CN213009276U - Large anvil transfer tool for hard alloy production - Google Patents

Abstract

The utility model discloses a big top hammer shifts frock for carbide production, including first diaphragm, riser and handle, the upper surface rigid coupling of first diaphragm has a plurality of risers, elevating gear is installed to the top of first diaphragm. This a big top hammer shifts frock for carbide production, through first threaded rod, the second diaphragm, first gear, mutually support between second montant and the carousel isotructure, can make the carousel drive first montant through the second montant and rotate, first montant drives first gear through the second gear and rotates, first gear drives first threaded rod and rotates, thereby make the threaded rod drive the second diaphragm and remove, support top hammer below, through the notch plate, the tooth board, the rectangle piece, mutually support between clamp splice and the top hammer isotructure, can make the tooth board remove in notch plate department, thereby the horizontal pole carries on spacingly through the rectangle piece to the tooth board and presss from both sides the top hammer tightly simultaneously.

Description

Large anvil transfer tool for hard alloy production

Technical Field

The utility model relates to a carbide technical field specifically is a big top hammer shifts frock for carbide production.

Background

The hard alloy anvil is an important component for producing the artificial diamond device, and bears high-temperature and high-pressure alternating load in the diamond synthesis process, the length of the service life directly determines the production cost of diamond synthesis, the service life of the hard alloy anvil is about 5000 times, therefore, the density, the toughness and the bending strength of the hard alloy anvil are improved by refining grains, the service life of the anvil is prolonged, less work loss is caused, the hard alloy anvil is a trend of hard alloy anvil development, corresponding work assistance is required when the large anvil is inevitably transferred, a tool in the prior art does not support the ground of the large anvil, so that the phenomenon of infirm fixation is easily caused, meanwhile, most of tools in the prior art are manually used for fixing the large anvil, and the fixing effect is not good.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a to solve and propose among the above-mentioned background art and the frock among the prior art does not hold up the ground of big top hammer, just so the problem of fixed insecure phenomenon appears easily.

In order to achieve the above object, the utility model provides a following technical scheme: a large top hammer transfer tool for hard alloy production comprises a first transverse plate, a plurality of first vertical plates and a handle, wherein the plurality of first vertical plates are fixedly connected to the upper surface of the first transverse plate, the handle is fixedly connected to the outer sides of the first vertical plates, and a lifting device is mounted above the first transverse plate;

the lifting device comprises a first threaded rod, a second transverse plate, a first gear, a second gear, a first vertical rod, a second vertical rod and a rotary table;

control the below outer wall of first threaded rod rotates with first diaphragm and links to each other, the middle outer wall threaded connection of first threaded rod has the second diaphragm, the below outer wall rigid coupling of first threaded rod has first gear, the outside meshing of first gear is connected with the second gear, the inside rigid coupling of second gear has first montant, the below outer wall of first montant rotates with first diaphragm and links to each other, first montant rotates through the belt and is connected with the second montant, the below outer wall of second montant rotates with first diaphragm and links to each other, the upper surface rigid coupling of second montant has the carousel.

Preferably, the first vertical rod and the second vertical rod are arranged in parallel, so that the second vertical rod can better drive the first vertical rod to rotate.

Preferably, the turntable and the middle point of the second vertical rod are on the same vertical line, so that the rotating effect of the second vertical rod can be improved.

Preferably, a fixing device is arranged above the second transverse plate;

the fixing device comprises a top hammer, a clamping block, a tooth plate, a sliding block, a concave plate, a rectangular block and a cross rod;

the lower surface of top hammer laminates with the top outer wall of second diaphragm mutually, the clamp splice is installed to the left and right sides outer wall of top hammer, the outside rigid coupling of clamp splice has tooth dental lamina, the equal rigid coupling of terminal surface has the slider around the tooth dental lamina, the notch plate is installed to the outer wall of slider, the groove inner wall of notch plate and the outer wall clearance fit of slider, the outside and the first riser of notch plate are fixed to be linked to each other, the upper surface rigid coupling of tooth dental lamina has the rectangle piece, the outside rigid coupling of rectangle piece has the horizontal pole, the outside and the first riser of horizontal pole are fixed to be linked to each other, can make the horizontal pole pass through the rectangle piece and play limiting displacement to tooth dental lamina like this.

