CN216229202U - Shockproof geological engineering hammer of antiskid - Google Patents
Shockproof geological engineering hammer of antiskid Download PDFInfo
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- CN216229202U CN216229202U CN202122988578.0U CN202122988578U CN216229202U CN 216229202 U CN216229202 U CN 216229202U CN 202122988578 U CN202122988578 U CN 202122988578U CN 216229202 U CN216229202 U CN 216229202U
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Abstract
The utility model discloses an anti-skid and anti-shock geological engineering hammer, relates to the technical field of auxiliary devices for geological engineering, and aims to solve the problem that the difficulty in use is increased due to poor protection and shock resistance when the conventional geological engineering hammer is used. The lower extreme of engineering hammer tup main part is provided with the engineering hammer handle, and engineering hammer handle and engineering hammer tup main part structure as an organic whole, the outside of engineering hammer handle is provided with the outer cover block of hammer handle, the outside of the outer cover block of hammer handle is provided with the outer cushion of antiskid, and the outer cover block of antiskid outer cushion and hammer handle passes through draw-in groove fixed connection, the outside of the outer cover block of hammer handle is provided with reserves the circle recess, and reserves the circle recess and be provided with more than two, the both ends of engineering hammer tup main part one side all are provided with reserves the circle recess, the inside of engineering hammer handle is provided with cushion in the antidetonation.
Description
Technical Field
The utility model relates to the technical field of auxiliary devices for geological engineering, in particular to an anti-skid and anti-shock geological engineering hammer.
Background
The geological engineering hammer is also called hand hammer, one of the basic tools for geological work is made of high-quality steel, its form is different according to the rock property of working area, and is used for geological hammer in igneous rock area, and its one end is rectangular or square, and its another end is pointed or wedge-shaped, and is used in the area where sedimentary rock is developed, and its one end is made into the form of crane-tip, and according to its weight, the geological hammer also can be divided into two types of light and heavy.
The problem that the difficulty of using an existing geological engineering hammer is increased due to poor protection and shock resistance is often solved, and an anti-skid and shock-proof geological engineering hammer is provided.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an anti-skid and anti-shock geological engineering hammer, which aims to solve the problem that the difficulty in use of the conventional geological engineering hammer is increased due to poor protection and shock resistance when the conventional geological engineering hammer is used in the background art.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a shockproof geological engineering hammer of antiskid, includes engineering hammer tup main part, the lower extreme of engineering hammer tup main part is provided with engineering hammer handle, and engineering hammer handle and engineering hammer tup main part structure as an organic whole, the outside of engineering hammer handle is provided with the outer cover piece of hammer handle, the outside of the outer cover piece of hammer handle is provided with the outer cushion of antiskid, and the outer cushion of antiskid passes through draw-in groove fixed connection with the outer cover piece of hammer handle, the outside of the outer cover piece of hammer handle is provided with reserves circular recess, and reserves circular recess and be provided with more than two, the both ends of engineering hammer tup main part one side all are provided with reserve circular recess, the inside of engineering hammer handle is provided with cushion in the antidetonation, and cushion passes through draw-in groove fixed connection with the engineering hammer handle in the antidetonation.
Preferably, the upper protection block is arranged above the hammer handle outer sleeve block and is welded with the hammer handle outer sleeve block, the inner wall of the hammer handle outer sleeve block is provided with a protection inner soft block, and the protection inner soft block is connected with the hammer handle outer sleeve block in a sticking manner.
Preferably, one end of the upper protection block is provided with a nameplate placing groove, an adsorption magnetic block is arranged below the engineering hammer handle, and the adsorption magnetic block is fixedly connected with the engineering hammer handle through a clamping groove.
Preferably, one side of the engineering hammer head main body is provided with a corrosion-resistant cushion block, and the corrosion-resistant cushion block is fixedly connected with the engineering hammer head main body through a clamping groove.
Preferably, the inside one end of the outer cover block of hammer handle is provided with reserves movable square groove, the both sides of engineering hammer handle all are provided with buffering horizontal plate, and buffering horizontal plate and engineering hammer handle are through connecting soft cylinder fixed connection, the one end of buffering horizontal plate extends to the inside of reserving movable square groove.
Preferably, the other side of buffering horizontal plate piece is provided with soft protruding block, and soft protruding block pastes with buffering horizontal plate piece and is connected, soft protruding block of circle is provided with more than two, the inner wall of hammer handle outer sleeve piece is provided with interior rope ladder piece, and interior rope ladder piece pastes with hammer handle outer sleeve piece and is connected.
