CN112933534B - Multifunctional cooperation integrated body-building equipment for indoor use - Google Patents

Abstract

The invention provides a multifunctional cooperation integrated body-building apparatus for indoor use, which relates to the technical field of body-building apparatuses and solves the problems that the training intensity cannot be increased by other auxiliary structures synchronously during trampling training through structural improvement, and the auxiliary structures cannot realize the anti-loosening of bolts for supporting and adjusting; the vibration type relaxation of the arm and the shaking type relaxation of the arm cannot be realized synchronously through the structural improvement linkage. A multifunctional matching integrated body-building apparatus used indoors comprises a base and a sliding seat A; the base is provided with a treading structure, and the base is also provided with an auxiliary structure. The sliding seat A is aligned with the head of the adjusting bolt; the head of the adjusting bolt is of a hexagonal structure, the sliding seat A is of a concave structure to form a limiting structure of the adjusting bolt, and the sliding seat A is in contact with the head of the adjusting bolt when the sliding seat A moves downwards for 10cm, so that the looseness of the adjusting bolt can be limited when the treading block is treaded.

Description

Multifunctional cooperation integrated body-building equipment for indoor use

Technical Field

The invention belongs to the technical field of fitness equipment, and particularly relates to multifunctional cooperation integrated fitness equipment for indoor use.

Background

With the development of social economy and industrial technology, people pay more and more attention to their physical quality, so that fitness equipment is now an indispensable part of people's daily life, and people have higher and higher requirements for fitness equipment.

As in application No.: CN201810992255.9, the invention discloses a leg fitness equipment, which comprises a base and a balancing weight, a rotating shaft is connected in the shaft hole at the upper end of the vertical plate in a penetrating way, one end of the rotating shaft is fixedly connected with the leg lifting rod, a pull rope is fixed on the rotating arm, the pull rope is in transmission connection with the roller, the tail end of the pull rope is fixedly connected with the upper end of the balancing weight, the roller is rotationally connected to a bracket, the bracket is fixed at the upper end of the frame, two stabilizer bars are fixed in the frame and are penetrated in through holes on a plurality of layers of counter weights, an internal thread sleeve is fixed on the upper end surface of the balancing weight, an external thread column is fixed on the lower end surface of the balancing weight, the external thread column is in threaded connection with an internal thread shaft sleeve fixed with a rotating handle, an external thread short shaft is fixed below the internal thread shaft sleeve with the lower end sealed, and a cushion is fixed at the upper end of the supporting shaft. The invention can conveniently and rapidly increase or decrease the number of the matching blocks and adjust the lifting force of the leg.

Exercise apparatus similar to the above applications currently suffer from the following disadvantages:

one is that the existing device has a single structure and lower integral cost ratio, and cannot increase training strength by synchronously using other auxiliary structures through structural improvement during treading training, and the auxiliary structures cannot realize the anti-loosening function for supporting and adjusting bolts; moreover, during the treading training, the vibration type relaxation of the arm and the shaking type relaxation of the arm cannot be realized synchronously through the improved linkage on the structure.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a multifunctional and integrated fitness equipment for indoor use is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a multifunctional cooperation integrated body-building apparatus for indoor use, aiming at solving the problems that the existing device has a single structure and low integral cost ratio, cannot increase the training intensity by other auxiliary structures synchronously during the trampling training through the structural improvement, and cannot realize the looseness prevention of bolts for supporting and adjusting; moreover, the vibration type relaxation of the arm and the shaking type relaxation of the arm cannot be realized synchronously through the structural improvement linkage during the treading training.

