CN217675369U - Heating and blanking mechanism for intelligent bearing ring forging workshop - Google Patents

Abstract

The utility model provides a bearing ring intelligence forging shop heating unloading mechanism relates to the unloading field to solve current intelligent forging shop heating unloading mechanism after long-time the use, produce more residue easily, and then lead to the unable landing of raw materials that blocks easily, lack the problem of automatic boosting structure, including the impeller, the impeller is the long banding structure of rectangle, and the impeller is the metal material, and the impeller is in the inside of main part, and the impeller embedding is in the inside of baffle, and the front end both sides of impeller are equipped with a rectangular plate respectively. The impeller is connected with the round rod of the back plate through the rectangular plate, so that the spring outside the round rod can be stressed to control the moving part to move, the moving part is always in the front, after the moving part moves downwards, the auxiliary rod can be inserted into the stress groove, and then the automatic stress of the impeller moves backwards, so that the raw material cannot be influenced when being cut off.

Description

Heating and blanking mechanism for intelligent bearing ring forging workshop

Technical Field

The utility model belongs to the technical field of the unloading, more specifically says, in particular to bearing ring intelligence forging shop heating unloading mechanism.

Background

In intelligent forging shop, when processing the bearing ring, need heat the raw materials usually, then cut the raw materials, just at this moment need use heating unloading mechanism.

Current intelligence forging shop heating unloading mechanism after long-time the use, produces more residue easily, and then leads to the unable landing of raw materials that blocks easily, lacks automatic boosting structure, can't be with the help of cutting the automatic displacement of power control boosting structure, when promoting the boosting structure displacement, lacks the structure of supplementary buffering push down part impact force, appears abnormal sound easily and rocks.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a bearing ring intelligence forging shop heating unloading mechanism to solve current intelligent forging shop heating unloading mechanism after long-time the use, produce more residue easily, and then lead to the unable landing of raw materials that blocks easily, lack automatic boosting structure, can't be with the help of cuting the automatic displacement of power control boosting structure, when promoting boosting structure displacement, lack the structure that supplementary buffering pushed down the part impact force, the problem that abnormal sound and rocking appear easily.

The utility model relates to a bearing ring intelligence forging shop heating unloading mechanism's purpose and efficiency is reached by following concrete technological means:

the utility model provides a bearing ring intelligence forging shop heating unloading mechanism, includes: a main body; the main body is a heating blanking mechanism body and is of a T-shaped structure; the pushing piece is of a rectangular long strip structure, is made of metal, is positioned in the main body and is embedded in the guide plate, two rectangular plates are respectively arranged on two sides of the front end of the pushing piece and are inserted into the auxiliary groove, a round hole is formed in each rectangular plate, and a round rod at the top end of the rear plate is inserted into each round hole; the buffer piece, the buffer piece is the rectangle structure, and the buffer piece is the rubber material, and the inside at the back groove is installed to the buffer piece.

Optionally, the main body includes: the rear plate is of an L-shaped structure, the rear plate is fixed behind the main body, two sides of the top end of the rear plate are respectively provided with a round rod, the outer side of each round rod is sleeved with a spring, and the bottom of the rear end of the rear plate is provided with a rear groove which is of a rectangular structure; the main body further includes: the guide plates are of plate-shaped structures, the number of the guide plates is two, the two guide plates are arranged inside the main body, the rear end of each guide plate is provided with an auxiliary groove, and the auxiliary grooves are of rectangular structures; the main body further includes: the moving member, the moving member is for installing the inside top in the main part, and the rear end of moving member is equipped with the auxiliary rod, and the auxiliary rod is L shape structure, and the bottom of auxiliary rod is the wedge structure.

