CN111703492A - High-load conveying device for automobile rear axle half shaft sleeve - Google Patents

Abstract

The invention provides a high-load conveying device for a half-axle sleeve of a rear axle of an automobile, which relates to the technical field of conveying devices and aims to solve the problems that when the existing half-axle sleeve high-load conveying device is used, when the half-axle sleeve is conveyed in a stressed moving mode, the half-axle sleeve cannot be automatically stressed to assist in fixing the half-axle sleeve, and cannot be always in a fastening and fixing state in lifting and moving modes; the main part is rectangular plate-shaped structure, and the left side of main part is equipped with the baffle of L shape structure. The stress plate is when this device removes and carries the axle sleeve pipe, and fork truck's front fork inserts in the kerve is inside, can make the front fork support stress plate rebound for the stress plate passes through the kicking block and outwards pushes up the movable plate and roof, makes the roof can outwards remove by automatic atress, thereby makes the slot of roof outside top action mounting panel, makes the mounting panel can be by firm fixed, and then firm fixed with the axle sleeve pipe.

Description

High-load conveying device for automobile rear axle half shaft sleeve

Technical Field

The invention belongs to the technical field of conveying devices, and particularly relates to a high-load conveying device for a rear axle half-axle sleeve of an automobile.

Background

When the axle shaft sleeve of the rear axle of the automobile is processed and used, a conveying device is generally needed to move the axle shaft sleeve to a proper position.

For example, application No.: CN201711064193.7 relates to a semi-axis sleeve pipe processing frock, including supporting chassis, U type frame, fixed platform, support track and telescopic cylinder, support chassis top and install U type frame, U type frame comprises top platform, bottom sprag platform and the vertical platform in rear portion of punching, support the track has two, and parallel mount is on bottom sprag platform, telescopic cylinder installs in the vertical platform bottom intermediate position in rear portion, telescopic cylinder's head has the backup pad through telescopic cylinder shaft welding, the welding of backup pad bottom has fixed platform, has the welding of semi-axis sleeve pipe fixing base in fixed platform central position. Due to the adoption of the technical scheme, the invention has the following beneficial effects: the invention has simple structure and convenient operation, can effectively improve the production efficiency and reduce the production cost of enterprises.

Based on the prior art discovery, current high load conveyor of axle sleeve pipe is when using, when the atress removes the transport axle sleeve pipe, unable automatic atress is supplementary to fix the axle sleeve pipe, can't be in always in when rising and removing and step up fixed state, and current high load conveyor of axle sleeve pipe is when using, fixed axle sleeve pipe's structure is firm inadequately, it rocks to appear the virtual position production after making the axle sleeve pipe installation easily, wear and tear and striking appear between the axle sleeve pipe easily.

Disclosure of Invention

In order to solve the technical problems, the invention provides a high-load conveying device for a half axle sleeve of an automobile rear axle, which aims to solve the problems that when the existing half axle sleeve high-load conveying device is used, when the half axle sleeve is conveyed in a stressed moving mode, the half axle sleeve cannot be fixed in a clamping and fixing mode automatically under stress assistance, and cannot be in a clamping and fixing state all the time when being lifted and moved, and when the existing half axle sleeve high-load conveying device is used, the structure of the fixed half axle sleeve is not stable enough, so that a virtual position is easy to shake after the half axle sleeve is installed, and abrasion and impact are easy to occur between the half axle sleeves.

The invention relates to a high-load conveying device for a rear axle half shaft sleeve of an automobile, which is realized by the following specific technical means:

a high-load conveying device for a rear axle shaft sleeve of an automobile comprises a main body, a side piece, a stress plate, a contact piece, a bottom piece, a guide piece and a mounting plate; the main body is of a rectangular plate-shaped structure, the left side of the main body is provided with a baffle plate of an L-shaped structure, and two sides of the left end of the main body are provided with rotary grooves of a raised cylindrical structure in the middle; the side pieces are arranged in the middle positions of two sides of the main body; the contact piece is arranged at the left end of the main body, and a connector of the contact piece is arranged in the rotating groove of the main body through a spring; the bottom piece is positioned on two sides of the main body, and the inner side of the bottom piece is inserted into the mounting groove; the guide members are arranged on two sides of two ends of the main body, and the middle position of the guide member is inserted into the guide groove to move.

