CN212662536U - Wall-mounted fitness frame and wall hanging plate - Google Patents

Abstract

The application discloses wall-hanging type health frame and wall-hanging board. The wall-mounted fitness frame comprises: the wall hanging plate is provided with a clamping part; the connecting frame assembly is provided with a clamping and stopping matching part and is connected with the wall hanging plate, and the connecting frame assembly can move relative to the wall hanging plate; wherein the clamping fit part can be abutted against the clamping part through the movement of the connecting frame component; a horizontal bar assembly and/or a parallel bar assembly is mounted on the connector frame assembly. The wall-hanging type body-building frame can enable the connecting frame component to be matched with the clamping parts through the clamping matching parts when in use through the movement of the connecting frame component, and can be attached to the wall-hanging plate when not in use, so that the space required in the storage state is small.

Description

Wall-mounted fitness frame and wall hanging plate

Technical Field

The utility model relates to a body-building apparatus technical field, concretely relates to wall-hanging type body-building frame and wall-hanging board.

Background

The existing household fitness frame on the market has single function, and mostly can only realize the function of a single horizontal bar or a single parallel bar.

With the advancement of living standards, the customer's demand through home fitness is bound to be stronger and stronger. Users often want to occupy as little space as possible with home-use fitness equipment, and have enough functions to achieve different action modes and training of muscles at multiple parts of the whole body.

The common horizontal bar support can realize the training contents of pull-up, bent arm suspension, abdomen rolling, foot touch bar and the like.

The common parallel bar support can realize the basic parallel bar function and can complete the training contents of straight arm support, arm hanging support, arm flexion and extension, bar-hanging knee flexion and leg contraction and the like.

The prior art has the following disadvantages:

1. the wall-mounted type occupies a large space and is not easy to store;

2. the structure universality is low, when normal people use the parallel bars or the horizontal bars again, the height of the parallel bars is about 1.3 meters generally, the height of the horizontal bars is about 2.2 meters generally, and the fall of the main structure is too large;

3. wall-mounted hangers are usually subjected to fewer stress points, so that the wall-mounted hangers are stressed unevenly and are easy to damage.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a wall-mounted exercise rack that overcomes or at least alleviates at least one of the above-mentioned deficiencies of the prior art.

An aspect of the utility model provides a wall-hanging type health frame, wall-hanging type health frame includes: the wall hanging plate is provided with a clamping part; the connecting frame assembly is provided with a clamping and stopping matching part and is connected with the wall hanging plate, and the connecting frame assembly can move relative to the wall hanging plate; wherein the clamping fit part can be abutted against the clamping part through the movement of the connecting frame component; a horizontal bar assembly and/or a parallel bar assembly is mounted on the connector frame assembly.

Optionally, the wall hanging plate is further provided with a connecting part; the connector bracket assembly includes: a first link frame connected with the connection part, the first link frame being rotatable around the connection part; the second connecting frame is provided with the clamping and stopping matching part and is connected with the first connecting frame, and the second connecting frame can rotate around the first connecting frame; wherein the engaging engagement portion can be brought into contact with the engaging portion by the movement of the first link and the movement of the second link; a horizontal bar assembly and/or a parallel bar assembly is mounted on the connector frame assembly.

Optionally, the number of the clamping parts is two, one clamping part is arranged at a position close to one end of the wall hanging plate, and the other clamping part is arranged at a position close to the other end of the wall hanging plate; the engagement portion is engageable with any one of the engagement portions by the movement of the first link and the movement of the second link.

Optionally, the number of the clamping parts is multiple, and each clamping part is distributed on the wall hanging plate; the engagement portion is engageable with any one of the engagement portions by movement of the link assembly.

Optionally, the first connecting frame comprises: a first link rotating shaft connected to the connecting portion, the first link rotating shaft being rotatable about the connecting portion; a first link connecting part connected to the first link rotating shaft and the second link, respectively; the first connecting shaft is connected with the first connecting frame connecting part, and the parallel bar assembly and/or the horizontal bar assembly are/is installed on the first connecting shaft.

Optionally, the wall mountable exercise rack further comprises a parallel bar assembly removably connected with the first connecting shaft.

Optionally, a first pin hole and a second pin hole are arranged in the axial direction of the first connecting shaft; the parallel bar assembly includes: the first parallel bar rod is provided with a first parallel bar rod through hole and a second parallel bar rod through hole; a first pin configured to pass through the first parallel bar first rod first through hole and the first pin hole to position the first parallel bar first rod in a first parallel bar use position or the first pin configured to pass through the first parallel bar first rod second through hole and the first pin hole to position the first parallel bar first rod in a first parallel bar storage position; the parallel bar second rod is provided with a parallel bar second rod first through hole and a parallel bar second rod second through hole; a second pin configured to pass through the parallel bar second rod first through hole and the second pin hole to position the parallel bar second rod in a parallel bar second rod use position or the second pin configured to pass through the parallel bar second rod second through hole and the second pin hole to position the parallel bar second rod in a parallel bar second rod storage position.

