CN209965721U - Load supporter and elastic supporter for ergonomic sitting device - Google Patents

Abstract

The utility model relates to a load supporting body and an elastic supporting body for an ergonomic sitting tool, wherein the load supporting body is a cylindrical supporting sleeve, the supporting sleeve comprises an inner sleeve and an outer sleeve, the inner sleeve and the outer sleeve are fixedly connected through connecting ribs uniformly arranged between the inner sleeve and the outer sleeve along the circumferential direction, and a plurality of slotted holes are arranged on the outer sleeve along the circumferential direction; the elastic support body comprises a load support body and a ball body, and the ball body is elastically deformed when being extruded by external force and is restored to an initial state when the external force disappears; the ball body is tightly wrapped outside the support sleeve and forms a whole with the support sleeve; the utility model discloses a support cover that the load supporter was made for adopting plastics, this support cover is double-deck design, and makes for hard material, and it can cup joint on other pipings through interior sleeve pipe, and the slotted hole of seting up on the outer tube can be convenient for wrap up and support the material of covering and get into wherein to make the connection inseparabler.

Description

Load supporter and elastic supporter for ergonomic sitting device

Technical Field

The utility model relates to a seating furniture field, in particular to a load supporter and elastic support body for seating furniture.

Background

The seat is widely contacted in daily work or life of people, the traditional seat has simpler overall design and single color collocation, basically adopts a three-section combined type structure of a base, a backrest and armrests, and lacks higher visual aesthetic feeling and unique feeling.

In addition, the existing seat often neglects the requirement of flexible posture conversion of a human body when the human body sits in design, and one seat can only meet one sitting mode of the human body, so that the human body is inconvenient to change various sitting postures when sitting, and the human body is inconvenient to move according to certain requirements; people sit in front of a computer for a long time, and only the hands and the brain move, so that the back, the cervical vertebra, the lumbar vertebra and the like are affected.

The technical problem to be solved at present is to design a piece of seating furniture which can meet various sitting postures of people, has better experience feeling when people sit on the seating furniture and is novel in design; in this seat, a support body providing a leaning support function for a human body is a very important part, and the support body is inserted on a tube, and when it is hard to touch in a specific application, the human body feels uncomfortable; if it is relatively flexible, it is difficult to stand on the tube.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model firstly provides a load support body which is convenient to be sleeved with a tubular object, which not only reserves a connecting and filling space for the substances wrapped outside the load support body, but also can meet certain supporting strength; still further, an elastic support body is provided again, this elastic support body has the shape that is different from seat back in the past and models, and it is globular shape, and spheroidal design makes this seat more laminate and lean on the position comparatively comfortable with user's contact site, can satisfy the more posture of sitting of user simultaneously, has solved the problem of the single mode of sitting of current seat, gives the better experience of sitting of user moreover.

The technical scheme of the utility model is realized like this:

a load supporter for ergonomic thing to sit on, the load supporter be a cylindricality support cover, support cover including interior sleeve pipe and outer tube, interior sleeve pipe and outer tube are fixed continuous through the splice bar that evenly sets up including, between the outer tube along circumference, are equipped with a plurality of slotted holes along circumference on the outer tube.

The supporting sleeve is of a double-layer design and made of hard materials, can be sleeved on other tubular objects through the inner sleeve, and can be conveniently filled with substances wrapped outside the supporting sleeve through the slotted hole formed in the outer sleeve, so that the connection is tighter. When in use, the support sleeve can not only play a role of supporting the human body, but also provide stable support through the support sleeve.

Preferably, the slotted holes and the connecting ribs are arranged in a staggered manner; and ribs are formed between every two adjacent slotted holes of the outer sleeve in the circumferential direction. The design ensures that the supporting sleeve has more reasonable structure, more compact layout and better mechanical stability;

preferably, the ribs are provided with outwardly projecting columns. The convex column body is matched with the material wrapped outside the supporting sleeve in an inserting mode, so that the supporting sleeve is connected with external material more stably, and relative movement between the supporting sleeve and the external material is avoided.

Preferably, the support sleeve is integrally formed of a plastic material.

Preferably, a layer of plates is arranged in the inner sleeve in a direction perpendicular to the circumferential direction of the inner sleeve. When the inner sleeve is sleeved with the tubular object, the laminate can be abutted against the upper end of the tubular object to form limiting.