The stress plate comprises a top block, a movable plate and a top plate; the stress plate is of a rectangular plate-shaped structure, and the bottom of the stress plate is of an inclined structure; two top blocks are arranged on two sides of two ends of the stress plate, and two sides of each top block are of an inclined structure; the movable plate is of a rectangular plate-shaped structure, the inner side of the bottom of the movable plate is of an inclined structure, and the inner side of the bottom of the movable plate is in contact with two sides of the top block; the stress plate is arranged in the inner groove, the moving plate is arranged in the side groove, and the outer side of the top end of the moving plate is connected with the inner part of the side groove through a spring.

The mounting plate comprises an insert rod, a fixing groove, a fixing piece and a pressing block; the mounting plate is of a rectangular plate-shaped structure, and slots of the rectangular structure are arranged in the middle of two sides of the mounting plate; the top end of the mounting plate is provided with evenly arranged insertion rods, and fixing grooves are formed in the insertion rods; the inner part of the fixing groove is of a cylindrical structure, and two sides of the fixing groove are of L-shaped structures; the top end of the mounting plate is provided with fixing pieces which are annularly arranged and are memory spring steel plates; the mounting panel is installed on the top of main part, and the inside support piece that has inserted of slot of mounting panel both sides.

Furthermore, the main body comprises a bottom groove, an inner groove, a supporting piece and a side groove; the bottom of the main body is provided with two bottom grooves, the inner parts of the bottom grooves are of inclined structures, and two sides of the right end of each bottom groove are of inclined structures; an inner groove is formed in the main body, the top end of the inner groove is of a rectangular structure, and the bottom of the inner groove is of an inclined structure; the supporting piece is arranged on two sides of the top end of the main body and is of a rectangular plate structure, and side grooves of a T-shaped structure are arranged on two sides of the inside of the supporting piece.

Further, the side piece comprises a guide groove and a mounting groove; the side piece is of a rectangular structure, and two ends of the side piece are provided with guide grooves of T-shaped structures; the inside bottom intermediate position of side spare is equipped with the mounting groove, and the mounting groove is T shape structure.

Furthermore, the stress plate also comprises a top plate; the top plate is of a rectangular plate-shaped structure, the inner side of the top plate is connected with the outer side of the moving plate, and the top plate is embedded and installed on the outer side of the side groove.

Furthermore, the contact element comprises a buffer element and a connector; the contact element is of a rectangular structure, and the outer side of the contact element is of an arc structure; the outer side of the contact element is provided with a buffer element in a bonding mode, and the buffer element is made of rubber; two connectors are arranged on two sides of the right end of the contact element and are of a middle protruding cylindrical structure.

Further, the bottom piece comprises an anti-slip piece; the bottom piece is of a T-shaped structure, and a pull rod is arranged at the top end of the bottom piece; the bottom of the bottom piece is provided with an anti-slip piece, the anti-slip piece is made of rubber, and the bottom of the anti-slip piece is provided with an anti-slip hole.

Further, the guide member comprises a support plate; the middle section of the guide piece is of a T-shaped structure, and the upper end and the lower end of the guide piece are provided with stop blocks; the bottom of the guide piece is provided with a movable wheel through a connecting shaft, the outer side of the guide piece is provided with a rectangular groove, and the outer side of the top end of the rectangular groove is provided with a supporting block; the supporting plate is of a rectangular plate-shaped structure, the bottom end of the supporting plate is of a wedge-shaped structure, and the top end of the supporting plate is connected with the inside of the rectangular groove through a connecting shaft.