Optionally, the first parallel bar further comprises a first parallel bar connection through hole communicating with the first parallel bar second through hole through the first parallel bar connection through hole, and the first pin is configured to move within the first parallel bar first through hole and the first parallel bar second through hole by a movement of the first parallel bar so as to switch the first parallel bar between the first parallel bar use position and the first parallel bar storage position.

Optionally, the parallel-bar second rod further comprises a parallel-bar second rod connecting through hole, the parallel-bar second rod first through hole communicates with the parallel-bar second rod second through hole through the parallel-bar second rod connecting through hole, and the second pin is configured to move within the parallel-bar second rod first through hole and the parallel-bar second rod second through hole by movement of the parallel-bar second rod, so that the parallel-bar second rod is switched between the parallel-bar second rod using position and the parallel-bar second rod receiving position.

Optionally, the wall mountable exercise stand further comprises a horizontal bar assembly removably coupled to the first coupling shaft.

Optionally, a first axial hole is formed in one end of the first connecting shaft, and a second axial hole is formed in the other end of the first connecting shaft; the horizontal bar assembly comprises a first horizontal bar handle and a second horizontal bar handle; wherein the first axial bore is configured for insertion of the first horizontal bar handle to place the first horizontal bar handle in a first horizontal bar handle use position; the second axial bore is configured for insertion of the second horizontal bar handle to place the second horizontal bar handle in a second horizontal bar handle use position.

Optionally, a third pin hole and a fourth pin hole are formed in the outer wall of the first connecting shaft, the third pin hole is communicated with the first axial hole, and the fourth pin hole is communicated with the second axial hole; a first horizontal bar handle through hole is formed in the first horizontal bar handle in the axial direction, and a second horizontal bar handle through hole is formed in the second horizontal bar handle in the axial direction; the wall-mounted exercise rack further comprises: a third pin configured to pass through the third pin hole and the first horizontal bar handle through-hole in the first horizontal bar handle use position to restrain the first horizontal bar handle; a fourth pin configured to pass through the fourth pin hole and the second horizontal bar handle through-hole at the second horizontal bar handle use position to restrain the second horizontal bar handle.

Optionally, the number of the first horizontal bar handle through holes on the first horizontal bar handle is at least two, and each first horizontal bar handle through hole is distributed along the axial direction of the first horizontal bar handle; the number of second horizontal bar handle through-holes on the second horizontal bar handle is two at least, each second horizontal bar handle through-hole is followed second horizontal bar handle axial distributes.

Optionally, the connecting portion includes a first single lug and a second single lug, the first single lug is coupled to one end of the first connecting frame rotating shaft, and the second single lug is coupled to the other end of the first connecting frame rotating shaft.

Optionally, a first accommodating space is formed between the first connecting frame connecting part and the first connecting shaft;

the first receiving space is configured to receive the second link frame rotated to the second link frame receiving position.

Optionally, the wall-hanging panel is further provided with a link locking portion, the link locking portion being rotatable relative to the wall-hanging panel so as to have a locking position and an open position, in the locking position, the link locking portion is configured to lock the second link when the first link is moved to the first link accommodating position and the second link is located at the second link accommodating position; in the open position, the second link frame is movable.

Optionally, the first connecting frame connecting part includes: one end of the first side rod is connected with the rotating shaft of the first connecting frame, and the other end of the first side rod is connected with the first connecting shaft; one end of the second side rod is connected with the rotating shaft of the first connecting frame, and the other end of the second side rod is connected with the first connecting shaft; one end of the first cross rod is connected with the first side rod, the other end of the first cross rod is connected with the second side rod, the second connecting frame is connected with the first cross rod, and the second connecting frame can rotate around the first cross rod; the first cross rod, the first side rod, the second side rod and the first connecting shaft surround to form the first accommodating space.

Optionally, the horizontal bar assembly includes a first horizontal bar handle and a second horizontal bar handle, the first horizontal bar handle is provided with a first horizontal bar handle through hole along the axial direction, and the second horizontal bar handle is provided with a second horizontal bar handle through hole along the axial direction; a first side rod through hole is formed in one surface, far away from the second side rod, of the first side rod, and a second side rod through hole is formed in one surface, far away from the first side rod, of the second side rod; the wall mount exercise rack further comprises a fifth pin and a sixth pin, wherein the fifth pin is configured to pass through the first side bar through hole and the first horizontal bar handle through hole; the sixth pin is configured to pass through the second side bar through hole and the second horizontal bar handle through hole.

Optionally, the detent comprises a catch; the second link includes: one end of the first side rod of the second connecting frame is hinged with the first connecting frame; the second side rod of the second connecting frame is arranged opposite to the first side rod of the second connecting frame, and one end of the second side rod of the second connecting frame is hinged with the first connecting frame; one end of the second connecting frame cross rod is connected with the first side rod of the second connecting frame, the other end of the second connecting frame cross rod is connected with the second side rod of the second connecting frame, and one side of the second connecting frame cross rod, which is close to the first connecting frame, is the clamping and stopping matching part; the hook is configured to be capable of being clamped by the clamping hook through the movement of the first connecting frame and the movement of the second connecting frame, so that the first connecting frame and the second connecting frame are prevented from moving under the action of force in a predetermined direction through the matching of the clamping hook and the clamping hook.