The utility model further provides an elastic supporting body, which comprises the load supporting body and a ball body, wherein the ball body is elastically deformed when being extruded by external force and is restored to the initial state when the external force disappears; the ball body is tightly wrapped outside the support sleeve and forms a whole with the support sleeve, and the surface of the ball body is provided with a hole to at least expose the cavity of the inner sleeve.

Specifically, the elastic support body is in a spherical shape, so that different visual experiences and use experiences are brought to people; the surface of the sphere is provided with a hole to be convenient for splicing and matching with tubular objects such as a back support tube of the seat; the supporting sleeve as a load supporting body plays a supporting role; the ball body plays a role in supporting the human body; the supporting ball is different from the prior plate-shaped seat backrest part, the curve of the ball body is more diversified and is attached to the posture curves of the human body such as backward leaning, left-right leaning and the like, so that the person does not need to perform time-consuming and complex adjustment on the seat when the sitting posture is selected, and the person can find a comfortable sitting posture and a leaning state suitable for the person.

Preferably, the material forming the spheres enters the space between the inner and outer sleeves through the slots. Therefore, the ball body and the support sleeve can be integrated, the connection is firmer, and relative movement cannot occur.

Preferably, the ball body is made of sponge foam with slow rebound mechanical property, and the support sleeve is integrally formed by plastic materials. The supporting sleeve is made of plastic materials, so that the independent processing and production are convenient; the ball body is made of sponge foam, has flexible support and resilience performance, can be integrated with the support sleeve during foaming, and is convenient to further assemble and match with the seat.

Preferably, the shape of the sphere is either a sphere or an ellipsoid. The shape of the sphere can be various, and the sphere and the ellipsoid are adopted, have an arc surface and a curve, and are more beneficial to being in line with human engineering.

Preferably, the support sleeve is located at the lower middle portion within the ball body. Therefore, the upper half part of the ball body is made of sponge, and the support for the human body is more comfortable.

Preferably, the sphere is spherical, and the diameter of the sphere is 25-45 cm. Such size design can guarantee effectively to support the human body to guarantee the travelling comfort.

Adopted above-mentioned technical scheme the utility model discloses a design departure point, theory and beneficial effect are:

the utility model discloses a support cover that the load supporter was made for adopting plastics, this support cover is double-deck design, and makes for hard material, and it can cup joint on other pipings through interior sleeve pipe, and the slotted hole of seting up on the outer tube can be convenient for wrap up and support the material of covering and get into wherein to make the connection inseparabler. When in use, the support sleeve can not only play a role of supporting the human body, but also provide stable support through the support sleeve.

Furthermore, the utility model also provides an elastic supporting body, the elastic supporting body wraps the load supporting body in the elastic supporting body through a sphere, and the spherical shape gives people different visual experience and use experience; the curve of spheroid more diversified with human body lean on backward, about topple over posture curve laminating such as, let the people need not to carry on still need carrying out consuming time, complicated adjustment to the seat when selecting the position of sitting, alright in order to find the comfortable position of sitting and the state of leaning on that is fit for oneself.

Drawings

FIG. 1 is a schematic perspective view of a seat in an embodiment;

FIG. 2 is a schematic perspective view of the embodiment of the present disclosure after the parts of the seat are separated;

FIG. 3 is a schematic perspective view of the embodiment of the table top with the support rod, the connecting member and the screws detached;

FIG. 4 is a schematic perspective view of the combination of the desk support bar and the connecting member without screws in the embodiment;

FIG. 5 is a schematic perspective view of the table, the table connecting member and the table supporting tube after being disassembled in the embodiment;

FIG. 6 is a schematic view of a disassembled partial three-dimensional structure of the shaft sleeve, the hook and the table support tube of the table in the embodiment;

FIG. 7 is a schematic view of a partial three-dimensional structure of the combination of the shaft sleeve of the desk plate, the hook and the desk plate supporting tube in the embodiment;

FIG. 8 is a schematic perspective view of an embodiment of a locking sleeve on a shaft sleeve of a desk plate and not assembled with the shaft sleeve of the desk plate;

FIG. 9 is a schematic perspective view of the locking sleeve on the shaft sleeve of the desk board to be assembled with the shaft sleeve of the desk board in the embodiment;

FIG. 10 is an enlarged view of portion a of FIG. 8;

FIG. 11 is an enlarged view of portion b of FIG. 9;

FIG. 12 is a schematic cross-sectional view of the combination of the ball, the support sleeve and the elbow of the support ball of the embodiment;

FIG. 13 is a perspective view of the support ball and the elbow assembly of the embodiment;