The invention relates to an indoor multifunctional matching integrated fitness equipment, which is achieved by the following specific technical means:

a multifunctional matching integrated body-building apparatus used indoors comprises a base and a sliding seat A; the base is provided with a treading structure, an auxiliary structure and a seat in a welded mode; the base is provided with two vibration structures, and each vibration structure is provided with a massage structure; the sliding seat A is of a concave structure and is aligned with the head of the adjusting bolt; the head of the adjusting bolt is of a hexagonal structure, the sliding seat A is of a concave structure to form a limiting structure of the adjusting bolt, and the sliding seat A is in contact with the head of the adjusting bolt when the sliding seat A moves downwards for 10 cm; the massage structure comprises bulges B and stress blocks B, the bulges B are welded on the sliding block in a rectangular array shape, the bulges B are of a semi-cylindrical structure, and the stress blocks B are welded on the bottom end surface of the sliding block; the seat comprises poke rods C, two poke rods C are symmetrically welded on the seat, and the two poke rods C are of L-shaped rod-shaped structures; the poke rod C is in contact with the bottom end face of the sliding block, and the bottom end face of the sliding block is of an inclined structure.

Furthermore, the base comprises four adjusting bolts, connecting seats and a rubber pad, each adjusting bolt is in threaded connection with the base, and the head end of each adjusting bolt is welded with one connecting seat; a rubber pad is adhered to the bottom end face of each connecting seat, and the adjusting bolt, the connecting seats and the rubber pads form a base support adjusting structure together.

Furthermore, the stepping structure comprises a mounting seat, sliding rods A, stepping blocks and an elastic piece A, wherein the mounting seat is fixedly connected to the base through bolts, the two sliding rods A are welded to the mounting seat, and the stepping blocks are connected to the two sliding rods A in a sliding mode; the elastic pieces A are provided with two elastic pieces A which are respectively sleeved on the two sliding rods A, and the two elastic pieces A jointly form an elastic reset structure of the treading block.

Furthermore, the auxiliary structure comprises two sliding rods B, two sliding seats A and two elastic pieces B, wherein the two sliding rods B are symmetrically welded on the base and are of stepped shaft-shaped structures; the sliding seat A is connected to the two sliding rods B in a sliding mode, the two sliding rods B are sleeved with the elastic pieces B, and the two elastic pieces B jointly form an elastic reset structure of the sliding seat A.

Furthermore, the treading structure further comprises two poking rods A, the two poking rods A are symmetrically welded on the treading block, and the two poking rods A are of cylindrical rod-shaped structures; the auxiliary structure also comprises two stress blocks A, and the two stress blocks A are respectively welded on the two sliding seats A; when the poke rod A moves forwards by 40cm, the poke rod A is contacted with the front end surface of the stress block A, and the front end surface of the stress block A is of an inclined structure.

Furthermore, the vibration structure comprises two sliding rods C, two sliding seats B and an elastic piece C, wherein the two sliding rods C are connected to the base in a sliding mode, and the sliding seats B can be welded at the head ends of the two sliding rods C; the elastic pieces C are two in number, and the two elastic pieces C jointly form an elastic reset structure of the sliding seat B.

Furthermore, the vibration structure also comprises bulges A, the bulges A are welded on the sliding seat B in a rectangular array shape, and the bulges A are of a semi-cylindrical structure; the treading structure further comprises two poking rods B, and the two poking rods B are symmetrically welded on the treading block; the two poking rods B are of L-shaped structures, and the head ends of the two poking rods B are in elastic contact with the protrusions A.

Furthermore, the massage structure comprises two sliding rods D, two sliding blocks and an elastic piece D, wherein the two sliding rods D are welded on the sliding seat B, and the two sliding rods D are of stepped shaft-shaped structures; the sliding block is connected to the two sliding rods D in a sliding mode, an elastic piece D is sleeved on each of the two sliding rods D, and the two elastic pieces D jointly form an elastic reset structure of the sliding block.

