CN216138174U - Hard alloy forming cutter capable of being quickly positioned - Google Patents

Abstract

The utility model belongs to the technical field of cutters, and particularly relates to a hard alloy forming cutter capable of being quickly positioned. When the main body is installed in the clamp, the guide block is fixed in the clamping groove for reinforcement through the extrusion force of the positioning area on the guide slope, and the clamp is further connected in the positioning hole through the clamp through a bolt so that the main body is fixed, so that the clamp is simple to operate, can be quickly assembled and disassembled, is stably connected and is convenient to use; the vibration force generated by the main body during working drives the jacket to move towards the outside, the elasticity of the spring is used for buffering the jacket and consuming the vibration force of the jacket, the circumferential damping can be carried out on the main body through the circumferential arrangement of the spring, the stability of the main body during working is greatly improved, and the service life of the main body is greatly prolonged while the precision is ensured.

Description

Hard alloy forming cutter capable of being quickly positioned

Technical Field

The utility model belongs to the technical field of cutters, and particularly relates to a hard alloy forming cutter capable of being quickly positioned.

Background

The hard alloy has the advantages of high hardness and wear resistance, is widely applied to cutters for lathe machining, and has the advantages that a common blade and a cutter bar are integrated, in the machining process, a milling cutter needs to be used for milling end faces, inclined planes, grooves or step faces of different workpieces, the used cutters are various, and the used cutters comprise a hard alloy forming cutter capable of being quickly positioned.

The original cutter is troublesome to mount, cannot be mounted and used quickly, is inconvenient to process, can easily vibrate in the working process, and influences the precision and the service life of the cutter.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a hard alloy forming cutter capable of being quickly positioned, and aims to solve the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a but carbide shaping sword of quick location, includes the main part, the one end of main part is provided with and is used for the fixed anchor clamps of main part installation, sliding connection has the guide block that is used for leading to the main part above the one end of main part, the damping sleeve that is used for carrying out the shock attenuation to the main part is located to be close to the intermediate position cover of main part, one side fixedly connected with of damping sleeve is used for the side link pole of being connected damping sleeve and anchor clamps, the both ends fixedly connected with of damping sleeve is used for being connected to splint together with the front and back two parts of damping sleeve, the constant head tank that is used for installing the damping sleeve is offered to the main part near the intermediate position outside, the locating area that is used for guide block sliding connection is offered to the front end of anchor clamps, the inboard fixedly connected with of damping sleeve is used for consuming the spring of vibrations power.

According to the preferred technical scheme of the rapid positioning hard alloy forming cutter, the front end of the guide block is provided with the guide slope for driving the guide block to move downwards, and the upper end of the guide block is provided with the positioning hole for enabling one end of the bolt to penetrate through the clamp and be connected to the inside of the guide block.

According to the preferred technical scheme of the rapidly-positioned hard alloy forming cutter, the lower end of the guide block is fixedly connected with the support plate for reinforcing the guide block, and the inside of one end of the main body is provided with the clamping groove for slidably connecting the guide block and the support plate.

According to the preferred technical scheme of the rapidly-positioned hard alloy forming cutter, the inner side of the damping sleeve is provided with the jacket for increasing the stress area, and the two ends of the clamping plate are fixedly connected with the convex rings for increasing the stability of the damping sleeve.

As the preferable technical scheme of the rapidly-positioned hard alloy forming cutter, a sliding groove for slidably connecting the clamping sleeve is formed in the damping sleeve.

As a preferred technical scheme of the rapid positioning hard alloy forming cutter, the guide block and the clamping groove are symmetrically arranged on two sides of the main body.

Compared with the prior art, the utility model has the beneficial effects that: when the main body is installed in the clamp, the guide block is fixed in the clamping groove for reinforcement through the extrusion force of the positioning area on the guide slope, and the clamp is further connected in the positioning hole through the clamp through a bolt so that the main body is fixed, so that the clamp is simple to operate, can be quickly assembled and disassembled, is stably connected and is convenient to use; the vibration force generated by the main body during working drives the jacket to move towards the outside, the elasticity of the spring is used for buffering the jacket and consuming the vibration force of the jacket, the circumferential damping can be carried out on the main body through the circumferential arrangement of the spring, the stability of the main body during working is greatly improved, and the service life of the main body is greatly prolonged while the precision is ensured.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

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

FIG. 2 is a schematic view of the connection between the main body and the clamp;

FIG. 3 is a schematic view of a part of the shock-absorbing housing according to the present invention;

FIG. 4 is a schematic view of the inner part of the shock-absorbing housing according to the present invention;

in the figure: 1. a main body; 2. a clamp; 3. a guide block; 4. a shock-absorbing sleeve; 5. a side link; 6. a splint; 7. positioning a groove; 8. a positioning area; 9. guiding a slope; 10. a support plate; 11. a clamping groove; 12. positioning holes; 13. a jacket; 14. a convex ring; 15. a spring; 16. a chute.