FIG. 14 is a schematic perspective view of the support ball, the support sleeve, the rotation shaft, and the elbow of the embodiment after being disassembled;

FIG. 15 is a schematic cross-sectional view of a support sleeve according to an embodiment;

FIG. 16 is a perspective view of the support sleeve, the rotation shaft and the elbow according to the embodiment;

FIG. 17 is a perspective view of the rotary shaft, the back support tube and the elbow tube of the embodiment;

FIG. 18 is an enlarged view of portion c of FIG. 17;

FIG. 19 is a schematic sectional view showing an inner structure of the support sleeve combined with the rotary shaft in the embodiment;

FIG. 20 is an enlarged view of portion d of FIG. 19;

FIG. 21 is a first perspective view of the support sleeve of the embodiment;

FIG. 22 is a perspective view of the second embodiment of the support sleeve;

FIG. 23 is a top view of the support sleeve of the embodiment;

FIG. 24 is a first perspective view of the seat cushion, the ball pedal, the foot pedal, and the elbow pipe of the embodiment;

FIG. 25 is a second schematic perspective view of the seat cushion, the ball-shaped pedals, the pedal plate and the elbow pipe of the embodiment;

FIG. 26 is a third schematic perspective view of the seat cushion, the ball pedal, the foot pedal, and the elbow pipe of the embodiment;

FIG. 27 is a schematic cross-sectional view of the seat cushion, the ball-type pedals, the foot board, and the elbow pipe of the embodiment;

FIG. 28 is a schematic perspective view of the seat cushion, the seat cushion rotating member, the seat cushion shaft sleeve, the hemisphere, the pedal, the supporting plate and the elbow pipe of the embodiment after being disassembled;

FIG. 29 is a schematic perspective view of the seat cushion, the seat cushion rotating member, the seat cushion shaft sleeve and the elbow pipe in the embodiment, and the hemisphere, the screw, the pedal plate and the support plate are separated;

FIG. 30 is a schematic perspective view of the seat cushion, the seat cushion rotating member, the seat cushion shaft sleeve and the elbow pipe in the embodiment, and the ball pedal, the foot supporting pipe, the foot pedal and the supporting plate are separated;

FIG. 31 is a partial perspective view of an elbow and pallet combination according to an embodiment;

FIG. 32 is a partial perspective view of an embodiment of a mounting plate, elbow and pallet combination;

FIG. 33 is a schematic partial cross-sectional view of an embodiment of a mounting plate, elbow and pallet combination;

1. a base; 2. a cushion; 3. a support ball; 4. bending the pipe; 5. a vertical section; 6. a support leg; 7. a connecting member; 8. A back support tube; 9. a table plate; 10. a table board supporting pipe; 11. a mating surface; 12. a threaded hole; 13. a via hole; 14. a screw; 15. a spacer section; 16. a sphere; 17. a support sleeve; 18. an inner sleeve; 19. an outer sleeve; 20. connecting ribs; 21. a slot; 22. a rib; 23. a cylinder; 24. a rotating shaft; 25. a notch; 26. an elastic sheet; 27. a spherical boss; 28. a circular hole; 29. a clamping head; 30. a clamping part; 31. a hole-layer plate; 32. a cushion portion; 33. a seat cushion rotating member; 34. mounting a disc; 35. a cushion rotating shaft; 36. opening the mouth; 37. a cushion shaft sleeve; 38. ribs; 39. an upper edge; 40. a groove; 41. connecting a threaded hole; 42. a limit screw; 43. the bottom of the tank; 44. a bracket arm; 45. a table board rotating shaft; 46. a table board shaft sleeve; 47. a spring plate; 48. a cylindrical boss; 49. a clamping hole; 50. a locking sleeve; 51. a circular truncated cone; 52. a notch groove; 53 an elastic plate; 54. a foot supporting tube; 55. spherical treading; 56. a hemisphere; 57. a hollow tube; 58. a root portion; 59. a free end; 60. an end plate; 61. a screw hole; 62. a screw; 63. an end cap; 64. a foot pedal; 65. a support plate; 66. A table top connecting piece; 67. hooking; 68. a first bend pipe; 69. a second bend pipe; 70. a third bend; 71. a fourth bend; 72. a fifth bend; 73. a void; 74. a mesopore; 75. a collar; 76. a connector body.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the description of the present invention, the term "at least one" means one or more unless explicitly defined otherwise. The description of the present embodiment regarding the orientation is based on the seat being described in a normally set state or a normally used state.

