CN212268557U

CN212268557U - Automatic lifting device for forge piece for heating furnace

Info

Publication number: CN212268557U
Application number: CN202020898127.0U
Authority: CN
Inventors: 尚孝义; 王克军
Original assignee: Shandong Taitong Precision Forging Technology Co ltd
Current assignee: Shandong Taitong Precision Forging Technology Co ltd
Priority date: 2020-05-23
Filing date: 2020-05-23
Publication date: 2021-01-01
Anticipated expiration: 2030-05-23

Abstract

The utility model discloses a forging automatic lifting device for heating furnace relates to heating furnace charging equipment's technical field, including last work or material rest, it sets up in one side of material loading platform to go up the work or material rest, it includes a pair of parallel arrangement's driving roller to go up the work or material rest, the driving roller rotates the setting respectively and is in the upper end and the lower tip of going up the work or material rest, the driving roller is fixed respectively and has cup jointed a pair of sprocket, the chain takes turns to and has meshed the chain, it gets the subassembly to be provided with the hook that is used for hooking the forging between the chain, the upper end of going up the work or material rest is connected with the stock guide that is used for placing the forging that the hook was got the subassembly hook and was got, the stock guide is fixed to be set up at the material loading bench, and stock. The automatic lifting device is convenient for workers to transport the forge pieces, and meanwhile, the heating furnace is convenient to feed.

Description

Automatic lifting device for forge piece for heating furnace

Technical Field

The utility model belongs to the technical field of heating furnace charging equipment's technique and specifically relates to a forging automatic lifting device for heating furnace.

Background

In the production and processing process of the automobile rear axle half shaft sleeve, cylindrical round steel needs to be cut into sections on a cutting sawing machine, and the forged piece after being cut into sections needs to be heated through a heating furnace. A supporting table is arranged below the heating furnace, and a feeding hole of the heating furnace has a certain working height. In the prior art, the forge piece is often transported to the heating furnace for feeding the heating furnace, and then the forge piece is manually lifted to the feed inlet of the heating furnace so as to feed the heating furnace.

In the above technical scheme: the forge piece is extracted manually, so that the operation is inconvenient, and the labor intensity of workers is easily increased.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a forging automatic lifting device for heating furnace to promote and transport the forging, the convenience reduces intensity of labour to the heating furnace material loading.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a forging automatic lifting device for heating furnace, includes the material loading frame, the material loading frame sets up in one side of material loading platform, the material loading frame includes a pair of parallel arrangement's driving roller, the driving roller rotates the setting respectively and is in the upper end portion and the lower tip of material loading frame, the driving roller is fixed respectively to have cup jointed a pair of sprocket, the meshing has the chain on the sprocket, be provided with the subassembly of getting with the hook that is used for getting with the hook forging between the chain, the upper end of material loading frame is connected with the stock guide that is used for placing the forging that the subassembly of getting with the hook gets with the hook, the stock guide is fixed to be set up on the material loading platform, and stock guide one end is located the below of chain upper end portion, and.

Through adopting above-mentioned technical scheme, the during operation, the forging is placed on the subassembly is got to the hook, and later driving roller rotates and sprocket rotates to the hook on the drive chain gets the subassembly and promotes towards the material bench, and the hook is got the subassembly and is being risen to the highest point and take place the upset, in order to place the forging on the stock guide, because the stock guide slope sets up, make the forging can move to the feed inlet department of heating furnace, thereby make things convenient for the material loading. The automatic lifting device is convenient for workers to transport the forge pieces, and meanwhile, the heating furnace is convenient to feed.

The utility model discloses further set up to: the hooking component comprises a connecting plate, the connecting plate is parallel to the transmission roller and is fixedly connected with the chain, the hooking component further comprises a plurality of hooking claws, the hooking claws are fixedly arranged on the connecting plate and are used for hooking and taking a forged piece, and one end, close to the chain, of the guide plate is provided with a material taking notch used for passing hooking claws.

