CN110822043A - Chair frame and rack assembly thereof - Google Patents

Abstract

The invention discloses a chair frame and a rack component thereof, comprising a chair back fixing piece, a chair seat fixing piece, a lower guide rail fixedly connected with the chair seat fixing piece or integrally formed, an upper guide rail fixedly connected with the chair back fixing piece or integrally formed, an upper rack, an upper movable rack, a lower movable rack, a gap bridge rack and a tension spring, wherein the lower rack is slidably arranged on the lower guide rail; the upper moving rack, the gap bridge rack and the lower moving rack are distributed in a staggered manner, the lower rack, the lower moving rack, the upper moving rack and the upper rack are sequentially hinged, and the lower moving rack and the upper moving rack are also hinged with the gap bridge rack at the same hinged position; even make the contained angle at rack subassembly both ends change through this technical scheme, also can make the device of taking the gear pass through like massage core smoothly.

Description

Chair frame and rack assembly thereof

Technical Field

The invention relates to the technical field of furniture, in particular to a chair frame and a rack assembly thereof.

Background

The prior massage chair comprises a massage chair framework and a massage device, wherein a guide rail is arranged on the massage chair framework, the massage device comprises a walking bracket, the walking bracket can slide up and down along the guide rail, a kneading component for kneading a human body and a knocking component for knocking the human body are arranged on the walking bracket, a walking component for driving the walking bracket to move along the guide rail is arranged between the walking bracket and the guide rail, the walking component comprises a driving walking shaft, a walking roller, a walking gear and a walking motor, the driving walking shaft is rotationally arranged on the walking bracket, the walking motor is fixedly arranged on the walking bracket, the driving walking shaft is driven to rotate, the walking roller is arranged at the end part of the driving walking shaft and can roll along the guide rail, the walking gear is arranged beside the walking roller, the guide rail is provided with a rack meshed with the walking gear, and the walking motor drives the walking gear to rotate, so that the walking bracket can be driven to slide up and down along the guide rail.

Guide rail and rack on this type of massage armchair are continuous, the back skeleton of massage armchair and the seat skeleton fixed connection of massage armchair, however can carry out angle regulation's massage armchair to the back skeleton, because the back skeleton needs the upset to be adjusted, guide rail and rack on back skeleton and the seat skeleton do not have the continuity, back skeleton upset angle regulation back, walking bracket is difficult to slide to the seat skeleton on or from the seat skeleton on slide to the back skeleton on, adopt usually in order to solve this problem: firstly, two groups of massage devices are arranged to realize massage on both the backrest framework and the seat framework, but the cost is increased; secondly, only the backrest framework or the seat framework is provided with the massage device, but the massage scope is reduced and the massage effect is poor.

Therefore, chinese patent publication No. CN107334617A discloses a massage chair movement traveling mechanism, which includes an outer frame composed of an upper slide rail and a lower slide rail, wherein two ends of a massage mechanism with a power device are erected on rail grooves on the inner side of the outer frame, two inner sides of the upper slide rail and the lower slide rail are both laid with curved racks and hinged with each other, and the side portions of the upper slide rail and the lower slide rail are L-shaped with adjustable angles; the massage machine core transmits the rotary power to the walking gears at two sides through the speed reducing mechanism, and the walking gears are meshed with the curve racks, so that the massage machine core can walk in the outer frame in a reciprocating manner by taking the curve racks as tracks, and the massage machine core can walk effectively and reliably; however, in the rotating process of the lower slide rail and the upper slide rail, the part of the curved rack close to the hinged part of the lower slide rail and the upper slide rail is the part with the largest deformation, and the tooth pitch at the part can also change, so that the matching precision of the walking gear and the curved rack is seriously influenced.

In addition, the upper sliding rail and the lower sliding rail rotate oppositely or away from each other to realize angle adjustment through the stretching of the electric cylinder, but when the included angle between the seat and the horizontal plane is too large, a human body sitting on the seat can slide backwards and downwards to further influence the massage comfort of the human body.

Therefore, chinese patent document with publication number CN209092109U discloses a massage chair, including a massage chair frame and a massage device, the massage device includes a walking support, a massage component and a walking component, the massage chair frame includes a backrest frame and a seat frame, the backrest frame is provided with a backrest guide rail, the seat frame is provided with a seat frame guide rail, the backrest guide rail is provided with a backrest rack, the seat frame guide rail is provided with a seat frame rack corresponding to the backrest rack, a reversing element is rotatably provided between the backrest frame and the seat frame, the reversing element is provided with a transition rack, the transition rack is respectively arranged to be staggered with the seat frame rack and the backrest rack, the walking component includes a first walking shaft and a second walking shaft, the first walking shaft is provided with a first rack capable of meshing with the backrest rack and the transition rack, and the second walking shaft is provided with a collision element for driving the reversing element to overturn. Adopt above-mentioned scheme, its angle of adjustable back skeleton, massage device can reciprocate between back skeleton and seat skeleton and slide, the massage function has, and at this in-process, lean on a rack, seat frame rack and transition rack do not take place deformation, can not influence the cooperation precision of walking gear and curve rack, nevertheless when massage device passes through the transition rack, all can make the transition rack deflect, and the transition rack only stops just to make massage device pass through smoothly at the assigned position, therefore, when transition rack gyration in-process not with lean on a rack or seat frame rack cooperation, just can make massage device block.