The specific implementation manner of the utility model is as follows:

the utility model discloses a load supporter and elastic support body are the important component of ergonomic thing to sit on, introduce in detail to ergonomic thing to sit on below:

as shown in fig. 1 and 2, an ergonomic seating device comprises:

the seat comprises a base 1, a plurality of bent pipes 4, a plurality of supporting legs 6 and a plurality of connecting pieces 7, wherein the bent pipes 4 are provided with vertical sections 5, the lower ends of the vertical sections 5 extend outwards, the vertical sections 5 are close to each other, namely are gathered together and are fixedly connected through the connecting pieces 7, the vertical sections 5 keep parallel postures, and the supporting legs 6 are approximately vertical to the vertical sections 5; the connecting piece 7 comprises a connecting piece 7 body, a plurality of matching surfaces 11 used for being attached to the vertical sections 5 of the bent pipes 4 are arranged on the outer side surface of the connecting piece 7 body in the circumferential direction, and threaded holes 12 are prefabricated on the matching surfaces 11; a passage hole 13 is prefabricated on the vertical section 5 of the elbow 4 along the radial direction, and after the side surface of part of the vertical section 5 is attached to the matching surface 11 of the connecting piece 7, a screw 14 is screwed into the threaded hole 12 through the passage hole 13 to realize the connection and fixation of the elbow 4 and the connecting piece 7. Through such a mode, make connecting piece 7 be connected fixedly with a plurality of return bends 4 simultaneously, simple structure is nevertheless very reliable, and the dismouting is more convenient again simultaneously. The matching surfaces 11 are concave arc surfaces, and a spacing part 15 is formed between every two adjacent matching surfaces 11; the connecting piece 7 is surrounded by said vertical sections 5 of the pipe bend 4, and a spacer 15 separates two adjacent vertical sections 5. The vertical sections 5 of the bent pipe 4 are distributed on the periphery of the connecting piece 7, and the connecting piece 7 is clamped in the vertical sections and hidden inside, so that the appearance is attractive; the matching surface 11 on the connecting piece 7 is an inwards concave arc surface, so that on one hand, the connecting piece can be better attached to the bent pipe 4, and the connection is more stable; on the other hand, the vertical sections 5 of the elbow 4 can be closer to each other, so that the whole structure is more compact. The connecting piece 7 is a plate-shaped body, the whole width of the connecting piece 7 is larger than the thickness of the connecting piece 7, and the connecting piece 7 is made of metal materials. This makes the connecting member 7 more compact and can maximally satisfy the connection strength.

In the present embodiment, the base 1 is composed of five bent pipes 4, which are a first bent pipe 68, a second bent pipe 69, a third bent pipe 70, a fourth bent pipe 71, and a fifth bent pipe 72; correspondingly, five matching surfaces 11 are uniformly arranged on the outer side surface of the body of the connecting piece 7 in the circumferential direction. Wherein, the first elbow 68 is used for connecting the cushion 2, the second and third elbows 69 and 70 are used for arranging two supporting balls 3 for leaning on by human body, and the fourth and fifth elbows 71 and 72 are used for arranging two tables 9 for conveniently placing articles;

the first, second, third, fourth, and fifth curved tubes 68, 69, 70, and 71 are similar in structure and are each formed by bending a straight tube, as described in detail below: for example, the first elbow 68 also includes a vertical section 5, the vertical section 5 of the first elbow 68 is rotatably connected to the seat cushion 2, a lower end of the vertical section 5 of the first elbow 68 extends outwards to form a support leg 6, the end of the support leg 6 away from the vertical section 5 extends upwards to form a support leg tube 54, and the support leg tube 54 is provided with a spherical pedal 55.

As shown in fig. 24-30, the seat cushion 2 is disposed above the vertical section 5 of the first elbow 68; the seat cushion 2 is rotatably connected to the vertical section 5 of the first elbow 68. Can facilitate the rotation of the human body when sitting and change different postures for relaxation or activity. The whole cushion 2 is a round cushion. Such a shape design can facilitate the flexible rotation of the seat cushion 2, and the circular seat cushion 2 can flexibly support the upper body and arms of the human body at various angles by matching with the back design of the support ball 3, thereby promoting the blood circulation of the body.

