CN212914347U - Disc climbing rope with rotary adjusting structure - Google Patents

Abstract

The utility model discloses a disc climbing rope with a rotary adjusting structure, which comprises a plurality of disc bodies, a rope body and a rotary adjusting structure; the rotary adjusting structure comprises an operating piece, two embracing bodies, an anti-skid pad and a spring; the operating part comprises a driving part, a connecting rod and a driven block; the driving part and the driven block are respectively and fixedly arranged at two ends of the connecting rod; the height of the passive block is smaller than the width; one end of each of the two embracing bodies is hinged, and the other end of each of the two embracing bodies is provided with a butting block; the two embracing bodies are matched together to form an accommodating cavity for embracing the rope body; the anti-slip mat is arranged in the accommodating cavity formed by matching the two embracing bodies and is used for embracing the rope body; the spring is arranged in the accommodating cavity and is close to one end of the hinge joint; the two ends of the spring respectively act on the two embracing bodies; this novel disc rope climbing that provides solves the unable position of adjusting on the rope body of current disc body, can't adjust and the customization exercise scheduling problem according to the in-service use environment.

Description

Disc climbing rope with rotary adjusting structure

Technical Field

The utility model relates to a children's teaching aid field, concretely relates to disc climbing rope with rotary type adjusts structure.

Background

The disc climbing rope is taken as one of teaching aids for training the hand and foot cooperative ability of children and is deeply favored by education institutions;

in order to ensure that children cannot slide off along the axial direction of a rope body when climbing the existing disc climbing rope, the disc body is fixed on the rope body in a rubber coating mode in the preparation process, and the space between the disc body and the rope body is fixed; although this method effectively prevents the disk body from slipping off during climbing, the following defects still exist: (1) one end of a common disc climbing rope is fixed on a ceiling, the other end of the common disc climbing rope is a free end, disc bodies are arranged at positions close to the free end, and the disc climbing rope purchased by a consumer cannot be accurately matched with the distance from the ceiling to the ground, so that the rope length is too long, and further, more space is occupied; or the rope is too short and fixed on the ceiling, so that children cannot climb the disc to climb the rope; (2) the climbing device can not climb according to children with proper age, and the following conditions often occur due to the fixed distance between the two disc bodies: the climbing of older children feels that the space is too small, the exercise effect cannot be achieved, and the situation that younger children cannot use the device occurs;

in conclusion, the existing disc climbing rope needs to be further improved so as to provide an adjustable disc climbing rope to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect or the problem that exist among the background art, provide a disc climbing rope with rotary type adjustment structure, its simple structure, preparation are simple and convenient and easy to be realized, solve the position that current disc body can't be adjusted on the rope body, can't adjust and the customization scheduling problem of taking exercise according to the in-service use environment.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a disc climbing rope with a rotary adjusting structure comprises a plurality of disc bodies, a rope body and a rotary adjusting structure;

the disc bodies are sleeved at intervals along the axial direction of the rope body respectively, and the positions of the disc bodies fixed on the rope body are adjusted through the rotary adjusting structure;

the rotary adjusting structure comprises an operating piece, two embracing bodies, an anti-skid pad and a spring;

the operating part comprises a driving part, a connecting rod and a driven block; the driving part and the driven block are respectively and fixedly arranged at two ends of the connecting rod; the height of the passive block is smaller than the width;

one end of each of the two embracing bodies is hinged, and the other end of each of the two embracing bodies is provided with a butting block; the two embracing bodies are matched together to form an accommodating cavity for embracing the rope body;

the anti-slip mat is arranged in the accommodating cavity formed by matching the two embracing bodies and is used for embracing the rope body;

the spring is arranged in the accommodating cavity and is close to one end of the hinge joint; the two ends of the spring respectively act on the two embracing bodies;

the two embracing bodies drive the anti-skid pad to move relative to the periphery of the rope body, and the abutting blocks on the two embracing bodies are arranged in a crossed manner and are respectively positioned on two sides of the driven block;

the driving part is rotated to link the connecting rod and the driven block to synchronously rotate, and when the driven block is transversely arranged, the two abutting blocks are extruded by the driven block to move towards the direction far away from the abutting blocks, so that the cross section area of the accommodating cavity is reduced, and the spring is extruded, so that the rope body is tightly embraced by the embracing body;

when the passive block is vertically arranged, the propping force between the two butting blocks and the passive block is dissipated, so that the two embracing bodies move outwards under the action of the spring.

