CN218344986U - Hoisting device for electrolytic copper plate - Google Patents

Abstract

The utility model relates to an electrolysis copper technical field, and disclose an electrolysis copper hoist device, solved electrolysis copper hoist device on the present market easy not hard up when hoisting electrolysis copper, poor stability, hoist and mount security is poor, electrolysis copper is placed the striking noise big, easily disturbs staff's problem, it includes the position fixing board that is used for the installation, the bottom movable mounting of position fixing board has two fixture that are used for the electrolysis copper, the fixture inner chamber is installed and is used for bearing the auxiliary mechanism of electrolysis copper, the bottom that the position fixing board is located the fixture inboard is fixed with extrusion mechanism, the mounting groove has been seted up to the outside of fixture, the inner chamber of mounting groove is fixed with the second push rod motor, the output of second push rod motor is fixed with the third push rod motor; the utility model discloses, have the fastness that can ensure hoist and mount electrolytic copper, stability is good, and hoist and mount security is good, the noise is low is placed to the electrolytic copper, can not disturb staff's advantage easily.

Description

Hoisting device for electrolytic copper plate

Technical Field

The utility model belongs to the technical field of the electrolysis copper, specifically be an electrolysis copper hoist device.

Background

When the electrolytic copper plate is processed, the electrolytic copper plate needs to be moved by using a hoisting device for auxiliary transportation because the electrolytic copper plate is heavy.

However, when the electrolytic copper plate hoisting device in the current market carries the electrolytic copper plate, the situations that the electrolytic copper plate is clamped and the electrolytic copper plate is poor in grabbing stability, easy to loosen and drop occur easily, and the hoisting safety is poor; when the device is placed, the device can generate great noise due to the impact of the device and objects, and the excessive noise can cause interference to surrounding workers and is not beneficial to the normal work of the workers.

SUMMERY OF THE UTILITY MODEL

To the aforesaid condition, for overcoming prior art's defect, the utility model provides an electrolysis copper hoist device, effectual electrolysis copper hoist device who has solved on the existing market is easy not hard up when hoisting electrolysis copper, poor stability, and the hoist and mount security is poor, the electrolysis copper is placed the striking noise big, disturbs staff's problem easily.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an electrolysis copper hoist device, is including the position fixing plate that is used for the installation, the bottom movable mounting of position fixing plate has two fixture that are used for the electrolysis copper, the complementary unit who is used for bearing the electrolysis copper is installed to the fixture inner chamber, the position fixing plate is located the inboard bottom of fixture and is fixed with extrusion mechanism, the mounting groove has been seted up in the outside of fixture, the inner chamber of mounting groove is fixed with second push rod motor, the output of second push rod motor is fixed with third push rod motor, supporting mechanism is installed at the top of third push rod motor, the bottom of third push rod motor is fixed with bears the mechanism.

Preferably, the auxiliary mechanism comprises a driving motor fixed in an inner cavity of the clamping mechanism, an assembly plate is fixed at an output end of the driving motor, a threaded bolt is connected to the bottom of the assembly plate in a threaded manner, and a bearing plate is connected to one end of the threaded bolt in a threaded manner.

Preferably, the extrusion mechanism comprises a protection box fixed on the surface of the retention plate, a first push rod motor is fixed in an inner cavity of the protection box, an extrusion plate is fixed at an output end of the first push rod motor, and a cushion pad is fixed on the surface of the extrusion plate.

Preferably, a semicircular compression-resistant ball is fixed on the surface of the cushion pad, and the compression-resistant ball is made of rubber.

Preferably, the supporting mechanism comprises a movable ring fixed on the third push rod motor, a sliding rod is movably sleeved in an inner cavity of the movable ring, and a stop block is fixed at one end of the sliding rod.