Optionally, the wall hanging plate is provided with wall connecting holes, and the wall connecting holes are configured to allow bolts to pass through so that the wall hanging plate is connected with the wall through the bolts.

The application also provides a wall hanging plate, which is the wall hanging plate.

Advantageous effects

The utility model discloses a wall-hanging body-building frame can make the link span structure use through the cooperation of card end cooperation portion and card end portion when using, and can laminate the wall-hanging board when not using to it is less at the required space of the state of accomodating, in addition, the link span structure of this application can supply parallel bar subassembly and/or horizontal bar unit mount, thereby make the user can the selective use horizontal bar or parallel bar promptly, thereby realize wall-hanging body-building frame's multi-functional formula and use.

Drawings

Fig. 1 is a schematic structural view of a wall-mounted exercise frame according to a first embodiment of the present invention.

Figure 2 is another schematic view of the wall mountable exercise frame shown in figure 1.

Fig. 3 is an enlarged partial view of the wall-mounted exercise frame of fig. 1 at the location where the first connecting frame connects to the parallel bar assembly.

Figure 4 is another schematic view of the wall mountable exercise frame shown in figure 1.

The reference numbers are as follows:

wall hanging plate 1, clamping part 11, connecting frame component 2, connecting part 12, first connecting frame 21, second connecting frame 22, first connecting frame rotating shaft 211, first connecting frame connecting part 212, first connecting shaft 213, parallel bar first rod 31, parallel bar first rod first through hole 311, parallel bar first rod second through hole 312, parallel bar second rod 32, parallel bar second rod first through hole 321, parallel bar second rod second through hole 322, parallel bar first rod connecting through hole 313, parallel bar second rod connecting through hole 323, first horizontal bar handle 41, second horizontal bar handle 42, third pin hole 2131, fourth pin hole 2132, first single lug 121, second single lug 122, first side rod 2121, second side rod 2122, first cross rod 2123, second connecting frame first side rod 221, second connecting frame second side rod 222 and second connecting frame cross rod 223.

Detailed Description

In order to make the implementation objects, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the drawings in the embodiments of the present application. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are a subset of the embodiments in the present application and not all embodiments in the present application. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application. 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 application. Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

In the description of the present application, it is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner and are not to be considered limiting of the scope of the present application.

Fig. 1 is a schematic structural view of a wall-mounted exercise frame according to a first embodiment of the present invention. Figure 2 is another schematic view of the wall mountable exercise frame shown in figure 1. Fig. 3 is an enlarged partial view of the wall-mounted exercise frame of fig. 1 at the location where the first connecting frame connects to the parallel bar assembly. Figure 4 is another schematic view of the wall mountable exercise frame shown in figure 1.

The wall-mounted type body-building frame shown in figures 1 to 4 comprises a wall-mounted plate 1 and a connecting frame assembly 2, wherein the wall-mounted plate 1 is provided with a clamping part 11; the connecting frame assembly 2 is provided with a clamping and stopping matching part, the connecting frame assembly 2 is connected with the wall hanging plate 1, and the connecting frame assembly 2 can move relative to the wall hanging plate 1 (in the embodiment shown in figure 1, the connecting frame assembly 2 can rotate relative to the wall hanging plate 1); wherein, through the movement of the connecting frame assembly 2, the clamping fit part can be matched with the clamping part 11, specifically, through the movement of the connecting frame assembly 2, the clamping fit part can be abutted against the clamping part 11, so that the connecting frame assembly 2 is prevented from moving under the action of force in a preset direction through the matching of the clamping part 11 and the clamping fit part; the connector rack assembly 2 is configured for mounting of a parallel bar assembly and/or a horizontal bar assembly.

In the present embodiment, the predetermined directional force is a force transmitted to the latch engaging portion and the latch portion by the user when the user normally uses the parallel-bar assembly or the horizontal-bar assembly installed in the present application, for example, in the embodiment shown in fig. 1, when the user normally uses the parallel-bar assemblies (31, 32) of the present application, the user gives a force of an arrow shown in fig. 1 to the parallel-bar assembly, and the force is transmitted to the link frame assembly 2 of the present application through the parallel-bar assembly, and at this time, the latch engaging portion and the latch portion of the present application are engaged, and the link frame assembly of the present application can be prevented from moving (or displacing) when receiving the force transmitted by the parallel-bar assembly.

In this embodiment, the parallel bar component can be installed alone on the link assembly 2 of this application, and the horizontal bar component also can be installed alone on the link assembly 2 of this application, and the horizontal bar component can also be installed simultaneously with the parallel bar component on the link assembly 2 of this application.