Preferably, the sliding block and the concave plate form a sliding structure, so that the tooth plate can always move in the horizontal direction.

Preferably, the cross bar and the first vertical plate are arranged vertically, so that the clamping effect of the device can be improved.

Preferably, a power device is installed on the inner side of the first vertical plate;

the power device comprises a second vertical plate, a motor, a second threaded rod, an L-shaped plate and a third gear;

control the outside of second riser links to each other with the first riser is fixed, the inside rigid coupling in below of second riser has the motor, the output shaft of motor passes through the belt and rotates and be connected with the second threaded rod, the below outer wall of second threaded rod rotates and is connected with the L shaped plate, the upper surface and the second riser of L shaped plate are fixed to be linked to each other, the inboard meshing of second threaded rod is connected with the third gear, the third gear rotates with the second riser through the pivot and links to each other, third gear and tooth board intermeshing can play the supporting role to the second threaded rod through the L shaped plate.

Preferably, the meshing ratio of the third gear to the tooth plate is 1: 1, so that the third gear can rotate more stably.

Compared with the prior art, the beneficial effects of the utility model are that: this a big top hammer shifts frock for carbide production, through mutually supporting between first threaded rod, second diaphragm, first gear, second montant and the carousel isotructure, can make the carousel drive first montant through the second montant and rotate, first montant drives first gear through the second gear and rotates, first gear drives first threaded rod and rotates to make the threaded rod drive the second diaphragm and remove, support the top hammer below.

Through mutually supporting between concave plate, tooth dental lamina, slider, horizontal pole, rectangular block, clamp splice and the top hammer isotructure, can make tooth dental lamina remove in concave plate department, the horizontal pole carries on spacingly through the rectangular block to tooth dental lamina simultaneously, makes tooth dental lamina drive the clamp splice and removes along the horizontal direction to press from both sides the top hammer tightly.

Through mutually supporting between motor, second threaded rod, secondary riser, third gear and the tooth dental lamina isotructure, the output shaft that makes the motor drives the second threaded rod through the belt and rotates, and the second threaded rod drives the third gear and rotates, and the third gear drives the tooth dental lamina and removes to the result of use of this device has been improved.

Drawings

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

FIG. 2 is a schematic view of the second vertical rod, the first vertical rod and the second gear shown in FIG. 1;

FIG. 3 is a schematic view of the arrangement of the concave plate, the sliding block and the tooth plate in FIG. 1;

fig. 4 is a schematic structural view of the second riser, the motor and the second threaded rod of fig. 1.

In the figure: 1. first diaphragm, 2, first riser, 3, elevating gear, 301, first threaded rod, 302, second diaphragm, 303, first gear, 304, second gear, 305, first montant, 306, second montant, 307, carousel, 4, fixing device, 401, holding back hammer, 402, clamp splice, 403, tooth board, 404, slider, 405, concave plate, 406, rectangle piece, 407, horizontal pole, 5, power device, 501, second riser, 502, motor, 503, second threaded rod, 504, L shaped plate, 505, third gear, 6, handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a large top hammer transfer tool for hard alloy production comprises a first transverse plate 1, first vertical plates 2 and a handle 6, wherein the upper surface of the first transverse plate 1 is fixedly connected with the 2 first vertical plates 2, the outer sides of the first vertical plates 2 are fixedly connected with the handle 6, the device can be driven to move through the handle 6, a lifting device 3 is arranged above the first transverse plate 1, the lifting device 3 comprises a first threaded rod 301, a second transverse plate 302, a first gear 303, a second gear 304, a first vertical rod 305, a second vertical rod 306 and a rotary table 307, the lower outer walls of the left and right first threaded rods 301 are rotatably connected with the first transverse plate 1, the middle outer wall of the first threaded rod 301 is in threaded connection with the second transverse plate 302, the first threaded rod 301 can drive the second transverse plate 302 to move, the lower outer wall of the first threaded rod 301 is fixedly connected with the first gear 303, the first gear 303 can drive the first threaded rod 301 to rotate, the outside meshing of first gear 303 is connected with second gear 304, second gear 304 can drive first gear 303 and rotate, the inside rigid coupling of second gear 304 has first montant 305, the below outer wall of first montant 305 rotates with first diaphragm 1 and links to each other, first montant 305 rotates through the belt and is connected with second montant 306, second montant 306 can drive first montant 305 through the belt and rotate, the below outer wall of second montant 306 rotates with first diaphragm 1 and links to each other, the upper surface rigid coupling of second montant 306 has carousel 307, can drive first montant 305 through carousel 307 and rotate, first montant 305 and second montant 306 are parallel arrangement, carousel 307 and the mid point of second montant 306 are on same vertical line.

