CN115770153B - Floating physical therapy cabin - Google Patents

Abstract

The application relates to a floating physiotherapy cabin, which comprises a cabin body, wherein the cabin body is provided with an inlet, an openable cabin door is covered and arranged on the inlet, and the cabin body is provided with a lifting mechanism and a placing mechanism; the placing mechanism comprises a placing plate and a plurality of mutually spliced driving plates, the placing plate is arranged in the cabin body in a sliding mode and is arranged at the lifting end of the lifting mechanism and used for stretching out an inlet, the driving plates are used for allowing suspension to pass through, and are adjacent to each other, the upper edges of the driving plate splicing portions are hinged to each other and are adjacent to each other, the lower edges of the driving plate splicing portions are used for mutual butt joint and at least one of the driving plates are connected to the placing plate, the lifting end of the lifting mechanism is rotated to be provided with a rolling shaft used for rolling the driving plates, and a driving piece used for driving the rolling shaft to rotate is arranged in the cabin body. This application can be relatively convenient make the inconvenient personnel of action get into the cabin body showy while, can also alleviate experience personnel's nervous mood.

Description

Floating physical therapy cabin

Technical Field

The application relates to the field of floating cabin technology, in particular to a floating physiotherapy cabin.

Background

Medical research shows that: exercising natural buoyancy or physical flotation in hot water can counter stress and fatigue. People who frequently float naturally can quickly recover from injury, relax deeply, improve mental balance and easily achieve good mental health. Therefore, in the prior art, a floating cabin is generated for physically assisting in adjusting the balance of the human body to achieve the purpose of improving the health of the human body.

The floating cabin in the prior art mainly comprises a cabin body provided with an inlet and a cabin door covering the inlet of the cabin body, wherein suspension liquid such as water dissolved with salt is placed in the cabin body, so that a human body can float in the cabin body by self-heating, and the purposes of relaxing and relieving fatigue of the human body are achieved. And the inlet of the chamber has a certain height due to the need to place the suspension in the chamber.

In the actual use process, because the human body is required to float in the cabin body, the human body is required to cross the inlet of the cabin body to enter the cabin body at the moment and then naturally relax, so that the human body can float on the surface of the suspension liquid, and the purpose of relaxing is achieved. However, for the elderly and other people with mobility disabilities, if the person directly crosses the entrance of the cabin to enter the cabin, the person with mobility disabilities will float in the suspension liquid gradually in the cabin, but in actual operation, the person with mobility disabilities and the limitation of the internal space of the cabin due to buoyancy and the existence of a certain height of the cabin entrance will easily cross, so that the person with mobility disabilities will not float in the cabin.

Disclosure of Invention

In order to make things convenient for the handicapped person to get into the cabin body and float, the application provides a float physiotherapy storehouse.

The application provides a float physiotherapy storehouse adopts following technical scheme:

a floating physiotherapy cabin comprises a cabin body, wherein the cabin body is provided with an inlet, an openable cabin door is covered on the inlet, and the cabin body is provided with a lifting mechanism and a placing mechanism; the placing mechanism comprises a placing plate and a plurality of mutually spliced driving plates, the placing plate is arranged in the cabin body in a sliding mode and is arranged at the lifting end of the lifting mechanism and used for stretching out an inlet, the driving plates are used for allowing suspension to pass through, and are adjacent to each other, the upper edges of the driving plate splicing portions are hinged to each other and are adjacent to each other, the lower edges of the driving plate splicing portions are used for mutual butt joint and at least one of the driving plates are connected to the placing plate, the lifting end of the lifting mechanism is rotated to be provided with a rolling shaft used for rolling the driving plates, and a driving piece used for driving the rolling shaft to rotate is arranged in the cabin body.