Furthermore, the mounting plate also comprises a pressing block; the pressing block is of a circular structure, and a circular plate is arranged inside the pressing block through a connecting block; a rubber ring is arranged on the outer side of the top end of the pressing block; the briquetting cover is in the outside of inserted bar and mounting, and the inside plectane of briquetting passes through the inside of spring mounting at the fixed slot.

Compared with the prior art, the invention has the following beneficial effects:

in the device, a stress plate and a mounting plate are arranged, the stress plate can support the stress plate to move upwards when the device moves and conveys the half-axle sleeve and the front fork of the forklift is inserted into the bottom groove, so that the stress plate can push the moving plate and the top plate outwards through the top block, the top plate can automatically bear force to move outwards, the outer side of the top plate pushes the slot of the mounting plate, the mounting plate can be stably fixed and further stably fix the half-axle sleeve, the stress plate can be always pushed when the forklift controls the device to lift and move, the mounting plate is always in a fixed state, the device can be stably used when being under high load, the bottom of the stress plate is of an inclined structure, and the stress plate can automatically push the stress plate to move upwards when the front fork of the forklift is inserted, the top block is used for receiving the power of the stress plate to move upwards, so that the top block can be contacted with the bottom of the inner side of the movable plate, the movable plate is used for driving the top plate to move outwards together, when the stress plate is not jacked, the spring can jack the movable plate to retract inwards, when the support piece is inserted into the slot of the mounting plate, the top plate cannot block the mounting, the bottom of the inner side of the movable plate is of an inclined structure and can be contacted with the two sides of the top block to bear the force, the top plate is used for receiving the power of the movable plate, the outer side of the movable plate can be always contacted with the inside of the slot, and the mounting plate and the half-shaft sleeve are fixedly mounted stably;

the mounting plate is used for driving the insert rods to be mounted and used together, so that the half-shaft sleeves can be inserted into the outer sides of the insert rods to be fixed, the fixing part can be used for outwards turning the fixed half-shaft sleeves, the mounting plates can be simultaneously mounted above the main body to be used, when the half-shaft sleeves are mounted, the half-shaft sleeves can be directly inserted into the outer sides of the insert rods, so that the pressing block is pressed downwards and then rotated, so that the pressing block can be fixed, when the pressing block is pressed downwards, the insert rods and the fixing part can be inserted into the half-shaft sleeves, when the half-shaft sleeves all fall down, the fixing part automatically bears force to be turned outwards, so that the half-shaft sleeves are stably fixed, the half-shaft sleeves cannot generate virtual positions and shake, the inside of the fixing groove is of a cylindrical structure, so that the circular plate of the pressing block can receive the power of the spring in the fixing groove, and, the fixing groove can automatically move upwards, the two sides of the fixing groove are of L-shaped structures, so that the pressing block can rotate, fix and limit after being pressed downwards, the fixing piece is a memory spring steel plate, when the fixing piece is not limited by the pressing block, the top end of the fixing piece can be automatically stressed to turn outwards, so that the half-axle sleeve is stably fixed, the pressing block is used when the device is not used, the spring can push the circular plate, so that the pressing block can also move upwards, the pressing block can automatically fix a plurality of fixing pieces, and the problems that when the device is used, the half-axle sleeve cannot be automatically stressed to assist in fixing the half-axle sleeve when the half-axle sleeve is moved and conveyed, the half-axle sleeve cannot be always in a fastening and fixing state when being lifted and moved are solved, and when the existing half-axle sleeve high-load conveying device is used, the structure for fixing the half-axle sleeve is not stable enough, and the virtual position is easy to, the problems of abrasion and impact between the half shaft sleeves are easily caused.

Drawings

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

Fig. 2 is a schematic bottom view of the present invention.

Fig. 3 is a schematic bottom view of the main body of the present invention in partial cross section.

Fig. 4 is a schematic view of a partial cross-sectional perspective structure of the body of the present invention.

Fig. 5 is a schematic perspective view of the stress plate of the present invention.

Fig. 6 is a schematic perspective view of the contact of the present invention.

Fig. 7 is a perspective view of the bottom member of the present invention.