Furthermore, the rotary adjusting structure further comprises a hollow shell for the clasping body to be installed in; the hollow shell is provided with a through hole for the rope body to penetrate through and a side opening for the clasping body to be placed in; wherein, the holding cavity is arranged corresponding to the through hole.

Furthermore, the embracing body comprises an enclosing part, one end of the enclosing part extends out of the abutting block, and the other end of the enclosing part extends out of a connecting part; wherein, two the connecting portion of embracing the body is equipped with and supplies the axis body to run through and form the hole site of articulated cooperation.

Further, the non-slip mat is arranged on one side of the enclosing part opposite to the enclosing part of the other enclosing body.

Furthermore, a position giving part is arranged at the part of the enclosing part, which is overlapped with the enclosing part of the other embracing body.

Furthermore, the passive block is a passive block with a rectangular section.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

the utility model provides a disc climbing rope with rotary type adjusting structure, which has simple structure, simple and convenient manufacture and easy realization, the novel rotary type adjustable structure is adopted, the disc bodies can be fixed at any position on the rope body, the rope body is relatively clasped through the two clasped bodies, the two clasped bodies are crossed and then the passive blocks are used for acting on the abutting blocks, so that the tightness of the two clasped blocks can be adjusted, the stopping position of the disc bodies can be adjusted, the problem that the existing disc bodies cannot be adjusted on the rope body is solved, purchasers can adjust according to the actual use environment, the space between the disc bodies can be adjusted according to children of different ages, the application range is wider, and the use experience is better; the user only needs to rotate the driving part to switch the driven block between the transverse position and the vertical position, and the clamping or unlocking of the sliding adjusting device and the rope body can be realized; when a user unlocks the rotary type adjusting structure, the spring releases elastic potential energy to enable the holding clamp to be quickly opened to achieve the purpose of unlocking, and therefore the force required by unlocking of the user is small.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic view of a three-dimensional exploded structure of the disc climbing rope of the present invention;

fig. 2 is a schematic view of the three-dimensional structure of the rotary adjustment structure in the locked state;

fig. 3 is a cross-sectional view of the rotary adjustment structure of the present invention in a locked state;

fig. 4 is a schematic view of the rotary type adjusting structure in an unlocking state;

fig. 5 is the rotary type adjusting structure of the present invention in an unlocked state and a cross-sectional view.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are preferred embodiments of the invention and should not be considered as excluding other embodiments. Based on the embodiment of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, to the extent that directional terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise" and the like are used, the positional or orientational relationships illustrated in the drawings are based on the positional and orientational relationships illustrated in the drawings and are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention in any way.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the term "fixedly connected" or "fixedly connected" is used, which is to be understood broadly, that is, any connection mode without displacement relation or relative rotation relation between the two, that is, including non-detachably fixed connection, integrated connection and fixed connection through other devices or elements.

In the claims, the specification and the drawings, the terms "including", "comprising" and variations thereof, if used, are intended to be inclusive and not limiting.

Referring to fig. 1 to 5, the disc climbing rope with the rotary adjusting structure according to the present invention is widely applied to various mechanisms such as early education mechanisms, sports halls and schools, and is used as a sports apparatus for children to exercise;

the novel disc climbing rope comprises a plurality of disc bodies 1, a rope body 2 and a rotary adjusting structure 3;

the disc bodies 1 are respectively sleeved at intervals along the axial direction of the rope body 2, and the disc bodies 1 are adjusted to be fixed at the position of the rope body 2 through the rotary adjusting structure 3;

the rotary adjusting structure 3 comprises an operating piece 4, two embracing bodies 5A and 5B, an anti-skid pad 6 and a spring 7;

the operating member 4 comprises a driving part 41, a connecting rod 42 and a passive block 43; the driving part 41 and the passive block 43 are respectively and fixedly arranged at two ends of the connecting rod 42; it should be noted that the driving portion 41 is an end cap, and is connected to one end of the connecting rod 42 to drive the connecting rod 42 to rotate; the other end of the connecting rod 42 is fixedly connected with or matched with the driven block 43 in a rotation stopping way, and the driven block 43 rotates along with the connecting rod 42 when the connecting rod 42 rotates; the height of the passive block 43 is smaller than the width, and the passive block 43 is a passive block 43 with a rectangular section, for example, a rectangular block;