By adopting the technical scheme, when the cabin is used, a person with inconvenient actions can be positioned outside the cabin, the driving piece drives the winding shaft to rotate at the moment, and the upper side edges of the driving plates are hinged with each other, so that the rotation of the adjacent driving plates in a downward direction can be limited, the placing plate can be pushed to extend out of the lifting end of the lifting mechanism and extend out of the inlet, and then the person can be spread on the placing plate under the support of the worker outside the cabin, so that the person with inconvenient actions can enter the cabin more conveniently compared with the person needing to be supported in the limited space in the cabin, and meanwhile, the fear psychology caused by the existence of wet slip or buoyancy in the cabin can be reduced; after the cabin body is filled, the placing plate and the driving plate are gradually moved downwards through the lifting mechanism, in the process, the suspension liquid gradually descends through the placing plate and the driving plate to enable experience personnel to gradually contact with the suspension liquid and float in the suspension liquid, and compared with the situation that the experience personnel float in the suspension liquid in the dumping mode after entering the cabin, the possibility that the head and the like are immersed in the suspension liquid due to impact in the dumping process can be effectively reduced, and therefore the nervous mood of the experience personnel for the first time can be effectively reduced; and can drive the degree that moves down of placing board and drive plate through elevating system for it is supplementary to do the support to the human body to place the board, keep the clearance and make the human body can touch the hand and reach and place the board or make the human body float in suspension completely, in order to adapt to different experience personnel's demand.

Optionally, the upper surfaces of the connecting parts of the two mutually spliced driving plates and the connecting parts of the driving plates and the placing plate are connected with elastic mesh plates.

Through adopting above-mentioned technical scheme, can effectually reduce two adjacent drive plate relative rotations when to the influence of human body, can also reduce the influence that flows to the suspension.

Optionally, elevating system sets up in the inside lifter plate of cabin and the lifter that is used for driving the lifter plate to go up and down including vertical slip, the lifter plate is used for passing through suspension, the lifter plate is connected in the lift end of lifter, place board and drive plate and all be located the top of lifter plate and slide and connect in the lifter plate, the rolling axle rotates and sets up in the lifter plate.

Through adopting above-mentioned technical scheme, the lifter plate is used as the installation basis of placing board, drive plate to place the board lift in-process in control, do the support to placing the board through the lifter plate, optimize the stability of experiencing the in-process and placing the board.

Optionally, the lifting plate is formed with guide grooves along two side edges of the sliding direction of the placing plate, and the two ends of the placing plate and the two ends of the driving plate along the direction perpendicular to the sliding path are respectively clamped and connected to the two guide grooves in a sliding manner.

Through adopting above-mentioned technical scheme, the guide slot can be to placing the slip of board and drive plate and be the guide to when placing the board and bearing human load, the restriction is placed the rotation of board and the relative lifter plate of drive plate.

Optionally, the driving piece includes driving motor and is used for driving rolling axle pivoted drive slide pipe, drive slide pipe overcoat and axial are slided and are connected in driving motor's output shaft, driving motor sets up in the cabin body, the glide path of drive slide pipe is crossing with the lift route of rolling axle, the cabin body is provided with and is used for driving the control that the slide pipe slided and is connected in the rolling axle.

By adopting the technical scheme, the suspension liquid is in the cabin body when the winding machine is used, so that the driving motor and the like are not conveniently immersed in the suspension liquid, the lifting plate is only required to be moved upwards when the winding machine is used, so that the winding shaft and the driving sliding pipe are positioned at the same height, then the control piece drives the driving sliding pipe to be matched with the winding shaft, and the driving motor can drive the winding shaft to rotate when the winding machine is used; and after using up, accessible control makes the drive slide pipe break away from the rolling axle, alright make the rolling axle follow the lifter plate and move down this moment to realize the rotation of rolling axle and the separation of power.

Optionally, a plurality of driving chutes extending along the axial direction are formed in the inner wall of the driving sliding pipe, the winding shaft is fixedly connected with a winding connecting shaft towards one end of the driving sliding pipe, and the output shaft of the driving motor and the cross section profile of the winding connecting shaft are adapted to the inner wall of the driving sliding pipe.

Through adopting above-mentioned technical scheme, the in-process that the drive slide pipe slided towards the rolling axle, the drive slide pipe can cooperate the drive spout, realizes the cooperation of drive slide pipe and rolling connecting axle to can drive the rolling axle and rotate.

Optionally, the rolling connecting axle includes that coaxial fixed connection locates the transmission shaft of connecting the main shaft in the connection main shaft and the coaxial insertion of rolling axle, the transmission shaft is used for cooperating the drive slide pipe, just it has relative circumferential rotation volume to connect the main shaft and transmission shaft, the lifter plate is equipped with and connects the gliding locking round pin of main shaft towards, it offers the locking hole that is used for pegging graft cooperation locking round pin to connect the main shaft, the gliding control pin of main shaft the central axis is connected to the downthehole orientation that is provided with of locking, the transmission shaft is located the one end of connecting in the main shaft and has seted up the inner wall and be curved driving groove, the driving groove promotes the control pin when being used for rotating and pushes out the locking hole with the locking round pin.

