 3 and 4, in an embodiment of the present utility model, the cross section of the slot 6 is a circular arc slot. As shown in fig. 3, the cross section of the slot is circular arc, the slotted body 6 not only can three-dimensionally put the steel belt 19 up, but also the side wall of the slotted body 6 can not block the central hole on the steel belt 19.

With continued reference to fig. 5, in an embodiment of the present utility model, the present utility model further includes a plurality of left arc-shaped gaskets 8 and right arc-shaped gaskets, the left arc-shaped gaskets 8 are symmetrical to the right arc-shaped gaskets, the left arc-shaped gaskets 8 are located at the left side of the inner wall of the tank body 6, and the right arc-shaped gaskets are located at the right side of the inner wall of the tank body 6. The left arc-shaped gasket 8 and the right arc-shaped gasket can be provided with gaskets with different thicknesses, the left arc-shaped gasket 8 and the right arc-shaped gasket can be respectively placed on the left side and the right side in the groove body 6, and the groove body 6 in the feeding car 1 can be provided with steel belts 19 with different sizes by the left arc-shaped gasket 8 and the right arc-shaped gasket with different thicknesses.

With continued reference to fig. 1 to 2, in an embodiment of the present utility model, the steel belt lifting device 21 includes a first hydraulic cylinder 9, a second hydraulic cylinder 10, and a third hydraulic cylinder 11, where the first hydraulic cylinder 9 is fixed on the side surface of the installation area 4 on the conveying track 2, an output end of the first hydraulic cylinder 9 is connected with a supporting rod 12, a fixing table 20 is fixed on an upper end of the supporting rod 12, the second hydraulic cylinder 10 is fixed on a side surface of the fixing table 20, an output end of the second hydraulic cylinder 10 is connected with a cross rod 13 capable of penetrating through the center hole, the third hydraulic cylinder 11 is fixed on a side surface of the fixing table 20 and located above and below the second hydraulic cylinder 10, and an output end of the third hydraulic cylinder 11 is connected with a push rod 14 capable of pushing the steel belt 19 to an upper frame. When the feeding car 1 is transported to the installation area 4 and is located in the middle of the feeding frame 7 of the steel belt lifting device 21, the first hydraulic cylinder 9 is operated to adjust the height of the cross rod 13 to be flush with the central hole of the steel belt 19 aligned with the cross rod 13, the cross rod 13 can be aligned with the central hole of the steel belt 19, the second hydraulic cylinder 10 enables the cross rod 13 to move forwards and extend into the central hole, the first hydraulic cylinder 9 continues to operate to lift the steel belt 19 away from the slot body 6, the second hydraulic cylinder 10 is operated to enable the cross rod 13 to extend forwards and extend to be in butt joint with the feeding frame 7, and then the third hydraulic cylinder 11 is operated to control the push rod 14 to extend to push the steel belt 19 onto the feeding frame 7.

With continued reference to fig. 1, in an embodiment of the present utility model, the feeding frame 7 includes a base 15, a stand 16, and a central shaft 17, where a plurality of telescopic tensioning arms 18 are disposed on the central shaft 17, the base 15 is fixed on a side edge of the mounting area 4 and opposite to the steel belt pushing device 21, the stand 16 is fixed on an upper surface of the base 15, the central shaft 17 extends from a side edge of the stand 16, and a plurality of telescopic tensioning arms 18 capable of internally supporting the steel belt 19 are disposed on the central shaft 17 in a ring shape. The center shaft 17 can be in butt joint with the push rod 14, the position deviation is avoided, the tensioning arm 18 can limit and support the center hole of the steel belt 19, and the steel belt 19 is fixed on the frame.

With continued reference to fig. 1-2, in an embodiment of the present utility model, a groove matching with the central axis 17 is formed on a side surface of the cross bar 13 near one end of the steel strip 19. The central shaft 17 can be inserted into a groove on the side surface of the cross bar 13, and the steel belt 19 can be conveniently put on the shelf.

With continued reference to fig. 1, 3 and 4, in an embodiment of the present utility model, the deepest slot has a height of 0.3-0.5 m, the width of the slot is 0.15-0.3 m, and the longest slot length is 0.6-1 m. The shape of the slot can be matched with the edge of the steel strip 19, and the deepest slot is in condition of not blocking the central hole.

The utility model has the following working principle: utilize the transfer rail to transmit the stack pallet to divide into blowing district, installation district, recovery district with the transfer rail, realize different functions respectively three district, the cell body on the stack pallet can stand the steel band, transports the installation district with the steel band, through the cooperation of pneumatic cylinder and body of rod, pushes up the steel band on the material loading frame, the stack pallet then passes through the transfer rail and transmits the recovery district, retrieves the stack pallet.

The above description is only of the preferred embodiments of the present utility model, and should not be construed as limiting the utility model, but rather as covering all equivalent variations and modifications according to the appended claims.

Claims (7)

1. An automatic stainless steel strip feeding system which is characterized in that: the steel belt lifting device comprises a feeding car for placing the steel belt, a conveying track and a steel belt lifting device, wherein a discharging area for placing the steel belt on the feeding car and a mounting area for mounting the steel belt on a frame are arranged on the conveying track, a recycling area for recycling the feeding car is arranged on two sides of the bottom of the feeding car, pulleys capable of running on the conveying track are arranged on two sides of the bottom of the feeding car, a groove body capable of placing the steel belt is formed in the feeding car, and the steel belt lifting device is located on the side edge of the mounting area and lifts the steel belt to the upper material frame.

2. The automatic stainless steel strip feeding system according to claim 1, wherein: the cross section of the groove body is a circular arc-shaped groove.

3. The automatic stainless steel strip feeding system according to claim 1, wherein: still include a plurality of left arc gasket and right arc gasket, left arc gasket with right arc gasket is symmetrical, left arc gasket is located the left side of cell body inner wall, right arc gasket is located the right side of cell body inner wall.

4. The automatic stainless steel strip feeding system according to claim 1, wherein: the steel belt pushing device comprises a first hydraulic cylinder, a second hydraulic cylinder and a third hydraulic cylinder, wherein the first hydraulic cylinder is fixed on the side surface of an installation area on the conveying track, the output end of the first hydraulic cylinder is connected with a supporting rod, the upper end of the supporting rod is fixedly provided with a fixing table, the second hydraulic cylinder is fixed on the side surface of the fixing table, the output end of the second hydraulic cylinder is connected with a cross rod capable of penetrating through a steel belt center hole, the third hydraulic cylinder is fixed on the side surface of the fixing table and located above and below the second hydraulic cylinder, and the output end of the third hydraulic cylinder is connected with a push rod capable of pushing the steel belt to an upper frame.

5. The automatic stainless steel strip feeding system according to claim 4, wherein: the feeding frame comprises a base body and a frame table, a central shaft, a plurality of telescopic tensioning arms are arranged on the central shaft, the base body is fixed on the side edge of the installation area and opposite to the steel belt pushing device, the frame table is fixed on the upper surface of the base body, the central shaft extends out of the side edge of the frame table, and a plurality of telescopic tensioning arms capable of internally supporting the steel belt are annularly arranged on the central shaft.

6. The automatic stainless steel strip feeding system according to claim 5, wherein: and a groove which is matched with the central shaft is formed in the side surface of one end, close to the steel belt, of the cross rod.

7. The automatic stainless steel strip feeding system according to claim 2, wherein: the deepest part of the groove is 0.3-0.5 m in height, the width of the groove is 0.15-0.3 m, and the longest part of the groove is 0.6-1 m in length.