CN221184595U - Round steel storage and heating type storage bin device - Google Patents

Abstract

The utility model belongs to the field of automatic hot forging processing of round steel products, and relates to a round steel storage and heating type storage bin device, which comprises a body, a feeding component and a pushing component, wherein the feeding component and the pushing component are arranged on the body; the body includes frame, charging tray, material platform, high frequency heating circle, get the material platform, the charging tray, material platform and get the equal fixed mounting of material platform in the frame, the material platform sets up in the end of charging tray, high frequency heating circle fixed mounting is on the material platform, get the material platform and set up in one side of material platform, push away the material subassembly and install in the frame of material platform opposite side, push away the material subassembly, high frequency heating circle, get the material platform and lie in a straight line, the end of charging tray is equipped with the breach, feed subassembly fixed mounting is in the frame of breach below, feed subassembly is used for with the terminal round steel jack-up of charging tray to the material bench. Through the cooperation of body, feeding subassembly, pushing components, the unloading robot can be realized to round steel class product hot forging automated production in combination again, raises the efficiency, saves the manual work.

Description

Round steel storage and heating type storage bin device

Technical Field

The utility model belongs to the field of automatic hot forging processing of round steel products, and particularly relates to a round steel discharging and heating type storage bin device.

Background

Hot forging is forging of a metal workpiece above the recrystallization temperature, i.e., heating is required before the workpiece is machined; for the automatic processing module of unit type hot forging, a device with the functions of storing and heating is urgently needed, and the automatic production of the procedure is realized by matching with an upper and lower feeding robot.

How to realize the equipment with the functions of storing and heating for round steel products is particularly important for realizing the automatic production of hot forging and pressing, and is also one of the focus of the industry personnel.

Disclosure of Invention

The utility model aims to provide a round steel storage and heating type storage bin device.

The technical scheme adopted for solving the technical problems is as follows: a round steel storage and heating type storage bin device comprises a body, a feeding component and a pushing component, wherein the feeding component and the pushing component are arranged on the body;

The body includes frame, charging tray, charging table, high frequency heating circle, get material platform, the charging tray, charging table and get material platform all fixed mounting in the frame, the charging tray is used for holding the round steel of waiting to handle, the charging table sets up in the end of charging tray, high frequency heating circle fixed mounting is on the charging table, it sets up in one side of charging table to get material platform, push away the material subassembly and install in the frame of charging table opposite side, push away the material subassembly, high frequency heating circle, it is located a straight line to get material platform, the end of charging tray is equipped with the breach, feed subassembly fixed mounting is in the frame of breach below, feed subassembly is used for jacking the terminal round steel of charging tray to the charging table, the round steel is located between push away material subassembly and the high frequency heating circle and is on same straight line with push away material subassembly and high frequency heating circle.

Further, the feeding subassembly includes feeding support, feeding guide arm cylinder, roof, and feeding support vertical fixed mounting is in the frame of breach below, and feeding guide arm cylinder fixed mounting is on the lateral wall of feeding support, and the output at feeding guide arm cylinder top is connected with the roof, and during feeding guide arm cylinder initial state, the roof is located under the breach, and feeding guide arm cylinder action back, roof upwards moves to the breach top.

Further, the pushing assembly comprises a pushing support, a pushing cylinder assembly and a second pushing cylinder, the bottom of the pushing support is fixedly arranged on the frame, the first pushing cylinder assembly is fixedly arranged on the top surface of the pushing support, the second pushing cylinder is arranged in a cavity of the pushing support and is positioned below the first pushing cylinder assembly, the second pushing cylinder is fixedly arranged on the frame, and the output ends of the first pushing cylinder assembly and the second pushing cylinder are opposite to the inlet of the high-frequency heating ring.

Further, the push cylinder assembly comprises a push rod cylinder, a push plate and a through hole, the output end of the push rod cylinder is connected with the push plate, the push plate is vertically arranged, the push plate is opposite to the round steel on the material table and the inlet of the high-frequency heating ring, the through hole is arranged at the lower part of the push plate, the output end of the push cylinder penetrates through the through hole and is opposite to the round steel on the material table and the inlet of the high-frequency heating ring, and the material taking table is arranged at the outlet of the high-frequency heating ring.

Further, the end part of the two pushing cylinders is provided with a fixed bracket, and the two pushing cylinders are fixedly arranged on the frame through the fixed bracket.

Further, the frame includes vertical connection's vertical support and horizontal support, and the height of vertical support and horizontal support connection's one end is less than the height of the other end, and charging tray fixed mounting is on vertical support's top surface, pushes away material subassembly, material platform and get material platform and install on horizontal support's top surface.