The utility model discloses a wall-hanging body-building frame can make the link span structure use through the cooperation of card end cooperation portion and card end portion when using, and can laminate the wall-hanging board when not using to it is less at the required space of the state of accomodating, in addition, the link span structure of this application can supply parallel bar subassembly and/or horizontal bar unit mount, thereby make the user can the selective use horizontal bar or parallel bar promptly, thereby realize wall-hanging body-building frame's multi-functional formula and use.

Referring to fig. 1, 2 and 4, in the present embodiment, the wall hanging plate is further provided with a connecting portion 12.

Referring to fig. 1, 2 and 4, the connecting bracket assembly 2 includes a first connecting bracket 21 and a second connecting bracket 22.

In the present embodiment, the first link frame 21 is connected to the link portion 12, and the first link frame 21 is rotatable about the link portion; the second connecting frame 22 is provided with a clamping matching part, the second connecting frame 22 is connected with the first connecting frame 21, and the second connecting frame 22 can rotate around the first connecting frame 21; wherein, the locking matching part can be abutted against the locking part 11 by the movement of the first connecting frame 21 and the movement of the second connecting frame 22; a horizontal and/or parallel bar assembly is mounted on the connecting frame assembly 2, in particular, the second connecting frame 22 is configured for mounting of a parallel and/or horizontal bar assembly.

Referring to fig. 2 and 4, in the present embodiment, the number of the locking portions 11 is two, one of which is provided at a position close to one end of the wall-hanging plate 1 and the other of which is provided at a position close to the other end of the wall-hanging plate; by the movement of the first link 21 and the movement of the second link 22, the engagement portion can be engaged with any one of the locking portions 11 so that the engagement portion is abutted against the locking portion 11.

Referring to fig. 2 and 4, when the same user uses the wall-mounted exercise rack of the present invention, since the horizontal bar assembly and the parallel bar assembly are different in operation, the same user needs a first height when using the horizontal bar assembly and a second height when using the parallel bar assembly, and thus, the present invention provides two locking parts having different positions, so that the same user can control the movement of the first connecting frame 21 and the movement of the second connecting frame 22 to engage the locking engagement part with one locking part (for example, fig. 1) or the other locking part (for example, fig. 2), and at this time, the user can use the horizontal bar assembly or the parallel bar assembly with a good experience according to his/her needs.

In an alternative embodiment, the number of the detents 11 is multiple, each detent being distributed on the wall cladding;

the engagement portion can be engaged with any one of the engagement portions by the movement of the link assembly.

Just as above-mentioned, this application can supply different users to use, and it can be understood that different users may have different heights or different custom, therefore, this application is provided with a plurality of clamping parts, can let the user adjust wantonly according to own demand.

In this alternative embodiment, the respective locking portions may be arranged in order in the top-down direction of fig. 1 of the present application.

Referring to fig. 1, 2 and 4, in the present embodiment, the first link 21 includes a first link rotating shaft 211, a first link coupling portion 212 and a first coupling shaft 213, the first link rotating shaft 211 is coupled to the coupling portion 12, and the first link rotating shaft 211 is rotatable about the coupling portion 12; the first connecting frame connecting portion 212 is connected to the first connecting frame rotating shaft 211 and the second connecting frame 22, respectively, in this embodiment, the first connecting frame connecting portion 212 follows the first connecting frame rotating shaft 211, that is, the first connecting frame rotating shaft drives the first connecting frame connecting portion to move when rotating; the first link shaft 213 is connected to the first link frame connection part 212, the first link shaft follows the first link frame connection part, and the parallel bar assembly and/or the horizontal bar assembly is mounted on the first link shaft 213.

Referring to fig. 1, 2 and 4, in the present embodiment, the wall-mounted exercise stand further includes a parallel bar assembly detachably coupled to the first coupling shaft.

It will be appreciated that in an alternative embodiment, the parallel-bar assembly may also be fixedly connected to the first connecting shaft, for example by welding.

In this embodiment, the first connecting shaft 213 has a first pin hole and a second pin hole on its axial outer wall;

the parallel-bar assembly includes a parallel-bar first rod 31, a first pin, a parallel-bar second rod 32, and a second pin.

Referring to fig. 3 and 4, in the present embodiment, a radial through hole is formed at one end of the first parallel-bar rod 31, as shown in fig. 4, the first parallel-bar rod 31 can be sleeved on the first connecting shaft through the radial through hole, the first parallel-bar rod 31 is provided with a first parallel-bar rod through hole 311 and a second parallel-bar rod through hole 312, and in the present embodiment, the first parallel-bar rod through hole 311 and the second parallel-bar rod through hole 312 are both communicated with the radial through hole;

a first pin is configured to pass through the first through-bar 311 and the first pin hole to position the first bar in the first bar use position (the position of the first bar relative to the first connecting shaft shown in fig. 1 or 2) or a first pin is configured to pass through the first bar second through-hole 312 and the first pin hole to position the first bar in the first bar storage position (the position of the first bar relative to the first connecting shaft in fig. 4).