In addition, the seat framework in the device is immobile, and the backrest framework rotates to realize angle adjustment through the extension and retraction of the electric push rod, so that the technical problem that the massage comfort degree is reduced due to the inclination of the seat part is solved, but obviously, the support of the whole backrest framework can only be realized by the electric push rod, and the support of the backrest framework is unstable due to the scalability of the electric push rod.

Disclosure of Invention

In order to solve the first technical problem, the present invention provides a chair frame and a rack assembly thereof, which can enable a device with a gear, such as a massage machine core, to pass through smoothly even if an included angle between two ends of the rack assembly changes.

In order to achieve the purpose, the invention adopts the following technical scheme:

a rack component is characterized by comprising a chair back fixing piece, a chair seat fixing piece, a lower guide rail and an upper guide rail, wherein the chair back fixing piece and the chair seat fixing piece are hinged with each other, the lower guide rail is fixedly connected with the chair seat fixing piece or integrally formed with the chair seat fixing piece, the upper guide rail is fixedly connected with the chair back fixing piece or integrally formed with the chair back fixing piece,

the adjusting device is used for adjusting an included angle between the upper guide rail and the lower guide rail;

the lower rack is slidably mounted on the lower guide rail, the upper rack is fixedly connected with the upper guide rail, one end of the tension spring is connected with one end, far away from the upper guide rail, of the lower guide rail, and the other end of the tension spring is connected with the lower rack; the upper moving rack, the gap bridge rack and the lower moving rack are distributed in a staggered mode, the lower rack, the lower moving rack, the upper moving rack and the upper rack are sequentially hinged, and the lower moving rack and the upper moving rack are hinged to the gap bridge rack at the same hinged position.

Preferably, the rack component further comprises a hinge shaft A, a hinge shaft B and a hinge shaft C which are parallel to each other, one end, close to the upper rack, of the lower rack is hinged to the middle section of the lower moving rack through the hinge shaft A, one end, close to the lower rack, of the upper rack is hinged to the middle section of the upper moving rack through the hinge shaft B, the lower moving rack and the upper moving rack are hinged to the two ends, close to each other, through the hinge shaft C, and the hinge shaft C is mounted in the middle section of the bridge rack.

Preferably, the middle part of the side surface of the lower movable rack is provided with a first hinge hole, the hinge shaft A penetrates through the first hinge hole and is installed on the lower rack, the upper surface of the lower movable rack is divided into a first transition area and a first rack area by taking a surface which is perpendicular to the surface and coincides with the central line of the first hinge hole as a boundary, the outer end of the first rack area is hinged with the upper movable rack and the bridging rack, the first transition area is a smooth surface and is distributed with the lower rack in a staggered manner, and the first transition area gradually descends along the direction away from the first rack area.

Preferably, the middle part of the side surface of the upper movable rack is provided with a second hinge hole, the hinge shaft B penetrates through the first hinge hole and is installed on the upper rack, the upper surface of the upper movable rack is divided into a second transition area and a second rack area by taking a surface which is perpendicular to the surface and coincides with the central line of the second hinge hole as a boundary, the outer end of the second rack area is hinged with the lower movable rack and the gap bridge rack, the second transition area is a smooth surface and is distributed with the upper rack in a staggered manner, and the second transition area gradually descends along the direction far away from the second rack area.

Preferably, a plurality of first common teeth and a first transition tooth are arranged on the first rack area, the first transition tooth is close to the first transition area, the first transition tooth is lower than the first common teeth, and the upper surface of the first transition tooth is a circular arc surface;

the second rack area is provided with a plurality of second common teeth and a second transition tooth, the second transition tooth is close to the second transition area, the second transition tooth is lower than the second common teeth, and the upper surface of the second transition tooth is a circular arc surface.

Preferably, a third hinge hole is formed in the middle of the side face of the bridge rack, the hinge shaft C penetrates through the third hinge hole and the upper moving rack and the lower moving rack, the upper surface of the bridge rack comprises a third rack area located in the middle and third transition areas located on two sides of the third rack area, and the third transition areas are smooth surfaces and gradually descend along the direction far away from the third rack area.

Preferably, a first limiting portion and a second limiting portion are arranged at two ends of the third transition area, the first limiting portion can touch the lower moving rack in the rotation process of the bridge rack, and the second limiting portion can touch the upper moving rack in the rotation process of the bridge rack in the other direction.

Preferably, the lower guide rail is further provided with two fixed seats, the fixed seats are provided with elastic pieces, the top ends of the elastic pieces abut against the lower surface of the lower movable rack, and the two elastic pieces are respectively positioned on two sides of the first hinge hole;

one end of the first transition area, which is far away from the first rack area, is positioned below the lower rack and abuts against the lower surface of the lower rack under the action of the two elastic pieces.

