CN216882594U - Automatic copper sheathing assembling equipment - Google Patents

Abstract

The utility model discloses equipment for automatically assembling a copper bush, which can continuously convey the copper bush and a shell until the copper bush and the shell are abutted against a baffle plate through a conveying assembly, thereby improving the working efficiency and reducing the labor intensity; through assembly subassembly and drive assembly cooperation, the accessible push-and-pull rod drives the promotion piece and moves forward and promote copper sheathing and casing respectively and move forward until blocking into first spring clamp and second spring clamp respectively, the pressure head continues to move down and can be with in the copper sheathing assembly casing, the flexible end of hydraulic stem contracts the in-process, the copper sheathing in with the second spring clamp of carriage release backward to the commentaries on classics piece top with the casing is whole, when connecting rod and bull stick butt, the bull stick left end upwards rotates, and then drive pull rod and spacing ball rebound, spacing ball drives the dead lever, commentaries on classics piece anticlockwise rotation, and then copper sheathing and the casing on the commentaries on classics piece are whole to fall down from the commentaries on classics piece, real automatic unloading, the unloading is convenient.

Description

Automatic copper sheathing assembling equipment

Technical Field

The utility model relates to the technical field of copper bush assembling equipment, in particular to automatic copper bush assembling equipment.

Background

The copper sleeve is divided into a plurality of types, including a machine copper roller, a copper bearing and the like. Oil-lubricated bearings are used in various large and heavy machines and are important components of the machines.

The copper bush, also called copper bush, is divided into various types, including machine copper roller, copper bearing, etc. The product is widely used in the fields of textile machinery, injection molding machinery, mining machinery, engineering machinery, automobile industry and the like. The company can make copper sheath, gasket, slide plate, half tile and other products according to the customers' selection of various brands of China, Germany, Japan, United states and other countries; the inner wall and the outer wall of the oil tank can be processed with various oil grooves and oil injection holes according to the requirements of customers, and the processing can also be carried out graphically. The product has the function of the traditional tin bronze bearing, takes electrolytic copper as a raw material and is matched with a plurality of trace metal elements, and the product is prepared by high-temperature sintering and air pressure centrifugal casting. High hardness, excellent wear resistance, less seizing, good casting performance and cutting performance, and good corrosion resistance in atmosphere and fresh water. Under the condition of lacking lubricant and using water lubricant, it has good sliding property and self-lubricating property, easy cutting, poor casting property and good corrosion resistance to dilute sulphuric acid. The general purpose structural parts, the ships, the instruments and the like use simple-shape castings, such as sleeves, bushings, bearing bushes, sliders and the like.

In the production process of some hardware products, a copper sleeve needs to be assembled into a shell, and the number of products is large; in the prior art, manual press fitting is usually adopted for production, the labor intensity of workers is greatly enhanced, the efficiency is low, time and labor are wasted, and the problem of low product yield is easy to occur.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing problems, the utility model provides equipment for automatically assembling the copper bush, which solves the problems in the background technology.

In order to achieve the above object, the present invention adopts the following technical solutions:

an automatic copper bush assembling device comprises a base, wherein a conveying assembly and an assembling assembly are arranged at the top of the base, the assembling assembly is connected with a pushing assembly, and the pushing assembly is matched with the conveying assembly and the assembling assembly; the base top is equipped with the unloading subassembly, and unloading subassembly and conveying component, assembly subassembly, pushing assembly cooperation.

Preferably, the conveying assembly comprises two vertical plates which are symmetrically connected to the top of the base from front to back, two groups of rotating rollers which are symmetrically arranged from left to right are connected to the side walls of the opposite ends of the vertical plates from top to bottom, and a conveying belt is connected between the left rotating roller and the right rotating roller; the rear ends of the rotating rollers on the left side penetrate through the vertical plates backwards and are connected with belt pulleys, and belts are connected between the belt pulleys; the top of the base is connected with a motor, and the output end of the motor is connected with the rear end of the rotating roller below the left side; the assembly component, the pushing component and the blanking component are matched with the vertical plate.

Preferably, the assembly component comprises an L-shaped support, the support is connected to the top of the base, a hydraulic rod is connected to the bottom of the horizontal section of the support, the telescopic end of the hydraulic rod is downwards connected with a pressure head, and the telescopic end of the hydraulic rod is matched with the pushing component; the top of the base, which is positioned at the front side of the conveying assembly, is connected with a base, the top of the base is connected with a supporting plate, and the rear side wall of the supporting plate is connected with a first spring clamp and a second spring clamp from top to bottom; the centers of the pressure head, the first spring clamp and the second spring clamp are all positioned on the same vertical line; the blanking assembly is matched with the bracket, and the support plate is matched with the vertical plate.