When the first bar of parallel bar is located the first pole position of use of parallel bar and the second bar of parallel bar is located the second pole position of use of parallel bar, the user can normally use first pole of parallel bar and parallel bar second pole, promptly at the first pole position of use of parallel bar, the first pole of parallel bar can bear the power that the user bore when normally carrying out the parallel bar exercise and can not have the displacement because of this power, at the second pole position of use of parallel bar, the second pole of parallel bar can bear the power that the user bore when normally carrying out the parallel bar exercise and can not have the displacement because of this power.

Referring to fig. 3 and 4, in the present embodiment, a radial through hole is formed at one end of the parallel-bar second rod 32, as shown in fig. 4, the parallel-bar second rod 32 can be sleeved on the first connecting shaft through the radial through hole, a parallel-bar second rod first through hole 321 and a parallel-bar second rod second through hole 322 are formed on the parallel-bar second rod 32, and in the present embodiment, the parallel-bar second rod first through hole 321 and the parallel-bar second rod second through hole 322 are both communicated with the radial through hole;

the second pin is configured to pass through the parallel bar second rod first through hole 321 and the second pin hole to position the parallel bar second rod in the parallel bar second rod use position (the position of the parallel bar second rod relative to the first connecting shaft shown in fig. 1 or 2) or the second pin is configured to pass through the parallel bar second rod second through hole 322 and the second pin hole to position the parallel bar second rod in the parallel bar second rod storage position (the position of the parallel bar second rod relative to the first connecting shaft shown in fig. 1 or 2).

When the user uses the parallel bar component, carry on spacingly through first round pin axle and second round pin axle to the parallel bar component.

Referring to fig. 4, in the present embodiment, the parallel-bar first rod further includes a parallel-bar first rod coupling through hole 313, the parallel-bar first rod coupling through hole 311 communicates with the parallel-bar first rod second through hole 312 through the parallel-bar first rod coupling through hole 313, and the first pin is configured to move within the parallel-bar first rod first through hole and the parallel-bar first rod second through hole by the movement of the parallel-bar first rod to switch the parallel-bar first rod between the parallel-bar first rod using position and the parallel-bar first rod receiving position.

By adopting the mode, a user can not change the parallel bar first rod between the parallel bar first rod using position and the parallel bar first rod accommodating position by plugging and pulling the parallel bar first rod, but can move the first pin shaft between the parallel bar first rod first through hole or the parallel bar first rod second through hole by rotating the parallel bar first rod and moving the first pin shaft laterally. It can be understood that the length and the communication mode of the connecting through hole of the first parallel-bar rod, the first through hole of the first parallel-bar rod and the second through hole of the first parallel-bar rod can ensure that the first parallel-bar rod cannot move in the through holes when a user normally uses the first parallel-bar rod. When the first pole of parallel bar was located the first pole position of use of parallel bar promptly, first round pin axle supported the inner wall that leans on the first through-hole of the first pole of parallel bar, and the user can transmit a power for first round pin axle when the first pole of normal use parallel bar, and this inner wall can prevent first round pin axle and remove in the first through-hole of the first pole of parallel bar under the effect of the power that the user transmitted.

Referring to fig. 3, in the present embodiment, the parallel-bar second lever further includes a parallel-bar second-lever coupling through-hole 323, the parallel-bar second-lever first through-hole 321 communicates with the parallel-bar second-lever second through-hole 322 through the parallel-bar second-lever coupling through-hole 323, and the second pin is configured to move within the parallel-bar second-lever first through-hole and the parallel-bar second-lever second through-hole by the movement of the parallel-bar second lever so as to switch the parallel-bar second lever between the parallel-bar second-lever using position and the parallel-bar second-lever storing position.

By adopting the mode, a user can not change the parallel bar second rod between the parallel bar second rod using position and the parallel bar second rod accommodating position by plugging and pulling the parallel bar second rod, but can move the second pin shaft between the parallel bar second rod first through hole or the parallel bar second rod second through hole by rotating the parallel bar second rod and moving the parallel bar second rod laterally. It can be understood that the length and the communication mode of the parallel-bar second rod connecting through hole, the parallel-bar second rod first through hole and the parallel-bar second rod second through hole can ensure that the parallel-bar second rod cannot move in the through holes when a user normally uses the parallel-bar second rod. When parallel bar second pole was located parallel bar second pole service position promptly, the second round pin axle supported the inner wall that leans on the first through-hole of parallel bar second pole, and the user can transmit a power for the second round pin axle when normally using the parallel bar second pole, and this inner wall can prevent that the second round pin axle from removing in the first through-hole of parallel bar first pole under the effect of the power that the user transmitted.

Referring to fig. 2, in the present embodiment, the wall-mounted exercise stand further includes a horizontal bar assembly detachably coupled to the first coupling shaft.

It will be appreciated that in an alternative embodiment, the horizontal bar assembly may also be fixedly attached to the first connecting shaft, for example by welding.