By adopting the technical scheme, when the transmission shaft rotates under the driving of the driving piece, the transmission groove can rotate relative to the control pin and push the control pin to push the locking pin out of the locking hole, at the moment, the locking pin can rotate relative to the connecting main shaft, and the rotation quantity of the connecting main shaft and the transmission shaft is limited, so that the power transmission is realized; and when not needing the rolling axle to rotate, only need rotate the transmission shaft this moment and make the locking hole correspond the position of locking round pin, rotate the transmission shaft and connect the main shaft reversal relatively afterwards, at this in-process, because the rolling axle bears the load of placing board and drive plate, can make the transmission shaft connect the main shaft and reverse relatively, so that the control pin can insert the drive groove, and at this in-process, the locking round pin can insert in the locking hole, realize connecting the rotation locking of main shaft relative lifter plate under the external force rotation transmission shaft condition, so as to reduce and float the possibility that the relative lifter plate of in-process placing plate appears because of the rolling axle is touched to the people's mistake.

Optionally, the control piece includes control expansion bend and fixed connection in the control ring of the flexible end of control expansion bend, the control expansion bend sets up in the flexible direction of cabin body and flexible end and is on a parallel with the slip direction of drive slide pipe, the outer wall fixedly connected with of drive slide pipe is the drive ring of the coaxial setting, the control ring overcoat is rotated and is connected in the drive slide pipe, the drive ring card is established and circumferential direction connects in the control ring.

By adopting the technical scheme, when the sliding pipe needs to be driven to slide, only the expansion piece is controlled to drive the control ring to slide, and the sliding pipe is driven to slide synchronously; and because the driving ring is arranged on the control ring in a circumferential rotating manner, the driving slide pipe can be driven to axially slide, and the influence on the rotation of the driving slide pipe is reduced.

Optionally, the installing port has been seted up to the cabin body, the installing port is provided with and is used for driving control and driving piece to roll over to the installing port and drive rolling axle pivoted installed part, the installed part includes mount pad and installation expansion bend, the mount pad rotates the border of connecting in the installing port, just the mount pad has the apron that is used for closing the installing port at the in-process lid that rolls over the installing port towards the internal one end shaping in cabin, the installation expansion bend articulates in the outer wall in the cabin body and flexible end hinge in the mount pad, driving motor, control expansion bend all set up in the mount pad.

By adopting the technical scheme, because experience personnel are required to relax in the floating process, the flatness in the cabin body can be influenced if obvious equipment parts exist in the cabin body, and the installation seat is driven to rotate outwards only by installing the expansion piece and is enabled to be covered in the installation opening from inside, so that the influence on the experience of the experience personnel is reduced; when the winding shaft needs to be driven to rotate, the installation seat only needs to be rotated, the output ends of the driving motor and the control expansion piece face the lifting mechanism, and then the driving sliding pipe is connected to the winding shaft.

Optionally, the side edge of the lifting plate is fixedly connected with an elastic protection plate which is arranged on at least one of the placing plate or the driving plate, the outer ring edge of the elastic protection plate is fixedly connected with the cabin, and the elastic protection plate is a mesh plate.

Through adopting above-mentioned technical scheme, the protection can be done to the human body that lies and place the board to the elasticity guard plate to reduce the lifter plate and place the relative slip of board and cause the possibility of influence to human experience.

In summary, the present application includes at least one of the following beneficial technical effects:

when using, awkward personnel can be located cabin body outside, the driving piece drives the rolling axle and rotates this moment, and because the upside border of drive plate is articulated each other, can restrict relative decurrent rotation between the adjacent drive plate, thereby can promote to place the board and stretch out elevating system's lift end and stretch out the entry, make personnel stand out under staff's support at cabin body outside afterwards and place the board, compare in need support the cabin body in limited space, can be more convenient make awkward personnel enter into cabin body.

After the cabin body is filled, the placing plate and the driving plate move downwards through the lifting mechanism, experience personnel can gradually float in the suspension liquid through the placing plate and the driving plate in the process, and compared with the situation that the experience personnel float in the suspension liquid in a dumping mode after entering the cabin, the possibility that the head and other positions are immersed in the suspension liquid due to impact in the dumping process can be effectively reduced, and therefore the nervous emotion of the experience personnel at the first time can be effectively reduced; and can drive the degree that moves down of placing board and drive plate through elevating system for place the board and supplementary do the support, keep the clearance and make the human body can touch the hand and reach and place the board or make the human body float in suspension completely, in order to adapt to different experience personnel's demand.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a first partial structural schematic diagram of an embodiment of the present application.