Further, the material table is provided with a material following plate, the material following plate is right opposite to the tail end of the material tray, round steel on the material table is limited, and the material following plate is parallel to the material pushing assembly and the high-frequency heating ring, so that the round steel on the material table is opposite to the output end of the material pushing assembly and the inlet of the high-frequency heating ring.

Further, end baffles are arranged on two sides of the end notch of the material tray, and baffle plates are arranged on the front end and two side edges of the material tray.

Further, in order to ensure that the round steel stably enters the material table, the height of the end baffle is lower than that of the material baffle.

The utility model has the following beneficial effects:

1) According to the round steel discharging and heating type bin device, automatic feeding of round steel is achieved through the inclined material disc, the end baffle of the material disc can ensure that round steel products are blocked and stopped after rolling to the end of the material disc, and on the other hand, when the feeding assembly lifts the round steel onto the material table, the round steel is prevented from sliding from two sides of the material disc.

2) According to the round steel discharging and heating type bin device, the material following plate is arranged on the material table, so that one end of round steel on the material table is opposite to the inlet of the high-frequency heating ring, and the other end of round steel is opposite to the output end of the pushing component, and the pushing accuracy is improved.

3) According to the round steel discharging and heating type storage bin device, round steel is pushed into the high-frequency heating ring through the push plate of the push cylinder assembly, after heating is finished, the round steel is pushed out to the material taking table through the push cylinder extending into the high-frequency heating ring, and control precision and automation degree are improved.

4) According to the round steel discharging and heating type bin device, through the cooperation of the body, the feeding assembly and the pushing assembly, and the combination of the feeding and discharging robot, the automatic production of hot forging of round steel products can be realized, the efficiency is improved, and the labor is saved.

Drawings

Fig. 1 is an axial side view of the whole structure of the round steel discharging and heating type storage device.

Fig. 2 is an elevation view of the whole structure of the round steel discharging and heating type storage device of the utility model.

Fig. 3 is a side view of the body of the round steel discharging and heating type silo device of the utility model.

Fig. 4 is an isometric view of a feed assembly of the round steel discharge and heated silo apparatus of the present utility model.

Fig. 5 is an isometric view of a pushing assembly of the round steel discharge and heating type bin device of the utility model.

Fig. 6 is an isometric view of a push cylinder assembly of the round steel discharge and heated silo apparatus of the present utility model.

Fig. 7 is an isometric view of a tray of the round steel discharge and heated bin assembly of the present utility model.

In the figure, 1, a body, 2, a feeding component, 3, a pushing component, 4, round steel, 11, a rack, 12, a tray, 13, a material table, 14, a high-frequency heating ring, 15, a material taking table, 16, a material following plate, 21, a feeding support, 22, a feeding guide rod cylinder, 23, a top plate, 31, a pushing support, 32, a pushing cylinder component, 33, a two-pushing cylinder, 111, a longitudinal support, 112, a transverse support, 121, a baffle plate, 122, an end baffle plate, 123, a notch, 321, a deriving rod cylinder, 322, a push plate, 323, a through hole, 331 and a fixed support.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-3, a round steel storage and heating type storage device comprises a body 1, a feeding assembly 2 and a pushing assembly 3, wherein the feeding assembly 2 and the pushing assembly 3 are arranged on the body 1. The body 1 includes frame 11, charging tray 12, charging table 13, high frequency heating circle 14, get material platform 15, charging tray 12, charging table 13 and get material platform 15 all fixed mounting in frame 11, charging tray 12 is used for holding the round steel 4 of waiting to handle, charging tray 13 sets up in the end of charging tray 12, high frequency heating circle 14 fixed mounting is on charging tray 13, get material platform 15 sets up in one side of charging tray 3, push away material subassembly 3 and install in frame 11 of charging tray 3 opposite side, push away material subassembly 3, high frequency heating circle 14, get material platform 15 and lie in a straight line, the end of charging tray 12 is equipped with breach 123, feeding subassembly 2 fixed mounting is in frame 11 of breach 123 below, feeding subassembly 2 is used for the round steel 4 at the end of charging tray 12 to jack up to on the charging table 13, round steel 4 is located between push away material subassembly 3 and the high frequency heating circle 14 and with push away material subassembly 3 and high frequency heating circle 14 on same straight line.