Referring to fig. 2, in the present embodiment, a first axial hole is formed at one end of the first connecting shaft, and a second axial hole is formed at the other end; the horizontal bar assembly includes a first horizontal bar handle 41 and a second horizontal bar handle 42; wherein the first axial bore is configured for insertion of the first horizontal bar handle such that the first horizontal bar handle is in a first horizontal bar handle use position; the second axial bore is configured for insertion of the second horizontal bar handle such that the second horizontal bar handle is in a second horizontal bar handle use position. That is, in the present embodiment, the first horizontal bar handle is insertedly mounted on the first connecting shaft, and the second horizontal bar handle is insertedly mounted on the first connecting shaft.

It will be appreciated that in other embodiments, the first horizontal bar handle may be bolted to the first connecting shaft and the second horizontal bar handle may be bolted to the second connecting shaft.

Referring to fig. 2, in the present embodiment, the parallel-bar assembly and the horizontal-bar assembly may be simultaneously mounted on the first connecting shaft.

Referring to fig. 2, in the present embodiment, a third pin hole 2131 and a fourth pin hole 2132 are provided on an outer wall of the first connecting shaft, the third pin hole 2131 communicates with the first axial hole, and the fourth pin hole 2132 communicates with the second axial hole; the first horizontal bar handle 41 is provided with a first horizontal bar handle through hole along the axial direction, and the second horizontal bar handle 42 is provided with a second horizontal bar handle through hole along the axial direction;

in this embodiment, the wall-mounted exercise rack further comprises a third pin configured to pass through the third pin hole and the first horizontal bar handle through-hole at the first horizontal bar handle use position to restrain the first horizontal bar handle (including axial restraint and radial restraint); the fourth pin shaft is configured to pass through the fourth pin hole and the second horizontal bar handle through-hole in the second horizontal bar handle use position to restrain the second horizontal bar handle (including axial restraint and radial restraint).

In this embodiment, the third round pin axle can pass and stretch into the first horizontal bar handle through-hole in the first axial hole, and the fourth round pin axle can pass and stretch into the second horizontal bar handle through-hole in the second axial hole.

In one embodiment, the first axial bore communicates with the second axial bore, which reduces the weight of the first connecting shaft.

In one embodiment, the number of first horizontal bar handle through holes on the first horizontal bar handle 41 is at least two, each first horizontal bar handle through hole being distributed axially along the first horizontal bar handle;

the number of second horizontal bar handle through holes on the second horizontal bar handle 42 is at least two, each second horizontal bar handle through hole being distributed axially along the second horizontal bar handle.

In this way, a user can selectively insert the third pin shaft into any one of the first horizontal bar handle through holes and selectively insert the fourth pin shaft into any one of the second horizontal bar handle through holes as needed, so that the size of the part of the first horizontal bar handle positioned outside the first connecting shaft and the size of the part of the second horizontal bar handle positioned outside the second connecting shaft can be adjusted.

Referring to fig. 1, 2 or 4, in the present embodiment, the connecting portion includes a first lug 121 and a second lug 122, the first lug 121 is coupled (or hinged) to one end of the first link rotating shaft 211, and the second lug 122 is coupled (or hinged) to the other end of the first link rotating shaft 211.

Referring to fig. 1, 2 or 4, in the present embodiment, a first accommodating space is provided between the first link connecting part 212 and the first connecting shaft 213; the first receiving space is configured to receive the second link frame 22 rotated to a second link frame receiving position (a position of the second link frame with respect to the first link frame in fig. 4).

In an alternative embodiment, the wall cladding panel is further provided with a link locking portion that is rotatable relative to the wall cladding panel 1 so as to have a locking position in which the link locking portion is configured to lock the second link 22 when the first link is moved to the first link receiving position and the second link is in the second link receiving position.

In this way, the second link frame can be prevented from being located in the second link frame accommodating position away from the second link frame in an unnecessary state due to the external force.

Referring to fig. 1, 2 or 4, in the present embodiment, the first link connecting part includes a first side bar 2121, a second side bar 2122 and a first cross bar 2123, one end of the first side bar 2121 is connected to the first link rotating shaft 211, and the other end is connected to the first link rotating shaft; one end of the second side rod 2122 is connected to the first link rotating shaft 211, and the other end is connected to the first link; one end of the first cross bar 2123 is connected to the first side bar, the other end of the first cross bar 2123 is connected to the second side bar 2122, the second link 22 is connected to the first cross bar 2123, and the second link 22 can rotate around the first cross bar 2123; the first cross bar 2123, the first side bar 2121, the second side bar 2122, and the first connecting shaft 213 form the first accommodating space.

Referring to fig. 4, in the present embodiment, a first side rod through hole is formed on a surface of the first side rod 2121 away from the second side rod 2122, and a second side rod through hole is formed on a surface of the second side rod 2122 away from the first side rod 2121; the wall-mounted exercise rack further comprises a fifth pin and a sixth pin, wherein the fifth pin is configured to pass through the first side bar through hole and the first horizontal bar handle through hole; the sixth pin is configured to pass through the second side bar through hole and the second horizontal bar handle through hole.