Preferably, the pushing assembly comprises a driving assembly, and the driving assembly is matched with the telescopic end of the hydraulic rod; the rear side wall of the base is connected with a fixed plate, the fixed plate is provided with a sliding chute, the inner cavity of the sliding chute is connected with a sliding block, the front side wall of the sliding block is vertically and symmetrically connected with push-pull rods, and the push-pull rods above the push-pull rods are matched with the driving assembly; two through holes are formed in the upper and lower parts of each of the two vertical plates, the rear side wall of the vertical plate on the rear side and the left and right sides of each through hole are symmetrically connected with a fixed plate, the opposite ends of the front vertical plate and the rear vertical plate and the upper part of the conveyor belt are connected with baffles, and the left side wall of each baffle, the left and right side walls of the inner cavity of each through hole and the opposite ends of the fixed plates are provided with slideways; the opposite end of the fixed plate is provided with a pushing block, the left side wall and the right side wall of the pushing block are provided with sliding strips, the sliding strips are matched with the sliding ways, the rear end of the pushing block is connected with the other end of the corresponding push-pull rod, and the front end of the pushing block extends into the inner cavity of the rear through hole and is provided with an arc-shaped pushing groove; be connected with even board between lateral wall behind extension board and the riser preceding lateral wall, even board top and through-hole inner chamber bottom flush, even the board is equipped with dodges the hole, dodges the hole and is located first spring clamp below.

Preferably, the driving assembly comprises a circular ring body, the circular ring body is connected to the telescopic end of the hydraulic rod, and the right side wall of the circular ring body is connected with a U-shaped connecting rod; the right side wall of the push-pull rod above is connected with a rotating plate; the other end of the connecting rod is connected with a supporting rod, the supporting rod is connected with a rotating plate, and a spring is connected between the top of the rotating plate and the top of the supporting rod; the side wall of the push-pull rod at the lower part is connected with a balancing weight; the connecting rod is matched with the blanking assembly.

Preferably, the blanking assembly comprises a rotating rod, and the rotating rod is matched with the connecting rod; the rotating rod is connected to the left side wall of the vertical section of the bracket, the top of the rotating rod is connected with a first spring rod, and the other end of the first spring rod is upwards connected with the left side wall of the vertical section of the bracket; a rotating block is connected between the front side wall of the vertical plate and the rear side wall of the base, the top of the rotating block is flush with the base, the bottom of the rotating block is connected with an L-shaped fixed rod, and a through hole is formed in the right end of the fixed rod; the bottom of the rotating rod is connected with a pull rod, the bottom of the pull rod downwards penetrates through the through hole and is connected with a limiting ball, and a second spring rod is connected between the bottom of the fixed rod and the top of the base; the right side of the front side wall of the pushing block at the lower part is vertically and symmetrically connected with an L-shaped movable rod, and the front end of the movable rod forwards penetrates through the front through hole; the support plate is provided with two through holes which are matched with the corresponding moving rods.

Preferably, the sectional areas of the sliding groove and the sliding block are both in a T shape, so that the push-pull rod can move more stably.

Preferably, the left end of the rotating rod is arc-shaped, and is smoother and smoother when being matched with the connecting rod.

The utility model has the beneficial effects that:

1. according to the utility model, the belt pulley and the belt are driven to rotate through the output end of the motor, the belt pulley drives the rotating roller and the conveying belt to rotate, the conveying belt continuously conveys the copper sleeve and the shell until the copper sleeve and the shell are abutted against the baffle, and the working efficiency can be improved and the labor intensity can be reduced by utilizing the conveying belt to convey;

2. according to the utility model, the hydraulic rod telescopic end drives the press head to move downwards, meanwhile, the hydraulic rod telescopic end drives the connecting rod, the supporting rod and the spring to move downwards through the ring body, under the action of the gravity of the balancing weight and the action of the pressure generated by the spring on the rotating plate downwards, the rear end of the push-pull rod moves downwards under the matching of the sliding block and the sliding groove, the front end of the push-pull rod drives the pushing blocks to move forwards, the two pushing blocks respectively push the copper sleeve and the shell abutted to the baffle plate to move forwards by utilizing the pushing grooves at the front ends of the pushing blocks until the copper sleeve and the shell are respectively clamped into the first spring clamp and the second spring clamp, at the moment, the moving rod passes through the through hole forwards, the press head continues to move downwards until the copper sleeve in the first spring clamp is pressed into the inner cavity of the shell through the avoiding hole, and the operation is simple, the use is convenient, time-saving and labor-saving;