Fig. 8 is a perspective view of the guide of the present invention.

Fig. 9 is a partial cross-sectional structural schematic view of the mounting plate of the present invention.

FIG. 10 is a schematic perspective view of a compact 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 bottom groove; 102. an inner tank; 103. a support member; 104. a side groove; 2. a side part; 201. a guide groove; 202. mounting grooves; 3. a stress plate; 301. a top block; 302. moving the plate; 303. a top plate; 4. a contact member; 401. a buffer member; 402. a connector; 5. a bottom piece; 501. an anti-slip member; 6. a guide member; 601. a support plate; 7. mounting a plate; 701. inserting a rod; 702. fixing grooves; 703. a fixing member; 704. and (7) briquetting.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the 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, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the 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, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 10:

the invention provides a high-load conveying device for a half-axle sleeve of a rear axle of an automobile, which comprises: the device comprises a main body 1, a side piece 2, a stress plate 3, a contact piece 4, a bottom piece 5, a guide piece 6 and a mounting plate 7; the main body 1 is of a rectangular plate-shaped structure, the left side of the main body 1 is provided with a baffle plate of an L-shaped structure, and two sides of the left end of the main body 1 are provided with rotary grooves of a raised cylindrical structure in the middle; the side pieces 2 are arranged at the middle positions of the two sides of the main body 1; the contact 4 is arranged at the left end of the main body 1, and the connector 402 of the contact 4 is arranged in the rotating groove of the main body 1 through a spring; the bottom 5 is positioned at both sides of the main body 1, and the inner side of the bottom 5 is inserted into the mounting groove 202; the guide 6 is provided at both ends of the body 1, and the middle position of the guide 6 is inserted to move inside the guide groove 201.

The stress plate 3 comprises a top block 301, a moving plate 302 and a top plate 303; the stress plate 3 is of a rectangular plate-shaped structure, and the bottom of the stress plate 3 is of an inclined structure; two top blocks 301 are arranged on two sides of two ends of the stress plate 3, and two sides of each top block 301 are of an inclined structure; the moving plate 302 is in a rectangular plate-shaped structure, the inner side of the bottom of the moving plate 302 is in an inclined structure, and the inner side of the bottom of the moving plate 302 is in contact with two sides of the top block 301; the stress plate 3 is arranged in the inner groove 102, the moving plate 302 is arranged in the side groove 104, the outer side of the top end of the moving plate 302 is connected with the inner part of the side groove 104 through a spring, when the device moves to convey the axle sleeve, and the front fork of the forklift is inserted in the bottom groove 101, the front fork can support the stress plate 3 to move upwards, so that the stress plate 3 pushes the moving plate 302 and the top plate 303 outwards through the top block 301, the top plate 303 can automatically bear force to move outwards, the outer side of the top plate 303 pushes the slot of the mounting plate 7, the mounting plate 7 can be stably fixed, the axle sleeve is further stably fixed, when the forklift controls the device to lift and move, the stress plate 3 can be always pushed, the mounting plate 7 is always in a fixed state, and when the device is in high load, the bottom of the stress plate 3 is of an inclined structure, so that when a front fork of a forklift is inserted, the stress plate 3 can be automatically stressed to push upwards, the top block 301 is used for receiving power of the stress plate 3 to move upwards, the top block 301 can be in contact with the bottom of the inner side of the moving plate 302, the moving plate 302 is used for driving the top plate 303 to move outwards together, when the stress plate 3 is not pushed, a spring can push the moving plate 302 to retract inwards, when the support piece 103 is inserted into the slot of the mounting plate 7, the top plate 303 cannot block installation, and the bottom of the inner side of the moving plate 302 is of an inclined structure, so that the bottom of the inner side of the top block 301 can be in contact with two sides of the top block 301 to be stressed.