one end of each of the two embracing bodies 5 is hinged, and the other end of each of the two embracing bodies is provided with a butting block 51; the two embracing bodies 5 are matched together to form an accommodating cavity 50 for embracing the rope body 2; the embracing body 5 includes an enclosing portion 52, and one end of the enclosing portion 52 extends out of the abutting block 51, and the other end extends out of a connecting portion 53; wherein, the connecting part 53 of the two clasping bodies 5 is provided with a hole site for the shaft body to penetrate through to form a hinged fit; the overlapping part of the enclosing part 52 and the enclosing part 52 of the other embracing body 5 is provided with a relief part so as to ensure that the two embracing bodies 5 are better matched and connected;

the anti-slip mat 6 is arranged on the inner wall of the accommodating cavity 50 formed by matching the two embracing bodies 5 and is used for embracing the rope body 2;

the spring 7 is arranged in the accommodating cavity 50 and is close to one end of the hinge joint; the two ends of the spring 7 respectively act on the two clasping bodies 5;

a hollow case 8 in which the cohesive body 5 is fitted; the hollow shell 8 is provided with a through hole for the rope body 2 to penetrate through and a side opening 81 for the clasping body 5 to be placed in; wherein, the accommodating cavity 50 is arranged corresponding to the through hole 80;

the two clasping bodies 5 drive the anti-skid pad 6 to move relative to the periphery of the rope body 2, and the abutting blocks 51 on the two clasping bodies 5 are arranged in a crossed manner and are respectively positioned on two sides of the passive block 43;

when the driving part 41 is rotated, the connecting rod 42 and the driven block 43 are linked to rotate synchronously, and the driven block 43 is transversely arranged, the two abutting blocks 51 are extruded by the driven block 43 to move in a direction away from the abutting blocks 51, so that the cross section area of the accommodating cavity 50 is reduced, and the spring 7 is extruded, so that the clasping body 5 clasps the rope body 2;

when the passive block 43 is vertically arranged, the abutting force between the two abutting blocks 51 and the passive block 43 is dissipated, so that the two embracing bodies 5 move outwards under the action of the spring 7.

More specifically, the non-slip mat 6 is arranged on the side of the enclosing part 52 opposite to the enclosing part 52 of the other embracing body 5.

The utility model relates to a disc climbing rope with rotary type adjustment structure 3, its mainly includes following parts: the rope-shaped rope comprises a disc body 1, a rope body 2, a hollow shell 8, a driving part 41, a connecting rod 42, a driven block 43, two embracing bodies 5A and 5B, an anti-skid pad 6, a spring 7 and a shaft body 9;

when in actual assembly and use, (1) the anti-skid mats 6 are respectively fixed on the inner walls of the two clasping bodies 5; (2) the connecting parts 53 of the two embracing bodies 5 are overlapped and penetrate through the hole sites 530 of the connecting parts 53 through the shaft body 9, so that the two embracing bodies 5 are connected, and the abutting blocks 51 of the embracing bodies 5 are in a movable state; (3) the spring 7 is arranged between the two clasping bodies 5, namely in the containing cavity 50 formed between the two clasping bodies 5; (4) the two hinged clasping bodies 5 are arranged in the hollow shell 8, and the accommodating cavity 50 corresponds to the through hole 80 of the hollow shell 8; (5) the operating piece 4 is contacted with the abutting blocks 51 of the two embracing combination bodies 5 which are arranged in a crossed mode; specifically, the driving portion 41, the connecting rod 42 and the passive block 43 are connected into a whole, then the passive block 43 in a rectangular shape extends into the abutting block 51 crossed with the two embracing bodies 5, and the position of the abutting block 51 is driven by changing the state of the passive block 43, so as to adjust the embracing state or the unlocking state of the two embracing bodies 5;

when in use, the hollow shell of the whole rotary adjusting structure 3 is sleeved from one end of the rope body; referring to fig. 2-3, when the user rotates the driving portion 41 to drive the rectangular passive block 43 to be in the transverse position, the abutting block 51 is pressed by the passive block 43 to move in a direction away from the passive block 43, so that the cross-sectional area of the accommodating cavity 50 between the two clasping bodies 5 is reduced, and the spring 7 is pressed to accumulate elastic potential energy; at this time, the cross-sectional area of the accommodating cavity 50 is smaller than that of the rope body 2, so that the anti-skid pad 6 on the inner wall of the clasping body 5 is tightly attached to the rope body 2 to realize the clasping adjustment function, and finally, the disc body 1 acts on the hollow shell 8;

referring to fig. 4-5, when the user rotates the driving portion 41 to drive the passive block 43 to be located at the vertical position, the pressing force between the passive block 43 and the abutment block 51 is cancelled, and the abutment block 51 moves toward the direction close to the passive block 43 under the action of the return force of the spring 7, so that the cross-sectional area of the accommodating cavity 50 between the two clasping bodies 5 is increased. At this time, the cross-sectional area of the accommodating cavity 50 between the two clasping bodies 5 is larger than that of the rope body 2, so that the non-slip mat 6 retreats outside the rope body 2, the clasping force between the whole rotary type adjusting structure 3 and the rope body 2 is released, and the adjusting structure can freely move along the rope body 2 until being locked again after being adjusted to the adaptive position.