Compared with the prior art, the invention has the following beneficial effects:

through the matching arrangement of the treading structure, the auxiliary structure, the vibration structure and the massage structure, the backstepping strength exercise can be realized after the treading block is treaded; the training intensity can be enhanced through the arrangement of the auxiliary structure, and the looseness prevention of the adjusting bolt can also be realized; trample the vibrations that the in-process can also realize the arm and rock the massage through vibrations structure and massage structure, specifically as follows: firstly, two elastic pieces A are arranged, the two elastic pieces A are respectively sleeved on the two sliding rods A, and the two elastic pieces A jointly form an elastic reset structure of the stepping block, so that the stepping block can be stepped by feet to realize back stepping muscle exercise; secondly, the sliding seat A is connected to the two sliding rods B in a sliding manner, the two sliding rods B are sleeved with the elastic piece B, and the two elastic pieces B jointly form an elastic reset structure of the sliding seat A; the two stress blocks A are respectively welded on the two sliding seats A; when the poke rod A moves forwards by 40cm, the poke rod A is contacted with the front end surface of the stress block A, and the front end surface of the stress block A is of an inclined structure, so that the sliding seat A can move downwards, and the exercise intensity is further enhanced; thirdly, the sliding seat A is of a concave structure and is aligned with the head of the adjusting bolt; the head of the adjusting bolt is of a hexagonal structure, the sliding seat A is of a concave structure to form a limiting structure of the adjusting bolt, and the sliding seat A is in contact with the head of the adjusting bolt when the sliding seat A moves downwards for 10cm, so that the loosening and limiting of the adjusting bolt can be realized when the stepping block is stepped; fourthly, two elastic pieces C are arranged, and the two elastic pieces C jointly form an elastic reset structure of the sliding seat B; the two poking rods B are of L-shaped structures, and the head ends of the two poking rods B are in elastic contact with the protrusions A, so that when the treading block moves forwards, the sliding seat A can be vibrated by poking the poking rods B; fifthly, the sliding block is connected to the two sliding rods D in a sliding mode, the two sliding rods D are respectively sleeved with an elastic piece D, and the two elastic pieces D jointly form an elastic reset structure of the sliding block; the poking rod C is in contact with the bottom end face of the sliding block, and the bottom end face of the sliding block is of an inclined structure, so that when the sliding block and the stress block B move downwards along with the sliding seat B, the sliding block can move by poking the stress block B through the poking rod C, and further the massage of the arm is realized.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention in another direction of fig. 1.

Fig. 3 is a schematic front view of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 a according to the present invention.

Fig. 5 is an enlarged view of the structure of fig. 3B according to the present invention.

Fig. 6 is an enlarged view of the structure of fig. 3C according to the present invention.

Fig. 7 is an enlarged view of fig. 3D according to the present invention.

Fig. 8 is an enlarged structural view of the vibrating structure, the massaging structure and the seat of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a base; 101. adjusting the bolt; 102. a connecting seat; 103. a rubber pad; 2. a tread structure; 201. a mounting seat; 202. a slide bar A; 203. a treading block; 204. an elastic member A; 205. a poke rod A; 206. a poke rod B; 3. an auxiliary structure; 301. a slide bar B; 302. a sliding seat A; 303. an elastic member B; 304. a stress block A; 4. a vibrating structure; 401. a slide bar C; 402. a sliding seat B; 403. an elastic member C; 404. a protrusion A; 5. a massage structure; 501. a slide bar D; 502. a slider; 503. an elastic member D; 504. a protrusion B; 505. a stress block B; 6. a seat; 601. a poke rod C.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a multifunctional matching integrated body-building apparatus for indoor use, which comprises a base 1 and a sliding seat A302; a treading structure 2 is arranged on the base 1, an auxiliary structure 3 is also arranged on the base 1, and a seat 6 is welded on the base 1; two vibration structures 4 are arranged on the base 1, and a massage structure 5 is arranged on each vibration structure 4; referring to fig. 3 and 4, the sliding seat a302 is a concave structure, and the sliding seat a302 is aligned with the head of the adjusting bolt 101; the head of the adjusting bolt 101 is of a hexagonal structure, the sliding seat A302 is of a concave structure to form a limiting structure of the adjusting bolt 101, and when the sliding seat A302 moves downwards for 10cm, the sliding seat A302 is in contact with the head of the adjusting bolt 101, so that loosening and limiting of the adjusting bolt 101 can be realized when the stepping block 203 is stepped; referring to fig. 3 and 6, the massage structure 5 includes protrusions B504 and force-bearing blocks B505, the protrusions B504 are welded to the sliding block 502 in a rectangular array, the protrusions B504 are in a semi-cylindrical structure, and the force-bearing blocks B505 are welded to the bottom end surface of the sliding block 502; the seat 6 comprises toggle rods C601, two toggle rods C601 are symmetrically welded on the seat 6, and the two toggle rods C601 are of L-shaped rod-shaped structures; the poking rod C601 is in contact with the bottom end face of the sliding block 502, and the bottom end face of the sliding block 502 is of an inclined structure, so that when the sliding block 502 and the force-bearing block B505 move downwards along with the sliding seat B402, the sliding block 502 can move by poking the force-bearing block B505 through the poking rod C601, and further massage of an arm is realized.