The mounting plate 7 comprises an insert rod 701, a fixing groove 702, a fixing piece 703 and a pressing block 704; the mounting plate 7 is of a rectangular plate-shaped structure, and slots of the rectangular structure are arranged in the middle of two sides of the mounting plate 7; the top end of the mounting plate 7 is provided with inserting rods 701 which are uniformly arranged, and fixing grooves 702 are formed in the inserting rods 701; the inside of the fixing groove 702 is a cylindrical structure, and both sides of the fixing groove 702 are L-shaped structures; the top end of the mounting plate 7 is provided with fixing pieces 703 which are annularly arranged, and the fixing pieces 703 are memory spring steel plates; the mounting plate 7 is mounted at the top end of the main body 1, the supporting pieces 103 are inserted into the slots at two sides of the mounting plate 7, the mounting plate 7 is used for driving the plurality of insert rods 701 to be mounted and used together, so that the plurality of half-shaft sleeves can be inserted into the outer sides of the insert rods 701 to be fixed, the fixing pieces 703 can be outwards turned to fix the half-shaft sleeves, so that the plurality of mounting plates 7 can be simultaneously mounted above the main body 1 to be used, when the half-shaft sleeves are mounted, the half-shaft sleeves can be directly inserted into the outer sides of the insert rods 701 so as to downwards press the pressing blocks 704 and then rotate, so that the pressing blocks 704 can be fixed, when the pressing blocks 704 are downwards pressed, the insert rods 701 and the fixing pieces 703 can be inserted into the half-shaft sleeves, after all the half-shaft sleeves fall, the fixing pieces 703 are automatically forced to be outwards turned, so that the half-, the fixing groove 702 is of a cylindrical structure, so that a circular plate of the pressing block 704 can receive power of a spring inside the fixing groove 702, the pressing block 704 can automatically move upwards after being relieved of limiting, two sides of the fixing groove 702 are of L-shaped structures, the pressing block 704 can rotate and be fixed and limited after being pressed downwards, the fixing piece 703 is a memory spring steel plate, and when the fixing piece 703 is not limited by the pressing block 704, the top end of the fixing piece 703 can be automatically stressed to turn outwards, so that the half-shaft sleeve is stably fixed.

Wherein, the main body 1 comprises a bottom groove 101, an inner groove 102, a support member 103 and a side groove 104; the bottom of the main body 1 is provided with two bottom grooves 101, the inner part of each bottom groove 101 is of an inclined structure, and two sides of the right end of each bottom groove 101 are of inclined structures; an inner groove 102 is arranged in the main body 1, the top end of the inner groove 102 is of a rectangular structure, and the bottom of the inner groove 102 is of an inclined structure; the two sides of the top end of the main body 1 are provided with supporting pieces 103 with rectangular plate structures, and two sides of the inside of each supporting piece 103 are provided with side grooves 104 with T-shaped structures, the main body 1 mainly plays a role of bearing a mounting plate 7 and moving and conveying a half-axle sleeve, so that the half-axle sleeve can be moved to a proper position for use, the bottom groove 101 is used for inserting a front fork of a forklift, when the device is used for carrying a large number of half-axle sleeves under high load, the device can be conveniently moved and used by the forklift, two sides of the right end of the bottom groove 101 are of inclined structures, so that when the front fork of the forklift is inserted, the bottom groove 101 can be used for guiding, the inner groove 102 is used for mounting the stress plate 3, so that the stress plate 3 can be moved and stressed in the inner part, so that the moving plate 302 and the top plate 303 can be conveniently and controlled to move outwards, the supporting pieces 103 are arranged on two sides of, the supporting members 103 can be inserted into the slots of the mounting plate 7, so that the mounting plate 7 can drive the half-axle sleeves to be stably installed for use, and the side slots 104 are used for installing the moving plate 302 and the top plate 303, so that the moving plate 302 and the top plate 303 can be forced to move outwards to fix the mounting plate 7.

