CN219258758U

CN219258758U - Material collecting device for steel plate production

Info

Publication number: CN219258758U
Application number: CN202320375691.8U
Authority: CN
Inventors: 余勇
Original assignee: Chongqing Qianglong Tools Co ltd
Current assignee: Chongqing Qianglong Tools Co ltd
Priority date: 2023-03-03
Filing date: 2023-03-03
Publication date: 2023-06-27
Anticipated expiration: 2033-03-03

Abstract

The utility model is applicable to the technical field of steel plate material collection, and provides a material collecting device for steel plate production, which comprises a material collecting box and further comprises: the bearing assembly comprises a triangular baffle, the upper end face of the triangular baffle is flush with the upper end face of the conveying belt, the triangular baffle is rotatably mounted on the material collecting box, the bearing assembly further comprises a transmission rod, the transmission rod is rotatably connected with two connecting rods, one ends of the two connecting rods, far away from the transmission rod, are respectively connected with a push rod, the two push rods are symmetrically arranged on two sides of the transmission rod, the push rods are connected with the inner side wall of the material collecting box through a first spring, one ends of the push rods, far away from the connecting rods, are provided with matching blocks, and connecting columns matched with the matching blocks are arranged on the triangular baffle; and a blanking assembly. The device can realize the automatic bearing and orderly stacking of the steel plates, has small abrasion of the steel plates, and can not generate bending deformation and other conditions in the material receiving process.

Description

Material collecting device for steel plate production

Technical Field

The utility model belongs to the technical field of steel plate material collection, and particularly relates to a material collection device for steel plate production.

Background

The steel plate is a flat plate steel material which is formed by pouring molten steel, cooling and pressing, and most of the steel plates are cut from steel coils nowadays. The general flow of producing the steel plate is that the steel coil is unreeled by an unreeling machine, then the unreeled steel belt is cut to form a regular plate, and the cut plate is transported to the discharge end of a cutting assembly line by a conveyer belt to be collected.

In the existing plate shearing production line, when the length dimension of a plate is longer, the discharge end of the plate firstly passes through the discharge end of the cutting assembly line, the discharge end of the plate loses the supporting function of the conveying belt and bends downwards due to the dead weight effect, the possibility of scraping the upper plate surface of the upper plate exists, and the product quality of the plate is affected.

Disclosure of Invention

The embodiment of the utility model aims to provide a receiving device for steel plate production, which aims to solve the problems in the background technology.

The embodiment of the utility model is realized in such a way that the receiving device for producing the steel plate comprises a receiving box arranged at the discharge end of a conveying belt, and further comprises:

the bearing assembly comprises two triangular baffles symmetrically arranged at the top of the material receiving box, the upper end face of the triangular baffles is flush with the upper end face of the conveying belt, one end of the triangular baffles, which is close to the conveying belt, is rotatably arranged on the material receiving box, the bearing assembly further comprises a transmission rod which is slidably arranged on one side, far away from the conveying belt, of the material receiving box, the transmission rod is rotatably connected with two connecting rods, one ends, far away from the transmission rod, of the two connecting rods are respectively connected with a push rod, the two push rods are symmetrically arranged on two sides of the transmission rod, the push rods are connected with the inner side of the side wall of the material receiving box through a first spring, one end, far away from the connecting rod, of the push rods is provided with a matching block, the triangular baffles are provided with connecting columns matched with the matching block, and the matching block is further provided with a chute matched with the connecting column; and

and the blanking assembly is used for supporting the falling of the steel plate.

Further technical scheme, unloading subassembly includes that two symmetries set up in the mounting panel of receiving the workbin both sides, just receive the bilateral symmetry of workbin be provided with be used for carrying out the guide post that leads to the mounting panel, and each the both ends of mounting panel all are provided with a guide post, be provided with the second spring on the guide post, just the one end of second spring is connected with the bottom of mounting panel, two a plurality of dogs that are used for supporting the steel sheet have all been arranged to one side that the mounting panel is relative, dog slidable mounting is in the mounting panel, the dog is located the bottom surface of the outside one end of mounting panel and is the slope form, just be provided with the blowing boss that matches with the inclined plane of dog on the diapire of receiving the workbin, the one end that the dog is located the mounting panel inside is connected with the mounting panel through the third spring.

According to a further technical scheme, a plurality of balls are arranged on the upper surface of the triangular baffle plate.

According to a further technical scheme, a buffer head is arranged at one end of the transmission rod, which is in contact with the steel plate.

Further technical scheme, the material of buffer head is rubber.

