CN219353430U - Rocking hip saddle - Google Patents

Abstract

The utility model provides a rocking hip type saddle, which comprises a saddle-shaped riding piece, a base piece, a fixing piece and a safety mechanism, wherein the base piece is provided with a seat; wherein the safety mechanism is composed of a limit hole and a fixed shaft; when the limiting hole swings relative to the fixed shaft until a circumferential wall of the limiting hole abuts against the fixed shaft, namely, the maximum swing angle of the saddle-shaped riding piece is defined, the circumferential wall carries out the maximum swing angle in any direction of 360-degree annular ring relative to the fixed shaft, namely, a 360-degree annular ring-shaped limiting moving range is defined relative to the fixed shaft; wherein when a user sits on the seating surface of the saddle-shaped riding member, the swinging of the saddle-shaped riding member in any direction in the 360-degree loop type is limited within the 360-degree loop type limited movement range so as to prevent the user from leaning backwards.

Description

Rocking hip saddle

Technical Field

The present utility model relates to a rocking seat, and more particularly, to a rocking seat for a horse, which is used to prevent a user from leaning backward and simplify the structural design.

Background

People pay attention to health of the seat gradually, so that body-building wind and wind can be raised along with the seat, a seat for rocking buttocks for a user to build body and improve body state simultaneously during riding appears in the market, and the user can sit on the seat for rocking buttocks and the derived personal balance action of the user, so that the effects of building body and improving body state are achieved. In the related art of the hip pad, the present inventors have filed and owned patent rights (hereinafter referred to as prior art) of us patent US9,788,659B1 (which also filed and owned by taiwan patent TWM528667U and chinese patent CN 205625321U) and us patent US10,376,070B1 (which also filed and owned by taiwan patent TWM560320U and chinese patent CN 208709052U).

However, the hip pad disclosed in the prior art US9,788,659B1 is not provided with a safety mechanism, so that the user may turn backwards during use, which is not beneficial to enhancing the reliability of the product, and the manufacturing end may also risk the user from litigation and compensation due to injury of the used product. Therefore, another prior art US10,376,070B1 of the present inventor has been improved with respect to the portion of the user who may possibly turn backward, such as the technical features and effects disclosed in the prior art US10,376,070B1, and the main object of the present utility model is to provide a hip-swing seat with anti-backward-turning safety mechanism, which is provided with a magnetic anti-backward-turning safety mechanism between the seat member and the base member of the hip-swing seat, so that when the user wants to sit on the seat member, the front axle portion of the seat member can be tilted forward, bent downward and be close to and positioned on at least one supporting portion of the base member, thereby effectively solving the problem that the user is likely to turn backward when sitting on the hip-swing seat. As is apparent from the foregoing, in the prior art US10,376,070B1, the magnetic anti-recline safety mechanism is used as a safety mechanism for preventing a user from leaning backward when sitting in the seat, however, the magnetic anti-recline safety mechanism cannot ensure that the user cannot lean backward when sitting in the seat, and further, although the prior art US10,376,070B1 further discloses that the rocking seat is further provided with a anti-recline stop mechanism which is arranged between the bottom surface of the saddle and the top surface of the base member after the seat member so that the saddle can be stopped when leaning backward by an angle to prevent continuous leaning backward. However, when the user has a large backward swing force or a heavy body weight, the excessive backward swing of the user cannot be blocked by the backward swing preventing and stopping mechanism, and the user may still turn backward because the seat member is not fully connected or fixed to the base member, so that the user may still turn backward.

In addition, in the prior art US9,788,659B1 and US10,376,070B1, a plurality of spherical protrusions are designed on the base member for supporting the riding member, and the riding member swings between the plurality of spherical protrusions, and then an elastic belt or a built-in magnet (magnetic anti-recline safety mechanism) is used for realizing the connection stability or positioning stability between the riding member and the base member, thereby increasing the complexity of structural design and being unfavorable for reducing the cost of manufacturing end.

Therefore, a hip-rocking saddle for preventing the user from turning backward and simplifying the structural design is an urgent need of the related industry.

Disclosure of Invention

The main object of the present utility model is to provide a rocking hip saddle, which comprises a saddle-shaped riding member, a base member, a fixing member and a safety mechanism; wherein the safety mechanism is composed of a limit hole and a fixed shaft; when the limiting hole swings relative to the fixed shaft until a circumferential wall of the limiting hole abuts against the fixed shaft, namely, the maximum swing angle of the saddle-shaped riding piece is defined, the circumferential wall carries out the maximum swing angle in any direction of 360-degree annular ring relative to the fixed shaft, namely, a 360-degree annular ring-shaped limiting moving range is defined relative to the fixed shaft; when a user sits on the sitting surface of the saddle-shaped riding piece, the swinging of any direction of the 360-degree ring type of the saddle-shaped riding piece is limited within the limited moving range of the 360-degree ring type, so that the problem that the user leans backwards and the user is possibly in a backward tilting danger during use is effectively solved. In addition, the saddle-shaped riding piece, the base piece and the fixing piece are all provided with a spherical surface part, the spherical surface part of the saddle-shaped riding piece can be clamped in a sliding space between the spherical surface part of the fixing piece and the spherical surface part of the base piece and can swing, the requirements of the saddle-shaped riding piece on the base piece on swinging and connecting stability or positioning stability are met, and the problem of complicating the structural design of the prior art is effectively solved.