Preferably, a first mounting groove and a second mounting groove which are opposite in direction are arranged at the hinged position of the upper movable rack and the lower movable rack, the first mounting groove is positioned on the upper movable rack, and the second mounting groove is positioned on the lower movable rack; the first mounting groove and the second mounting groove form an inverted V-shaped structure together;

still be equipped with the torsional spring, torsional spring one end is located first mounting groove, and the other end is located the second mounting groove.

A chair frame comprising a rack assembly as described above.

The invention has the technical effects that:

1) even if the included angle of the two ends of the rack component is changed, a device with a gear, such as a massage machine core, can pass through smoothly.

Drawings

FIG. 1 is a schematic view of a chair frame according to the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a schematic structural diagram of the chassis and the driving mechanism according to the present invention;

FIG. 4 is a schematic structural view of the rack assembly of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a schematic partially exploded view of FIG. 5;

FIG. 7 is a schematic structural view of a gap bridge rack of the present invention;

FIG. 8 is a schematic structural view of the upper moving rack of the present invention;

FIG. 9 is a schematic view of the construction of the lower rack of the present invention;

FIG. 10 is a schematic view of the construction of the lower moving rack of the present invention;

fig. 11 is a rear view of fig. 10.

Description of reference numerals: 1. a chassis; 2. an adjustment device; 3. a back of chair frame; 4. a chair seat frame; 5. a massage device; 51. a massage machine core; 31. a chair back fixing piece; 32. an upper guide rail; 33. a chair back support bar; 41. a seat fixing member; 42. a lower guide rail; 52. An upper rack; 53. an upper moving rack; 54. a lower rack; 55. a lower moving rack; 56. a gap bridge rack; 57. a tension spring; 321. an upper guide groove; 421. a lower guide groove; 21. a drive motor; 22. a linear groove; 23. a traveling slide block; 24. a main support; 25. a roller groove; 26. a first drive lever; 27. a second drive lever; 28. a first driven lever; 29. a cross bar; 551. a first hinge hole; 552. A first transition zone; 553. a first rack area; 5531. a first common tooth; 5532. a first transition tooth; 531. a second hinge hole; 532. a second transition zone; 533. a second rack region; 5331. a second common tooth; 5332. a second transition tooth; 561. a third hinge hole; 562. a third rack area; 563. a third transition zone; 5631. a first limiting part; 5632. a second limiting part; 422. A chute; 423. an elastic member; 534. a first mounting groove; 554. a second mounting groove; 20. a torsion spring; 6. a detection device; 511. A traveling gear; 512. a guide wheel.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The first embodiment is as follows:

a chair frame as shown in fig. 1 and 2, which comprises a bottom frame 1, an adjusting device 2, a back frame 3 and a chair seat frame 4, and a massage device 5 arranged on the back frame 3 and the chair seat frame 4, wherein the back frame 3 and the chair seat frame 4 are hinged, the adjusting device 2 is used for adjusting the included angle between the back frame 3 and the chair seat frame 4, the massage device 5 comprises a rack assembly arranged on the back frame 3 and the chair seat frame 4, and a massage machine core 51 capable of walking on the rack assembly in a reciprocating manner;

the chair back frame 3 comprises a left chair back fixing part 31, a right chair back fixing part 31, a left upper guide rail 32, a right upper guide rail 32 and a plurality of parallel chair back support rods 33, the chair seat frame 4 comprises a left chair seat fixing part 41, a right chair seat fixing part 41 and a left lower guide rail 42, the upper guide rail 32 is integrally formed or fixedly connected with the chair back fixing part 31, the lower guide rail 42 is integrally formed or fixedly connected with the chair seat fixing part 41, two ends of the chair back support rod 33 are fixedly connected with the left chair back fixing part 31, the right chair back fixing part 31 and the upper guide rail 32 respectively, and the chair back fixing part;

the chair back fixing piece 31 and the chair frame fixing piece are movably arranged on the underframe 1 through the adjusting device 2;

the adjusting device 2 comprises a driving mechanism and a left and a right link mechanisms, the driving mechanism is arranged on the bottom frame 1, the link mechanisms are arranged on the seat fixing piece 41 and the chair back fixing piece 31, and the driving mechanism drives the chair seat frame 4 to move in a reciprocating manner in the horizontal direction and drives the chair back frame 3 to rotate through the link mechanisms;

as shown in fig. 4, 5 and 6, the rack assembly includes an upper rack 52, an upper moving rack 53, a lower rack 54 and a lower moving rack 55 shown in fig. 9, and a bridge rack 56 and a tension spring 57, the lower rack 54 is slidably mounted on the lower rail 42, the upper rack 52 is fixedly connected with the upper rail 32, one end of the tension spring 57 is connected with one end of the lower rail 42 far away from the upper rail 32, and the other end is connected with the lower rack 54; the upper moving rack 53, the gap bridge rack 56 and the lower moving rack 55 are distributed in a staggered manner, the lower rack 54, the lower moving rack 55, the upper moving rack 53 and the upper rack 52 are sequentially hinged, and the lower moving rack 55 and the upper moving rack 53 are also hinged with the gap bridge rack 56 at the same hinged position.