Wherein, the side part 2 comprises a guide groove 201 and a mounting groove 202; the side part 2 is of a rectangular structure, and two ends of the side part 2 are provided with guide grooves 201 of a T-shaped structure; the middle position of the bottom end in the side part 2 is provided with a mounting groove 202, the mounting groove 202 is of a T-shaped structure, the side part 2 is arranged at two sides of the main body 1 to mount and use the bottom part 5 and the guide part 6, the guide groove 201 is of a T-shaped structure, so that when the main body 1 is jacked up by a forklift, the guide part 6 can move in the guide groove 201 in a guiding way, and the mounting groove 202 is used for mounting the bottom part 5, so that the bottom part 5 can be mounted and used.

Wherein, the stress plate 3 also comprises a top plate 303; the top plate 303 is a rectangular plate-shaped structure, the inner side of the top plate 303 is connected with the outer side of the moving plate 302, the top plate 303 is embedded and installed at the outer side of the side groove 104, and the top plate 303 is used for receiving the power of the moving plate 302, so that the outer side of the moving plate 302 can be always contacted with the inner part of the slot, and the mounting plate 7 and the axle sleeve are always fixedly installed.

The contact element 4 comprises a buffer element 401 and a connecting head 402; the contact element 4 is of a rectangular structure, and the outer side of the contact element 4 is of an arc structure; a buffer 401 is mounted on the outer side of the contact 4 in an adhering mode, and the buffer 401 is made of rubber; two connectors 402 are arranged on two sides of the right end of the contact element 4, the connectors 402 are of a middle protruding cylindrical structure, the contact element 4 is used for being arranged at the front end of the main body 1, the device can buffer impact force through the contact element 4 when encountering collision in the moving process, the buffer element 401 is used for being directly arranged at the left end of the contact element 4 and is used for directly contacting with an object to avoid damaging the paint surface of the collision object, the connectors 402 are arranged inside a rotary groove through springs, and the contact element 4 can buffer impact force through the connectors 402 and the springs when encountering impact.

Wherein, the bottom piece 5 comprises an anti-skid piece 501; the bottom piece 5 is of a T-shaped structure, and a pull rod is arranged at the top end of the bottom piece 5; the bottom of end piece 5 is equipped with anti-skidding piece 501, and anti-skidding piece 501 is the rubber material, and the bottom of anti-skidding piece 501 is equipped with the non-slip hole, end piece 5 is used for installing in the both sides of main part 1, make end piece 5 can install the inside use at mounting groove 202, make this device when not by fork truck jack-up, end piece 5 can be through anti-skidding piece 501 and ground contact, thereby make the stability that this device can stabilize, make this device when not removing, this device can not produce the displacement, and anti-skidding piece 501 is then used for direct and ground contact, thereby play skid-proof effect.

Wherein, the guide 6 comprises a support plate 601; the middle section of the guide piece 6 is of a T-shaped structure, and the upper end and the lower end of the guide piece 6 are provided with stop blocks; the bottom of the guide piece 6 is provided with a movable wheel through a connecting shaft, the outer side of the guide piece 6 is provided with a rectangular groove, and the outer side of the top end of the rectangular groove is provided with a supporting block; the supporting plate 601 is a rectangular plate-shaped structure, the bottom end of the supporting plate 601 is a wedge-shaped structure, the top end of the supporting plate 601 is connected with the inside of a rectangular groove through a connecting shaft, the guide piece 6 at the position is used for being installed on the guide groove 201 to move, when the forklift jacks up the device to move, the guide piece 6 can automatically move downwards, the moving wheels can always be in contact with the ground, the device is more smooth in the moving process, the supporting plate 601 can be automatically opened to be supported, the supporting plate 601 can be fixed by the supporting block in an auxiliary mode, and the device is effectively supported by the supporting block.

Wherein, the mounting plate 7 also comprises a pressing block 704; the pressing block 704 is of a circular structure, and a circular plate is arranged inside the pressing block 704 through a connecting block; the outer side of the top end of the pressing block 704 is provided with a rubber ring; the pressing block 704 is sleeved outside the inserted rod 701 and the fixing member 703, a circular plate inside the pressing block 704 is installed inside the fixing groove 702 through a spring, and when the pressing block 704 is not used, the spring can push the circular plate, so that the pressing block 704 can also move upwards, and the pressing block 704 can automatically fix the fixing members 703.