With this arrangement, when the first and/or second horizontal bar handles of the present application are not required to be used, the first and/or second horizontal bar handles can be detached from the corresponding first or second side bar through-holes, thereby reducing the space occupied by the present application in the lateral direction (the axial direction of the first connecting shaft in fig. 2), and in addition, when a user has a plurality of first or second horizontal bar handles, it is also possible to install the redundant first or second horizontal bar handles on the first or second side bars, thereby preventing the redundant first or second horizontal bar handles from being lost.

Referring to fig. 1, 2 or 4, in the present embodiment, the locking part includes a hook; the second connecting frame comprises a second connecting frame first side rod 221, a second connecting frame second side rod 222 and a second connecting frame cross rod 223, and one end of the second connecting frame first side rod 221 is hinged with the first connecting frame 21; the second connecting frame second side bar 222 is arranged opposite to the second connecting frame first side bar 221, and one end of the second connecting frame second side bar 222 is hinged with the first connecting frame 21; one end of the second link frame cross bar 223 is connected with the second link frame first side bar 221, the other end of the second link frame cross bar 223 is connected with the second link frame second side bar 222, and one side of the second link frame cross bar 223 close to the first link frame is a clamping and stopping matching part;

the hook is configured to be capable of being engaged with the engaging engagement portion by movement of the first link and movement of the second link, thereby preventing the first link and the second link from moving by a predetermined directional force by engagement of the hook and the engaging engagement portion.

In an alternative embodiment, the side of the second link rail 223 adjacent the first link is recessed toward the other side to form a recess that is a snap fit in such a way that the snap hook is recessed into the recess of the recess when mated with the recess to prevent the snap hook from shifting in the axial direction of the second link rail when the user applies force without alignment.

In the present embodiment, the wall-hanging panel 1 is provided with wall-connecting holes configured to allow bolts to pass therethrough so that the wall-hanging panel is connected to the wall by the bolts.

In the present embodiment, both the locking portion 11 and the connecting portion 12 of the present invention are provided on one surface of the wall hanging plate, and the surface opposite to the one surface is used for attaching to a wall to be connected.

The present application is further described below by way of examples, it being understood that the examples do not constitute any limitation to the present application.

When not in use, the present application can be hung on a wall in the manner of fig. 4, as shown in fig. 4.

When the user needs to use, for example, when the user needs to use the parallel bars, the user rotates the first link even if the first link rotation shaft rotates, so that the first link is moved to the position shown in fig. 1 or fig. 2 (depending on the user's own requirement for height, the user himself may be in the position of fig. 1 or fig. 2), and then the user controls the second link to rotate relative to the first link, so that the engaging portion and the engaging engagement portion are engaged with each other.

After the first connecting frame and the second connecting frame are controlled, a user rotates the first parallel-bar rod 31, so that the first parallel-bar rod is located at the using position of the first parallel-bar rod (the position of the first parallel-bar rod in fig. 1 or fig. 2), rotates the second parallel-bar rod 32, so that the second parallel-bar rod is located at the using position of the second parallel-bar rod (the position of the second parallel-bar rod in fig. 1 or fig. 2), and can use the parallel-bar assembly to exercise after the rotation is finished.

When the user wants to use the horizontal bar assembly, he or she directly detaches the horizontal bar assembly of fig. 4, inserts the first horizontal bar handle 41 into the first axial hole, inserts the second horizontal bar handle 42 into the second axial hole, and fixes the horizontal bar assembly by the third pin shaft and the fourth pin shaft.

It can be appreciated that when the user uses the horizontal bar assembly, the horizontal bar assembly may or may not be detached, and the user can set the horizontal bar assembly according to his or her own setting.

After the user uses the wall-mounted exercise rack of the application, the user detaches the horizontal bar assembly or the parallel bar assembly, installs the first horizontal bar handle on the first side bar 2121, installs the second horizontal bar handle on the second side bar 2122, rotates the parallel bar first bar to the parallel bar first bar accommodating position (the position of the parallel bar first bar in fig. 4), rotates the parallel bar second bar to the parallel bar second bar accommodating position (the position of the parallel bar second bar in fig. 4), and controls the second connecting frame 22 to move to the second connecting frame accommodating position (the position of the second connecting frame in fig. 4), and then controls the first connecting frame to move, so that the first side bar, the second side bar and the first cross bar of the first connecting frame are attached to the wall-hanging plate.

It can be understood that the traditional parallel bars and horizontal bars comprehensive training frame needs a large floor supporting structure, occupies a large space, is usually a fixed structure and is inconvenient to store. And the wall-hanging type body-building frame of this application is collapsible, parallel bar subassembly and horizontal bar subassembly can be dismantled, and can satisfy the crowd of co-altitude not and use, easy operation, and space utilization is high.

The application also provides a wall hanging plate, which is the wall hanging plate.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A wall-mounted exercise rack, the wall-mounted exercise rack comprising:

the wall hanging plate (1), a clamping part (11) is arranged on the wall hanging plate (1);

the connecting frame assembly (2) is provided with a clamping and stopping matching part, the connecting frame assembly (2) is connected with the wall hanging plate (1), and the connecting frame assembly (2) can move relative to the wall hanging plate (1); wherein the content of the first and second substances,

the clamping and stopping matching part can be abutted against the clamping and stopping part (11) through the movement of the connecting frame component (2);

a horizontal bar assembly and/or a parallel bar assembly is mounted on the connecting frame assembly (2).