Optionally, the pusher comprises: the pushing groove is of an arc structure and is arranged at the bottom of the front end of the pushing piece; the stress groove is of a rectangular structure, the interior of the stress groove is of an inclined structure, and the stress groove is arranged in the pushing piece; the pusher further includes: the ejecting block is of a T-shaped structure, the ejecting block is arranged above the rear end of the pushing piece, two side rods are arranged on two sides of the front end of the ejecting block respectively and are of an L-shaped structure, and the bottoms of the front ends of the side rods are connected with the rectangular plate of the pushing piece through rectangular blocks.

Optionally, the buffer includes: the top groove is of a rectangular structure and is arranged behind the top end of the buffer piece, the top groove is of a rectangular structure, the front part and two sides of the top end of the top groove are both of inclined structures, an inner groove is arranged at the bottom end inside the top groove, and the inner groove is of an inclined structure; the buffer further includes: the bottom groove, the both sides of bottom groove are the slope column structure, and the bottom groove is established in the bottom of bolster, and the inside of bottom groove is equipped with the supporting shoe, and the supporting shoe is T shape structure.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. in the device, a pushing part is arranged and is connected with a round rod of a back plate through a rectangular plate, so that a spring on the outer side of the round rod can be stressed to control the moving part to move, the moving part is always in front, and after the moving part moves downwards, an auxiliary rod can be inserted into a stress groove, so that the pushing part automatically bears the force to move backwards, and the pushing part cannot be influenced when raw materials are cut off;

2. in this device, set up the bolster, after moving member and auxiliary rod moved down together, the auxiliary rod can insert the inside of top groove and inside groove, and then avoids the bottom direct impact back groove's of auxiliary rod inside bottom, avoids producing the abnormal sound and rocks, makes the life of this device longer.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a rear view structure diagram of the present invention.

Fig. 3 is a schematic rear-view exploded perspective structure of the present invention.

Fig. 4 is a schematic view of the rear perspective structure of the main body of the present invention.

Fig. 5 is a schematic perspective view of the pusher and the buffer of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body; 101. a back plate; 102. a rear groove; 103. a guide plate; 104. an auxiliary groove; 105. a moving member; 106. an auxiliary lever; 2. a pusher member; 201. a push groove; 202. a stress groove; 203. a top block; 204. a side lever; 3. a buffer member; 301. a top groove; 302. an inner tank; 303. a bottom groove; 304. and (7) a supporting block.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides a heating and blanking mechanism of an intelligent bearing ring forging workshop, which comprises a main body 1; the main body 1 is a heating blanking mechanism body, and the main body 1 is of a T-shaped structure, so that the main body 1 can be more stable after being installed; the pushing piece 2 is in a rectangular long strip structure, the pushing piece 2 is made of metal and can be freely pulled and moved, and meanwhile, the pushing piece 2 cannot deform after being contacted with a heated bearing ring, the pushing piece 2 is located inside the main body 1, the pushing piece 2 is embedded inside the guide plate 103, two sides of the front end of the pushing piece 2 are respectively provided with a rectangular plate, the rectangular plates are inserted inside the auxiliary groove 104 and used for assisting and controlling the pushing piece 2 to move in a guiding mode, a round hole is formed inside the rectangular plates, a round rod at the top end of the rear plate 101 is inserted inside the round hole, and the pushing piece 2 can receive power movement of a spring on the outer side of the round rod during guiding and can receive power reset of the spring; the buffer 3 is rectangular and can be conveniently embedded into the rear groove 102, the buffer 3 can be conveniently installed, the buffer 3 is made of rubber, impact force can be effectively buffered, effective noise reduction can be achieved, and the buffer 3 is installed inside the rear groove 102.