The seat cushion 2 comprises a seat cushion part 32 and a seat cushion rotating part 33, the seat cushion rotating part 33 comprises a mounting disc 34 and a seat cushion rotating shaft 35 which is arranged at the center of the mounting disc 34 and extends outwards along the axial direction, a mounting hole is formed in the mounting disc 34, and the mounting disc 34 and the seat cushion part 32 are fixedly connected through a screw; the upper end of the vertical section 5 of the first elbow 68 for installing and matching with the cushion 2 forms an opening 36, and the cushion rotating shaft 35 is inserted into the vertical section 5 of the first elbow 68 through the opening 36. The cushion 2 is inserted, jointed and sleeved with the first bent pipe 68 through the cushion rotating shaft 35, so that the relative rotation movement of the cushion and the first bent pipe is realized, the structure is simple, and the realization is easy.

The utility model also comprises a cushion shaft sleeve 37 made of plastic or rubber material, the cushion shaft sleeve 37 is sleeved between the cushion rotating shaft 35 and the vertical section 5 of the first elbow 68, and the cushion shaft sleeve 37 is circumferentially fixed with the vertical section 5 of the first elbow 68. This eliminates the gap between the seat cushion pivot 35 and the first bend 68, while avoiding friction and sound due to direct contact between the metal.

The circumferential fixing of the cushion sleeve 37 to the vertical section 5 of the first bend 68 is achieved in that: a plurality of axial ribs 38 are prefabricated on the periphery of the cushion shaft sleeve 37, and the axial ribs 38 are matched with welding seams in the vertical section 5 of the first bent pipe 68 to form a rotation block; the upper end of the cushion collar 37 is flared to form an upper edge 39, and the cushion collar 37 overlaps the opening 36 of the vertical section 5 of the first bend 68 by means of the upper edge 39. This restricts the rotation of the cushion boss 37 as long as the cushion rotation shaft 35 rotates.

The fixation of the cushion rotation shaft 35 in the axial direction is achieved by: the length of the cushion rotating shaft 35 is greater than that of the cushion shaft sleeve 37, a circle of inward-retracted grooves 40 are formed in the circumferential direction of the cushion rotating shaft 35 exposed out of the side wall of the lower portion of the cushion shaft sleeve 37, threaded connecting holes 41 are correspondingly formed in the pipe wall of the vertical section 5 of the first bent pipe 68 inserted into the cushion rotating shaft 35, and a limiting screw 42 is screwed into the threaded connecting holes 41 and then pushed into the grooves 40. The limit screw 42 is pushed into the groove 40, but does not push against the groove bottom 43 of the groove 40, so that the cushion rotating shaft 35 is prevented from being separated upwards on the premise of not interfering the free rotation of the cushion rotating shaft 35.

As shown in fig. 1-2 and 24-30, a foot supporting tube 54 extends upwards from the foot 6, and a spherical pedal 55 is arranged at the upper end of the foot supporting tube 54. Such design can bring the support for shank foot, makes things convenient for the foot to trample, and various angles support people's foot in a flexible way, lets the foot constantly move, promotes blood circulation.

The spherical pedal 55 comprises two hollow hemispheroids 56, a hollow pipe 57 is arranged in each hemispheroid 56, the root 58 of the hollow pipe 57 is planted on the outer wall of the hemispheroid 56, the root 58 of the hollow pipe 57 is open, the free end 59 of the hollow pipe 57 is close to the circle center of the hemispheroid 56, a closed end plate 60 is arranged at the free end 59, and a screw hole 61 is formed in the end plate 60; after the two hemispheroids 56 are combined into a complete sphere, the two hollow tubes 57 are butted and connected with the two end plates 60 through a screw 62 to achieve the fastening purpose, and one hollow tube 57 is sleeved at the upper end of the supporting tube 54. The design can facilitate assembly and disassembly and is more flexible.

The base 58 of the other hollow tube 57 is open with an end cap 63. Thus, the opening at the upper end of the spherical pedal 55 can be covered to form a complete sphere, which is good for beauty and comfort.

Still further, a foot pedal 64 is included, the foot pedal 64 is disposed substantially horizontally, and the foot pedal 64 is disposed below the spherical pedal 55. The pedal plate 64 is plate-shaped, and has different treading feelings compared with the spherical pedal 55, so that various human body choices can be conveniently treaded on the foot supporting object, the operation is more flexible, and the user experience feeling is stronger.