To achieve the above object, the present utility model provides a hip-rocking saddle, comprising:

the saddle-shaped riding piece is provided with a sitting surface for a user to ride on, the direction facing the user is the front direction, the sitting surface is sequentially provided with a front bridge part, a saddle part and a back saddle part from front to back, the bottom surface of the sitting surface is provided with a spherical surface part protruding downwards, and the spherical surface part is provided with an inner spherical surface, an outer spherical surface and a thickness; wherein the saddle seat part is provided with an arc-shaped groove which is concave downwards, and the arc-shaped groove extends to the inner spherical surface of the spherical surface part;

the base piece is arranged below the saddle-shaped riding piece, the base piece is provided with a spherical surface part protruding downwards and a support part which is arranged below the spherical surface part, and the spherical surface part of the base piece is provided with an inner spherical surface and an outer spherical surface; wherein the top of the base member has a downwardly concave arc-shaped groove, and the arc-shaped groove of the base member extends to the inner sphere of the spherical surface portion of the base member;

the fixing piece is arranged in the arc-shaped groove of the saddle-shaped riding piece, is combined in the arc-shaped groove of the base piece together with the spherical surface part of the saddle-shaped riding piece, is provided with a spherical surface part protruding downwards at the bottom surface of the fixing piece, and is provided with an outer spherical surface; a kind of electronic device with high-pressure air-conditioning system

The safety mechanism consists of a limiting hole and a fixed shaft positioned in the limiting hole, the limiting hole is penetratingly arranged on the spherical surface part of the saddle-shaped riding piece, the fixed shaft is positioned on the outer spherical surface part of the fixed piece, and a certain distance is reserved between the lower end part of the fixed shaft and the outer spherical surface part of the fixed piece;

when the spherical surface part of the saddle-shaped riding piece and the fixing piece are combined in the arc-shaped groove of the base piece, the fixing shaft on the fixing piece passes through the limiting hole of the saddle-shaped riding piece from top to bottom and enables the lower end part of the fixing shaft to be abutted against the inner spherical surface of the base piece, so that the outer spherical surface of the fixing piece is positioned at a distance above the inner spherical surface of the base piece, and a sliding space is formed between the outer spherical surface of the fixing piece and the inner spherical surface of the base piece by the distance;

wherein the thickness of the vertical distance of the sliding space is larger than the thickness of the spherical surface part of the saddle-shaped riding piece, so that the spherical surface part of the saddle-shaped riding piece can be clamped in the sliding space between the fixing piece and the base piece and can swing; wherein the base member and the fixing member remain stationary while the spherical portion of the saddle-shaped seating member swings in the sliding space, the saddle-shaped seating member swings with respect to the base member and the fixing member;

the radial width of the limiting hole of the safety mechanism is larger than that of the fixed shaft, so that a circumferential wall of the limiting hole can encircle the periphery of the fixed shaft in 360 degrees;

when the saddle-shaped riding piece swings, the fixed shaft on the fixed piece is kept motionless, and the limiting hole on the saddle-shaped riding piece swings in any direction of 360 degrees in a ring-shaped way relative to the fixed shaft;

when the limiting hole swings relative to the fixed shaft until the circumferential wall abuts against the fixed shaft, namely, the limiting hole is used for limiting the maximum swing angle of the saddle-shaped riding piece, the circumferential wall performs any one of 360-degree annular rings relative to the fixed shaft, namely, the maximum swing angle of the 360-degree annular ring is limited to a movement range which is limited and formed relative to the fixed shaft.

The hip-rocking saddle, wherein: the hip-swing saddle also comprises a locking mechanism, and the base piece and the fixing piece are combined together by the locking mechanism; wherein the locking mechanism is composed of a locking piece and a locked piece; when the locking piece is arranged on the fixing piece, the locked piece is arranged on the base piece; when the locking piece is arranged on the base piece, the locked piece is arranged on the fixing piece.

The hip-rocking saddle, wherein: the spherical portion of the saddle-shaped seating member is a hemispherical surface.

The hip-rocking saddle, wherein: the rocking hip saddle comprises a seat cushion for supporting the buttocks of the user, and the seat cushion is arranged on the saddle part of the saddle-shaped riding piece and is used for sealing the arc-shaped groove of the saddle part.