2. The wall mountable exercise rack of claim 1, wherein said wall mountable panel is further provided with a connector (12);

the connector assembly (2) comprises:

a first link frame (21), the first link frame (21) being connected with the link portion (12), the first link frame (21) being rotatable about the link portion;

the second connecting frame (22), the clamping and stopping matching part is arranged on the second connecting frame (22), the second connecting frame (22) is connected with the first connecting frame (21), and the second connecting frame (22) can rotate around the first connecting frame (21); wherein the content of the first and second substances,

the locking engagement part can be abutted against the locking part (11) by the movement of the first connecting frame (21) and the movement of the second connecting frame (22);

a horizontal bar assembly and/or a parallel bar assembly is mounted on the connecting frame assembly (2).

3. The wall-mounted type exercise rack according to claim 2, wherein the number of the locking portions (11) is two, one of which is provided at a position near one end of the wall-hanging plate (1) and the other of which is provided at a position near the other end of the wall-hanging plate;

the engagement portion is engageable with any one of the engagement portions (11) by the movement of the first link frame (21) and the movement of the second link frame (22).

4. The wall mountable exercise rack of claim 2, wherein the first attachment rack (21) comprises:

a first link rotating shaft (211), the first link rotating shaft (211) being connected to the connecting portion (12), the first link rotating shaft (211) being rotatable about the connecting portion (12);

a first link connecting part (212), the first link connecting part (212) being connected to the first link rotating shaft (211) and the second link (22), respectively;

a first connecting shaft (213), the first connecting shaft (213) being connected with the first link connecting part (212), the parallel bar assembly and/or the horizontal bar assembly being mounted on the first connecting shaft (213).

5. The wall mountable exercise stand of claim 4, further comprising a parallel bar assembly removably coupled to the first coupling shaft; and/or the presence of a gas in the gas,

the wall-mounted exercise rack further comprises a horizontal bar assembly detachably connected with the first connecting shaft.

6. The wall mountable exercise rack of claim 5, wherein the first connecting shaft (213) is provided with a first pin hole and a second pin hole in an axial direction;

the parallel bar assembly includes:

the device comprises a parallel bar first rod (31), wherein a parallel bar first rod first through hole (311) and a parallel bar first rod second through hole (312) are formed in the parallel bar first rod (31);

a first pin configured to pass through the first parallel bar first through hole (311) and the first pin hole to locate the first parallel bar in a first parallel bar use position or the first pin configured to pass through the first parallel bar second through hole (312) and the first pin hole to locate the first parallel bar in a first parallel bar storage position;

the parallel bar second rod (32), wherein a parallel bar second rod first through hole (321) and a parallel bar second rod second through hole (322) are arranged on the parallel bar second rod (32);

a second pin configured to pass through the parallel bar second rod first through hole (321) and the second pin hole to locate the parallel bar second rod in a parallel bar second rod use position or the second pin configured to pass through the parallel bar second rod second through hole (322) and the second pin hole to locate the parallel bar second rod in a parallel bar second rod storage position.

7. The wall mountable exercise rack of claim 6, wherein the first parallel bar further comprises a first parallel bar connection through hole (313), the first parallel bar connection through hole (311) in communication with the first parallel bar connection through hole (313) through the first parallel bar connection through hole (312), the first pin configured to move within the first parallel bar connection through hole and the first parallel bar connection through hole through movement of the first parallel bar to transition the first parallel bar between the first parallel bar use position and the first parallel bar storage position;

the parallel-bar second rod further includes a parallel-bar second rod coupling through hole (323), the parallel-bar second rod first through hole (321) communicates with the parallel-bar second rod second through hole (322) through the parallel-bar second rod coupling through hole (323), and the second pin is configured to move within the parallel-bar second rod first through hole and the parallel-bar second rod second through hole by a movement of the parallel-bar second rod, so that the parallel-bar second rod is switched between the parallel-bar second rod using position and the parallel-bar second rod receiving position.

8. The wall mountable exercise rack of claim 5, wherein the first connecting shaft has a first axial hole disposed at one end and a second axial hole disposed at the other end;

the horizontal bar assembly comprises a first horizontal bar handle (41) and a second horizontal bar handle (42); wherein the content of the first and second substances,

the first axial bore is configured for insertion of the first horizontal bar handle to place the first horizontal bar handle in a first horizontal bar handle use position;

the second axial bore is configured for insertion of the second horizontal bar handle to place the second horizontal bar handle in a second horizontal bar handle use position.

9. The wall mountable exercise rack of claim 4, wherein the first link connection (212) and the first link shaft (213) have a first receiving space therebetween;

the first receiving space is configured to receive a second link (22) rotated to a second link receiving position.

10. A wall cladding panel according to any one of claims 1 to 9, wherein the wall cladding panel is as claimed.

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