This is because, when the angle of the seat frame is adjusted, a relatively large relative displacement is generated between the seat frame 4 and the back frame 3, and only a relatively small relative displacement is allowed to be generated between the rack assemblies, so that the relatively large relative displacement generated between the seat frame 4 and the back frame 3 is alleviated by the slidable movement of the upper rack 52 or the lower rack 54, and the change in curvature of the rack assembly composed of the upper rack 52, the upper moving rack 53, the lower rack 54, the lower moving rack 55, and the bridge rack 56 is reduced, and the massage movement 51 can smoothly move back and forth between the seat frame 4 and the back frame 3 by the cooperation of the lower moving rack 55, the upper moving rack 53, and the bridge rack 56.

The tension spring 57 is provided so that the sliding distance of the lower rack 54 is limited to avoid derailment when the massage movement 51 passes through the lower rack 55, the bridge rack 56 and the upper rack 53, and in addition, when the massage movement 51 passes through the lower rack 55, the bridge rack 56 and the upper rack 53, the lower rack 55 and the upper rack 53 are adjusted by matching with the massage movement 51, and the tension spring 57 is provided so that the lower rack 55 and the upper rack 53 have an adjustment space.

It should be noted that the upper rack 52 is slidably mounted on the back frame 3, and the lower rack 54 is fixedly connected to the seat frame 4.

The upper guide rail 32 is provided with an upper guide groove 321, the lower guide rail 42 is provided with a lower guide groove 421, and when the driving mechanism drives the seat frame 4 to reciprocate in the horizontal direction to adjust the included angle between the seat back frame 3 and the seat frame 4, one end of the upper guide groove 321 close to the seat frame 4 and one end of the lower guide groove 421 close to the seat back frame 3 are always connected in the rotation process of the seat back frame 3; further preferably, the upper guide groove 321 includes an upper straight line groove 22 and an upper arc line groove, the lower guide groove 421 includes a lower straight line groove 22 and a lower arc line groove, the upper arc line groove and the lower arc line groove are both distributed in a staggered manner with the hinge point a of the chair back fixing member 31 and the chair seat fixing member 41 as a circle center, and the upper arc line groove and the lower arc line groove jointly form a transition groove, so that the massage movement 51 can smoothly pass through the upper arc line groove and the lower arc line groove.

As shown in fig. 3, the driving mechanism comprises a supporting component and a driving device, wherein the supporting component is mounted on the underframe 1, the seat frame 4 is fixedly mounted on the supporting component, and the driving device drives the supporting component to reciprocate along the underframe 1; further preferably, the driving device may be a cylinder, a hydraulic cylinder, an electric push rod or a linear driver or other similar driving devices, the support assembly includes a main support 24, a plurality of rollers installed at two sides of the bottom of the main support 24, and a left roller groove 25 and a right roller groove 25 fixed on the bottom frame 1 and having the same direction with the bottom frame 1, the seat is fixedly connected with or integrally formed with the main support 24, and the driving device drives the rollers at two sides of the main support 24 to reciprocate along the roller grooves 25; in addition, in other embodiments, a slider may be used instead of a roller.

In the embodiment of the application, the driving device is a linear driver, and includes a driving motor 21, a linear slot 22 and a traveling slider 23, the traveling slider 23 is driven by the driving motor 21 to slide on the linear slot 22 in a reciprocating manner, the driving motor 21 and the linear slot 22 are fixedly mounted on the base frame 1, and the traveling slider 23 is fixedly connected with the support assembly.

The upper surfaces of the two sides of the main support 24 are provided with a plurality of positioning columns and mounting holes which are uniformly distributed, the lower surface of the seat fixing piece 41 is provided with positioning holes matched with the positioning columns and long holes corresponding to the mounting holes, and the seat fixing piece 41 is fixed on the main support 24 through bolt pieces.

The link mechanism includes first actuating lever 26, second actuating lever 27 and first driven lever 28, the one end of first actuating lever 26 with seat support mounting 41 with pin joint B articulated just first actuating lever 26 is articulated in pin joint E with second actuating lever 27, the second actuating lever 27 other end is articulated in pin joint C with back of the chair mounting 31, first driven lever 28 bottom is articulated with chassis 1, and the top is articulated in pin joint D with back of the chair mounting 31, pin joint D is higher than pin joint E, pin joint B and pin joint C all the time at the rotation in-process that uses pin joint A as rotation center.

The chair back frame comprises a chair seat frame 4 and a first driving rod 26, and is characterized by further comprising a horizontal rod 29 and a horizontal rod 29, wherein the horizontal rod 29 is positioned in front of the chair seat frame 4, the first driving rod 26 further comprises a foot placing part, two ends of the horizontal rod 29 are installed at the outer ends of the left and right foot placing parts, an included angle is formed between the foot placing part and a straight line passing through a hinge point B and a hinge point E, when a driving mechanism drives the included angle between the chair seat frame 4 and the chair back frame 3 to be increased, the first driving rod 26 drives the horizontal rod 29 to rotate upwards, and when the driving mechanism drives the included angle between the chair seat frame 4 and the chair back frame 3 to; further preferably, the hinge point E is lower than the hinge point B.

It should be noted that the hinge point E is lower than the hinge point B if and only if the cross bar 29 and the first driving rod 26 are provided to form a leg rest, and that the hinge point E and the hinge point B have no positional relationship when the leg rest is no longer required in the present application.