Through adopting above-mentioned technical scheme, collude the claw and can be used to place the forging, the connecting plate is connected with the chain and makes the connecting plate can drive colludes the claw and remove along the chain removal, place the forging on colluding the claw after, collude the claw and drive the forging and rise along with the rotation of chain, collude the claw and move and begin the upset when colluding the claw and remove to the top of work or material rest after, collude the claw and continue to move to place the forging on the stock guide, later the driving roller continues to move so that collude the claw and pass and get the material breach in order to carry out next lifting action.

The utility model discloses further set up to: and two sides of the material guide plate are fixedly connected with side baffle plates respectively.

Through adopting above-mentioned technical scheme, because the stock guide slope sets up, place in the stock guide after the forging, the forging rolls along the incline direction of stock guide, and the forging easily breaks away from the stock guide along the both sides wall border position of stock guide at the roll in-process, and the setting of side shield can play the guide effect to the moving direction of forging to make the forging be difficult to break away from the stock guide from the border position of stock guide at the operation in-process.

The utility model discloses further set up to: the end part of the material guide plate close to the feeding hole is connected with an end material baffle plate.

Through adopting above-mentioned technical scheme, the setting of end baffle plate can play the effect of blockking to the forging on the stock guide to prevent that the forging on the stock guide from removing the in-process from stock guide tip position landing stock guide, in order to cause the injury to near staff. Meanwhile, due to the arrangement of the material baffle plates, a plurality of forgings can be simultaneously stored on the material baffle plates.

The utility model discloses further set up to: the chain is arranged from the lower end part to the upper end part of the feeding frame towards the feeding table in an inclined mode.

Through adopting above-mentioned technical scheme, because the chain slope sets up for when the forging is being placed on the subassembly is got to the hook, the forging is easily supported to on colluding claw and connecting plate at the operation in-process, makes the forging comparatively stable at the operation in-process, is difficult to the disengaging hook and gets the subassembly.

The utility model discloses further set up to: the automatic lifting device further comprises a material storage mechanism for storing the forged piece, the material storage mechanism comprises a material placing plate and a plurality of baffle plates, the baffle plates are fixedly arranged at the end parts of the material placing plate, and material taking notches for hooking claws to pass through are formed in the end parts of the material placing plate.

Through adopting above-mentioned technical scheme, when promoting the material loading, can place the forging in the fender board earlier and put between the flitch, when colluding the claw and move to putting the material getting breach on the flitch, can place the forging of putting on the flitch on colluding claw and connecting plate automatically.

The utility model discloses further set up to: the material placing plate is obliquely arranged downwards from the end far away from the chain to the end close to the chain.

Through adopting above-mentioned technical scheme for put the flitch and can have placed a plurality of forgings simultaneously, get to promote to material platform top after the forging of breach department is colluded claw hook, put the forging on the flitch and easily move towards fortune material breach along the incline direction of putting the flitch, thereby conveniently collude claw once more and hook and get the forging.

The utility model discloses further set up to: the two sides of the material placing plate are fixedly connected with side plates which prevent the forge piece from separating from the material placing plate.

Through adopting above-mentioned technical scheme, the forging is along probably deviating when putting flitch on the operation, and the setting of side board can play the guide effect to the forging operation, can prevent that the section piece from breaking away from the marginal position of putting the flitch and put the flitch.

To sum up, the utility model discloses a beneficial technological effect does:

1. setting of the automatic lifting device: during operation, the forging is placed on the subassembly is got to the hook, and later driving roller rotates and sprocket rotates to the hook on the drive chain is got the subassembly and is promoted towards the material bench, and the hook is got the subassembly and is ascending to the highest point and take place the upset, in order to place the forging on the stock guide, because the stock guide slope sets up, makes the forging can move to the feed inlet department of heating furnace, thereby makes things convenient for the material loading. The automatic lifting device is convenient for workers to transfer the forge pieces so as to feed the heating furnace;

placing a material plate: after the forge piece is stacked on the material placing plate, the forge piece moves towards the operation notch under the action of gravity, the driving roller rotates ceaselessly to drive the chain to operate ceaselessly, and therefore the workpiece is lifted to the material guide plate ceaselessly to be heated.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the middle feeding frame of the present invention.