Referring to fig. 3, the base 1 includes four adjusting bolts 101, connecting seats 102 and rubber pads 103, each adjusting bolt 101 is screwed on the base 1, and the head end of each adjusting bolt 101 is welded with one connecting seat 102; a rubber pad 103 is adhered to the bottom end face of each connecting seat 102, and the adjusting bolt 101, the connecting seat 102 and the rubber pad 103 together form a supporting and adjusting structure of the base 1.

Referring to fig. 1, the stepping structure 2 includes a mounting base 201, sliding rods a202, stepping blocks 203 and elastic members a204, the mounting base 201 is fixedly connected to the base 1 through bolts, two sliding rods a202 are welded to the mounting base 201, and one stepping block 203 is connected to the two sliding rods a202 in a sliding manner; the elastic pieces A204 are provided with two elastic pieces A204, the two elastic pieces A204 are respectively sleeved on the two sliding rods A202, and the two elastic pieces A204 jointly form an elastic reset structure of the stepping block 203, so that the stepping block 203 can be stepped by a foot to realize backstepping muscle exercise.

Referring to fig. 3, the auxiliary structure 3 includes two sliding rods B301, two sliding seats a302 and two elastic members B303, the two sliding rods B301 are symmetrically welded on the base 1, and both the two sliding rods B301 are stepped shaft-shaped structures; the sliding seat A302 is connected to the two sliding rods B301 in a sliding mode, the two sliding rods B301 are sleeved with the elastic piece B303, and the two elastic pieces B303 jointly form an elastic reset structure of the sliding seat A302.

Referring to fig. 3 and 7, the tread structure 2 further includes two tap rods a205, the two tap rods a205 are symmetrically welded to the tread block 203, and the two tap rods a205 are both cylindrical rod-shaped structures; the auxiliary structure 3 further comprises two stress blocks a304, the two stress blocks a304 are arranged, and the two stress blocks a304 are respectively welded on the two sliding seats a 302; when the poke rod A205 moves forwards by 40cm, the poke rod A205 is contacted with the front end surface of the stress block A304, and the front end surface of the stress block A304 is of an inclined structure, so that the downward movement of the sliding seat A302 can be realized, and the exercise intensity is further enhanced.

Referring to fig. 3, the vibration structure 4 includes two sliding rods C401, two sliding seats B402 and an elastic member C403, the two sliding rods C401 are slidably connected to the base 1, and the sliding seats B402 are welded to the head ends of the two sliding rods C401; the two elastic members C403 are provided, and the two elastic members C403 form an elastic reset structure of the sliding seat B402.

Referring to fig. 3 and 5, the vibrating structure 4 further includes protrusions a404, the protrusions a404 are welded to the sliding seat B402 in a rectangular array, and the protrusions a404 are semi-cylindrical structures; the treading structure 2 further comprises two poking rods B206, the two poking rods B206 are arranged, and the two poking rods B206 are symmetrically welded on the treading block 203; the two poke rods B206 are both L-shaped structures, and the head ends of the two poke rods B206 are both in elastic contact with the protrusions A404, so that the vibration of the sliding seat A302 can be realized through poking of the poke rods B206 when the treading block 203 moves forwards.