Fig. 3 is a schematic structural diagram of the lifting mechanism and the placing mechanism in the embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a of fig. 3.

Fig. 5 is a schematic structural diagram of a driving slide pipe in the embodiment of the present application.

Fig. 6 is a schematic cross-sectional view of a placement mechanism in an embodiment of the present application.

Fig. 7 is an enlarged structural view of a portion C in fig. 6.

Fig. 8 is a schematic structural view of a propeller shaft in an embodiment of the present application.

Description of reference numerals: 1. a cabin body; 10. a cabin door; 11. an inlet; 12. an installation port; 13. a mounting member; 131. a mounting seat; 132. mounting a telescopic device; 2. a lifting mechanism; 21. a lifting plate; 211. a guide groove; 212. an elastic protection plate; 213. a locking pin; 214. an elastic expansion ring plate; 22. a lifting member; 3. a placement mechanism; 30. a support; 301. mounting holes; 31. placing the plate; 32. a drive plate; 321. an elastic mesh plate; 33. a winding shaft; 330. connecting the sliding chute; 331. winding a connecting shaft; 332. connecting the main shaft; 333. a drive shaft; 334. a locking hole; 335. a control pin; 336. a transmission groove; 337. connecting convex strips; 34. a drive member; 341. a drive motor; 342. driving the slide pipe; 343. a drive ring; 344. a drive chute; 35. a control member; 351. controlling the telescopic device; 352. a control loop; 353. a control seat; 354. the control ring groove.

Detailed description of the preferred embodiments

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses a float physiotherapy storehouse. Referring to fig. 1 and 2, the floating physiotherapy cabin comprises a cabin body 1, a lifting mechanism 2 arranged on the cabin body 1 and a placing mechanism 3, wherein the cabin body 1 is provided with an inlet 11, and the inlet 11 is obliquely arranged with an upward opening. The inlet 11 is covered with the hatch 10, and the upper edge of the hatch 10 is hinged to the upper opening edge of the inlet 11. Wherein, hatch door 10 passes through behind cylinder, the pneumatic cylinder electric cylinder drive that pushes away, and this application embodiment is the electric cylinder that pushes away, and the cylinder body of electric cylinder articulates in cabin body 1, and the flexible end of electric cylinder articulates in hatch door 10.

The lifting mechanism 2 comprises a lifting plate 21 and a lifting member 22, and the lifting member 22 is a plurality of hydraulic cylinders or electric pushing cylinders arranged outside or inside the cabin 1 or embedded in the cabin 1, preferably hydraulic cylinders arranged in the cabin 1. And the flexible end of the lifting member 22 is vertically arranged, the flexible end of the lifting member 22 is arranged on the bottom wall of the cabin body 1 in a penetrating manner and extends into the cabin body 1, and the flexible end of the lifting member 22 and the bottom wall of the cabin body 1 are arranged in a sealing manner through a sealing ring.

The lifting plate 21 is horizontally arranged and vertically arranged inside the cabin body 1 in a sliding manner, and the lifting plate 21 is fixedly connected to one end of the lifting member 22, the lifting end of which is located inside the cabin body 1. The part of the placing mechanism 3 for placing the human body is arranged on the lifting plate 21 in a sliding manner along the horizontal direction relative to the lifting plate 21, and when the lifting end of the lifting piece 22 is lifted to the top, the height of the lifting plate 21 is higher than the edge of the lower opening of the inlet 11. Thereby, the lifting plate 21 and the part of the placing mechanism 3 for placing the human body can extend out of the entrance 11, so that a person with mobility difficulty can lie down outside the cabin body 1 and then slide into the cabin body 1 without crossing the entrance 11, and the convenience of entering the cabin is optimized. Wherein the lifting plate 21 is a mesh plate to allow the suspension to pass through.

Of course, in other embodiments, the lifting mechanism 2 may also be configured as a lifting plate 21 and a chain lifting assembly, the chain is provided with a plurality of chains, one end of each chain is fixedly connected to the lifting plate 21, the chain is wound around the cabin body 1 through a chain wheel and is wound on the output shaft of the motor, and the motor is fixedly connected to the outer wall of the cabin body 1, so as to lift the lifting plate 21.