The frame 11 includes a vertical support 111 and a horizontal support 112 vertically connected, and the pushing assembly 3, the material table 13 and the material taking table 15 are mounted on the top surface of the horizontal support 112. The height of one end of the longitudinal support 111 connected with the transverse support 112 is lower than that of the other end, and the material tray 12 is fixedly arranged on the top surface of the longitudinal support 111, so that the material tray 12 is inclined, round steel products are placed in the material tray 12, and the round steel products can automatically roll downwards to the tail end of the material tray 12 for material supplement. As shown in fig. 7, two sides of the notch 123 at the tail end of the tray 12 are provided with tail end baffles 122, the front end and two side edges of the tray 12 are provided with baffle plates 121, and the height of the tail end baffles 122 is lower than that of the baffle plates 121, so that on one hand, round steel products can be guaranteed to be blocked and stopped by the tail end baffles 122 after rolling to the tail end of the tray 12, and on the other hand, when the feeding component 2 lifts round steel 4 onto the material table 13, the round steel is prevented from sliding down from two sides of the tray 12.

The material table 13 is provided with a material following plate 16, the material following plate 16 is opposite to the tail end of the material tray 12 and is used for limiting the round steel 4 on the material table 13, and the material following plate 16 is parallel to the pushing assembly 3 and the high-frequency heating ring 14, so that the round steel 4 on the material table 13 is opposite to the output end of the pushing assembly 3 and the inlet of the high-frequency heating ring 14.

As shown in fig. 4, the feeding assembly 2 includes a feeding support 21, a feeding guide rod cylinder 22 and a top plate 23, the feeding support 21 is longitudinally and fixedly mounted on the frame 11 below the notch 123, the feeding guide rod cylinder 22 is fixedly mounted on the side wall of the feeding support 21, the top end of the feeding guide rod cylinder 22 is connected with the top plate 23, when the feeding guide rod cylinder 22 is in an initial state, the top plate 23 is located under the notch 123, and after the feeding guide rod cylinder 22 acts, the top plate 23 moves upwards to above the notch 123. When feeding is needed, the feeding guide rod cylinder 22 of the feeding assembly 2 extends out to jack up the round steel 4 products at the tail end of the material tray 12 upwards, the round steel 4 rolls into the material table 13 to be blocked by the material following plate 16 and is opposite to the high-frequency heating ring 14 through the tail end baffle 122.

As shown in fig. 5, the pushing assembly 3 includes a pushing bracket 31, a pushing cylinder assembly 32, and two pushing cylinders 33, wherein the bottom of the pushing bracket 31 is fixedly mounted on a transverse bracket 112 of the frame 11, the pushing cylinder assembly 32 is fixedly mounted on the top surface of the pushing bracket 31, the two pushing cylinders 33 are disposed in a cavity of the pushing bracket 31 and are located below the pushing cylinder assembly 32, the two pushing cylinders 33 are fixedly mounted on the transverse bracket 112 of the frame 11, and the output ends of the pushing cylinder assembly 32 and the two pushing cylinders 33 are opposite to the inlet of the high-frequency heating ring 14.

As shown in fig. 6, a pushing cylinder assembly 32 includes a pushing rod cylinder 321, a pushing plate 322, and a through hole 323, wherein the pushing plate 322 is vertically disposed at the output end of the pushing rod cylinder 321, the pushing plate 322 faces the round steel 4 on the material table 13 and the inlet of the high-frequency heating ring 14, the through hole 323 is disposed at the lower part of the pushing plate 322, the output end of the pushing cylinder 33 passes through the through hole 323 and faces the round steel 4 on the material table 13 and the inlet of the high-frequency heating ring 14, and the material taking table 15 is disposed at the outlet of the high-frequency heating ring 14. A push plate 322 of a push rod cylinder 321 is used for pushing the round steel 4 on the material table 13 into the high-frequency heating ring 14, and after the heating is completed, the output end cylinder rod of the two push cylinders 33 extends out of the through holes 323 and is used for pushing the round steel 4 in the high-frequency heating ring 14 onto the material taking table 15.

The end of the two pushing cylinders 33 is provided with a fixed bracket 331, and the two pushing cylinders 33 are fixedly arranged on the transverse bracket 112 of the frame 11 through the fixed bracket 331.

In one embodiment of the present utility model, a baffle is provided on the outer periphery of the material taking table 15 to prevent the round steel 4 from slipping off. The material taking table 15 is inclined, and a notch is arranged at the bottom of the lower side of the material taking table 15, so that the round steel 4 can be conveniently taken away.

When the round steel storage and heating type storage bin device is used, round steel products are placed into the inclined material tray 12, and the round steel products are automatically fed in a rolling way; the end of the tray 12 is provided with an end baffle 122, and round steel 4 rolls to the end of the tray 12 to stop; when feeding is needed, the feeding guide rod cylinder 22 of the feeding assembly 2 drives the top plate 23 to extend upwards, round steel 4 at the tail end of the material tray 12 is pushed upwards to pass through the tail end baffle 122, enters the material table 13 and is blocked by the material following plate 16 and straightens the direction.