Referring to fig. 2, the massage structure 5 includes two sliding rods D501, two sliding blocks 502 and two elastic members D503, the two sliding rods D501 are welded on the sliding seat B402, and the two sliding rods D501 are both stepped shaft-shaped structures; the sliding block 502 is connected to the two sliding rods D501 in a sliding manner, and the two sliding rods D501 are respectively sleeved with an elastic member D503, and the two elastic members D503 jointly form an elastic reset structure of the sliding block 502.

The specific use mode and function of the embodiment are as follows:

after the stepping block 203 is stepped on, firstly, two elastic pieces A204 are arranged, the two elastic pieces A204 are respectively sleeved on the two sliding rods A202, and the two elastic pieces A204 jointly form an elastic reset structure of the stepping block 203, so that the stepping block 203 can be used for back stepping muscle exercise; secondly, the sliding seat A302 is connected to the two sliding rods B301 in a sliding manner, the two sliding rods B301 are respectively sleeved with an elastic piece B303, and the two elastic pieces B303 jointly form an elastic reset structure of the sliding seat A302; the number of the stress blocks A304 is two, and the two stress blocks A304 are respectively welded on the two sliding seats A302; when the poke rod A205 moves forwards by 40cm, the poke rod A205 is contacted with the front end surface of the stress block A304, and the front end surface of the stress block A304 is of an inclined structure, so that the downward movement of the sliding seat A302 can be realized, and the exercise intensity is further enhanced; thirdly, the sliding seat A302 is of a concave structure, and the sliding seat A302 is aligned with the head of the adjusting bolt 101; the head of the adjusting bolt 101 is of a hexagonal structure, the sliding seat A302 is of a concave structure to form a limiting structure of the adjusting bolt 101, and when the sliding seat A302 moves downwards for 10cm, the sliding seat A302 is in contact with the head of the adjusting bolt 101, so that loosening and limiting of the adjusting bolt 101 can be realized when the stepping block 203 is stepped; fourthly, two elastic pieces C403 are arranged, and the two elastic pieces C403 form an elastic reset structure of the sliding seat B402 together; the two poke rods B206 are both L-shaped structures, and the head ends of the two poke rods B206 are in elastic contact with the protrusions A404, so that when the treading block 203 moves forwards, the sliding seat A302 can be vibrated by poking the poke rods B206; fifthly, the sliding block 502 is connected to the two sliding rods D501 in a sliding manner, the two sliding rods D501 are respectively sleeved with an elastic piece D503, and the two elastic pieces D503 jointly form an elastic reset structure of the sliding block 502; the poking rod C601 is in contact with the bottom end face of the sliding block 502, and the bottom end face of the sliding block 502 is of an inclined structure, so that when the sliding block 502 and the force-bearing block B505 move downwards along with the sliding seat B402, the sliding block 502 can move by poking the force-bearing block B505 through the poking rod C601, and further massage of an arm is realized.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (5)

1. The utility model provides a multi-functional cooperation integration body-building apparatus of indoor use which characterized in that: comprises a base (1) and a sliding seat A (302); the pedal structure (2) is installed on the base (1), the auxiliary structure (3) is further installed on the base (1), and the seat (6) is welded on the base (1); the base (1) is provided with two vibration structures (4), and each vibration structure (4) is provided with a massage structure (5);

the auxiliary structure (3) comprises two sliding rods B (301), a sliding seat A (302) and an elastic piece B (303), the two sliding rods B (301) are symmetrically welded on the base (1), and the two sliding rods B (301) are both in a stepped shaft structure; the sliding seat A (302) is connected to the two sliding rods B (301) in a sliding mode, the two sliding rods B (301) are sleeved with the elastic piece B (303), and the two elastic pieces B (303) jointly form an elastic reset structure of the sliding seat A (302);