Referring to fig. 1 and 2, specifically, two guide grooves 211 are formed on the side edges of the lifting plate 21, which are turned upward, the two guide grooves 211 are oppositely disposed toward the central opening of the lifting plate 21, and the guide grooves 211 are disposed to extend in the horizontal direction toward the inlet 11. The placing mechanism 3 includes a placing plate 31 and a plurality of mutually spliced driving plates 32, the placing plate 31 is connected to the lifting plate 21 in a sliding manner along the extending direction of the guiding grooves 211, and the two side edges of the placing plate 31 in the sliding direction are respectively clamped and connected to the two guiding grooves 211 in a sliding manner.

Meanwhile, the upper edges of the two drive plates 32 which are spliced with each other are hinged with each other, and the lower edges of the two drive plates 32 which are spliced with each other are used for being abutted against each other so as to limit the plurality of drive plates 32 to be bent downwards relatively. And the upper edge of the driving plate 32 at one end of the distribution path among the plurality of driving plates 32 is hinged to the upper edge of the placing plate 31, and the lower edge of the driving plate 32 connected to the placing plate 31 is used for abutting against the end part of the placing plate 31 so as to limit the downward rotation of the placing plate 31 relative to the lifting plate 21, so that the placing plate 31 can still bear load when extending relative to the lifting plate 21 and can be used for placing a human body. Wherein the placing plate 31 and the driving plate 32 are both mesh plates to allow the suspension to pass through.

Referring to fig. 1 and 3, the driving plate 32 located at the other end of the distribution path among the plurality of driving plates 32 is hinged to a winding shaft 33, the winding shaft 33 is rotatably connected to the lifting plate 21 through a bracket 30, and the winding shaft 33 is located above the lifting plate 21 and can wind the plurality of driving plates 32 on the winding shaft 33 through the rotation of the winding shaft 33. The sliding paths of the driving plate 32 along the two ends of the two guiding slots 211 in the distribution direction intersect with the guiding slots 211, so that the driving plate 32 can slide into the guiding slots 211 after being separated from the winding shaft 33, and the placing plate 31 is driven to slide towards the outside of the inlet 11, so that a person who is inconvenient to move can lie down conveniently. Wherein, a driving part 34 for driving the winding shaft 33 to rotate is arranged in the cabin 1, so that the placing plate 31 can extend out of the inlet 11.

When the cabin is used, the lifting component 22 drives the lifting plate 21 to rise to the upper side of the lower opening edge of the inlet 11, then the driving component 34 drives the winding shaft 33 to rotate, and the driving plates 32 wound on the winding shaft 33 are separated from the winding shaft 33, and because the upper edges of the adjacent driving plates 32 are hinged with each other when being spliced, the driving plates 32 are limited to be bent downwards relatively, so that the placing plate 31 can be pushed to slide downwards along the guide groove 211 towards the outside of the inlet 11, and under the limiting action of the guide groove 211 and the driving plates 32, the placing plate 31 can bear the load of a human body, and people with disability can lie down outside the cabin 1, and people with disability can not cross the inlet 11 to enter the cabin 1 without manually holding the people with disability to enter the cabin 1 due to the space limitation of the cabin 1.

In addition, after the placing plate 31 drives the person to enter the cabin 1, the liquid level of the suspension is located below the lower opening edge of the inlet 11, and the lifting member 22 drives the lifting plate 21 to descend, so that the person who is not convenient to move can gradually immerse the suspension and float in the suspension, and the placing plate 31 can still provide a supporting effect for the human body in the process, and compared with the situation that the person lies down in the cabin 1 and is gradually immersed in the suspension from bottom to top, the tension of the person can be effectively relieved.

Finally, the lifting plate 21 can be lifted to partially support a human body, so that the tense emotion of a person is relieved, and meanwhile, the person can have floating experience; or the human body completely floats in the suspension without external force, and the placing plate 31 is kept at a relatively short distance, such as 10-20cm, from the human body, so that the human body can be easily supported by the external force, and the personnel can experience complete floating and provide timely external force support for the personnel; or the placing plate 31 is descended to the bottom of the cabin body 1, so that the human body can completely and unrestrictedly float in the suspension liquid, and the use requirements of the skilled practical floating personnel can be met.