When the receiving device for steel plate production provided by the embodiment of the utility model is used, the steel plate is conveyed to the receiving box from the conveying belt, the steel plate firstly slides on the triangular baffle plate, and the steel plate continuously pushes the transmission rod to move after contacting with the transmission rod. The transmission rod drives two push rods to move in opposite directions through the connecting rod, under the cooperation of the connecting post and the cooperation block, the push rods can drive the triangular baffle plates to rotate, so that the triangular baffle plates are opened towards two sides, the steel plates can fall onto the blanking assembly, and under the action of the elastic restoring force of the first springs, the push rods can restore to the initial positions after the steel plates fall down, and at the moment, the triangular baffle plates can also restore to the initial positions, and then the carrying of the next steel plates can be carried out. When the steel plate falls down from the triangular baffle plate and then directly falls onto the baffle plate, the baffle plate is connected with the baffle plate through the synchronous action of the baffle plates, the baffle plate drives the mounting plate to slide along the guide post under the gravity action of the steel plate, the second spring is compressed, when the baffle plate moves downwards to the discharging boss, the baffle plate is extruded by the discharging boss and then can be retracted into the mounting plate, and at the moment, the steel plate can fall onto the discharging boss to complete the material collecting process of the steel plate. The device can realize the automatic bearing and orderly stacking of the steel plates, has small abrasion of the steel plates, and can not generate bending deformation and other conditions in the material receiving process.

Drawings

Fig. 1 is a schematic structural diagram of a receiving device for producing steel plates according to an embodiment of the present utility model;

fig. 2 is a top view of a material receiving box in a material receiving device for producing steel plates, which is provided by the embodiment of the utility model;

fig. 3 is a schematic structural diagram of an area a in a receiving device for producing steel plates according to an embodiment of the present utility model;

fig. 4 is a side sectional view of a receiving box in a receiving device for producing steel plates according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of a B region in a receiving device for producing steel plates according to an embodiment of the present utility model.

In the accompanying drawings: a conveyor belt 1; a material receiving box 2; a discharging boss 21; a receiving assembly 3; triangular baffles 31; a transmission rod 32; a connecting rod 33; a push rod 34; a first spring 35; a connecting post 36; a fitting block 37; a ball 38; a blanking assembly 4; a mounting plate 41; a guide post 42; a second spring 43; a stopper 44; and a third spring 45.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1-3, a receiving device for producing steel plates according to an embodiment of the present utility model includes a receiving box 2 disposed at a discharge end of a conveyor belt 1, and further includes:

the receiving assembly 3, the receiving assembly 3 includes two triangle baffles 31 symmetrically installed at the top of the receiving box 2, the upper end surface of the triangle baffles 31 is flush with the upper end surface of the conveying belt 1, one end of the triangle baffles 31 close to the conveying belt 1 is rotatably installed on the receiving box 2, the receiving assembly 3 further includes a transmission rod 32 slidably installed at one side of the receiving box 2 far away from the conveying belt 1, the transmission rod 32 is rotatably connected with two connecting rods 33, one ends of the two connecting rods 33 far away from the transmission rod 32 are respectively connected with a push rod 34, the two push rods 34 are symmetrically arranged at two sides of the transmission rod 32, the push rods 34 are connected with the inner side wall of the receiving box 2 through a first spring 35, one end of the push rod 34 far away from the connecting rod 33 is provided with a matching block 37, the triangle baffles 31 are provided with connecting columns 36 matched with the matching block 37, and the matching block 37 is also provided with sliding grooves matched with the connecting columns 36; and

and a blanking assembly 4 for supporting the falling of the steel plate.

In the embodiment of the utility model, when the steel plate is used, the steel plate is conveyed from the conveying belt 1 to the material receiving box 2, the steel plate firstly slides on the triangular baffle plate 31, and after the steel plate contacts with the transmission rod 32, the steel plate continuously pushes the transmission rod 32 to move. The transmission rod 32 drives the two push rods 34 to move in opposite directions through the connecting rod 33, under the cooperation of the connecting post 36 and the cooperation block 37, the push rods 34 can drive the triangular baffle plates 31 to rotate, so that the triangular baffle plates 31 are opened towards two sides, steel plates can fall onto the blanking assembly 4, and after the steel plates fall down, under the elastic restoring force of the sub first springs 35, the push rods 34 can be restored to the initial positions, and at the moment, the triangular baffle plates 31 can also be restored to the initial positions, and then the next steel plates can be received. The blanking component 4 can slowly place the steel plates on the material receiving box 2, so that the orderly stacking of the steel plates is realized.