Preferably, bear the mechanism including fixing the guide block at third push rod motor bottom output, the inner chamber of guide block is fixed with the buffer tube, the inner chamber of buffer tube is fixed with directional rod, directional rod's one end activity has cup jointed bears the frame, the bottom that bears the frame is fixed with buffer spring, the inner chamber that bears the frame is fixed with branch, the outside activity of branch has cup jointed the gyro wheel.

Compared with the prior art, the beneficial effects of the utility model are that:

in the working process, the electrolytic copper plate is clamped through the clamping mechanism on the position fixing plate, then the first push rod motor in the protection box is started, the first push rod motor drives the cushion pad at the bottom of the extrusion plate to synchronously move downwards, the compression ball at the bottom of the cushion pad synchronously moves at the moment, and further the compression ball is in contact with the surface of the electrolytic copper plate, so that the pressure on the electrolytic copper plate is exerted, whether the electrolytic copper plate is clamped stably or not is confirmed, the condition that the electrolytic copper plate is clamped unstably is solved, the safety is improved, finally the driving motor is started, the driving motor drives the assembling plate to rotate, the assembling plate drives the bearing plate to synchronously rotate through the threaded bolt, the bearing plate supports the bottom of the electrolytic copper plate, and the stability of the electrolytic copper plate in the hoisting process is improved;

the bearing mechanism which drives the bottom of the third push rod motor to move to the bottom of the side face of the electrolytic copper plate by starting the second push rod motor, when the second push rod motor moves, auxiliary support can be carried out by moving the movable ring on the sliding rod, the moving stability of the third push rod motor is improved, the bottom of the placed electrolytic copper plate is contacted with the top of the bearing mechanism, the bottom of the bearing mechanism is contacted with the surface of the placing face of the electrolytic copper plate, the electrolytic copper plate is in direct contact with the roller, and when the roller is extruded, the bearing frame at one end of the supporting rod can move along the directional rod inside the buffer tube, so that the buffer spring is extruded, the pressure resistance of the roller is improved, then the second push rod motor is started, the second push rod motor drives the guide block on the bearing mechanism to be gradually separated from the electrolytic copper plate by the third push rod motor, the surface of the electrolytic copper plate can realize auxiliary movement by the rotation of the roller on the supporting rod, the smoothness of the separation of the electrolytic copper plate from the guide block is improved, and one end of the guide block is obliquely arranged, so that the electrolytic copper plate can not generate large impact with the ground when the guide block is separated from the guide block, and the electrolytic copper plate, and the noise of workers can not interfere with the ground.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the auxiliary mechanism of the present invention;

FIG. 3 is a schematic view of the structure of the carrying mechanism of the present invention;

in the figure: 1. a position-retaining plate; 2. a clamping mechanism; 3. an auxiliary mechanism; 301. a drive motor; 302. assembling a plate; 303. a threaded bolt; 304. a carrier plate; 4. an extrusion mechanism; 401. a protective case; 402. a first push rod motor; 403. a pressing plate; 404. a cushion pad; 5. a compression ball; 6. mounting grooves; 7. a second push rod motor; 8. a third push rod motor; 9. a support mechanism; 901. a movable ring; 902. a slide bar; 903. a bit block; 10. a carrying mechanism; 1001. a guide block; 1002. a buffer tube; 1003. an orientation lever; 1004. a carrier; 1005. a buffer spring; 1006. a strut; 1007. and a roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

This embodiment, given by fig. 1-3, the utility model discloses a position fixing plate 1 for installing, position fixing plate 1's bottom movable mounting has two fixture 2 that are used for the electrolysis copper, fixture 2 inner chamber installs the complementary unit 3 that is used for bearing the electrolysis copper, position fixing plate 1 is located the bottom of fixture 2 inboard and is fixed with extrusion mechanism 4, mounting groove 6 has been seted up in fixture 2's the outside, the inner chamber of mounting groove 6 is fixed with second push rod motor 7, the output of second push rod motor 7 is fixed with third push rod motor 8, supporting mechanism 9 is installed at the top of third push rod motor 8, the bottom of third push rod motor 8 is fixed with load-bearing mechanism 10.