Referring to fig. 1 and 3, in order to optimize human experience in the relative swinging process of two adjacent driving boards 32 in the sliding process of the driving boards 32 relative to the lifting board 21, the upper surfaces of the coupling parts of the two adjacent driving boards 32 and the connecting parts of the driving boards 32 and the placing board 31 are fixedly connected with elastic mesh boards 321, and the upper surfaces of the elastic mesh boards 321 are flush with the upper surface of the placing board 31. The side edges of the lifting plate 21 are fixedly connected with elastic protection plates 212, and the elastic protection plates 212 are overlapped on the placing plate 31 and/or the driving plate 32. Meanwhile, the outer ring edge of the lifting plate 21 is fixedly connected with the elastic expansion ring plate 214, and the outer ring edge of the elastic expansion ring plate 214 is fixedly connected with the inner wall of the cabin 1, so as to reduce the possibility that people directly roll to suspension due to tension and serve as a buffer.

Referring to fig. 3 and 4, in addition, since the placing plate 31, the driving plate 32 and the like need to be immersed in the suspension, the driving member 34 needs to be detachably connected with the winding shaft 33, so as to reduce the possibility of damage to the driving member 34 due to the influence of the suspension.

Specifically, the driving member 34 includes a driving motor 341 and a driving slide 342 coaxially sleeved on an output shaft of the driving motor 341, and the driving slide 342 is parallel to the output shaft of the driving motor 341 and the take-up shaft 33. One end of the winding shaft 33 facing the driving sliding pipe 342 is coaxially and fixedly connected with a winding connecting shaft 331 used for matching the driving sliding pipe 342, and the winding connecting shaft 331 is rotatably connected to the bracket 30.

Referring to fig. 4 and 5, the inner wall of the driving slide pipe 342 is provided with a plurality of driving sliding grooves 344 extending along the axial direction, and the driving motor 341 is connected to the cabin 1 through the mounting member 13. The output shaft of the driving motor 341 and the cross-sectional profile of the winding connecting shaft 331 are adapted to the inner wall of the driving sliding tube 342, and the sliding path of the driving sliding tube 342 parallel to the winding connecting shaft 331 intersects with the lifting path of the winding connecting shaft 331, so that when the lifting plate 21 is lifted to the top, the driving sliding tube 342 can slide towards the winding connecting shaft 331 and is externally sleeved on the winding connecting shaft 331, and thus the driving motor 341 can drive the winding connecting shaft 331 to rotate by driving the sliding tube 342, so as to drive the winding shaft 33 to rotate and wind a plurality of driving plates 32 or drive the placing plate 31 to extend out of the inlet 11 by the driving plates 32.

Of course, in other embodiments, the driving member 34 may be a waterproof turntable, the turntable is disposed on the support 30, and the driving end of the turntable is coaxially connected to the winding connection shaft 331.

Referring to fig. 4 and 5, in addition, in order to control the sliding of the driving slide tube 342, the mounting member 13 is further provided with a control member 35 for controlling the sliding of the driving slide tube 342 to bring the driving slide tube 342 into connection with the take-up connecting shaft 331 so that the driving slide tube 342 is connected to the take-up shaft 33 through the take-up connecting shaft 331.

The control member 35 includes a control jack 351 and a control ring 352 fixedly connected to a telescopic end of the control jack 351, the control jack 351 is disposed at a mounting portion of the mounting member 13, and the control jack 351 is an electric push cylinder, a hydraulic cylinder or an air cylinder, preferably an electric push cylinder. The control ring 352 is slidably attached to the mounting portion of the mounting member 13 via a control seat 353, and an inner ring of the control ring 352 is opened in a control ring groove 354 (see fig. 7). A driving ring 343 is coaxially and fixedly connected to the outer wall of the driving slide pipe 342, and the driving ring 343 is annular and is arranged on the same central axis as the driving slide pipe 342. The driving ring 343 is clamped and circumferentially and rotatably arranged in the control ring groove 354, and the driving ring 343 is connected to the inner wall of the control ring groove 354 through a thrust bearing, so that when the winding machine is used, the control ring 352 can be driven to slide through the control telescopic device 351, the driving ring 343 can drive the driving sliding pipe 342 to slide towards the winding connecting shaft 331 and is connected to the winding connecting shaft 331, and when the winding machine is subsequently used, due to the fact that the driving ring 343 and the control ring 352 are circumferentially and rotatably arranged, circumferential rotation of the driving sliding pipe 342 can be achieved, and meanwhile interference between the driving ring 343 and the control ring 352 is reduced.