As shown in fig. 25-28 and 31-33, the foot pedal 64 is sleeved on the foot supporting tube 54, a supporting plate 65 is fixed on the foot supporting tube 54, and the foot pedal 64 is arranged on the supporting plate 65; further, the support plate 65 is provided with an assembly hole, and the pedal plate 64 is fixedly connected with the support plate 65 through screws. This makes the footrest 64 smoother and less prone to tilting.

The rest portion of the seat will be described in detail below: as shown in fig. 12 to 14, a support ball 3 which is substantially flexible and which is used for resting support of the upper body of the human body; the upper ends of the vertical sections 5 of the second and third bent pipes 69 and 70 are bent outwards to avoid the seat cushion 2 and extend upwards to form a back support pipe 8, and the support balls 3 are arranged at the upper end of the back support pipe 8.

The upper end of the back support pipe 8 is protruded upward beyond the seat cushion 2 in the vertical direction, and the distance between the back support pipe 8 and the edge of the seat cushion 2 in the horizontal direction is 10cm-25 cm. The length is 15cm in the embodiment, so as to better arrange the support ball 3, and make the support ball 3 fully support the upper body of the human body, and make the leaning more comfortable.

As described above, the number of the back support tubes 8 is two, and the two corresponding support balls 3 are disposed at the rear of the seat cushion 2, so as to fully exert the supporting function and make the sitting feel of the human body more comfortable.

The supporting ball 3 is rotatably connected with the back supporting tube 8. Can make human body above the body especially back and support ball 3 can also freely move when the contact like this, and the autonomous roll can be accomplished to support ball 3, lets the people need not to carry on consuming time, complicated thing to sit on and adjusts, alright in order to find comfortable position of sitting that is fit for oneself and lean on the state

The construction of the support ball 3 will be described in detail below: as shown in fig. 12, the supporting ball 3 includes a ball 16 and a supporting sleeve 17 disposed in the ball 16, the ball 16 is made of sponge foam with slow rebound mechanical properties, and the supporting sleeve 17 is integrally formed of plastic material. The ball 16 is tightly wrapped outside the support sleeve 17 and forms a whole with the support sleeve 17, and the support sleeve 17 is rotatably connected with the back support tube 8. The design is such that the support ball 3 has an elastic support function for the human body when in use, and at the same time, the support sleeve 17 can provide stable support. When in use, the support ball 3 not only has the function of elastic support for the human body, but also can provide stable support through the support sleeve 17; in a specific application, the support ball 3 is wrapped with a cover made of fabric or leather.

Furthermore, the ball 16 is made of sponge foam; the support nature is better, and soft comfortable, can automatic re-setting after the pressurized deformation, has flexible support and resilience performance to can combine together with supporting sleeve 17 during the foaming, conveniently further assemble the cooperation with the thing to sit on, support sleeve 17 and make for plastic materials, convenient independent processing production.

The shape of the support ball 3 is either a sphere or an ellipsoid. The shape of the support ball 3 can be various, and the support ball 3 is a sphere and an ellipsoid, and has an arc surface and a curve, which is more beneficial to conform to human engineering, in this embodiment, the support ball 3 is a sphere, and the diameter of the support ball 3 is 25-45 cm. Such size design can guarantee effectively to support the human body to guarantee the travelling comfort.

As shown in fig. 15, 16,19-23, the support sleeve 17 comprises an inner sleeve 18 and an outer sleeve 19, the inner sleeve 18 and the outer sleeve 19 are fixedly connected by a connecting rib 20 uniformly arranged between the inner sleeve 18 and the outer sleeve 19 along the circumferential direction, a plurality of slots 21 are arranged on the outer sleeve 19 along the circumferential direction, a substance forming the ball 16, namely sponge, enters a gap 73 between the inner sleeve 19 and the outer sleeve 19 through the slots 21, and the inner sleeve 18 is sleeved with the back support tube 8. The supporting sleeve 17 is designed in a double-layer mode, the inner sleeve 18 is used for being inserted into the back supporting tube 8, the outer sleeve 19 is used for being matched with the ball 16 in a supporting mode, and meanwhile materials forming the ball 16, namely sponge, enter gaps or spaces between the inner sleeve 19 and the outer sleeve 19, namely the ball 16 and the supporting sleeve 17 form a whole, are fixed in the circumferential direction and rotate synchronously.

The slotted holes 21 and the connecting ribs 20 are arranged in a staggered manner; and in the circumferential direction, ribs 22 are formed between every two adjacent slotted holes 21 of the outer sleeve 19, convex columns 23 are arranged on the ribs 22, and the columns 23 are inserted in the ball 16. The design ensures that the supporting sleeve 17 has more reasonable structure, more compact layout and better mechanical stability; the convex column 23 is inserted and matched with the ball 16, so that the support sleeve 17 is connected with the ball 16 more stably, and the relative movement between the two is avoided.