The hip-rocking saddle, wherein: the saddle seat cushion and the saddle part of the saddle-shaped riding piece are combined together by a combination mechanism; wherein the combination mechanism is composed of an assembly and an assembled piece; wherein when the assembly is positioned on the seat cushion, the assembled member is positioned on the saddle portion of the saddle-shaped seating member; wherein when the assembled unit is positioned on the seat cushion, the assembled unit is positioned on the saddle portion of the saddle-shaped seating unit.

The hip-rocking saddle, wherein: the support part of the base part is arranged on a lifting pressure rod of an office chair base so that the hip-rocking saddle seat can be positioned on the office chair base for the user to use.

The hip-rocking saddle, wherein: the support part of the base part is extended with a chassis part, and the bottom surface of the chassis part is a plane, so that the hip-rocking saddle can be horizontally placed on a cushion of a chair or a ground for the user by the chassis part of the base part.

The hip-rocking saddle, wherein: the sitting surface of the hip-rocking saddle is provided with a soft part.

The hip-rocking saddle, wherein: the limiting hole of the safety mechanism is circular.

The hip-rocking saddle, wherein: the limit hole of the safety mechanism shortens the radial width of the rear part of the limit hole to form a shorter radial width, so that the distance between the circumferential wall of the rear part of the limit hole and the fixed shaft is shortened, and the maximum swing angle in the rear direction in the 360-degree ring type is reduced.

Compared with the prior art, the utility model has the following beneficial effects: the thickness of the vertical distance of the sliding space is larger than that of the spherical surface part of the saddle-shaped riding piece, so that the spherical surface part of the saddle-shaped riding piece can be clamped in the sliding space between the fixing piece and the base piece and can swing, wherein when the spherical surface part of the saddle-shaped riding piece swings in the sliding space, the base piece and the fixing piece keep motionless, the saddle-shaped riding piece swings relative to the base piece and the fixing piece, and the requirements of swinging and connecting stability or positioning stability of the saddle-shaped riding piece on the base piece are met, so that the cost of manufacturing ends is reduced; the radial width of the limiting hole of the safety mechanism is larger than that of the fixed shaft, so that a circumferential wall of the limiting hole can encircle the periphery of the fixed shaft in 360 degrees; when the saddle-shaped riding piece swings, the fixed shaft on the fixed piece is kept motionless, and the limiting hole on the saddle-shaped riding piece swings in any direction of 360 degrees in a ring-shaped way relative to the fixed shaft; when the limiting hole swings relative to the fixed shaft until the circumferential wall abuts against the fixed shaft, namely, the limiting hole is used for limiting the maximum swing angle of the saddle-shaped riding piece, the circumferential wall performs the maximum swing angle in any direction of 360-degree annular ring relative to the fixed shaft, namely, a 360-degree annular ring is limited relative to the fixed shaft, and the movement range is limited; when the user sits on the sitting surface of the saddle-shaped riding piece, the user can obtain the riding-like exercise effect by swinging the buttocks or keeping balance, and the swinging of any direction of the 360-degree annular ring type of the saddle-shaped riding piece is limited in the 360-degree annular ring type limited moving range for avoiding the risk of the user from leaning backwards, thereby improving the safety of the user when sitting on the hip-rocking saddle seat, reducing the risk of manufacturing the saddle seat facing litigation and being beneficial to increasing the market competitiveness of products.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic side sectional plan view of fig. 1.

Fig. 3 is an exploded perspective view of the present utility model.

Fig. 4 is an exploded perspective view of another angle of the present utility model.

Fig. 5 is an exploded perspective view of the passenger seat cushion and saddle-shaped ride of the present utility model.

FIG. 6 is an enlarged partial schematic view of FIG. 2

Fig. 7 is a schematic view of the saddle-shaped ride of fig. 2 after swinging.

Fig. 8 is an enlarged partial schematic view of fig. 7.

Fig. 9 is a schematic top plan view of the present utility model.

FIG. 10 is a schematic illustration of one direction of oscillation of the restraint hole on the saddle-like ride of FIG. 9 about a fixed axis in a 360 loop.

FIG. 11 is a schematic illustration of the saddle-like ride of FIG. 9 with the restraint holes swung in another direction of 360 ° loops relative to the fixed axis.

FIG. 12 is a schematic view of the retention hole of the safety mechanism of FIG. 9 further illustrating shortening of the radial width of the rear portion of the retention hole to form a shorter radial width.

Fig. 13 is an enlarged partial schematic view of fig. 12.

Fig. 14 is a perspective combined schematic view of the hip-swing saddle of the present utility model applied to a lifting pressure bar of an office chair base.

Fig. 15 is an exploded perspective view of the hip-swing saddle of the present utility model applied to a lifting pressure bar of an office chair base.