After the round steel 4 enters the material table 13, a deriving rod cylinder 321 in the pushing assembly 3 acts, and a pushing plate 322 sends the round steel 4 into the high-frequency heating ring 14; after the heating is finished, the two pushing cylinders 33 act to push the round steel 4 after the heating is finished into the material taking table 15, and the material can be taken on the material taking table 15 by matching with an upper and lower material feeding robot used by the equipment.

The above examples are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the spirit and scope of the present utility model. Various modifications and improvements of the technical scheme of the utility model, which are made by those skilled in the art, are included in the protection scope of the utility model without departing from the design concept of the utility model.

The technology, shape, and construction parts of the present utility model, which are not described in detail, are known in the art.

Claims (9)

1. The round steel storage and heating type storage bin device is characterized by comprising a body, and a feeding assembly and a pushing assembly which are arranged on the body;

The body includes frame, charging tray, charging table, high frequency heating circle, get material platform, the charging tray, charging table and get material platform all fixed mounting in the frame, the charging tray is used for holding the round steel of waiting to handle, the charging table sets up in the end of charging tray, high frequency heating circle fixed mounting is on the charging table, it sets up in one side of charging table to get material platform, push away the material subassembly and install in the frame of charging table opposite side, push away the material subassembly, high frequency heating circle, it is located a straight line to get material platform, the end of charging tray is equipped with the breach, feed subassembly fixed mounting is in the frame of breach below, feed subassembly is used for jacking the terminal round steel of charging tray to the charging table, the round steel is located between push away material subassembly and the high frequency heating circle and is on same straight line with push away material subassembly and high frequency heating circle.

2. The round steel storage and heating type storage bin device according to claim 1, wherein the feeding assembly comprises a feeding support, a feeding guide rod cylinder and a top plate, the feeding support is longitudinally and fixedly arranged on a frame below the notch, the feeding guide rod cylinder is fixedly arranged on the side wall of the feeding support, the top plate is connected to the output end of the top of the feeding guide rod cylinder, the top plate is located under the notch in the initial state of the feeding guide rod cylinder, and the top plate moves upwards to be above the notch after the feeding guide rod cylinder acts.

3. The round steel storage and heating type storage bin device according to claim 1, wherein the pushing assembly comprises a pushing support, a pushing cylinder assembly and two pushing cylinders, the bottom of the pushing support is fixedly arranged on the frame, the pushing cylinder assembly is fixedly arranged on the top surface of the pushing support, the two pushing cylinders are arranged in a cavity of the pushing support and are positioned below the pushing cylinder assembly, the two pushing cylinders are fixedly arranged on the frame, and the output ends of the pushing cylinder assembly and the two pushing cylinders are opposite to the inlet of the high-frequency heating ring.

4. The round steel storage and heating type storage bin device according to claim 3, wherein the pushing cylinder assembly comprises a pushing rod cylinder, a pushing plate and a through hole, the output end of the pushing rod cylinder is connected with the pushing plate, the pushing plate is vertically arranged, the pushing plate is opposite to the round steel on the material table and the inlet of the high-frequency heating ring, the through hole is arranged at the lower part of the pushing plate, the output end of the pushing cylinder passes through the through hole and is opposite to the round steel on the material table and the inlet of the high-frequency heating ring, and the material taking table is arranged at the outlet of the high-frequency heating ring.

5. The round steel storage and heating type storage bin device according to claim 3, wherein a fixing support is arranged at the end part of the two pushing cylinders, and the two pushing cylinders are fixedly arranged on the frame through the fixing support.

6. The round steel storage and heating type storage device according to claim 1, wherein the frame comprises a vertical support and a horizontal support which are vertically connected, one end of the vertical support, which is connected with the horizontal support, is lower than the other end of the vertical support, the material tray is fixedly arranged on the top surface of the vertical support, and the pushing component, the material table and the material taking table are arranged on the top surface of the horizontal support.

7. The round steel storage and heating type storage device as claimed in any one of claims 1 to 6, wherein a material following plate is arranged on the material table, the material following plate is right opposite to the tail end of the material tray, round steel on the material table is limited, and the material following plate is parallel to the material pushing assembly and the high-frequency heating ring, so that round steel on the material table is right opposite to the output end of the material pushing assembly and the inlet of the high-frequency heating ring.

8. The round steel storage and heating type storage bin device according to claim 1, wherein end baffles are arranged on two sides of the end notch of the material disc, and baffle plates are arranged on the front end and two side edges of the material disc.

9. The round steel storage, heated silo apparatus of claim 8, wherein the end baffles have a height that is lower than the height of the dam.