Compared with the prior art, the utility model has the beneficial effects that:
1. this kind of shockproof geological engineering hammer of antiskid compares with current auxiliary device for geological engineering, has been equipped with the outer cushion of antiskid, reserve circle recess and cushion in the antidetonation, can effectively increase the frictional force between staff and the geological engineering hammer through the design of the outer cushion of antiskid and reservation circle recess, the design of cushion can effectively increase the shock resistance of geological engineering hammer in the antidetonation, solved current geological engineering hammer often when using because protectiveness and shock resistance are good enough and lead to using the problem of the increase of the degree of difficulty.
2. This kind of shockproof geological engineering hammer of antiskid compares with current auxiliary device for geological engineering, has been equipped with the absorption magnetic path, and the design of absorption magnetic path can let geological engineering hammer more convenient when fixing, has also improved the fixed stability of geological engineering hammer simultaneously, has solved current geological engineering hammer and has often used because the problem that leads to staff work efficiency to reduce when fixing is convenient enough.
Drawings
FIG. 1 is a perspective view of the overall construction of the present invention;
FIG. 2 is a cross-sectional view of the overall construction of the present invention;
fig. 3 is a partially enlarged view of the area a of fig. 2 according to the present invention.
In the figure: 1. a main body of the engineering hammer head; 2. an inner soft ladder block; 3. an upper protection block; 4. a nameplate placement groove; 5. reserving a round groove; 6. an anti-slip outer cushion block; 7. reserving a round groove; 8. a corrosion-resistant cushion block; 9. an engineering hammer handle; 10. protecting the inner soft block; 11. an anti-seismic inner cushion block; 12. an adsorption magnetic block; 13. a hammer handle outer sleeve block; 14. a buffer transverse plate; 15. connecting the soft column; 16. a round soft bump; 17. and reserving a movable square groove.
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.
Referring to fig. 1-3, an embodiment of the present invention is shown: an antiskid and shockproof geological engineering hammer comprises an engineering hammer head main body 1, an engineering hammer handle 9 is arranged at the lower end of the engineering hammer head main body 1, the engineering hammer handle 9 and the engineering hammer head main body 1 are of an integral structure, a hammer handle outer sleeve block 13 is arranged outside the engineering hammer handle 9, an anti-skid outer cushion block 6 is arranged outside the hammer handle outer sleeve block 13, the antiskid outer cushion block 6 is fixedly connected with the hammer handle outer sleeve block 13 through a clamping groove, so that the antiskid outer cushion block 6 is more firmly connected with the hammer handle outer sleeve block 13, the outer part of the hammer handle outer sleeve block 13 is provided with a reserved circular groove 5, more than two reserved circular grooves 5 are arranged, both ends of one side of the engineering hammer head main body 1 are provided with reserved circular grooves 7, an anti-seismic inner cushion block 11 is arranged inside the engineering hammer handle 9, and the anti-seismic inner cushion block 11 is fixedly connected with the engineering hammer handle 9 through a clamping groove, so that the connection between the anti-seismic inner cushion block 11 and the engineering hammer handle 9 is firmer.
Further, the upper protection block 3 is arranged above the hammer handle outer sleeve block 13, the upper protection block 3 is in welded connection with the hammer handle outer sleeve block 13, the upper protection block 3 is more firmly connected with the hammer handle outer sleeve block 13, the inner wall of the hammer handle outer sleeve block 13 is provided with the inner protection soft block 10, the inner protection soft block 10 is connected with the hammer handle outer sleeve block 13 in a sticking mode, and the inner protection soft block 10 is more firmly connected with the hammer handle outer sleeve block 13.
Furthermore, the one end of going up protective block 3 is provided with the data plate and places recess 4, and the below of engineering hammer handle 9 is provided with absorption magnetic path 12, and just absorbs magnetic path 12 and passes through draw-in groove fixed connection with engineering hammer handle 9, lets absorption magnetic path 12 and engineering hammer handle 9 be connected more firmly.
Further, one side of engineering hammer tup main part 1 is provided with corrosion-resistant cushion 8, and corrosion-resistant cushion 8 passes through draw-in groove fixed connection with engineering hammer tup main part 1, lets corrosion-resistant cushion 8 and engineering hammer tup main part 1 be connected more firmly.
Further, the inside one end of hammer handle outer cover piece 13 is provided with reserves movable square groove 17, and the both sides of engineering hammer handle 9 all are provided with buffering horizontal plate 14, and buffering horizontal plate 14 and engineering hammer handle 9 are through being connected the 15 fixed connection of soft cylinder, and it is more firm to let buffering horizontal plate 14 be connected with engineering hammer handle 9, and the one end of buffering horizontal plate 14 extends to the inside of reserving movable square groove 17.