Fig. 16 is a schematic plan view of a user's seat on an office chair base with a hip-rocking saddle.

Fig. 17 is a schematic side plan view of a user using a hip swing saddle on an office chair base.

Fig. 18 is a schematic view of the saddle-like ride of fig. 17 after swinging.

Fig. 19 is a schematic side plan view of the hip-swing saddle of the present utility model laid flat on the seat cushion of the chair by the chassis portion.

Fig. 20 is a schematic side plan view of the hip-swing saddle of the present utility model laid on the ground by the chassis portion.

Reference numerals illustrate: 1-a hip swing saddle; 1 a-front; 1 b-a sliding space; 1c-360 deg. ring to limit the moving range; 1 d-post a square; 1 e-right; 1 f-left; 10-saddle riding; 11-sitting surface; 11 a-a front axle portion; 11 b-saddle portion; 11 c-a rear saddle; 12-spherical surface portion; 12 a-an inner sphere; 12 b-an outer sphere; 13-arc-shaped grooves; 14-soft portion; 20-a base member; 21-spherical section; 21 a-an inner sphere; 21 b-an outer sphere; 22-a stand portion; 23-arc-shaped grooves; 24-chassis part; 30-fixing piece; 31-spherical portion; 31 a-an outer sphere; 40-a safety mechanism; 41-limiting holes; 41 a-a peripheral wall; 42-fixing shaft; 42 a-lower end; 50-locking mechanism; 51-locking piece; 52-locked piece; 60-riding a seat cushion; 70-a combination mechanism; 71-assembly; 72-assembled part; 2-a user; 3-office chair base; 3 a-lifting pressure bar; 4-a chair; 4 a-a cushion; 5-ground.

Detailed Description

The following detailed description of the structure and technical features of the present utility model is provided with reference to the accompanying drawings, wherein the drawings are for illustrating the structure relationship and related functions of the present utility model only, and thus the dimensions of the components in the drawings are not drawn to actual scale and are not intended to limit the present utility model.

Referring to fig. 2 to 4, 7 and 15, the present utility model provides a rocking hip saddle 1, wherein the rocking hip saddle 1 comprises a saddle-shaped seat member 10, a base member 20, a fixing member 30 and a safety mechanism 40.

The saddle-shaped sitting member 10 has a sitting surface 11 on which a user 2 sits and in which the direction in which the user 2 faces is a front 1a (as shown in fig. 17), the sitting surface 11 has a front bridge portion 11a, a saddle portion 11b and a rear saddle portion 11c in this order from front to rear, and a spherical portion 12 (as shown in fig. 1 to 3) protruding downward is provided at the bottom surface of the sitting surface 11, the spherical portion 12 having an inner spherical surface 12a, an outer spherical surface 12b and a thickness d1 (as shown in fig. 7); wherein the saddle portion 11b has a downwardly concave arc-shaped groove 13, and the arc-shaped groove 13 extends to the inner spherical surface 12a of the spherical surface portion 12 (as shown in fig. 2 and 3); wherein the spherical portion 12 of the saddle-shaped ride 10 is further hemispherical but not limited thereto (as shown in fig. 2 and 4).

Wherein the other direction relative to the front 1a is the rear 1d (i.e. the rear of the user 2) (as shown in fig. 17); wherein when the user 2 sits on the sitting surface 11, the left hand direction of the user 2 is left 1f, and the other direction opposite to the left 1f is right 1e (as shown in fig. 16).

The base member 20 is disposed below the saddle-shaped seat member 10 (as shown in fig. 1 to 4), the base member 20 has a spherical surface portion 21 protruding downward and a seat portion 22 disposed below the spherical surface portion 21 (as shown in fig. 2), the spherical surface portion 21 of the base member 20 has an inner spherical surface 21a and an outer spherical surface 21b (as shown in fig. 2 and 3); wherein the top of the base member 20 has a concave arc-shaped groove 23, and the arc-shaped groove 23 of the base member 20 extends to the inner spherical surface 21a of the spherical surface portion 21 of the base member 20 (as shown in fig. 2 and 3); wherein the base member 20 is a bowl-shaped body, but is not limited thereto.

The fixing member 30 is disposed in the arc-shaped recess 13 of the saddle-shaped seat member 10 and is combined with the spherical surface portion 12 of the saddle-shaped seat member 10 in the arc-shaped recess 23 of the base member 20 (as shown in fig. 2 and 3), so that the hip-rocking saddle 1 can be directly carried or stored by the user 2 (not shown) without limitation, a spherical surface portion 31 protruding downward is disposed at the bottom surface of the fixing member 30, and the spherical surface portion 31 of the fixing member 30 has an outer spherical surface 31a (as shown in fig. 2 and 3).