As shown in fig. 14, 16, 17 and 18, the back support tube 8 further comprises a rotating shaft 24, the rotating shaft 24 is hollow inside and has a closed upper end, the rotating shaft 24 is sleeved with the back support tube 8, and the rotating shaft 24 and the back support tube are fixedly connected in the circumferential direction and the axial direction;

the axial fixed connection of the rotary shaft 24 to the back support tube 8 is realized in such a way that: a clamping joint 29 is arranged at the center of the upper end of the rotating shaft 24, and a multi-flap elastic clamping part 30 is formed on the clamping joint 29 in a groove manner; a perforated layer plate 31 is transversely arranged in the inner cavity of the inner sleeve 18, when the inner sleeve 18 is sleeved with the rotating shaft 24, the clamping connector 29 deforms and slides through a middle hole 74 in the center of the perforated layer plate 31, and at the moment, the elastic clamping part 30 restores to the original state and clamps the perforated layer plate 31. The rotating shaft 24 can provide rotating support for the support sleeve 17, and can restrain the support ball 3 in the axial direction through the clamping joint 29 at the upper end to prevent the support ball 3 from falling off in use; when the support ball needs to be disassembled, the support ball 3 and the support sleeve 17 can be elastically deformed and separated through the clamping joint 29 only by applying a reverse force.

The fixed connection of the rotation axis 24 to the back support tube 8 in the circumferential direction is realized in such a way that: the side wall of the lower end of the rotating shaft 24 is prefabricated with a non-through notch 25 to form an elastic sheet 26, the inner side of the movable end of the elastic sheet 26 is provided with a spherical boss 27, and a round hole 28 is prefabricated at the corresponding position of the side wall of the back support tube 8; when the rotating shaft 24 is sleeved in the back support tube 8, the spherical boss 27 is extruded and expanded, and when the sliding continues to the round hole 28, the elastic sheet 26 releases the elastic force to clamp the spherical boss 27 in the round hole 28. The rotary shaft 24 may be made of plastic or rubber material, and is constructed such that the rotary shaft 24 and the back support pipe 8 are connected together without being easily separated.

In this embodiment, the seat further includes a table plate 9, which is substantially horizontally disposed, the upper ends of the vertical sections 5 of the fourth and fifth elbows 71 and 72 are bent outwards to avoid the seat cushion 2 and extend upwards to form a table plate supporting tube 10, and the table plate 9 is connected to the upper end of the table plate supporting tube 10.

As shown in fig. 3-11, the table connecting device 66 further includes a table connecting member 66, where the table connecting member 66 includes a supporting arm 44 and a table rotating shaft 45 connected to the supporting arm 44, and the table rotating shaft 45 is substantially perpendicular to the supporting arm 44; the table plate 9 is connected with the supporting arm 44, and the table plate rotating shaft 45 is rotatably connected with the table plate supporting pipe 10. The desk plate 9 is arranged on the supporting arm 44, and the desk plate and the supporting arm can rotate around the desk plate rotating shaft 45 together, so that the desk plate 9 can be conveniently moved to a desired position when in use; when not in use, the desk plate 9 is pushed aside, so that a human body can conveniently sit or leave.

As shown in fig. 5-7, the table top support structure further includes a table top shaft sleeve 46, the table top shaft sleeve 46 is sleeved between the table top rotating shaft 45 and the table top support pipe 10, and the table top shaft sleeve 46 and the table top support pipe 10 are circumferentially fixed. Thus, the gap between the table board rotating shaft 45 and the fourth and fifth bent pipes 71 and 72 can be eliminated, and the table board 9 can rotate more smoothly and stably. The table cover 46 is made of plastic or rubber material, so that friction and sound caused by direct contact between metals can be avoided.