3. in the process that the telescopic end of the hydraulic rod drives the connecting rod to move downwards, the connecting rod presses the left end of the rotating rod to rotate downwards, the rotating rod drives the pull rod and the limiting ball to move downwards, when the telescopic end of the hydraulic rod retracts after copper bush assembly is finished, the connecting rod drives the rear end of the push-pull rod to move upwards through the rotating plate, the push-pull rod drives the push block and the moving rod to move backwards, the moving rod can pull the whole copper bush and the shell which are assembled in the second spring clamp backwards to the top of the rotating block, when the connecting rod is abutted to the rotating rod, the connecting rod presses the left end of the rotating rod to rotate upwards, the rotating rod drives the pull rod and the limiting ball to move upwards, the limiting ball drives the fixing rod and the rotating block to rotate anticlockwise, and then the whole copper bush and the shell on the rotating block fall from the rotating block.

Drawings

FIG. 1 is a schematic structural view of the apparatus;

FIG. 2 is a left side view of the apparatus;

FIG. 3 is a top view of the apparatus;

FIG. 4 is a front view of the apparatus;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is an enlarged view at B in FIG. 3;

in the figure: 1-base, 2-conveying component, 21-vertical plate, 22-rotating roller, 23-conveying belt, 24-belt pulley, 25-belt, 26-motor, 3-assembling component, 31-bracket, 32-hydraulic rod, 33-pressure head, 34-base, 35-support plate, 36-first spring clamp, 37-second spring clamp, 4-pushing component, 41-driving component, 411-circular ring body, 412-connecting rod, 413-rotating plate, 414-supporting rod, 415-spring, 416-balancing weight, 42-fixing plate, 43-sliding chute, 44-sliding block, 45-pushing rod, 46-through hole, 47-fixing plate, 48-baffle plate, 49-slideway, 50-pushing block and 51-pushing groove, 52-slide bar, 53-connecting plate, 54-avoiding hole, 6-blanking component, 61-rotating rod, 62-first spring rod, 63-rotating block, 64-fixing rod, 65-through hole, 66-pull rod, 67-limiting ball, 68-second spring rod, 69-moving rod and 70-through hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, shall fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, 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 "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

With reference to fig. 1-6, the utility model provides a technical scheme that the automatic copper bush assembling equipment comprises a base 1, wherein a conveying component 2 and an assembling component 3 are arranged at the top of the base 1, the assembling component 3 is connected with a pushing component 4, and the pushing component 4 is matched with the conveying component 2 and the assembling component 3; the top of the base 1 is provided with a blanking component 6, and the blanking component 6 is matched with the conveying component 2, the assembling component 3 and the pushing component 4.

The conveying assembly 2 comprises two vertical plates 21, the two vertical plates 21 are symmetrically and fixedly connected to the top of the base 1 in a front-back mode, two groups of rotating rollers 22 which are symmetrically arranged in a left-right mode are connected to the side wall of the opposite end of each vertical plate 21 in a vertical rotating mode, and a conveying belt 23 is sleeved between the left rotating roller 22 and the right rotating roller 22; the rear ends of the left rotating rollers 22 penetrate through the vertical plate 21 backwards and are fixedly connected with belt pulleys 24, and belts 25 are sleeved between the belt pulleys 24; the top of the base 1 is fixedly connected with a motor 26, and the output end of the motor 26 is fixedly connected with the rear end of the rotating roller 22 below the left side; the assembly component 3, the pushing component 4 and the blanking component 6 are matched with the vertical plate 21.

The assembly component 3 comprises an L-shaped support 31, the support 31 is fixedly connected to the top of the base 1, a hydraulic rod 32 is fixedly connected to the bottom of the horizontal section of the support 31, a pressure head 33 is fixedly connected to the telescopic end of the hydraulic rod 32 downwards, and the telescopic end of the hydraulic rod 32 is matched with the pushing component 4; a base 34 is fixedly connected to the top of the base 1 and positioned at the front side of the conveying assembly 2, a support plate 35 is fixedly connected to the top of the base 34, and a first spring clamp 36 and a second spring clamp 37 are fixedly connected to the rear side wall of the support plate 35 from top to bottom; the centers of the pressure head 33, the first spring clamp 36 and the second spring clamp 37 are all positioned on the same vertical line; the blanking assembly 6 is matched with the bracket 31, and the support plate 35 is matched with the vertical plate 21.