The safety mechanism 40 is composed of a limiting hole 41 and a fixing shaft 42 (shown in fig. 2, 4 and 6-13) located in the limiting hole 41, wherein the limiting hole 41 is penetratingly disposed on the spherical surface portion 12 of the saddle-shaped seat member 10 (shown in fig. 4-6), the fixing shaft 42 is located on the outer spherical surface 31a of the spherical surface portion 31 of the fixing member 30, and a lower end 42a of the fixing shaft 42 is spaced from the outer spherical surface 31a of the fixing member 30 (shown in fig. 6).

When the spherical portion 12 of the saddle-shaped seating member 10 and the fixing member 30 are combined in the arc-shaped groove 23 of the base member 20, the fixed shaft 42 on the fixing member 30 passes through the limiting hole 41 of the saddle-shaped seating member 10 from top to bottom and the lower end 42a of the fixed shaft 42 abuts against the inner spherical surface 21a of the base member 20 (as shown in fig. 2), so that the outer spherical surface 31a of the fixing member 30 is located at a distance h above the inner spherical surface 21a of the base member 20 (as shown in fig. 6), and a sliding space 1b is formed between the outer spherical surface 31a of the fixing member 30 and the inner spherical surface 21a of the base member 20 by the distance h (as shown in fig. 6).

The thickness of the sliding space 1b is greater than the thickness d1 of the spherical portion 12 of the saddle-shaped seating member 10 (as shown in fig. 7) so that the spherical portion 12 of the saddle-shaped seating member 10 can be sandwiched and swung in the sliding space 1b between the fixing member 30 and the base member 20 (as shown in fig. 7); wherein the base member 20 and the fixing member 30 remain stationary while the spherical portion 12 of the saddle-shaped seating member 10 swings in the sliding space 1b, and the saddle-shaped seating member 10 swings with respect to the base member 20 and the fixing member 30 (as shown in fig. 7). As described above, with reference to the saddle-shaped seating member 10, taking fig. 2, 6 to 8 as an example, the central axis a of the spherical portion 12 may freely swing in any direction or angle with respect to the center of the base member 20 as shown in fig. 2 and 6, swing from the front 1a to the rear 1d as shown by the arrow B in fig. 7, and swing downward from the rear 1d as shown by the arrow C in fig. 7, but the central axis a of the spherical portion 12 swings to be inclined backward with respect to the base member 20 as shown in fig. 7 and 8 (e.g., the rear saddle 11C of the saddle-shaped seating member 10 is close to the base member 20).

The spherical portions 12, 21, 31 have appropriate smoothness or friction force therebetween so that the saddle-shaped saddle 10 can swing smoothly in the sliding space 1B (as shown by arrow B and arrow C in fig. 7), which contributes to improving the good body feeling when the saddle-shaped saddle 10 is not in use, and the saddle-shaped saddle 10 is restored to its original position by automatically swinging the central axis a of the spherical portion 12 by the smoothness or friction force and the gravitational force of the spherical portions 12, 21, 31 therebetween (as shown in fig. 2, 6 and 9).

The radial width r1 of the limiting hole 41 of the safety mechanism 40 is greater than the radial width r2 of the fixed shaft 42 (as shown in fig. 9), so that a circumferential wall 41a of the limiting hole 41 can surround the periphery of the fixed shaft 42 by 360 ° (as shown in fig. 9).

When the saddle-shaped seating member 10 swings, the fixed shaft 42 on the fixed member 30 is kept stationary, and the limiting hole 41 on the saddle-shaped seating member 10 swings in any one of 360 ° loop directions with respect to the fixed shaft 42 as shown by arrow A2, arrow A3, arrow A4, arrow A5, arrow A6, arrow A7, and arrow A8 in order from arrow A1 in fig. 9.

When the limiting hole 41 swings relative to the fixed shaft 42 until the circumferential wall 41a abuts against the fixed shaft 42 (as shown in fig. 8, 10 and 11), i.e. is used for defining the maximum swing angle of the saddle-shaped seat 10, the circumferential wall 41a performs the maximum swing angle in any direction of 360 ° loop type relative to the fixed shaft 42, i.e. defines a 360 ° loop type relative to the fixed shaft 42 to define the movement range 1c (as shown in fig. 10 and 11). As described above, regarding the maximum swing angle of the saddle-shaped seat 10, taking fig. 9 to 11 as an example, the central axis a of the spherical portion 12 and the limiting hole 41 may swing freely (as shown in fig. 9) with respect to the center of the base member 20 and the fixed shaft 42 in any direction or angle within the 360 ° ring-shaped limited movement range 1c, such as swinging in the direction of arrow A3 shown in fig. 10, the circumferential wall 41a of the limiting hole 41 is abutted against the fixed shaft 42 (i.e., the maximum swing angle of the saddle-shaped seat 10 to the left 1 f) but not for limiting the swing direction, or such as swinging in the direction of arrow A5 shown in fig. 11, such that the circumferential wall 41a of the limiting hole 41 is abutted against the fixed shaft 42 (i.e., the maximum swing angle of the saddle-shaped seat 10 to the rear 1 d) but not for limiting the swing direction.