Wherein, complementary unit 3 is including fixing driving motor 301 at fixture 2 inner chamber, and driving motor 301 is asynchronous machine, and driving motor 301's output is fixed with equipment board 302, and the bottom threaded connection of equipment board 302 has the screw bolt 303, and the one end threaded connection of screw bolt 303 has loading board 304, utilizes complementary unit 3 to carry out the auxiliary stay to the electrolysis copper, and then avoids the electrolysis copper to fall and causes danger.

Wherein, extrusion mechanism 4 is including fixing the protection box 401 on position fixing plate 1 surface, and the inner chamber of protection box 401 is fixed with first push rod motor 402, and the output of first push rod motor 402 is fixed with stripper plate 403, and the fixed surface of stripper plate 403 has blotter 404, utilizes extrusion mechanism 4 to exert pressure to the electrolysis clamp plate, and then confirms whether the centre gripping of electrolysis clamp plate is stable, has improved the hoist and mount security of electrolysis clamp plate.

Wherein, the fixed surface of blotter 404 has semicircular resistance to compression ball 5, and the material of resistance to compression ball 5 is the rubber material, and blotter 404 can cooperate resistance to compression ball 5 to contact with the electrolysis clamp plate, and then avoids the wearing and tearing to appear in the electrolysis clamp plate surface.

Wherein, the supporting mechanism 9 includes the movable ring 901 fixed on the third push rod motor 8, the inner cavity activity of the movable ring 901 has cup jointed the slide bar 902, the one end of the slide bar 902 is fixed with the position blocking block 903, and the supporting mechanism 9 is utilized to support the third push rod motor 8, thereby improving the stability of the third push rod motor 8 in use.

Wherein, the carrier mechanism 10 is including fixing the guide block 1001 at the 8 bottom output ends of third push rod motor, the inner chamber of guide block 1001 is fixed with buffer tube 1002, the inner chamber of buffer tube 1002 is fixed with directional rod 1003, the one end activity of directional rod 1003 has cup jointed and has born frame 1004, the bottom of bearing frame 1004 is fixed with buffer spring 1005, the inner chamber of bearing frame 1004 is fixed with branch 1006, the outside activity of branch 1006 has cup jointed gyro wheel 1007, utilize carrier mechanism 10 can stabilize the electrolytic copper board of placing and place, produce the noise when avoiding placing.

The working principle is as follows: when the electrolytic copper plate clamping device works, firstly, the electrolytic copper plate is clamped through the clamping mechanism 2 on the position fixing plate 1, then, the first push rod motor 402 in the protection box 401 is started, the first push rod motor 402 drives the cushion pads 404 at the bottom of the extrusion plate 403 to synchronously move downwards, at the moment, the pressure-resisting balls 5 at the bottom of the cushion pads 404 synchronously move, and further, the pressure-resisting balls 5 are in contact with the surface of the electrolytic copper plate, so that the pressure on the electrolytic copper plate is exerted, whether the electrolytic copper plate is clamped stably or not is confirmed, the unstable clamping condition of the electrolytic copper plate is avoided, the safety is improved, finally, the driving motor 301 is started, the driving motor 301 drives the assembling plate 302 to rotate, the assembling plate 302 drives the bearing plate 304 to synchronously rotate through the threaded bolt 303, the bearing plate 304 supports the bottom of the electrolytic copper plate, and the stability of the electrolytic copper plate in the hoisting process is improved;