Wherein, the pushing assembly 4 comprises a driving assembly 41, and the driving assembly 41 is matched with the telescopic end of the hydraulic rod 32; a fixed plate 42 is fixedly connected to the rear side wall of the base 1, a sliding chute 43 is arranged on the fixed plate 42, a sliding block 44 is connected to the inner cavity of the sliding chute 43 in a sliding manner, push-pull rods 45 are connected to the front side wall of the sliding block 44 in an up-and-down symmetrical and rotating manner, and the push-pull rods 45 above are matched with the driving assembly 41; two through holes 46 are formed in the upper and lower parts of each of the two vertical plates 21, fixing plates 47 are symmetrically and fixedly connected to the rear side wall of the rear vertical plate 21 on the left and right sides of the through holes 46, baffle plates 48 are fixedly connected to the opposite ends of the front and rear vertical plates 21 and above the conveyor belt 23, and slide ways 49 are formed in the left side wall of each baffle plate 48, the left and right side walls of the inner cavity of each through hole 46 and the side walls of the opposite ends of each fixing plate 47; the opposite end of the fixed plate 47 has pushing blocks 50, the left and right side walls of the pushing blocks 50 have slide bars 52, the slide bars 52 cooperate with the slideway 49, the rear end of the pushing blocks 50 is rotatably connected with the other end of the corresponding push-pull rod 45, the front end of the pushing blocks 50 extends into the inner cavity of the rear through hole 46 and is provided with circular arc-shaped push grooves 51; a connecting plate 53 is fixedly connected between the rear side wall of the support plate 35 and the front side wall of the vertical plate 21, the top of the connecting plate 53 is flush with the bottom of the inner cavity of the through hole 46, the connecting plate 53 is provided with an avoiding hole 54, and the avoiding hole 54 is positioned below the first spring clamp 36.

The driving assembly 41 comprises a ring body 411, the ring body 411 is rotatably connected to the telescopic end of the hydraulic rod 32, and the right side wall of the ring body 411 is rotatably connected with a U-shaped connecting rod 412; the right side wall of the upper push-pull rod 45 is rotatably connected with a rotating plate 413; a supporting rod 414 is fixedly connected to the other end of the connecting rod 412, the supporting rod 414 is slidably connected with a rotating plate 413, and a spring 415 is fixedly connected between the top of the rotating plate 413 and the top of the supporting rod 414; the side wall of the lower push-pull rod 45 is fixedly connected with a balancing weight 416; the connecting rod 412 is matched with the blanking assembly 6.

The blanking assembly 6 comprises a rotating rod 61, and the rotating rod 61 is matched with the connecting rod 412; the rotating rod 61 is rotatably connected to the left side wall of the vertical section of the bracket 31, the top of the rotating rod 61 is rotatably connected with a first spring rod 62, and the other end of the first spring rod 62 is upwards and rotatably connected with the left side wall of the vertical section of the bracket 31; a rotating block 63 is rotatably connected between the front side wall of the vertical plate 21 and the rear side wall of the base 34, the top of the rotating block 63 is flush with the base 34, an L-shaped fixed rod 64 is fixedly connected to the bottom of the rotating block 63, and a through hole 65 is formed in the right end of the fixed rod 64; the bottom of the rotating rod 61 is rotatably connected with a pull rod 66, the bottom of the pull rod 66 downwards penetrates through the through hole 65 and is fixedly connected with a limiting ball 67, and a second spring rod 68 is rotatably connected between the bottom of the fixed rod 64 and the top of the base 1; an L-shaped moving rod 69 is vertically and symmetrically fixedly connected to the right side of the front side wall of the pushing block 50 at the lower part, and the front end of the moving rod 69 forwards penetrates through the front through hole 46; the support 35 is provided with two through holes 70, the two through holes 70 cooperating with corresponding travel rods 69.

The sectional areas of the sliding groove 43 and the sliding block 44 are both in a T shape, so that the push-pull rod 45 can move more stably.

Wherein, the left end of the rotating rod 61 is arc-shaped, and is smoother and smoother when being matched with the connecting rod 412.