The rack component further comprises a hinge shaft A, a hinge shaft B and a hinge shaft C which are parallel to each other, one end of the lower rack 54 close to the upper rack 52 is hinged to the middle section of the lower moving rack 55 through the hinge shaft A, one end of the upper rack 52 close to the lower rack 54 is hinged to the middle section of the upper moving rack 53 through the hinge shaft B, the lower moving rack 55 and the upper moving rack are hinged to the two ends close to each other through the hinge shaft C, and the hinge shaft C is mounted in the middle section of the bridge-crossing rack 56.

As shown in fig. 10 and 11, a first hinge hole 551 is formed in a lateral middle portion of the lower rack 55, the hinge axis a passes through the first hinge hole 551 and is mounted on the lower rack 54, an upper surface of the lower rack 55 is divided into a first transition region 552 and a first rack region 553 by a plane perpendicular to the surface and coinciding with a center line of the first hinge hole 551, an outer end of the first rack region 553 is hinged to the upper rack 53 and the bridge rack 56, the first transition region 552 is smooth and is arranged to be offset from the lower rack 54, and the first transition region 552 is gradually lowered in a direction away from the first rack region 553; thus, when the massage movement 51 moves from the lower rack 54 to the upper rack 52, the massage movement 51 will not be jammed because the first transition region 552 is higher than the lower rack 54, and if the first transition region 552 and the first rack region 553 are not defined by a plane perpendicular to the upper surface of the lower moving rack 55 and coinciding with the center line of the first hinge hole 551, a blank region of the massage movement 51 occurs in the transmission with the rack assembly, resulting in a transmission failure.

The first rack area 553 is provided with a plurality of first common teeth 5531 and a first transition tooth 5532, the first transition tooth 5532 is close to the first transition area 552, the first transition tooth 5532 is lower than the first common teeth 5531, and the upper surface is a circular arc surface. When the back frame 3 and the seat frame 4 are at different angles, the pitch between the first transition teeth 5532 and the common teeth on the lower rack 54 will be slightly changed, so that the massage machine core 51 can be well transited between the lower rack 54 and the lower rack 55 by reducing the height of the first transition teeth 5532 and forming the upper surface into a circular arc surface.

As shown in fig. 8, a second hinge hole 531 is formed in a middle portion of a side surface of the upper moving rack 53, the hinge shaft B passes through the first hinge hole 551 and is mounted on the upper rack 52, an upper surface of the upper moving rack 53 is divided into a second transition region 532 and a second rack region 533 by a plane perpendicular to the surface and coinciding with a center line of the second hinge hole 531, an outer end of the second rack region 533 is hinged to the lower moving rack 55 and the bridge rack 56, the second transition region 532 is smooth and is distributed in a staggered manner with the upper rack 52, and the second transition region 532 gradually descends in a direction away from the second rack region 533; therefore, when the massage movement 51 moves from the upper rack 52 to the lower rack 54, the second transition region 532 is higher than the upper rack 52, so that the massage movement 51 is not jammed, and if the second transition region 532 and the second rack region 533 are not distinguished by a plane which is perpendicular to the upper surface of the upper moving rack 53 and is overlapped with the central line of the second hinge hole 531, a blank region occurs in the transmission of the massage movement 51 and the rack assembly, so that the transmission is disabled.

The second rack area 533 is provided with a plurality of second common teeth 5331 and a second transition tooth 5332, the second transition tooth 5332 is close to the second transition area 532, the second transition tooth 5332 is lower than the second common teeth 5331, and the upper surface is an arc surface.

As shown in fig. 7, a third hinge hole 561 is formed in the middle portion of the side surface of the bridge-passing rack 56, the hinge shaft C passes through the third hinge hole 561 and the upper moving rack 53 and the lower moving rack 55, the upper surface of the bridge-passing rack 56 includes a third rack area 562 located in the middle portion, and third transition areas 563 located on both sides of the third rack area 562, and the third transition areas 563 are smooth surfaces and gradually decrease in the direction away from the third rack area 562; thus, when the massage machine core 51 reciprocates between the upper rack 52 and the lower rack 54, the massage machine core 51 is not jammed because the third transition area 563 is higher than the upper moving rack 53 or the lower moving rack 55.

A first limiting part 5631 and a second limiting part 5632 are arranged at two ends of the third transition region 563, the first limiting part 5631 can touch the lower moving rack 55 in the rotation process of the bridge rack 56, and the second limiting part 5632 can touch the upper moving rack 53 in the rotation process of the bridge rack 56 in the other direction; the arrangement can control the rotation amplitude of the gap bridge rack 56.

In other embodiments, the torsion spring 20 can be disposed between the carrier rack 56 and the hinge axis C to limit the rotation amplitude of the carrier rack 56 and also to reset the carrier rack 56.

In the embodiment of the present application, a sliding groove 422 parallel to the lower linear groove 22 is provided on the lower guide rail 42, the lower rack 54 is slidably installed in the sliding groove 422, and it is further preferable that a connecting member is further provided, the connecting member is detachably installed on the lower rack 54 and connected to the tension spring 57, a groove formed by the lower rack 54 and the connecting member is in clearance fit with the sliding groove 422, so that the arrangement limits the freedom degrees of the lower rack 54 in the inside and outside direction and in the up and down direction, and the lower rack 54 can only move horizontally along the sliding groove 422 direction.