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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a but carbide shaping sword of quick location, including main part 1, the one end of main part 1 is provided with and is used for installing fixed anchor clamps 2 with main part 1, the one end top sliding connection of main part 1 has the guide block 3 that is used for leading to main part 1, main part 1 be close to the intermediate position cover and locate to be used for carrying out absorbing shock attenuation cover 4 to main part 1, one side fixedly connected with of shock attenuation cover 4 is used for the side link 5 of being connected shock attenuation cover 4 with anchor clamps 2, the both ends fixedly connected with of shock attenuation cover 4 is used for being connected to splint 6 together with the front and back two parts of shock attenuation cover 4, main part 1 is close to the intermediate position outside and is offered the constant head tank 7 that is used for installing shock attenuation cover 4, the locating area 8 that is used for guide block 3 sliding connection is offered to the front end of anchor clamps 2, the inboard fixedly connected with of shock attenuation cover 4 is used for consuming the spring 15 of vibrations power, spring 15 evenly sets up for circumference in the inside of shock attenuation cover 4 in this embodiment.

Specifically, the guide slope 9 that is used for driving guide block 3 downstream is offered to the front end of guide block 3, and the upper end of guide block 3 is offered and is used for the bolt to run through 2 one end of anchor clamps and connect in the inside locating hole 12 of guide block 3, and the through-hole has been seted up at the upper and lower both ends of anchor clamps 2 in this embodiment.

Specifically, the lower extreme fixedly connected with of guide block 3 is used for carrying out reinforced (rfd) extension board 10 with guide block 3, and the inside block groove 11 that is used for guide block 3 and extension board 10 sliding connection of offering in one end of main part 1, the recess that is used for extension board 10 sliding connection is still offered to the bottom in block groove 11 in this embodiment.

Specifically, the inboard of shock attenuation cover 4 is provided with the clamp cover 13 that is used for increasing the lifting surface, and splint 6 both ends fixedly connected with is used for increasing the bulge loop 14 of shock attenuation cover 4 stability, and bulge loop 14 is used for increasing area of contact when bolted connection and improves stability in this embodiment.

Specifically, the damping sleeve 4 is provided with a sliding groove 16 for slidably connecting the clamping sleeve 13, and the clamping sleeve 13 is made of rubber in this embodiment.

Specifically, the guide block 3 and the engaging groove 11 are symmetrically disposed on both sides of the main body 1, and in this embodiment, the guide block 3 and the engaging groove 11 are symmetrically disposed on both sides of the main body 1 for forming a bidirectional acting force to improve stability.

The working principle and the using process of the utility model are as follows: according to the utility model, when the main body 1 is installed in the clamp 2, the positioning areas 8 arranged on the inner sides of the upper end and the lower end of the clamp 2 form extrusion force on the guide slope 9, the guide block 3 arranged at one end of the main body 1 is driven to move towards the inside of the clamping groove 11 arranged at one end of the main body 1, the main body 1 is installed in the clamp 2, and further, the upper end of the clamp 2 is connected to the inside of the positioning hole 12 arranged at the upper end of the guide block 3 in a penetrating manner through a bolt, so that the main body 1 is fixed, the operation is simple, the assembly and disassembly operation can be rapidly carried out, and the connection is stable and convenient to use; the vibration force generated during the working of the main body 1 drives the joint to move towards the outside in the clamping sleeve 13 outside the positioning groove 7, the elastic force of the spring 15 connected with the clamping sleeve 13 in the damping sleeve 4 is used for buffering the clamping sleeve 13 and consuming the vibration force of the clamping sleeve, the circumferential damping can be carried out on the main body 1 through the spring 15 in the circumferential arrangement outside the clamping sleeve 13, the working stability of the main body 1 is greatly improved, and the service life of the main body 1 is greatly prolonged while the precision is ensured.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a but carbide shaping sword of quick positioning which characterized in that: comprises a main body (1), one end of the main body (1) is provided with a clamp (2) for installing and fixing the main body (1), a guide block (3) for guiding the main body (1) is slidably connected to the upper part of one end of the main body (1), a damping sleeve (4) for damping the main body (1) is sleeved at a position close to the middle position of the main body (1), one side of the damping sleeve (4) is fixedly connected with a connecting rod (5) for connecting the damping sleeve (4) with the clamp (2), two ends of the damping sleeve (4) are fixedly connected with a clamping plate (6) for connecting the front part and the rear part of the damping sleeve (4) together, a positioning groove (7) for installing the damping sleeve (4) is arranged at the outer side close to the middle position of the main body (1), and a positioning area (8) for slidably connecting the guide block (3) is arranged at the front end of the clamp (2), and a spring (15) for consuming vibration force is fixedly connected to the inner side of the damping sleeve (4).

2. The rapidly positionable cemented carbide forming tool of claim 1, wherein: the front end of guide block (3) is seted up and is used for driving guide block (3) guide slope (9) that move down, the upper end of guide block (3) is seted up and is used for bolt to run through anchor clamps (2) one end and connect in inside locating hole (12) of guide block (3).

3. The rapidly positionable cemented carbide forming tool of claim 1, wherein: the lower end of the guide block (3) is fixedly connected with a support plate (10) used for reinforcing the guide block (3), and a clamping groove (11) used for sliding connection of the guide block (3) and the support plate (10) is formed in one end of the main body (1).

4. The rapidly positionable cemented carbide forming tool of claim 1, wherein: the inner side of the damping sleeve (4) is provided with a jacket (13) for increasing the stress area, and two ends of the clamping plate (6) are fixedly connected with convex rings (14) for increasing the stability of the damping sleeve (4).

5. The rapidly positionable cemented carbide forming tool of claim 1, wherein: the damping sleeve (4) is internally provided with a sliding groove (16) for slidably connecting the clamping sleeve (13).

6. The rapidly positionable cemented carbide forming tool of claim 1, wherein: the guide block (3) and the clamping groove (11) are symmetrically arranged on two sides of the main body (1).

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