As shown in fig. 4 and 5, as a preferred embodiment of the present utility model, the blanking assembly 4 includes two mounting plates 41 symmetrically disposed on two sides of the receiving box 2, guide posts 42 for guiding the mounting plates 41 are symmetrically disposed on two sides of the receiving box 2, two ends of each mounting plate 41 are respectively provided with a guide post 42, one end of each guide post 42 is connected with the bottom of the mounting plate 41, two opposite sides of each mounting plate 41 are respectively provided with a plurality of stoppers 44 for supporting steel plates, the stoppers 44 are slidably mounted in the mounting plates 41, the bottom surface of one end of each stopper 44 located outside the mounting plate 41 is inclined, the bottom wall of the receiving box 2 is provided with a discharging boss 21 matched with the inclined surface of each stopper 44, and one end of each stopper 44 located inside the mounting plate 41 is connected with the mounting plate 41 through a third spring 45.

In the embodiment of the utility model, when the steel plate falls from the triangular baffle plate 31 and then directly falls onto the baffle plates 44, the steel plate is supported by the synchronous action of the baffle plates 44, the baffle plates 44 drive the mounting plate 41 to slide along the guide posts 42 under the gravity action of the steel plate and compress the second springs 43, when the baffle plates 44 move downwards to the discharging boss 21, the baffle plates 44 are extruded by the discharging boss 21 and retract into the mounting plate 41, and at the moment, the steel plate falls onto the discharging boss 21 to complete the material collecting process of the steel plate, and at the moment, the baffle plates 44 can recover the initial position under the elastic restoring force of the third springs 45. Meanwhile, the mounting plate 41 is restored to the original position by the elastic restoring force of the second spring 43 until the next steel plate falls. In the subsequent material receiving process, the stop block 44 is extruded by the steel plate placed on the material placing boss 21 to shrink again.

As shown in fig. 2, as a preferred embodiment of the present utility model, the triangular baffle 31 has a plurality of balls 38 mounted on its upper surface, and the balls 38 convert the direct sliding friction between the steel plate and the triangular baffle 31 into rolling friction, thereby reducing the scratch of the bottom surface of the steel plate.

As shown in fig. 3, as a preferred embodiment of the present utility model, a buffer head is disposed at an end of the transmission rod 32 contacting the steel plate, and the buffer head is made of rubber. The buffer head is used for reducing scraping caused to the steel plate when the transmission rod 32 contacts with the steel plate, and also preventing the damage of the device caused by overlarge impact force of the steel plate.

Working principle: when the steel plate is used, the steel plate is conveyed onto the material receiving box 2 from the conveying belt 1, the steel plate firstly slides on the triangular baffle plate 31, and after the steel plate is contacted with the transmission rod 32, the steel plate can continuously push the transmission rod 32 to move. The transmission rod 32 drives the two push rods 34 to move in opposite directions through the connecting rod 33, under the cooperation of the connecting post 36 and the cooperation block 37, the push rods 34 can drive the triangular baffle plates 31 to rotate, so that the triangular baffle plates 31 are opened towards two sides, steel plates can fall onto the blanking assembly 4, and after the steel plates fall down, under the elastic restoring force of the sub first springs 35, the push rods 34 can be restored to the initial positions, and at the moment, the triangular baffle plates 31 can also be restored to the initial positions, and then the next steel plates can be received. When the steel plate falls down from the triangular baffle plate 31 and then directly falls onto the baffle plate 44, the baffle plate 44 drives the mounting plate 41 to slide along the guide post 42 under the action of gravity of the steel plate through the synchronous action of each baffle plate 44, the second spring 43 is compressed, when the baffle plate 44 moves downwards to the position of the discharging boss 21, the baffle plate 44 is extruded by the discharging boss 21 and then can be retracted into the mounting plate 41, at the moment, the steel plate falls onto the discharging boss 21, the material collecting process of one steel plate is completed, and the orderly stacking of the steel plate can be realized by repeating the processes.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The utility model provides a receiving device is used in steel sheet production, includes the receipts workbin that sets up in the discharge end of conveyer belt, its characterized in that still includes:

2. The receiving device for steel plate production according to claim 1, wherein the blanking component comprises two mounting plates symmetrically arranged on two sides of the receiving box, guide posts for guiding the mounting plates are symmetrically arranged on two sides of the receiving box, one guide post is arranged at two ends of each mounting plate, a second spring is arranged on each guide post, one end of each second spring is connected with the bottom of each mounting plate, a plurality of check blocks for supporting the steel plates are arranged on two opposite sides of each mounting plate, the check blocks are slidably mounted in the mounting plates, the bottom surface of one end of each check block located outside the mounting plate is inclined, a discharging boss matched with the inclined surface of each check block is arranged on the bottom wall of the receiving box, and one end of each check block located inside the mounting plate is connected with the mounting plate through a third spring.

3. The steel plate production receiving device according to claim 1, wherein a plurality of balls are mounted on the upper surface of the triangular baffle plate.

4. The steel plate production receiving device according to claim 1, wherein a buffer head is arranged at one end of the transmission rod, which is in contact with the steel plate.

5. The steel sheet production receiving device as recited in claim 4, wherein the buffer head is made of rubber.