A fixing device 4 is arranged above the second transverse plate 302, the fixing device 4 comprises a top hammer 401, a clamping block 402, a tooth plate 403, a sliding block 404, a concave plate 405, a rectangular block 406 and a cross bar 407, the lower surface of the top hammer 401 is attached to the outer wall above the second transverse plate 302, the outer walls of the left side and the right side of the top hammer 401 are provided with the clamping block 402, the radian of the inner side of the clamping block 402 is consistent with that of the outer wall of the top hammer 401, the outer side of the clamping block 402 is fixedly connected with the tooth plate 403, the front end face and the rear end face of the tooth plate 403 are fixedly connected with the sliding block 404, the outer wall of the sliding block 404 is provided with the concave plate 405, the inner wall of the concave plate 405 at the groove is in clearance fit with the outer wall of the sliding block 404, the concave plate 405 can limit the tooth plate 405 through the groove and the sliding block 404, the outer side of the concave plate 405 is fixedly connected with the first vertical plate 2, the upper surface of, the outside of horizontal pole 407 is fixed continuous with first riser 2, and horizontal pole 407 can play limiting displacement to tooth board 405 through rectangular block 406, and slider 404 constitutes sliding structure with concave plate 405, and horizontal pole 407 and first riser 2 are vertical setting.

The power device 5 is arranged on the inner side of the first vertical plate 2, the power device 5 comprises a second vertical plate 501, a motor 502, a second threaded rod 503, an L-shaped plate 504 and a third gear 505, the outer sides of the left and right second vertical plates 501 are fixedly connected with the first vertical plate 2, the motor 502 is fixedly connected inside the lower portion of the second vertical plate 501, the model of the motor 502 is 3GB-555, an output shaft of the motor 502 is rotatably connected with the second threaded rod 503 through a belt, the output shaft of the motor 502 can drive the second threaded rod 503 to rotate through the belt, the outer wall of the lower portion of the second threaded rod 503 is rotatably connected with the L-shaped plate 504, the upper surface of the L-shaped plate 504 is fixedly connected with the second vertical plate 501, the inner side of the second threaded rod 504 is engaged with the third gear 505, the second threaded rod 504 can drive the third gear 505 to rotate, the third gear 505 is rotatably connected with the second vertical plate 501 through a rotating shaft, and the, the third gear 505 can drive the tooth plate 403 to move, and the meshing ratio of the third gear 505 to the tooth plate 403 is 1: 1.

when an operator needs to use a large top hammer transfer tool for hard alloy production, firstly, the operator rotates the rotating disc 307, the second vertical rod 306 is driven to rotate by the rotating disc 307, the first vertical rod 305 is driven to rotate by the second vertical rod 306 through a belt, the first vertical rod 305 drives the second gear 304 to rotate, the second gear 304 drives the first threaded rod 301 to rotate through the first gear 303, the first threaded rod 301 drives the second transverse rod 302 to move upwards, the second transverse rod 302 is attached to the lower surface of the top hammer 401, so that the purpose of supporting the lower part of the top hammer 401 is achieved, an external power supply of the motor 502 is switched on, the motor 502 is started, an output shaft of the motor 502 drives the second threaded rod 503 to rotate through the belt, the second threaded rod 503 drives the third gear 505 to rotate, the third gear 505 drives the tooth plate 403 to move, the tooth plate 403 drives the clamping block 402 to move, the anvil 401 is clamped by the left and right clamping blocks 402, so that the purpose of improving the fixing effect is achieved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