The reference symbols: 100. heating furnace; 110. a feed inlet; 120. a feeding table; 200. a material storage mechanism; 210. a baffle plate; 220. placing a material plate; 221. a material taking notch; 230. a side plate; 300. a feeding frame; 310. a driving roller; 320. a sprocket; 330. a chain; 340. hooking the component; 341. a connecting plate; 342. hooking claws; 350. a transmission belt; 360. a drive motor; 370. a material guide plate; 371. a material blocking plate is arranged at the end; 380. and (5) supporting legs.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the automatic lifting device for the forged piece for the heating furnace comprises a stock mechanism 200 for storing the forged piece, and a feeding frame 300 for transferring and lifting the forged piece from the stock mechanism 200 to the feeding port 110 of the heating furnace 100, wherein the feeding frame 300 is arranged on one side of the feeding table 120.

Referring to fig. 1 and 2, the feeding frame 300 includes a pair of driving rollers 310 parallel to each other, the driving rollers 310 are respectively and rotatably disposed at the upper end portion and the lower end portion of the feeding frame 300, each driving roller 310 is fixedly sleeved with a pair of chain wheels 320, the chain wheels 320 on the two driving rollers 310 are correspondingly engaged with chains 330, and a hooking component 340 for hooking a forging is disposed between the chains 330. One end of the driving roller 310 at the lower end is sleeved with a driving belt 350, and the other end of the driving belt 350 is connected with a driving motor 360 for driving the driving belt 350 to run. When the driving motor 360 rotates, the driving belt 350 drives the driving roller 310 to move, and further drives the chain 330 to move.

The hooking component 340 includes a connecting plate 341 and a plurality of hooks 342, and preferably, three hooks 342 are provided in this embodiment. The connecting plate 341 is parallel to the driving roller 310, and the connecting plate 341 is fixedly welded to a side wall of the two chains 330 away from the sprocket 320, and the three hooks 342 are symmetrically and uniformly welded to a side wall of the connecting plate 341 away from the chains 330. The upper end of the feeding frame 300 is connected with a material guide plate 370, the material guide plate 370 is fixedly connected to the feeding table 120 by being connected with a plurality of supporting legs 380, one end of the material guide plate 370 is located below the upper end of the chain 330, and the other end of the material guide plate 370 slantly extends downwards to the feeding port 110 of the heating furnace 100. The material guide plate 370 is provided with a material taking notch 221 for the hook 342 to pass through at one end close to the chain 330 corresponding to the hook 342. When the forging is lifted, the forging is placed on the hook claw 342, the driving motor 360 rotates to drive the transmission roller 310 to operate, the hook claw 342 can drive the forging to operate towards the feeding table 120, when the hook assembly 340 operates to the upper end position of the feeding frame 300, along with the operation of the driving motor 360, the hook claw 342 overturns and places the forging on the material guide plate 370, and then the forging operates to the feeding hole 110 along the material guide plate 370, so that the heating furnace 100 is conveniently fed.

In order to improve the stability of the forge piece in the lifting and transferring process. Side baffle plates are welded on two sides of the material guide plate 370 respectively and used for preventing the forge piece from separating from the material guide plate 370 in the operation process, and the end part of the material guide plate 370 close to the feed port 110 is connected with an end baffle plate 371. The chain 330 is inclined from the lower end to the upper end of the loading frame 300 toward the loading table 120. So that the work can be attached to the side walls of the hook claw 342 and the connecting plate 341 in the lifting process, and the lifting stability is further improved.

The material storing mechanism 200 includes a material placing plate 220 and a plurality of baffle plates 210, and the baffle plates 210 of this embodiment are preferably provided with two pieces. One end side of the material placing plate 220 is arranged in parallel to the driving roller 310 along the width direction thereof, the end of the material placing plate is arranged close to the driving roller 310 at the lower end of the material loading frame 300, and the other end of the material placing plate extends to be far away from the material loading frame 300. The material placing plate 220 is arranged downwards in an inclined manner from the end far away from the material loading frame 300 to the end close to the material loading frame 300. The two blocking plates 210 are fixedly welded at the end part of the material placing plate 220 close to the driving roller 310, and the material taking notch 221 for the hook claw 342 to pass through is formed in the end part of the material placing plate 220 corresponding to the hook claw 342. Two sides of the material placing plate 220 are fixedly welded with side plates 230 for preventing the forging from separating from the material placing plate 220. During operation, place a plurality of forgings on putting flitch 220, owing to put flitch 220 slope setting for the forging easily moves to the material of putting on flitch 220 and gets material breach 221 department under the action of gravity, so that collude claw 342 hook and get the promotion forging.