As shown in fig. 4, the main body 1 includes: the back plate 101 is of an L-shaped structure, the back plate 101 is fixed at the back of the main body 1 and used for supporting a round rod in an auxiliary mode, two sides of the top end of the back plate 101 are respectively provided with a round rod which is inserted into a round hole of the pushing piece 2 to enable the pushing piece 2 to move in a guiding mode, a spring is sleeved on the outer side of each round rod and can push a rectangular plate to enable the pushing piece 2 to move, a back groove 102 is formed in the bottom of the back end of the back plate 101, the back groove 102 is of a rectangular structure and used for enabling the auxiliary rod 106 to be inserted into, and moving space of the auxiliary rod 106 is provided; the main body 1 further includes: the guide plates 103 are of plate-shaped structures, the two guide plates 103 are arranged in the main body 1, the two guide plates 103 are used for controlling the movement of the cut raw materials, so that the raw materials can be guided to roll to the next working procedure, the rear end of each guide plate 103 is provided with an auxiliary groove 104, the auxiliary grooves 104 are of rectangular structures and are used for enabling rectangular plates on two sides of the pushing piece 2 to pass through, and further the pushing piece 2 can be guided to move; the main body 1 further includes: the moving part 105, the moving part 105 is for installing at the inside top of main part 1, is used for receiving power and reciprocates, and then cuts off the raw materials, and the rear end of moving part 105 is equipped with auxiliary rod 106, and auxiliary rod 106 is L shape structure, and the bottom of auxiliary rod 106 is the wedge structure, is used for receiving moving part 105 power and moves, makes its bottom can insert in the inside of atress groove 202, and then the displacement of stress control impeller 2.

As shown in fig. 4, wherein the pusher member 2 comprises: the pushing groove 201 is of an arc-shaped structure, and the pushing groove 201 is arranged at the bottom of the front end of the pushing piece 2 and used for directly contacting with the material and further directly pushing the material to roll; the pushing piece 2 is displaced by force, and the force-bearing groove 202 is arranged inside the pushing piece 2; the pusher 2 further comprises: the top block 203 is of a T-shaped structure, the top block 203 is arranged above the rear end of the pushing piece 2 and used for connecting and supporting the side rods 204, two side rods 204 are respectively arranged on two sides of the front end of the top block 203, the side rods 204 are of an L-shaped structure, and the bottom of the front end of each side rod 204 is connected with a rectangular plate of the pushing piece 2 through a rectangular block and used for assisting in controlling the pushing piece 2, so that the pushing piece 2 cannot incline after being displaced.

As shown in fig. 5, the buffer member 3 includes: a top groove 301, wherein the top groove 301 is rectangular, the top groove 301 is arranged at the rear of the top end of the buffer member 3, the top groove 301 is rectangular and is used for inserting the bottom of the auxiliary rod 106, the front and two sides of the top end of the top groove 301 are both inclined structures, so that the auxiliary rod 106 can be inserted in a guiding way, an inner groove 302 is arranged at the bottom end inside the top groove 301, and the inner groove 302 is inclined structure and is used for assisting in matching with the bottom of the auxiliary rod 106; the buffer member 3 further includes: the bottom groove 303, the both sides of bottom groove 303 are the slope column structure, and the bottom groove 303 is established in the bottom of bolster 3, improves the elasticity of bolster 3, and the inside of bottom groove 303 is equipped with supporting shoe 304, and supporting shoe 304 is T shape structure, produces great deformation after avoiding bolster 3 to be stressed.

When in use: when the device is needed, the whole raw material after being heated extends into the main body 1, then a control switch of the main body 1 is opened, the moving member 105 is enabled to move downwards under stress, the auxiliary rod 106 is enabled to be inserted into the stress groove 202 while the moving member 105 moves downwards, and then the pushing member 2 is enabled to move under stress, and the pushing member 2 can move backwards, so that the rectangular plate of the pushing member 2 can compress the spring outside the round rod, meanwhile, the cutting member at the bottom of the moving member 105 is in contact with the raw material, so that the raw material is cut off, meanwhile, the bottom of the auxiliary rod 106 extends into the rear groove 102 and then is inserted into the top groove 301 and the inner groove 302, so that the buffering member 3 buffers impact force through the bottom groove 303, abnormal sound and deformation are avoided, then, the moving member 105 rises, the auxiliary rod 106 is enabled to stop being in contact with the pushing member 2, so that the pushing member 2 can receive the power displacement of the spring through the rectangular plate, so that the pushing groove 201 can be in contact with the cut-off material, so that the raw material can roll under stress, and the influence of movement by other miscellaneous materials or particles is avoided, so that the material flow is more smooth and the working efficiency is effectively improved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a bearing ring intelligence forging shop heating unloading mechanism which characterized in that, a bearing ring intelligence forging shop heating unloading mechanism includes:

a main body (1);

the main body (1) is a heating and blanking mechanism body, and the main body (1) is of a T-shaped structure; the pushing piece (2) is of a rectangular long strip structure, the pushing piece (2) is made of metal, the pushing piece (2) is located inside the main body (1), the pushing piece (2) is embedded inside the guide plate (103), two sides of the front end of the pushing piece (2) are respectively provided with a rectangular plate, the rectangular plates are inserted inside the auxiliary groove (104), a round hole is formed inside each rectangular plate, and a round rod at the top end of the rear plate (101) is inserted inside each round hole; the buffer piece (3), buffer piece (3) are the rectangle structure, and buffer piece (3) are the rubber material, and inside rear groove (102) was installed to buffer piece (3).

2. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein the main body (1) comprises:

the rear plate (101) is of an L-shaped structure, the rear plate (101) is fixed to the rear of the main body (1), two sides of the top end of the rear plate (101) are respectively provided with a round rod, a spring is sleeved on the outer side of each round rod, a rear groove (102) is formed in the bottom of the rear end of the rear plate (101), and the rear groove (102) is of a rectangular structure.

3. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein the main body (1) further comprises:

the guide plates (103) are of plate-shaped structures, the number of the guide plates (103) is two, the two guide plates (103) are arranged inside the main body (1), an auxiliary groove (104) is arranged at the rear end of each guide plate (103), and the auxiliary grooves (104) are of rectangular structures.

4. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein the main body (1) further comprises:

the moving piece (105), the inside top of moving piece (105) for installing in main part (1), the rear end of moving piece (105) is equipped with auxiliary rod (106), and auxiliary rod (106) are L shape structure, and the bottom of auxiliary rod (106) is the wedge structure.

5. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein the pushing member (2) comprises:

the pushing groove (201), the pushing groove (201) is an arc-shaped structure, and the pushing groove (201) is arranged at the bottom of the front end of the pushing piece (2);

the force-bearing groove (202), the force-bearing groove (202) is of a rectangular structure, the interior of the force-bearing groove (202) is of an inclined structure, and the force-bearing groove (202) is arranged in the pushing piece (2).

6. The heating blanking mechanism of the intelligent forging shop for bearing rings as recited in claim 1, wherein said pushing member (2) further comprises:

the push block (203), the push block (203) is T-shaped, the push block (203) is arranged above the rear end of the pushing piece (2), two side rods (204) are arranged on two sides of the front end of the push block (203) respectively, the side rods (204) are L-shaped, and the bottoms of the front ends of the side rods (204) are connected with a rectangular plate of the pushing piece (2) through rectangular blocks.

7. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein said buffer (3) comprises:

the shock absorber comprises a top groove (301), wherein the top groove (301) is of a rectangular structure, the top groove (301) is arranged at the rear of the top end of the shock absorber (3), the top groove (301) is of a rectangular structure, the front and two sides of the top end of the top groove (301) are both of inclined structures, an inner groove (302) is arranged at the bottom end inside the top groove (301), and the inner groove (302) is of an inclined structure.

8. The bearing ring intelligent forging shop heating blanking mechanism of claim 1, wherein said buffer (3) further comprises:

the buffer piece is characterized by comprising a bottom groove (303), wherein two sides of the bottom groove (303) are of an inclined structure, the bottom groove (303) is arranged at the bottom of the buffer piece (3), a supporting block (304) is arranged inside the bottom groove (303), and the supporting block (304) is of a T-shaped structure.

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