when the electrolytic copper plate is placed, the second push rod motor 7 is started first to drive the bearing mechanism 10 at the bottom of the third push rod motor 8 to move to the bottom of the side face of the electrolytic copper plate, when the second push rod motor 7 moves, the second push rod motor 7 can move on the sliding rod 902 through the movable ring 901 to perform auxiliary support, the movement stability of the third push rod motor 8 is improved, then the bottom of the placed electrolytic copper plate is in contact with the top of the bearing mechanism 10, the bottom of the bearing mechanism 10 is in contact with the surface of the placed electrolytic copper plate, the electrolytic copper plate is in direct contact with the roller 1007, and when the roller 1007 is extruded, the bearing frame 1004 at one end of the supporting rod 1006 can move along the directional rod inside the buffer tube 1002, and further extrudes the buffer spring 1005, so that the compression resistance of the roller 1007 is improved, then the second push rod motor 7 is started, the second push rod motor 7 drives the guide block 1001 on the bearing mechanism 10 through the third push rod motor 8 to gradually separate from the electrolytic copper plate 1001, at the surface of the electrolytic copper plate 1006, the electrolytic copper plate rotates on the supporting rod 1007, so that the auxiliary movement is realized through the upward rotation of the roller 1007, the smooth separation of the end of the electrolytic copper plate 1001 from the guide block 1001, meanwhile, the guide block 1001 is not interfered with the ground of the ground, and the ground of the ground, the ground of the electrolytic copper plate 1001, and the ground where the electrolytic copper plate is not generated when the electrolytic copper plate is normally impacted, and the ground is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an electrolysis copper hoist device, is including position fixing plate (1) that is used for the installation, its characterized in that: the bottom movable mounting of position-fixing board (1) has two fixture (2) that are used for the electrolysis copper, fixture (2) inner chamber is installed and is used for bearing the complementary unit (3) of electrolysis copper, position-fixing board (1) is located fixture (2) inboard bottom and is fixed with extrusion mechanism (4), mounting groove (6) have been seted up in the outside of fixture (2), the inner chamber of mounting groove (6) is fixed with second push rod motor (7), the output of second push rod motor (7) is fixed with third push rod motor (8), supporting mechanism (9) are installed at the top of third push rod motor (8), the bottom of third push rod motor (8) is fixed with bears mechanism (10).

2. The electrolytic copper plate hoisting device according to claim 1, characterized in that: the auxiliary mechanism (3) comprises a driving motor (301) fixed to the inner cavity of the clamping mechanism (2), an assembly plate (302) is fixed to the output end of the driving motor (301), a threaded bolt (303) is connected to the bottom of the assembly plate (302) in a threaded mode, and a bearing plate (304) is connected to one end of the threaded bolt (303) in a threaded mode.

3. The electrolytic copper plate hoisting device according to claim 1, characterized in that: the extrusion mechanism (4) comprises a protection box (401) fixed on the surface of the position-fixing plate (1), a first push rod motor (402) is fixed in an inner cavity of the protection box (401), an extrusion plate (403) is fixed at the output end of the first push rod motor (402), and a cushion pad (404) is fixed on the surface of the extrusion plate (403).

4. The electrolytic copper plate hoisting device according to claim 3, characterized in that: the surface of the buffer pad (404) is fixed with a semicircular compression-resistant ball (5), and the compression-resistant ball (5) is made of rubber.

5. The electrolytic copper plate hoisting device according to claim 1, characterized in that: the supporting mechanism (9) comprises a movable ring (901) fixed on the third push rod motor (8), a sliding rod (902) is movably sleeved in an inner cavity of the movable ring (901), and a blocking block (903) is fixed at one end of the sliding rod (902).

6. The electrolytic copper plate hoisting device according to claim 1, characterized in that: the bearing mechanism (10) comprises a guide block (1001) fixed at the output end of the bottom of a third push rod motor (8), a buffer tube (1002) is fixed in the inner cavity of the guide block (1001), a directional rod (1003) is fixed in the inner cavity of the buffer tube (1002), a bearing frame (1004) is movably sleeved at one end of the directional rod (1003), a buffer spring (1005) is fixed at the bottom of the bearing frame (1004), a supporting rod (1006) is fixed in the inner cavity of the bearing frame (1004), and a roller (1007) is movably sleeved outside the supporting rod (1006).

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