In other embodiments, the lower rack 54 can only slide along the slide rails by providing the slide rails on the lower rail 42 parallel to the lower linear grooves 22.

In the embodiment of the present application, two fixing seats are further disposed on the lower guide rail 42, an elastic member 423 is mounted on the fixing seat, a top end of the elastic member 423 abuts against a lower surface of the lower moving rack 55, and the two elastic members 423 are respectively located at two sides of the first hinge hole 551;

one end of the first transition region 552, which is far away from the first rack region 553 is positioned below the lower rack 54 and abuts against the lower surface of the lower rack 54 under the action of the two elastic members 423; the arrangement is such that the lower moving rack 55 can only rotate in one direction, and further the upper moving rack 53 can only rotate in one direction, that is, the lower moving rack 55 and the upper moving rack 53 can only arch upwards; so as to ensure that the massage machine core 51 can smoothly pass through the joint of the lower moving rack 55 and the upper moving rack 53.

Further preferably, a first installation groove 534 and a second installation groove 554 which are opposite in direction are arranged at the hinged position of the upper moving rack 53 and the lower moving rack 55, the first installation groove 534 is positioned on the upper moving rack 53, and the second installation groove 554 is positioned on the lower moving rack 55; the first installation groove 534 and the second installation groove 554 form an inverted V-shaped structure together; a torsion spring 20 is also provided, with one end of the torsion spring 20 positioned in the first mounting groove 534 and the other end positioned in the second mounting groove 554. The arrangement is to further ensure that the lower moving rack 55 and the upper moving rack 53 can only arch upwards, and on the other hand, to limit the rotation range of the upper moving rack 53, so as to ensure that the upper moving rack 53 does not rotate out of position during the angle adjustment of the adjusting device 2.

It should be noted that a circular first protruding portion is arranged at one end of the lower rack 54 close to the lower moving rack 55, the first protruding portion and the hinge shaft a are taken as circle centers, and a first groove matched with the first protruding portion is arranged at one end of the lower moving rack 55 close to the lower rack 54; the positions of the first protruding part and the first groove can be interchanged;

one end of the lower moving rack 55 close to the upper moving rack 53 is provided with a circular second bulge, the second bulge and the hinge shaft B are the circle centers, and one end of the upper moving rack 53 close to the lower moving rack 55 is provided with a second groove matched with the second bulge; the positions of the second bulge and the second groove can be exchanged;

a circular third bulge is arranged at one end of the upper moving rack 53 close to the upper rack 52, the third bulge and the hinge shaft C are taken as the circle centers, and a third groove matched with the third bulge is arranged at one end of the upper rack 52 close to the upper moving rack 53; the positions of the third bulge and the third groove can be exchanged;

by such arrangement, the lower rack 54, the lower moving rack 55, the upper moving rack 53 and the upper rack 52 can be made more compact and have a space for rotating with each other.

In the embodiment of the application, two ends of the rack component are respectively provided with a detection device 6 for detecting the position of the massage machine core 51; further preferably, the detecting device 6 is a hall element, one hall element is fixedly connected with the lower rack 54 or the lower guide rail 42, the other hall element is fixedly connected with the upper rack 52 or the upper guide rail 32, and the massage machine core 51 reciprocates between the two hall elements through the rack assembly.

The specific structure of the massage movement 51 can refer to the massage movement 51 disclosed in publication numbers CN2922880Y, CN100382775C, CN202505713U, CN208448086U, CN109620672A, CN109846683A, CN100581523C, CN109248042A, CN109259995A, CN208448086U, TW201410230A, CN110353963A, CN110314078A, CN109172253A, CN209392344U, and CN 209392345U; generally, the massage mechanism 51 includes a walking frame, a walking motor and a connecting seat mounted on the walking frame, two supporting seat assemblies mounted on the massage driving device and the left and right sides of the connecting seat, and at least one massage roller mounted on the supporting seat assemblies, the massage driving device drives the massage roller to perform massage action, the walking frame is of a frame structure, the front and rear sides of the walking frame are respectively provided with a guide shaft and a walking shaft, the two ends of the walking shaft are provided with walking gears 511 matched with a rack mechanism, the two ends of the guide shaft are provided with guide wheels 512 matched with an upper guide groove 321 and a lower guide groove 421, and the walking motor drives the walking shaft to rotate, so that the massage mechanism 51 reciprocates between the chair seat frame 4 and the chair back frame 3.

Generally, the massage machine core 51 further comprises a kneading assembly, the kneading assembly comprises a kneading motor and a kneading shaft, the kneading motor and the kneading shaft are mounted on the connecting seat, the shaft end of the kneading shaft has a deflection included angle with the kneading shaft, the supporting seat assembly is rotatably mounted on the shaft end of the kneading shaft, and the kneading motor drives the kneading shaft to rotate, so that the massage roller realizes a kneading action.