When the user 2 sits on the sitting surface 11 of the saddle 10, the user 2 can swing the buttocks or keep balance to obtain a riding effect (as shown in fig. 16 to 18), and the swinging of any direction of the 360 DEG loop type saddle 10 is limited in the 360 DEG loop type limited moving range 1c (as shown in fig. 10 and 11) for avoiding the risk of the user 2 turning backwards, thereby improving the safety of the user 2 sitting on the rocking hip saddle 1 (as shown in fig. 16 to 18). As described above with respect to avoiding the risk of the user 2 from leaning backward, taking fig. 16 to 18 as an example, the user 2 can first swing both feet across the front bridge portion 11a and support the saddle-shaped seating member 10 on both sides of the seat surface 11 while keeping balance on a ground surface 5 (i.e., the rear saddle portion 11c is not pressed close to the base member 20) (as shown in fig. 16 and 17), and then swing in either direction of 360 ° in the 360 ° loop-shaped limited movement range 1c (as shown in fig. 10 and 11) by swinging the buttocks of the user 1a from the front side 1a, the body of the user 2 swings in the direction of arrow E in fig. 18 from the front side 1a to the rear side 1d, the saddle-shaped seating member 10 swings in the direction of arrow G in fig. 18 from the front side 1a to the rear side 1d, and the saddle-shaped seating member 10 swings in the direction of arrow F in fig. 18 from the rear side 1d to the rear side as shown in fig. 5, and the saddle-shaped seating member 10 swings in the direction of arrow F from the rear side 1b to the seat surface 5 (as shown in fig. 18) while the body of the saddle-shaped seating member 10 is not being moved away from the seat surface 5) from the user (as shown in fig. 5) by swinging the saddle-shaped seating member 10) from the seat surface 10 and not being too far from the seat surface 5 (as shown in fig. 5).

Referring to fig. 2 and 3, the hip-swing saddle 1 further comprises a locking mechanism 50, but is not limited thereto, and the base member 20 and the fixing member 30 are combined together by the locking mechanism 50; wherein the locking mechanism 50 is further formed by a locking member 51 (e.g. screw) and a locked member 52 (e.g. nut); wherein when the locking member 51 is disposed on the fixing member 30, the locked member 52 is disposed on the base member 20 (as shown in fig. 6); when the locking member 51 is disposed on the base member 20, the locked member 52 is disposed on the fixing member 30 (not shown), thereby enhancing the locking stability between the structures.

Referring to fig. 1 to 3, the hip-rocking saddle 1 further comprises a seat cushion 60 for supporting the buttocks of the user 2, but not limited thereto, to help to enhance the good body feeling of the product in use, wherein the seat cushion 60 is disposed on the saddle portion 11b of the saddle-shaped saddle 10 for covering the arc-shaped groove 13 of the saddle portion 11b (as shown in fig. 1 and 2), so as to enhance the aesthetic appearance of the product.

Referring to fig. 2 to 5, the saddle 60 and the saddle portion 11b of the saddle-shaped seating member 10 are further combined together by a combining mechanism 70, but not limited thereto; wherein the assembly mechanism 70 is composed of an assembly 71 (clip pin) and an assembled 72 (chute); wherein when the assembly 71 is positioned on the seat cushion 60, the assembled member 72 is positioned on the saddle portion 11b of the saddle-shaped seating member 10 (as shown in fig. 5); wherein when the assembled member 72 is positioned on the seat cushion 60, the assembled member 71 is positioned on the saddle portion 11b (not shown) of the saddle-shaped seating member 10, thereby increasing the rapidity of assembling the seat cushion 60 with the saddle portion 11b of the saddle-shaped seating member 10.

Referring to fig. 14 to 18, the support portion 22 of the base member 20 is further mounted on a lifting pressure bar 3a of an office chair base 3, but is not limited to, so that the hip-rocking saddle 1 can be located on the office chair base 3 for the user 2 (as shown in fig. 16 to 18), and when the user 2 is a static worker sitting in an office for a long time, the hip-rocking saddle 1 on the office chair base 3 can be utilized to achieve the effects of body building and improving the posture through the swing and the derived 2-person balance motion of the user sitting on the hip-rocking saddle 1, so as to increase the exercise amount of the user 2 in the normal life; wherein the locked member 52 is further disposed on the lifting pressure bar 3a of the base member 20 (as shown in fig. 15), but not limited thereto; wherein the lifting pressure bar 3a can be adjusted up and down by a distance (as shown by arrow D in fig. 14) to allow the height position of the hip-rocking horse saddle 1 to be adjusted.