When in use: when the device is needed to be used, the device can be controlled by manpower to move to a proper position, then the bottom piece 5 is installed inside the installation groove 202 by manpower, so that the anti-skid piece 501 can be contacted with the ground, the device is stably fixed, then the single installation plate 7 is controlled by manpower to be installed, the support piece 103 can be inserted into the slot of the installation plate 7, so that the installation plate 7 is installed at the top end of the main body 1, then the axle sleeve is controlled by manpower to be installed, so that the top end of the insertion rod 701 is inserted into the axle sleeve, then the pressing block 704 moves downwards, so that the anti-skid block at the top end of the pressing block 704 can be contacted with the bottom of the axle sleeve, after the pressing block 704 is completely pressed downwards, the axle sleeve can be rotated by manpower, so that the pressing block 704 is driven to rotate, and the pressing block 704 can be limited, the circular plate can press the spring to retract inwards, when the inserted bar 701 is exposed through the half-axle sleeve, the fixing part 703 can automatically bear force to turn outwards, so that the half-axle sleeve is stably fixed, a virtual position cannot be generated between the half-axle sleeve and the inserted bar 701, then a plurality of half-axle sleeves are installed in the same mode, then a plurality of mounting plates 7 are overlapped together in the same mode, so that more half-axle sleeves are installed, then the forklift is controlled through manpower, a front fork of the forklift can be inserted into the bottom groove 101, so that the front fork is contacted with the stress plate 3, then the front fork is controlled to move upwards, further the stress plate 3 is jacked to move upwards, so that the two jacking blocks 301 can simultaneously jack a plurality of 302 moving plates to move outwards, the jacking plate 303 simultaneously follows outwards to move, so as to be contacted with the inner part of the slot of the mounting plate 7, so that the mounting plates 7 are stably fixed, when main part 1 was by fork truck jack-up, the removal wheel of 6 bottoms of guide can contact with ground all the time to control fork truck and drive this device and remove suitable position, make this device can carry out high load to the semi-axis sleeve pipe and carry.

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 high load conveyor for car rear axle semi-axis sleeve pipe which characterized in that: the method comprises the following steps: the device comprises a main body (1), a side piece (2), a stress plate (3), a contact piece (4), a bottom piece (5), a guide piece (6) and a mounting plate (7); the main body (1) is of a rectangular plate-shaped structure, a baffle plate of an L-shaped structure is arranged on the left side of the main body (1), and rotary grooves of a cylindrical structure protruding in the middle are arranged on two sides of the left end of the main body (1); the side pieces (2) are arranged in the middle positions of two sides of the main body (1); the contact piece (4) is arranged at the left end of the main body (1), and the connector (402) of the contact piece (4) is arranged in the rotating groove of the main body (1) through a spring; the bottom piece (5) is positioned at two sides of the main body (1), and the inner side of the bottom piece (5) is inserted into the mounting groove (202); the guide pieces (6) are arranged on two sides of two ends of the main body (1), and the middle positions of the guide pieces (6) are inserted into the guide grooves (201) to move.

The stress plate (3) comprises a top block (301), a moving plate (302) and a top plate (303); the stress plate (3) is of a rectangular plate-shaped structure, and the bottom of the stress plate (3) is of an inclined structure; two top blocks (301) are arranged on two sides of two ends of the stress plate (3), and two sides of each top block (301) are of an inclined structure; the moving plate (302) is of a rectangular plate-shaped structure, the inner side of the bottom of the moving plate (302) is of an inclined structure, and the inner side of the bottom of the moving plate (302) is in contact with two sides of the top block (301); the stress plate (3) is arranged in the inner groove (102), the moving plate (302) is arranged in the side groove (104), and the outer side of the top end of the moving plate (302) is connected with the inner part of the side groove (104) through a spring.