One specific application of the utility model is:

the belt pulley 24 and the belt 25 are driven to rotate through the output end of the motor 26, the belt pulley 24 drives the rotating roller 22 and the conveying belt 23 to rotate, the copper sleeve is placed on the upper conveying belt 23, the shell is placed on the lower conveying belt 23, and the conveying belt 23 continuously conveys the copper sleeve and the shell until the copper sleeve and the shell are abutted to the baffle 48;

the hydraulic rod 32 drives the press head 33 to move downwards through the telescopic end of the hydraulic rod 32, the telescopic end of the hydraulic rod 32 drives the connecting rod 412, the supporting rod 414 and the spring 415 to move downwards through the annular body 411, the rear end of the push-pull rod 45 moves downwards under the matching of the sliding block 44 and the sliding groove 43 under the action of the gravity of the counterweight block 416 and the action of the pressure generated by the spring 145 on the rotating plate 143 downwards, the front end of the push-pull rod 45 drives the pushing block 50 to move forwards, the two pushing blocks 50 respectively push the copper bush and the shell abutted to the baffle plate 48 to move forwards until the copper bush and the shell are respectively clamped into the first spring clamp 36 and the second spring clamp 37, at the moment, the moving rod 69 forwards penetrates through the through hole 70, the sliding block 44 moves to the lowest part of the sliding groove 43, the press head 33 continues to move downwards, and the spring 415 continues to be compressed until the press head 33 presses the copper bush in the first spring clamp 36 to an inner cavity of the shell through the avoiding hole 54;

when the telescopic end of the hydraulic rod 32 drives the connecting rod 412 to move downwards, the connecting rod 412 presses the left end of the rotating rod 61 to rotate downwards, the rotating rod 61 drives the pull rod 66 and the limiting ball 67 to move downwards, when the telescopic end of the hydraulic rod 32 is retracted after the copper bush is assembled, the connecting rod 412 drives the rear end of the push-pull rod 45 to move upwards through the rotating plate 413, the push-pull rod 45 drives the push block 50 and the moving rod 69 to move backwards, the whole copper bush and the shell assembled in the second spring clamp 37 are pulled backwards to the top of the rotating block 63 in the backward moving process of the moving rod 69, when the connecting rod 412 is abutted against the rotating rod 61, the connecting rod 412 presses the left end of the rotating rod 61 to rotate upwards, the rotating rod 61 drives the pull rod 66 and the limiting ball 67 to move upwards, the limiting ball 67 drives the fixing rod 64 and the rotating block 63 to rotate anticlockwise, and the whole copper bush and the shell assembled on the rotating block 63 fall from the rotating block 63, and when the connecting rod 412 is not engaged with the rotating rod 61, the rotating block 63 is restored to the original position under the action of the second spring rod 68, so that the telescopic end of the hydraulic rod 32 continuously reciprocates up and down, and the copper bush assembly can be continuously carried out.

The electric elements adopted by the patent are all sold in the market, and the specific structure and the control mode are not repeated in the specification.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The automatic copper bush assembling equipment comprises a base (1) and is characterized in that a conveying assembly (2) and an assembling assembly (3) are arranged at the top of the base (1), the assembling assembly (3) is connected with a pushing assembly (4), and the pushing assembly (4) is matched with the conveying assembly (2) and the assembling assembly (3); the blanking assembly (6) is arranged at the top of the base (1), and the blanking assembly (6) is matched with the conveying assembly (2), the assembling assembly (3) and the pushing assembly (4).

2. The automatic copper sheathing assembling device of claim 1, wherein: the conveying assembly (2) comprises two vertical plates (21), the two vertical plates (21) are symmetrically connected to the top of the base (1) from front to back, two groups of rotating rollers (22) which are symmetrically arranged from left to right are connected to the side wall of the opposite end of each vertical plate (21) from top to bottom, and a conveying belt (23) is connected between the left rotating roller and the right rotating roller (22); the rear ends of the left rotating rollers (22) pass through the vertical plate (21) backwards and are connected with belt pulleys (24), and a belt (25) is connected between the belt pulleys (24); the top of the base (1) is connected with a motor (26), and the output end of the motor (26) is connected with the rear end of the rotating roller (22) below the left side; the assembling component (3), the pushing component (4) and the blanking component (6) are matched with the vertical plate (21).