Referring to fig. 1 to 4, 19 and 20, the support portion 22 of the base member 20 is further extended with a chassis portion 24, but not limited to, the bottom surface of the chassis portion 24 is a plane, so that the hip-rocking saddle 1 can be placed on a seat cushion 4a of a chair 4 (as shown in fig. 19) or on the ground 5 (as shown in fig. 20) for the user 2 (not shown) by the chassis portion 24 of the base member 20, and the user 2 can directly carry or store the hip-rocking saddle 1 (not shown), so as to increase the convenience of the user 2 in indoor movement and enhance the attraction of the product in the market of the domestic gym fan; wherein the base member 20 and the chassis portion 24 are further integrally formed to facilitate reducing costs of manufacturing the end.

Referring to fig. 1, the seat surface 11 of the hip-swing saddle 1 is further provided with a soft portion 14, but not limited to, and the soft portion 14 comprises a foam material, a cotton material or a leather material, but not limited to, which is helpful for enhancing the good body feeling of the product in use.

Referring to fig. 9, the limiting hole 41 of the safety mechanism 40 is circular but not limited thereto.

Referring to fig. 12 and 13, the radial width of the rear portion of the limiting hole 41 of the safety mechanism 40 is further shortened to form a shorter radial width r3 (as shown in fig. 12 and 13), so that the distance between the peripheral wall 41a of the rear portion of the limiting hole 41 and the fixed shaft 42 is shortened, and the peripheral wall 41a in the range of an angle X ° formed by the direction of arrow A8, the direction of arrow A1 and the direction of arrow A2 in fig. 12 is the peripheral wall 41a of the rear portion of the limiting hole 41, so that the maximum swing angle in the rear direction of the 360 ° ring is reduced for enhancing the risk of preventing the user 2 from turning backward.

Compared with the existing hip-rocking seat, the hip-rocking saddle seat 1 has the following advantages:

(1) When the limiting hole 41 swings relative to the fixed shaft 42 until the circumferential wall 41a abuts against the fixed shaft 42 (as shown in fig. 8, 10 and 11), i.e. is used for defining the maximum swing angle of the saddle-shaped seat 10, the circumferential wall 41a performs the maximum swing angle in any direction of 360 ° loop type relative to the fixed shaft 42, i.e. defines the 360 ° loop type limiting movement range 1c relative to the fixed shaft 42 (as shown in fig. 10 and 11); when the user 2 sits on the sitting surface 11 of the saddle 10, the user 2 can swing the buttocks or keep balance to obtain a riding-like exercise effect (as shown in fig. 16 to 18), and the swinging of any direction of the 360-degree loop type saddle 10 is limited in the 360-degree loop type limited moving range 1c (as shown in fig. 10 and 11) for avoiding the backward tilting risk of the user 2, thereby improving the safety of the user 2 when sitting on the rocking saddle 1 (as shown in fig. 16 to 18), effectively solving the problem that the user may possibly tilt backward during use, reducing the risk of manufacturing end face litigation and being beneficial to increasing the market competitiveness of products.

(2) The saddle-shaped riding member 10, the base member 20 and the fixing member 30 of the present utility model all have a spherical surface portion 12, 21, 31, the spherical surface portion 12 of the saddle-shaped riding member 10 can be clamped in the sliding space 1b between the spherical surface portion 31 of the fixing member 30 and the spherical surface portion 21 of the base member 20 and can swing, and the requirements of swinging and connecting stability or positioning stability of the saddle-shaped riding member 10 on the base member 20 are also realized, so that the problems of complicating the structural design in the prior art are effectively solved, the structural design is simplified, and the cost of manufacturing end is reduced.

The above description is illustrative of the utility model and is not to be construed as limiting, and it will be understood by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A hip-rocking saddle, characterized in that it comprises:

the saddle-shaped riding piece is provided with a sitting surface for a user to ride on, the direction facing the user is the front direction, the sitting surface is sequentially provided with a front bridge part, a saddle part and a back saddle part from front to back, the bottom surface of the sitting surface is provided with a spherical surface part protruding downwards, and the spherical surface part is provided with an inner spherical surface, an outer spherical surface and a thickness; wherein the saddle seat part is provided with an arc-shaped groove which is concave downwards, and the arc-shaped groove extends to the inner spherical surface of the spherical surface part;

the base piece is arranged below the saddle-shaped riding piece, the base piece is provided with a spherical surface part protruding downwards and a support part which is arranged below the spherical surface part, and the spherical surface part of the base piece is provided with an inner spherical surface and an outer spherical surface; wherein the top of the base member has a downwardly concave arc-shaped groove, and the arc-shaped groove of the base member extends to the inner sphere of the spherical surface portion of the base member;

the fixing piece is arranged in the arc-shaped groove of the saddle-shaped riding piece, is combined in the arc-shaped groove of the base piece together with the spherical surface part of the saddle-shaped riding piece, is provided with a spherical surface part protruding downwards at the bottom surface of the fixing piece, and is provided with an outer spherical surface; a kind of electronic device with high-pressure air-conditioning system