Referring to fig. 2 and 4, the side wall of the cabin 1 is opened with a mounting port 12, and the height of the mounting port 12 is higher than the liquid level of the suspension. The mounting part 13 comprises a mounting seat 131 rotatably connected to the edge of the mounting opening 12 and a mounting expansion piece 132 for driving the mounting seat 131 to rotate, the mounting seat 131 is in an L-shaped plate-shaped structure, the outer side wall of the bent part of the mounting seat 131 is hinged to the edge of the mounting opening 12, and the rotating plane of the mounting seat 131 is horizontally arranged, so that one side plate of the mounting seat 131 can cover the inner side edge of the mounting opening 12 from inside to outside in the rotating process of the mounting seat 131; or the other side plate of the mounting seat 131 can cover the outer edge of the mounting opening 12 from outside to inside.

The cylinder bodies of the driving motor 341 and the control expansion device 351 are fixedly connected to one side of the mounting seat 131 departing from the connecting part with the edge of the mounting opening 12, and when the mounting seat 131 covers the outer edge of the mounting opening 12, the output ends of the driving motor 341 and the control expansion device 351 are parallel to the winding shaft 33, and the driving sliding pipe 342 on the driving motor 341 coincides with the plane of the central axis of the winding connecting shaft 331 in the lifting process, so that power on-off is realized, meanwhile, the control element 35 can be integrally rotated out to the outer side of the cabin body 1 in the floating process, so that the influence of the control element 35 on the integrity of the inner wall of the cabin body 1 in the floating process is reduced, and the floating experience is influenced, for example, the situation that floating personnel cannot relax due to the influence of the flatness and the like of the mechanical components of the control element 35 in the cabin body 1. Wherein, the installation expansion bend 132 is electric push cylinder, cylinder or pneumatic cylinder, preferably electric push cylinder, and the cylinder body of installation expansion bend 132 articulates in the outer wall of the cabin body 1, and the flexible end of installation expansion bend 132 articulates in the curb plate outer wall that mount pad 131 is used for closing installing port 12 outside border to be used for driving the mount pad 131 and rotate.

In addition, because in the using process, the winding shaft 33 needs to be immersed in the suspension, at this time, the placing plate 31 and a part of the driving plate 32 are also immersed in the suspension with relatively large buoyancy, and the placing plate 31 and the driving plate 32 have a tendency of floating upward, which may cause the winding shaft 33 to easily rotate, resulting in position changes of the placing plate 31 and the driving plate 32.

Referring to fig. 6 and 7, therefore, the placing plate 31 is locked for sliding movement with respect to the lifting plate 21 and the take-up reel 33 is locked for rotation during floating. The winding connecting shaft 331 comprises a connecting main shaft 332 and a transmission shaft 333 which are arranged with the central axis, the connecting main shaft 332 is fixedly connected with the winding shaft 33 with the central axis, and the transmission shaft 333 is inserted into one end of the connecting main shaft 332, which is far away from the winding shaft 33 with the central axis. The transmission shaft 333 is used for matching with the driving slide pipe 342 to transmit power.

Referring to fig. 7 and 8, in particular, one end of the connecting main shaft 332 is tubular to match the transmission shaft 333, and the inner wall of the connecting main shaft 332 is provided with three connecting sliding grooves 330 distributed along the circumferential direction, and the connecting sliding grooves 330 extend along the length direction of the connecting main shaft 332. The transmission shaft 333 is inserted and is located the three connection sand grip 337 of tip fixedly connected with in connecting the main shaft 332, and the length direction distribution that connects sand grip 337 along transmission shaft 333 sets up, and the annular radian of connecting the spout 330 along transmission shaft 333 is less than along the annular radian of connecting the main shaft 332 to connection sand grip 337 card establishes and circumferential direction sets up in connecting the spout 330 to make transmission shaft 333 connect the main shaft 332 relatively and have relative circumferential direction volume, and can transmit power. Wherein, the end of the connecting main shaft 332 is inserted and rotatably connected to the bracket 30.

The lifter plate 21 is provided with three locking pins 213 through the bracket 30, and three locking pins 213 encircle and connect the main shaft 332 setting, and three mounting hole 301 has been seted up to bracket 30 promptly, and locking pin 213 one-to-one slides and sets up in locking pin 213, and locking pin 213 overcoat has and is used for driving about locking pin 213 towards connecting the gliding locking spring of main shaft 332, and the both ends of locking spring are fixed connection in the inner wall of mounting hole 301 and locking pin 213 respectively.