The mounting plate (7) comprises an insert rod (701), a fixing groove (702), a fixing piece (703) and a pressing block (704); the mounting plate (7) is of a rectangular plate-shaped structure, and slots of the rectangular structure are arranged in the middle of two sides of the mounting plate (7); the top end of the mounting plate (7) is provided with inserting rods (701) which are uniformly arranged, and fixing grooves (702) are formed in the inserting rods (701); the inside of the fixing groove (702) is of a cylindrical structure, and two sides of the fixing groove (702) are of L-shaped structures; the top end of the mounting plate (7) is provided with fixing pieces (703) which are annularly arranged, and the fixing pieces (703) are memory spring steel plates; the mounting plate (7) is mounted at the top end of the main body (1), and supporting pieces (103) are inserted into slots on two sides of the mounting plate (7).

2. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the main body (1) comprises a bottom groove (101), an inner groove (102), a support piece (103) and a side groove (104); the bottom of the main body (1) is provided with two bottom grooves (101), the inner parts of the bottom grooves (101) are of inclined structures, and two sides of the right end of each bottom groove (101) are of inclined structures; an inner groove (102) is formed in the main body (1), the top end of the inner groove (102) is of a rectangular structure, and the bottom of the inner groove (102) is of an inclined structure; support pieces (103) with rectangular plate-shaped structures are arranged on two sides of the top end of the main body (1), and side grooves (104) with T-shaped structures are arranged on two sides of the interior of each support piece (103).

3. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the side part (2) comprises a guide groove (201) and a mounting groove (202); the side piece (2) is of a rectangular structure, and two ends of the side piece (2) are provided with guide grooves (201) of T-shaped structures; the side member is characterized in that a mounting groove (202) is formed in the middle of the bottom end of the side member (2), and the mounting groove (202) is of a T-shaped structure.

4. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the stress plate (3) also comprises a top plate (303); the top plate (303) is of a rectangular plate-shaped structure, the inner side of the top plate (303) is connected with the outer side of the moving plate (302), and the top plate (303) is embedded and installed on the outer side of the side groove (104).

5. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the contact piece (4) comprises a buffer piece (401) and a connecting head (402); the contact element (4) is of a rectangular structure, and the outer side of the contact element (4) is of an arc structure; a buffer (401) is arranged on the outer side of the contact (4) in a bonding mode, and the buffer (401) is made of rubber; two connectors (402) are arranged on two sides of the right end of the contact element (4), and the connectors (402) are of a cylindrical structure with a convex middle part.

6. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the bottom piece (5) comprises an anti-skid piece (501); the bottom piece (5) is of a T-shaped structure, and a pull rod is arranged at the top end of the bottom piece (5); the bottom of the bottom piece (5) is provided with an anti-slip piece (501), the anti-slip piece (501) is made of rubber, and the bottom of the anti-slip piece (501) is provided with an anti-slip hole.

7. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the guide piece (6) comprises a support plate (601); the middle section of the guide piece (6) is of a T-shaped structure, and the upper end and the lower end of the guide piece (6) are provided with stop blocks; the bottom of the guide piece (6) is provided with a movable wheel through a connecting shaft, the outer side of the guide piece (6) is provided with a rectangular groove, and the outer side of the top end of the rectangular groove is provided with a supporting block; the supporting plate (601) is of a rectangular plate-shaped structure, the bottom end of the supporting plate (601) is of a wedge-shaped structure, and the top end of the supporting plate (601) is connected with the inside of the rectangular groove through a connecting shaft.

8. The high load carrying apparatus for an automobile rear axle sleeve according to claim 1, wherein: the mounting plate (7) also comprises a pressing block (704); the pressing block (704) is of a circular structure, and a circular plate is arranged inside the pressing block (704) through a connecting block; a rubber ring is arranged on the outer side of the top end of the pressing block (704); the pressing block (704) is sleeved outside the inserted rod (701) and the fixing piece (703), and a circular plate inside the pressing block (704) is installed inside the fixing groove (702) through a spring.

Images