The utility model provides a disc climbing rope with rotary type adjusting structure, which has simple structure, simple and convenient manufacture and easy realization, the novel rotary type adjustable structure is adopted, the disc bodies can be fixed at any position on the rope body, the rope body is relatively clasped through the two clasped bodies, the two clasped bodies are crossed and then the passive blocks are used for acting on the abutting blocks, so that the tightness of the two clasped blocks can be adjusted, the stopping position of the disc bodies can be adjusted, the problem that the existing disc bodies cannot be adjusted on the rope body is solved, purchasers can adjust according to the actual use environment, the space between the disc bodies can be adjusted according to children of different ages, the application range is wider, and the use experience is better; the user only needs to rotate the driving part to switch the driven block between the transverse position and the vertical position, and the clamping or unlocking of the sliding adjusting device and the rope body can be realized; when a user unlocks the rotary type adjusting structure, the spring releases elastic potential energy to enable the holding clamp to be quickly opened to achieve the purpose of unlocking, and therefore the force required by unlocking of the user is small.

The description of the above specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides a disc climbing rope with structure is adjusted to rotary type which characterized in that: the disc climbing rope comprises a plurality of disc bodies, a rope body and a rotary adjusting structure;

the disc bodies are sleeved at intervals along the axial direction of the rope body respectively, and the positions of the disc bodies fixed on the rope body are adjusted through the rotary adjusting structure;

the rotary adjusting structure comprises an operating piece, two embracing bodies, an anti-skid pad and a spring;

the operating part comprises a driving part, a connecting rod and a driven block; the driving part and the driven block are respectively and fixedly arranged at two ends of the connecting rod; the height of the passive block is smaller than the width;

one end of each of the two embracing bodies is hinged, and the other end of each of the two embracing bodies is provided with a butting block; the two embracing bodies are matched together to form an accommodating cavity for embracing the rope body;

the anti-slip mat is arranged on the inner wall of the accommodating cavity formed by matching the two embracing bodies and is used for embracing the rope body;

the spring is arranged in the accommodating cavity and is close to one end of the hinge joint; the two ends of the spring respectively act on the two embracing bodies;

the two embracing bodies drive the anti-skid pad to move relative to the periphery of the rope body, and the abutting blocks on the two embracing bodies are arranged in a crossed manner and are respectively positioned on two sides of the driven block;

the driving part is rotated to link the connecting rod and the driven block to synchronously rotate, and when the driven block is transversely arranged, the two abutting blocks are extruded by the driven block to move towards the direction far away from the abutting blocks, so that the cross section area of the accommodating cavity is reduced, and the spring is extruded, so that the rope body is tightly embraced by the embracing body;

when the passive block is vertically arranged, the propping force between the two butting blocks and the passive block is dissipated, so that the two embracing bodies move outwards under the action of the spring.

2. The rope of claim 1, wherein the rope further comprises: the rotary adjusting structure also comprises a hollow shell for the two embracing bodies to be arranged; the hollow shell is provided with a through hole for the rope body to penetrate through and a side opening for the clasping body to be placed in; wherein, the holding cavity is arranged corresponding to the through hole.

3. A climbing rope according to claim 1 or 2, wherein the rope is a rope having a rotary adjustment structure, and the rope comprises: the embracing body comprises an enclosing part, one end of the enclosing part extends out of the abutting block, and the other end of the enclosing part extends out of a connecting part; wherein, the connecting portion of two cohesion bodies is equipped with and supplies the axis body to run through and form the hole site of articulated cooperation.

4. The climbing rope with rotatable adjustment structure as claimed in claim 3, wherein: the non-slip mat is arranged on one side of the surrounding part opposite to the surrounding part of the other surrounding body.

5. The rope disc of claim 4, wherein the rope disc comprises a rotatable adjustment structure, and wherein: the part of the surrounding part and the overlapping part of the surrounding part of the other surrounding body is provided with a position-giving part.

6. The rope of claim 1, wherein the rope further comprises: the passive block is a passive block with a rectangular section.

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