Further, the other side of the buffering transverse plate block 14 is provided with a round soft bump 16, the round soft bump 16 is connected with the buffering transverse plate block 14 in a sticking mode, the connection between the round soft bump 16 and the buffering transverse plate block 14 is firmer, the round soft bump 16 is provided with more than two, the inner wall of the hammer handle outer sleeve block 13 is provided with an inner soft ladder block 2, the inner soft ladder block 2 is connected with the hammer handle outer sleeve block 13 in a sticking mode, and the connection between the inner soft ladder block 2 and the hammer handle outer sleeve block 13 is firmer.
The working principle is as follows: during the use will take this kind of shockproof geological engineering hammer of antiskid to the position department that needs to use earlier, when needs fix this kind of shockproof geological engineering hammer of antiskid, the absorption magnetic path 12 that engineering hammer handle 9 below set up this moment, can let the staff when fixing geological engineering hammer more stable, and through reserving circular groove 5 when this geological engineering hammer uses, the outer cushion of antiskid 6 and a plurality of integrated design of reserving circular groove 7 can let the staff can increase antiskid nature and shock resistance using this kind of shockproof geological engineering hammer of antiskid, can greatly increased the staff like this kind of shockproof geological engineering hammer of antiskid work efficiency who uses this kind of shockproof geological engineering hammer of antiskid.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (6)
1. The utility model provides a shockproof geological engineering hammer of antiskid, includes engineering hammer tup main part (1), its characterized in that: the lower extreme of engineering hammer tup main part (1) is provided with engineering hammer handle (9), and engineering hammer handle (9) and engineering hammer tup main part (1) structure as an organic whole, the outside of engineering hammer handle (9) is provided with hammer handle outer cover piece (13), the outside of hammer handle outer cover piece (13) is provided with antiskid outer cushion (6), and antiskid outer cushion (6) and hammer handle outer cover piece (13) pass through draw-in groove fixed connection, the outside of hammer handle outer cover piece (13) is provided with reserved circular groove (5), and reserved circular groove (5) are provided with more than two, the both ends of engineering hammer tup main part (1) one side all are provided with reserved circular groove (7), the inside of engineering hammer handle (9) is provided with cushion (11) in the antidetonation, and in cushion (11) and engineering hammer handle (9) pass through draw-in groove fixed connection.
2. The slip-resistant and shock-resistant geomatics engineering hammer of claim 1, wherein: the hammer handle outer sleeve block (13) is provided with an upper protection block (3) above, the upper protection block (3) is in welded connection with the hammer handle outer sleeve block (13), the inner wall of the hammer handle outer sleeve block (13) is provided with a protection inner soft block (10), and the protection inner soft block (10) is in sticking connection with the hammer handle outer sleeve block (13).
3. The slip-resistant and shock-resistant geomatics engineering hammer of claim 2, wherein: one end of the upper protection block (3) is provided with a nameplate placing groove (4), an adsorption magnetic block (12) is arranged below the engineering hammer handle (9), and the adsorption magnetic block (12) is fixedly connected with the engineering hammer handle (9) through a clamping groove.
4. The slip-resistant and shock-resistant geomatics engineering hammer of claim 1, wherein: one side of the engineering hammer head main body (1) is provided with a corrosion-resistant cushion block (8), and the corrosion-resistant cushion block (8) is fixedly connected with the engineering hammer head main body (1) through a clamping groove.
5. The slip-resistant and shock-resistant geomatics engineering hammer of claim 2, wherein: the novel engineering hammer is characterized in that a reserved movable square groove (17) is formed in one end of the inner portion of the hammer handle outer sleeve block (13), buffering transverse plate blocks (14) are arranged on two sides of the engineering hammer handle (9), the buffering transverse plate blocks (14) are fixedly connected with the engineering hammer handle (9) through connecting soft cylinders (15), and one end of each buffering transverse plate block (14) extends to the inner portion of the reserved movable square groove (17).
6. The slip-resistant and shock-resistant geomatics engineering hammer of claim 5, wherein: the buffering transverse plate block (14) is provided with a round soft bump (16) on the other side, the round soft bump (16) is connected with the buffering transverse plate block (14) in a sticking mode, the round soft bump (16) is provided with more than two, the inner wall of the hammer handle outer sleeve block (13) is provided with an inner soft ladder block (2), and the inner soft ladder block (2) is connected with the hammer handle outer sleeve block (13) in a sticking mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122988578.0U CN216229202U (en) | 2021-12-01 | 2021-12-01 | Shockproof geological engineering hammer of antiskid |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122988578.0U CN216229202U (en) | 2021-12-01 | 2021-12-01 | Shockproof geological engineering hammer of antiskid |
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CN216229202U true CN216229202U (en) | 2022-04-08 |
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CN202122988578.0U Active CN216229202U (en) | 2021-12-01 | 2021-12-01 | Shockproof geological engineering hammer of antiskid |
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2021
- 2021-12-01 CN CN202122988578.0U patent/CN216229202U/en active Active
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