The implementation principle of the embodiment is as follows: when the forging is lifted, the driving motor 360 drives the driving belt 350 to operate and further drives the driving roller 310 to rotate, so that the chain 330 operates, when the hook claw 342 operates to the material taking notch 221 of the material placing plate 220, the hook claw 342 firstly passes through the material taking notch 221 to hook a forging, and then after the hook claw 342 operates to the upper end of the material loading frame 300, the hook claw 342 drives the workpiece to turn over so as to convey the forging to the material guide plate 370. The claw 342 then travels through the material removal gap 221 of the guide plate 370 for the next lift. After the forged piece falls onto the material guide plate 370, the forged piece can roll to move to the material inlet 110 for feeding convenience because the material guide plate 370 is inclined towards the material inlet 110.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The automatic forging lifting device for the heating furnace is characterized by comprising a feeding frame (300) and a material storage mechanism (200) for placing a forging, wherein the feeding frame (300) is arranged on one side of a feeding table (120), the feeding frame (300) comprises a pair of driving rollers (310) which are arranged in parallel, the driving rollers (310) are respectively and rotatably arranged at the upper end part and the lower end part of the feeding frame (300), a pair of chain wheels (320) are respectively and fixedly sleeved on the driving rollers (310), a chain (330) is meshed on the chain wheels (320), a hooking component (340) for hooking the forging is arranged between the chains (330), the upper end of the feeding frame (300) is connected with a material guide plate (370) for placing the forging hooked by the hooking component (340), the material guide plate (370) is fixedly arranged on the feeding table (120), one end of the material guide plate (370) is positioned below the upper end part of the chain (330), the other end extends downwards obliquely to the feed inlet (110) of the heating furnace (100).

2. The automatic lifting device for the forged piece for the heating furnace according to claim 1, wherein the hooking component (340) comprises a connecting plate (341), the connecting plate (341) is arranged in parallel to the driving roller (310), the connecting plate (341) is fixedly connected with the chain (330), the hooking component (340) further comprises a plurality of hooking claws (342), the hooking claws (342) are fixedly arranged on the connecting plate (341) and used for hooking the forged piece, and the material guide plate (370) is provided with a material taking notch (221) for the hooking claws (342) to pass through at one end close to the chain (330).

3. The automatic lifting device of the forged piece for the heating furnace as claimed in claim 2, wherein two sides of the material guide plate (370) are fixedly connected with side baffle plates respectively.

4. The automatic lifting device for the forged piece for the heating furnace is characterized in that an end baffle plate (371) is connected to the end part of the guide plate (370) close to the feeding hole (110).

5. The automatic lifting device of a forged piece for a heating furnace according to claim 1, wherein said chain (330) is disposed obliquely toward the feeding table (120) from the lower end portion to the upper end portion of the feeding frame (300).

6. The automatic lifting device for the forged piece for the heating furnace of claim 1, further comprising a stock mechanism (200) for storing the forged piece, wherein the stock mechanism (200) comprises a material placing plate (220) and a plurality of baffle plates (210), the baffle plates (210) are fixedly arranged at the end parts of the material placing plate (220), and the material placing plate (220) is provided with a material taking notch (221) for the hook claw (342) to pass through at the end part of the baffle plate (210).

7. The automatic lifting device for the forged piece for the heating furnace is characterized in that the material placing plate (220) is arranged downwards in an inclined manner from the end far away from the chain (330) to the end close to the chain (330).

8. The automatic lifting device for the forgings for the heating furnace as claimed in claim 7, wherein the two sides of the material placing plate (220) are fixedly connected with side plates (230) which prevent the forgings from being separated from the material placing plate (220).