The safety mechanism consists of a limiting hole and a fixed shaft positioned in the limiting hole, the limiting hole is penetratingly arranged on the spherical surface part of the saddle-shaped riding piece, the fixed shaft is positioned on the outer spherical surface part of the fixed piece, and a certain distance is reserved between the lower end part of the fixed shaft and the outer spherical surface part of the fixed piece;

when the spherical surface part of the saddle-shaped riding piece and the fixing piece are combined in the arc-shaped groove of the base piece, the fixing shaft on the fixing piece passes through the limiting hole of the saddle-shaped riding piece from top to bottom and enables the lower end part of the fixing shaft to be abutted against the inner spherical surface of the base piece, so that the outer spherical surface of the fixing piece is positioned at a distance above the inner spherical surface of the base piece, and a sliding space is formed between the outer spherical surface of the fixing piece and the inner spherical surface of the base piece by the distance;

wherein the thickness of the vertical distance of the sliding space is larger than the thickness of the spherical surface part of the saddle-shaped riding piece, so that the spherical surface part of the saddle-shaped riding piece can be clamped in the sliding space between the fixing piece and the base piece and can swing; wherein the base member and the fixing member remain stationary while the spherical portion of the saddle-shaped seating member swings in the sliding space, the saddle-shaped seating member swings with respect to the base member and the fixing member;

the radial width of the limiting hole of the safety mechanism is larger than that of the fixed shaft, so that a circumferential wall of the limiting hole can encircle the periphery of the fixed shaft in 360 degrees;

when the saddle-shaped riding piece swings, the fixed shaft on the fixed piece is kept motionless, and the limiting hole on the saddle-shaped riding piece swings in any direction of 360 degrees in a ring-shaped way relative to the fixed shaft;

when the limiting hole swings relative to the fixed shaft until the circumferential wall abuts against the fixed shaft, namely, the limiting hole is used for limiting the maximum swing angle of the saddle-shaped riding piece, the circumferential wall performs the maximum swing angle in any direction of 360-degree annular ring relative to the fixed shaft, namely, the limiting hole forms a 360-degree annular ring relative to the fixed shaft to limit the moving range.

2. The hip-rocking saddle of claim 1, wherein: the hip-swing saddle also comprises a locking mechanism, and the base piece and the fixing piece are combined together by the locking mechanism; wherein the locking mechanism is composed of a locking piece and a locked piece; when the locking piece is arranged on the fixing piece, the locked piece is arranged on the base piece; when the locking piece is arranged on the base piece, the locked piece is arranged on the fixing piece.

3. The hip-rocking saddle of claim 1, wherein: the spherical portion of the saddle-shaped seating member is a hemispherical surface.

4. The hip-rocking saddle of claim 1, wherein: the rocking hip saddle comprises a seat cushion for supporting the buttocks of the user, and the seat cushion is arranged on the saddle part of the saddle-shaped seat piece and is used for sealing the arc-shaped groove of the saddle part.

5. The hip-rocking saddle of claim 4, wherein: the saddle part of the saddle-shaped riding piece is combined with the riding pad by a combination mechanism; wherein the combination mechanism is composed of an assembly and an assembled piece; wherein when the assembly is positioned on the seat cushion, the assembled member is positioned on the saddle portion of the saddle-shaped seating member; wherein when the assembled unit is positioned on the seat cushion, the assembled unit is positioned on the saddle portion of the saddle-shaped seating unit.

6. The hip-rocking saddle of claim 1, wherein: the support part of the base part is arranged on a lifting pressure rod of an office chair base so that the hip-rocking saddle seat can be positioned on the office chair base for the user to use.

7. The hip-rocking saddle of claim 1, wherein: the support part of the base part is extended with a chassis part, and the bottom surface of the chassis part is a plane, so that the hip-rocking saddle can be horizontally placed on a cushion of a chair or a ground for the user by the chassis part of the base part.

8. The hip-rocking saddle of claim 1, wherein: the sitting surface of the hip-rocking saddle is provided with a soft part.

9. The hip-rocking saddle of claim 1, wherein: the limiting hole of the safety mechanism is circular.

10. The hip-rocking saddle of claim 1, wherein: the limit hole of the safety mechanism shortens the radial width of the rear part of the limit hole to form a shorter radial width, so that the distance between the circumferential wall of the rear part of the limit hole and the fixed shaft is shortened, and the maximum swing angle in the rear direction in the 360-degree ring type is reduced.