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 (8)

1. The utility model provides a big top hammer shifts frock for carbide production, includes first diaphragm (1), riser (2) and handle (6), the upper surface rigid coupling of first diaphragm (1) has a plurality of risers (2), the outside rigid coupling of riser (2) has handle (6), its characterized in that: a lifting device (3) is arranged above the first transverse plate (1);

the lifting device (3) comprises a first threaded rod (301), a second transverse plate (302), a first gear (303), a second gear (304), a first vertical rod (305), a second vertical rod (306) and a rotary table (307);

control the below outer wall of first threaded rod (301) rotates with first diaphragm (1) and links to each other, the middle outer wall threaded connection of first threaded rod (301) has second diaphragm (302), the below outer wall rigid coupling of first threaded rod (301) has first gear (303), the outside meshing of first gear (303) is connected with second gear (304), the inside rigid coupling of second gear (304) has first montant (305), the below outer wall of first montant (305) rotates with first diaphragm (1) and links to each other, first montant (305) rotates through the belt and is connected with second montant (306), the below outer wall of second montant (306) rotates with first diaphragm (1) and links to each other, the upper surface rigid coupling of second montant (306) has carousel (307).

2. The large holding-up hammer transfer tool for producing hard alloy according to claim 1, characterized in that: the first vertical rod (305) and the second vertical rod (306) are arranged in parallel.

3. The large holding-up hammer transfer tool for producing hard alloy according to claim 1, characterized in that: the rotating disc (307) and the middle point of the second vertical rod (306) are on the same vertical line.

4. The large holding-up hammer transfer tool for producing hard alloy according to claim 1, characterized in that: a fixing device (4) is arranged above the second transverse plate (302);

the fixing device (4) comprises a top hammer (401), a clamping block (402), a tooth plate (403), a sliding block (404), a concave plate (405), a rectangular block (406) and a cross bar (407);

the lower surface of top hammer (401) is laminated with the top outer wall of second diaphragm (302), clamp splice (402) are installed to the left and right sides outer wall of top hammer (401), the outside rigid coupling of clamp splice (402) has tooth dental lamina (403), the equal rigid coupling of front and back terminal surface of tooth dental lamina (403) has slider (404), concave plate (405) is installed to the outer wall of slider (404), the groove inner wall of concave plate (405) and the outer wall clearance fit of slider (404), the outside and the first riser (2) of concave plate (405) are fixed continuous, the upper surface rigid coupling of tooth dental lamina (403) has rectangle piece (406), the outside rigid coupling of rectangle piece (406) has horizontal pole (407), the outside and the first riser (2) of horizontal pole (407) are fixed continuous.

5. The large holding-up hammer transfer tool for producing hard alloy according to claim 4, characterized in that: the sliding block (404) and the concave plate (405) form a sliding structure.

6. The large holding-up hammer transfer tool for producing hard alloy according to claim 4, characterized in that: the cross rod (407) and the first vertical plate (2) are arranged vertically.

7. The large holding-up hammer transfer tool for producing hard alloy according to claim 1, characterized in that: a power device (5) is arranged on the inner side of the first vertical plate (2);

the power device (5) comprises a second vertical plate (501), a motor (502), a second threaded rod (503), an L-shaped plate (504) and a third gear (505);

control the outside of second riser (501) is fixed continuous with first riser (2), the inside rigid coupling in below of second riser (501) has motor (502), the output shaft of motor (502) is rotated through the belt and is connected with second threaded rod (503), the below outer wall rotation of second threaded rod (503) is connected with L shaped plate (504), the upper surface and the second riser (501) of L shaped plate (504) are fixed continuous, the inboard meshing of second threaded rod (503) is connected with third gear (505), third gear (505) rotate with second riser (501) through the pivot and link to each other, third gear (505) and tooth board (403) intermeshing.

8. The large holding-up hammer transfer tool for producing hard alloy according to claim 7, characterized in that: the meshing ratio of the third gear (505) to the tooth plate (403) is 1: 1.

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