The circumferential fixation of the table sleeve 46 to the table support tube 10 is realized in such a way that: the side wall of the table plate shaft sleeve 46 is prefabricated with a non-through notch to form an elastic sheet 47, the outer side of the movable end of the elastic sheet 47 is provided with a cylindrical boss 48, and a clamping hole 49 is prefabricated at the corresponding position of the pipe wall of the table plate supporting pipe 10; when the table cover 46 is sleeved in the table support tube 10, the column-shaped boss 48 is squeezed to make the elastic sheet 47 contract inwards, and when the column-shaped boss 48 continues to slide to the clamping hole 49, the elastic sheet 47 releases the elastic force to clamp the column-shaped boss 48 into the clamping hole 49. Therefore, the circumferential fixed connection between the table board shaft sleeve 46 and the table board supporting tube 10 is realized, the two can not rotate relatively, and the fixation of the two in the axial direction is realized at the same time

The restriction of the extraction of the table support tube 10 is achieved by: a locking sleeve 50 with internal threads is also included; a truncated cone body 51 with an external thread is formed at the upper part of the table board shaft sleeve 46, a plurality of longitudinally arranged notch grooves 52 are formed on the truncated cone body 51 along the circumferential direction to form a plurality of elastic plates 53, and the locking sleeve 50 is in threaded fit with the truncated cone body 51; after the table board rotating shaft 45 is simultaneously inserted into the locking sleeve 50 and the table board shaft sleeve 46, the upper part of the table board shaft sleeve 46 is tightened by screwing the locking sleeve 50, and then the table board rotating shaft 45 is tightly held. When the locking sleeve 50 is screwed down, the elastic plate 53 is contracted to tightly hold the table board rotating shaft 45, and the table board rotating shaft 45 is prevented from being separated upwards under the action of friction force; but does not prevent the table board rotating shaft 45 from rotating; when the desk is required to be disassembled, the locking sleeve 50 is loosened, the elastic plate 53 is also loosened, and the desk rotating shaft 45 is loosened to be pulled out upwards.

Still further, still include the couple 67 that has the lantern ring 75, couple 67 is in the upper portion of table support pipe 10 with the help of lantern ring 75 cover, blocks under the round platform body 51 of table axle sleeve 46, and the convenience is used for this seat user to hang a small amount of article.

The whole ergonomic health seat of the utility model is in a tree shape, has novel and ingenious design, and adopts a plurality of bent pipes to connect and fix to form a main body similar to a tree trunk; meanwhile, the lower end of the elbow extends outwards to form supporting legs similar to tree roots, the upper end of the elbow extends outwards to form a chair back and a table board supporting tube similar to branches, the concept of nature is integrated, and the elbow is designed and used according to human engineering, so that people can sit more relaxed, and can find a sitting posture suitable for themselves without complex adjustment.

The above description of the solution according to the invention with the help of preferred embodiments is illustrative and not restrictive. On the basis of the above embodiments, a person skilled in the art may modify the technical solutions described in the embodiments, or may substitute part of the technical features of the embodiments; and all such modifications and substitutions are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (11)

1. A load support for an ergonomic chair characterized by: the load support body is a cylindrical support sleeve, the support sleeve comprises an inner sleeve and an outer sleeve, the inner sleeve and the outer sleeve are fixedly connected through connecting ribs uniformly arranged between the inner sleeve and the outer sleeve along the circumferential direction, and a plurality of slotted holes are formed in the outer sleeve along the circumferential direction.

2. The load support according to claim 1, wherein: in the circumferential direction, the slotted holes and the connecting ribs are arranged in a staggered manner; and ribs are formed between every two adjacent slotted holes of the outer sleeve in the circumferential direction.

3. The load support according to claim 2, wherein: the ribs are provided with outward convex columns.

4. The load support according to claim 1, wherein: the support sleeve is made of plastic materials and is integrally formed.

5. The load support according to claim 1, wherein: a layer plate is arranged in the inner sleeve along the direction vertical to the circumferential direction of the inner sleeve.

6. An elastic support body, characterized in that: comprising a load support according to any one of claims 1-5 and a ball which is elastically deformed when pressed by an external force and which returns to its original state when the external force is removed; the ball body is tightly wrapped outside the support sleeve and forms a whole with the support sleeve, and the surface of the ball body is provided with a hole to at least expose the cavity of the inner sleeve.

7. The resilient support body of claim 6, wherein: the material forming the ball body enters the gap between the inner sleeve and the outer sleeve through the slotted hole.

8. The resilient support body of claim 6, wherein: the ball body is made of sponge foam with slow rebound mechanical property.

9. The resilient support body of claim 6, wherein: the support sleeve is located at the middle lower part in the ball body.

10. The resilient support body of claim 6, wherein: the shape of the sphere is any one of a sphere or an ellipsoid.

11. The resilient support body of claim 10, wherein: the sphere is spherical, and the diameter of the sphere is 25-45 cm.

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