The massage movement 51 further comprises a knocking component, the knocking component comprises a knocking motor, a knocking shaft, a second shaft sleeve and a ball head connecting rod, the knocking motor is installed on the connecting seat, the axial lead of the end of the knocking shaft deviates from the axial lead of the middle section of the knocking shaft, the second shaft sleeve is rotatably installed at the end of the knocking shaft, the ball head connecting rod is used for enabling the second shaft sleeve to be connected with the supporting seat component, and the knocking motor drives the knocking shaft to rotate, so that the massaging roller realizes knocking action.

The massage machine core 51 further comprises a pushing assembly, the pushing assembly comprises a pushing motor and a pushing shaft, the pushing motor and the pushing shaft are mounted on the walking frame, a pushing rack is arranged on the pushing shaft, an arc-shaped rack is mounted on the connecting seat, the pushing rack is in meshed transmission with the arc-shaped rack, and the pushing motor drives the pushing shaft to rotate so as to drive the connecting seat to swing back and forth.

The specific motion process of the massage movement 51 moving from the upper rack 52 to the lower rack 54 on the rack assembly is as follows:

1) the walking motor drives the walking shaft to rotate, drives the walking gear 511 to rotate, and is matched with the upper linear groove 22 through the guide wheel 512, so that the walking gear 511 moves on the upper rack 52, and the massage machine core 51 is driven to walk along the upper rack 52;

2) when the traveling gear 511 continues to travel to the second transition region 532, the traveling gear 511 is still meshed with the upper rack 52 and is not in contact with the second transition region 532, and when the traveling gear 511 finishes traveling the region where the upper rack 52 is located, the traveling gear 511 is instantly meshed with the second transition teeth 5332 in the second rack region 533;

3) when the traveling gear 511 continues to travel to the second rack region 533, a downward pressing force is applied to the second rack region 533 and the third transition region 563, so that the angle between the upper moving rack 53 and the lower moving rack 55 gradually approaches 180 degrees, and the bridge rack 56 is gradually aligned with the upper moving rack 53 and the lower moving rack 55;

4) the travel gear 511 continues to travel to the third rack region 562, then to the first rack region 553, and onto the lower rack 54 through the first transition teeth 5532 in the first rack region 553, without contacting the first transition region 552.

The specific movement process of the massage movement 51 moving from the lower rack 54 to the upper rack 52 on the rack assembly is the same as the specific movement process of the massage movement 51 moving from the upper rack 52 to the lower rack 54 on the rack assembly, and is not described in detail here.

Example two:

the difference between the chair frame of the present embodiment and the first embodiment is that the chair back frame 3 and the chair seat frame 4 are fixedly connected or integrally formed, that is, the chair back frame 3 and the chair seat frame 4 are not rotatable;

in the embodiment of the present application, an upper guide groove 321 is disposed on the back frame 3, a lower guide groove 421 is disposed on the seat frame 4, and one end of the upper guide groove 321 close to the seat frame 4 is connected to one end of the lower guide groove 421 close to the back frame 3;

the rack assembly comprises an upper rack 52, an upper moving rack 53, a lower rack 54, a lower moving rack 55 and a gap bridge rack 56, wherein the lower rack 54 is installed on the chair seat frame 4, the upper rack 52 is installed on the chair back frame 3, at least one of the lower rack 54 and the upper rack 52 is fixedly connected with the chair seat frame 4 or the chair back frame 3, the upper moving rack 53, the gap bridge rack 56 and the lower moving rack 55 are distributed in a staggered manner, the lower rack 54, the lower moving rack 55, the upper moving rack 53 and the upper rack 52 are sequentially hinged, and the lower moving rack 55 and the upper moving rack 53 are also hinged with the gap bridge rack 56 at the same hinge position.

It should be noted that in the embodiment of the present application, the lower rack 54 may be fixedly installed on the seat frame 4, or may be slidably installed on the seat frame 4 through a tension spring 57 as in the first embodiment; the upper rack 52 may be fixedly mounted on the back frame 3 or slidably mounted on the back frame 3 by a tension spring 57.

Example three:

the difference between the chair frame of the present embodiment and the first embodiment is that the adjusting device 2 is only used for controlling the rotation of the back frame 3, and the specific structure of the adjusting device 2 can refer to the adjusting device 2 disclosed in chinese patent publication No. CN 209092109U.

Example four:

the difference between the present embodiment and the chair frame in the first embodiment is that the adjusting device 2 is used for controlling the back frame 3 and the seat frame 4 to rotate towards or away from each other, and the specific structure of the adjusting device 2 can refer to the adjusting device 2 disclosed in chinese patent publication No. CN 107334617A.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The rack assembly is characterized by comprising a chair back fixing piece (31) and a chair seat fixing piece (41) which are hinged, a lower guide rail (42) fixedly connected with or integrally formed with the chair seat fixing piece (41), and an upper guide rail (32) fixedly connected with or integrally formed with the chair back fixing piece (31),

the device is characterized by further comprising an adjusting device (2), wherein the adjusting device (2) is used for adjusting an included angle between the upper guide rail (32) and the lower guide rail (42);

the device is characterized by further comprising an upper rack (52), an upper moving rack (53), a lower rack (54), a lower moving rack (55), a bridge rack (56) and a tension spring (57), wherein the lower rack (54) is slidably mounted on the lower guide rail (42), the upper rack (52) is fixedly connected with the upper guide rail (32), one end of the tension spring (57) is connected with one end, far away from the upper guide rail (32), of the lower guide rail (42), and the other end of the tension spring is connected with the lower rack (54); the upper moving rack (53), the gap bridge rack (56) and the lower moving rack (55) are distributed in a staggered mode, the lower rack (54), the lower moving rack (55), the upper moving rack (53) and the upper rack (52) are sequentially hinged, and the lower moving rack (55) and the upper moving rack (53) are simultaneously hinged with the gap bridge rack (56) at the same hinged position.