the trampling structure (2) further comprises two poking rods A (205), the two poking rods A (205) are symmetrically welded on the trampling block (203), and the two poking rods A (205) are of cylindrical rod-shaped structures; the auxiliary structure (3) further comprises two stress blocks A (304), the two stress blocks A (304) are arranged, and the two stress blocks A (304) are respectively welded on the two sliding seats A (302); when the poke rod A (205) moves forwards by 40cm, the poke rod A (205) is contacted with the front end surface of the stress block A (304), and the front end surface of the stress block A (304) is of an inclined structure;

the sliding seat A (302) is of a concave structure, and the sliding seat A (302) is aligned with the head of the adjusting bolt (101); the head of the adjusting bolt (101) is of a hexagonal structure, the sliding seat A (302) is of a concave structure to form a limiting structure of the adjusting bolt (101), and when the sliding seat A (302) moves downwards for 10cm, the sliding seat A (302) is in contact with the head of the adjusting bolt (101);

the vibration structure (4) comprises two sliding rods C (401), two sliding seats B (402) and an elastic piece C (403), wherein the two sliding rods C (401) are connected to the base (1) in a sliding mode, and the sliding seats B (402) are welded to the head ends of the two sliding rods C (401);

the vibration structure (4) further comprises protrusions A (404), the protrusions A (404) are welded on the sliding seat B (402) in a rectangular array shape, and the protrusions A (404) are of a semi-cylindrical structure; the trampling structure (2) further comprises two poking rods B (206), wherein the two poking rods B (206) are symmetrically welded on the trampling block (203); the two poke rods B (206) are both L-shaped structures, and the head ends of the two poke rods B (206) are in elastic contact with the protrusions A (404);

the massage structure (5) comprises protrusions B (504) and stress blocks B (505), the protrusions B (504) are welded on the sliding block (502) in a rectangular array mode, the protrusions B (504) are of semi-cylindrical structures, and the stress blocks B (505) are welded on the bottom end face of the sliding block (502); the seat (6) comprises poke rods C (601), the seat (6) is symmetrically welded with the two poke rods C (601), and the two poke rods C (601) are of L-shaped rod-shaped structures; the poke rod C (601) is in contact with the bottom end face of the sliding block (502), and the bottom end face of the sliding block (502) is of an inclined structure.

2. The multifunctional fit-integrated body-building equipment for indoor use of claim 1, wherein: the base (1) comprises four adjusting bolts (101), connecting seats (102) and rubber pads (103), each adjusting bolt (101) is in threaded connection with the base (1), and the head end of each adjusting bolt (101) is welded with one connecting seat (102); a rubber pad (103) is adhered to the bottom end face of each connecting seat (102), and the adjusting bolt (101), the connecting seats (102) and the rubber pad (103) jointly form a supporting and adjusting structure of the base (1).

3. The multifunctional fit-integrated fitness apparatus for indoor use of claim 1, wherein: the stepping structure (2) comprises a mounting seat (201), sliding rods A (202), stepping blocks (203) and an elastic piece A (204), wherein the mounting seat (201) is fixedly connected to the base (1) through bolts, the two sliding rods A (202) are welded on the mounting seat (201), and the stepping blocks (203) are connected to the two sliding rods A (202) in a sliding mode; the number of the elastic pieces A (204) is two, the two elastic pieces A (204) are respectively sleeved on the two sliding rods A (202), and the two elastic pieces A (204) jointly form an elastic reset structure of the stepping block (203).

4. The multifunctional fit-integrated fitness apparatus for indoor use of claim 1, wherein: the number of the elastic pieces C (403) is two, and the two elastic pieces C (403) jointly form an elastic reset structure of the sliding seat B (402).

5. The multifunctional fit-integrated fitness apparatus for indoor use of claim 1, wherein: the massage structure (5) comprises two sliding rods D (501), two sliding blocks (502) and two elastic pieces D (503), the two sliding rods D (501) are welded on the sliding seat B (402), and the two sliding rods D (501) are of stepped shaft-shaped structures; the sliding block (502) is connected to the two sliding rods D (501) in a sliding mode, the two sliding rods D (501) are sleeved with the elastic piece D (503), and the two elastic pieces D (503) jointly form an elastic reset structure of the sliding block (502).

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