3. The automatic copper sheathing assembling device of claim 2, wherein: the assembling component (3) comprises an L-shaped support (31), the support (31) is connected to the top of the base (1), the bottom of the horizontal section of the support (31) is connected with a hydraulic rod (32), the telescopic end of the hydraulic rod (32) is downwards connected with a pressure head (33), and the telescopic end of the hydraulic rod (32) is matched with the pushing component (4); a base (34) is connected to the top of the base (1) and located on the front side of the conveying assembly (2), a support plate (35) is connected to the top of the base (34), and a first spring clamp (36) and a second spring clamp (37) are connected to the rear side wall of the support plate (35) from top to bottom; the centers of the pressure head (33), the first spring clamp (36) and the second spring clamp (37) are all positioned on the same vertical line; the blanking assembly (6) is matched with the bracket (31), and the support plate (35) is matched with the vertical plate (21).

4. The automatic copper sheathing assembling device according to claim 3, wherein: the pushing assembly (4) comprises a driving assembly (41), and the driving assembly (41) is matched with the telescopic end of the hydraulic rod (32); the rear side wall of the base (1) is connected with a fixed plate (42), the fixed plate (42) is provided with a sliding chute (43), the inner cavity of the sliding chute (43) is connected with a sliding block (44), the front side wall of the sliding block (44) is vertically and symmetrically connected with a push-pull rod (45), and the push-pull rod (45) above is matched with a driving assembly (41); two through holes (46) are formed in the upper and lower parts of each of the two vertical plates (21), fixing plates (47) are symmetrically connected to the rear side wall of the rear vertical plate (21) and located on the left side and the right side of each through hole (46), baffle plates (48) are connected to the opposite ends of the front vertical plate (21) and the rear vertical plate (21) and located above the conveyor belt (23), and slideways (49) are formed in the left side wall of each baffle plate (48), the left side wall and the right side wall of the inner cavity of each through hole (46) and the side wall of the opposite end of each fixing plate (47); a pushing block (50) is arranged at the opposite end of the fixing plate (47), sliding strips (52) are arranged on the left side wall and the right side wall of the pushing block (50), the sliding strips (52) are matched with a sliding way (49), the rear end of the pushing block (50) is connected with the other end of the corresponding push-pull rod (45), and the front end of the pushing block (50) extends into the inner cavity of the rear through hole (46) and is provided with a circular arc-shaped pushing groove (51); be connected with even board (53) between extension board (35) rear side wall and riser (21) preceding lateral wall, even board (53) top and through-hole (46) inner chamber bottom flush, even board (53) are equipped with dodge hole (54), dodge hole (54) and are located first spring clamp (36) below.

5. The automatic copper sheathing assembling device of claim 4, wherein: the driving assembly (41) comprises a ring body (411), the ring body (411) is connected to the telescopic end of the hydraulic rod (32), and the right side wall of the ring body (411) is connected with a U-shaped connecting rod (412); the right side wall of the push-pull rod (45) above is connected with a rotating plate (413); the other end of the connecting rod (412) is connected with a supporting rod (414), the supporting rod (414) is connected with a rotating plate (413), and a spring (415) is connected between the top of the rotating plate (413) and the top of the supporting rod (414); the side wall of the push-pull rod (45) at the lower part is connected with a balancing weight (416); the connecting rod (412) is matched with the blanking assembly (6).

6. The automatic copper sheathing assembling device of claim 5, wherein: the blanking assembly (6) comprises a rotating rod (61), and the rotating rod (61) is matched with the connecting rod (412); the rotating rod (61) is connected to the left side wall of the vertical section of the support (31), the top of the rotating rod (61) is connected with a first spring rod (62), and the other end of the first spring rod (62) is upwards connected with the left side wall of the vertical section of the support (31); a rotating block (63) is connected between the front side wall of the vertical plate (21) and the rear side wall of the base (34), the top of the rotating block (63) is flush with the base (34), an L-shaped fixing rod (64) is connected to the bottom of the rotating block (63), and a through hole (65) is formed in the right end of the fixing rod (64); the bottom of the rotating rod (61) is connected with a pull rod (66), the bottom of the pull rod (66) downwards penetrates through the through hole (65) and is connected with a limiting ball (67), and a second spring rod (68) is connected between the bottom of the fixing rod (64) and the top of the base (1); the right side of the front side wall of the pushing block (50) at the lower part is vertically and symmetrically connected with an L-shaped moving rod (69), and the front end of the moving rod (69) forwards penetrates through the through hole (46) at the front; the support plate (35) is provided with two through holes (70), and the two through holes (70) are matched with the corresponding moving rod (69).

7. The automatic copper sheathing assembling device of claim 4, wherein: the cross sections of the sliding chute (43) and the sliding block (44) are both in a T shape.

8. The automatic copper sheathing assembling device according to claim 6, wherein: the left end of the rotating rod (61) is arc-shaped.

Images