2. The rack assembly according to claim 1, further comprising a hinge axis a, a hinge axis B, and a hinge axis C in parallel, wherein one end of the lower rack (54) adjacent to the upper rack (52) is hinged to a middle section of the lower moving rack (55) through the hinge axis a, one end of the upper rack (52) adjacent to the lower rack (54) is hinged to a middle section of the upper moving rack (53) through the hinge axis B, the lower moving rack (55) and the upper moving rack are hinged to each other at both ends adjacent to each other through the hinge axis C, and the hinge axis C is installed at a middle section of the bridge rack (56).

3. A rack assembly as claimed in claim 2, wherein the lower rack (55) is provided at a lateral middle portion thereof with a first hinge hole (551), the hinge axis a passes through the first hinge hole (551) and is mounted on the lower rack (54), the upper surface of the lower rack (55) is defined by a plane perpendicular to the surface and coinciding with the center line of the first hinge hole (551) into a first transition region (552) and a first rack region (553), the outer end of the first rack region (553) is hinged to the upper rack (53) and the intermediate rack (56), the first transition region (552) is smooth and is disposed to be offset from the lower rack (54), and the first transition region (552) is gradually lowered in a direction away from the first rack region (553).

4. A rack assembly as claimed in claim 2, wherein a second hinge hole (531) is formed in a lateral middle portion of said upper moving rack (53), said hinge axis B passes through said first hinge hole (551) and is mounted on said upper rack (52), an upper surface of said upper moving rack (53) is defined by a plane perpendicular to said surface and coinciding with a center line of said second hinge hole (531) into a second transition region (532) and a second rack region (533), an outer end of said second rack region (533) is hinged to said lower moving rack (55) and said intermediate rack (56), said second transition region (532) is smooth and is disposed to be offset from said upper rack (52), and said second transition region (532) is gradually lowered in a direction away from said second rack region (533).

5. A rack assembly according to claim 3 or 4, wherein the first rack area (553) is provided with a plurality of first normal teeth (5531) and a first transition tooth (5532), the first transition tooth (5532) is adjacent to the first transition area (552), the first transition tooth (5532) is lower than the first normal teeth (5531) and the upper surface is a circular arc surface;

the second rack area (533) is provided with a plurality of second common teeth (5331) and a second transition tooth (5332), the second transition tooth (5332) is close to the second transition area (532), the second transition tooth (5332) is lower than the second common teeth (5331), and the upper surface of the second transition tooth is an arc surface.

6. A rack assembly as claimed in claim 2, wherein said intermediate rack (56) is provided at a lateral middle portion thereof with a third hinge hole (561), said hinge axis C passing through the third hinge hole (561) and the upper moving rack (53) and the lower moving rack (55), said intermediate rack (56) includes at an upper surface thereof a third rack area (562) at the middle portion and third transition areas (563) at both sides of the third rack area (562), said third transition areas (563) being smooth and gradually descending in a direction away from the third rack area (562).

7. A rack assembly according to claim 5, wherein a first limiting portion (5631) and a second limiting portion (5632) are provided at both ends of the third transition region (563), the first limiting portion (5631) can touch the lower moving rack (55) during rotation of the bridge rack (56), and the second limiting portion (5632) can touch the upper moving rack (53) during rotation of the bridge rack (56) in the other direction.

8. A rack assembly as claimed in claim 1, wherein the lower guide rail (42) is further provided with two fixed seats, the fixed seats are provided with elastic members (423), the top ends of the elastic members (423) are abutted against the lower surface of the lower movable rack (55), and the two elastic members (423) are respectively positioned at two sides of the first hinge hole (551);

one end of the first transition area (552) far away from the first rack area (553) is positioned below the lower rack (54) and abuts against the lower surface of the lower rack (54) under the action of two elastic pieces (423).

9. A rack assembly as claimed in claim 1, wherein the hinge joint of the upper moving rack (53) and the lower moving rack (55) is provided with a first mounting groove (534) and a second mounting groove (554) which are oppositely directed, the first mounting groove (534) is positioned on the upper moving rack (53), and the second mounting groove (554) is positioned on the lower moving rack (55); the first mounting groove (534) and the second mounting groove (554) form an inverted V-shaped structure together;

and a torsion spring (20) is further arranged, one end of the torsion spring (20) is positioned in the first mounting groove (534), and the other end of the torsion spring is positioned in the second mounting groove (554).

10. A chair frame comprising a rack assembly as claimed in any one of claims 1 to 9.

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