Referring to fig. 6 and 7, the connecting main shaft 332 is provided with three circumferentially distributed locking holes 334, the locking holes 334 are arranged in one-to-one correspondence to the connecting sliding grooves 330, the locking holes 334 are communicated with the connecting sliding grooves 330, and the distribution of the three locking holes 334 is adapted to the three locking pins 213. A control pin 335 for ejecting the locking pin 213 out of the locking hole 334 is provided in the locking hole 334, a control spring for driving the control pin 335 to slide toward the connecting runner 330 is externally sleeved on the control pin 335, and the length of the control pin 335 is equal to that of the locking hole 334, so that the locking pin 213 can be ejected when the control pin 335 abuts against the outer wall of the connecting protrusion 337 in the connecting runner 330. Simultaneously, in order to make the rotation in-process, locking round pin 213 can insert locking hole 334, the transmission groove 336 that is used for grafting cooperation control round pin 335 is offered to the outer wall of connection sand grip 337, transmission groove 336 is smooth transition and the inner wall of transmission groove 336 is the cambered surface setting with the outer wall of connection sand grip 337, the rotation route and the locking hole 334 of transmission groove 336 intersect, and transmission groove 336 is located the middle part of connecting sand grip 337, can make transmission shaft 333 just pass or the reversal all can push into locking hole 334 with control round pin 335.

The implementation principle of the embodiment of the application is as follows: in use, the person lies on the placing plate 31, the driving member 34 drives the transmission shaft 333 to rotate, the locking pin 213 is inserted into the locking hole 334, and the control pin 335 is inserted into the transmission groove 336. When the driving motor 341 drives the transmission shaft 333 to rotate through the driving sliding tube 342, the control pin 335 can be completely ejected into the locking hole 334 through the rotation of the inner wall of the transmission groove 336 relative to the control pin 335, the control pin 335 abuts against the outer wall of the connection protruding strip 337, so that the locking pin 213 is ejected out of the locking hole 334, and the connection main shaft 332 can rotate relative to the transmission shaft 333 and the connection protruding strip 337 abuts against the side wall of the connection sliding groove 330 to transmit power. And will place board 31 and accomodate in lifter plate 21 through drive plate 32 after, lifter 22 drives lifter plate 21 and descends, and in this process for experience personnel float in suspension partially or totally.

Meanwhile, when the connecting main shaft 332 is not rotated, the control pin 335 is inserted into the transmission groove 336, so that the locking hole 334 is reserved with a hole for inserting the locking pin 213, and at this time, the connecting main shaft 332 can be rotated and locked relative to the bracket 30.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a float physiotherapy storehouse, includes the cabin body (1), cabin body (1) is equipped with entry (11), just entry (11) lid closes and is provided with hatch door (10) that can open, its characterized in that: the cabin body (1) is provided with a lifting mechanism (2) and a placing mechanism (3);

place mechanism (3) including setting up board (31) and a plurality of drive plate (32) of splicing each other of placing in cabin body (1), place board (31) and slide and set up in the lift end of elevating system (2) and be used for stretching out entry (11), drive plate (32) supply suspension to pass through, and adjacent two the last border of drive plate (32) concatenation portion is articulated each other, adjacent two the lower border of drive plate (32) concatenation portion is used for mutual butt, at least one drive plate (32) are connected in placing board (31), the lift end of elevating system (2) rotates and is provided with rolling axle (33) that are used for rolling drive plate (32), be provided with in cabin body (1) and be used for driving rolling axle (33) pivoted driving piece (34).

2. The floating physiotherapy cabin of claim 1, wherein: the upper surfaces of the connection parts of the two drive plates (32) which are mutually spliced and the connection parts of the drive plates (32) and the placing plate (31) are connected with elastic screen plates (321).

3. The floating physiotherapy cabin of claim 1, wherein: elevating system (2) set up in the inside lifter plate (21) of cabin body (1) and be used for driving lifter plate (21) lift piece (22) including vertical slip, lifter plate (21) are used for passing through suspension, lifter plate (21) are connected in the lift end of lifter (22), place board (31) and drive plate (32) and all be located the top of lifter plate (21) and slide and connect in lifter plate (21), rolling axle (33) rotate and set up in lifter plate (21).

4. A floating physiotherapy cabin according to claim 3 wherein: the lifting plate (21) is provided with guide grooves (211) along the two side edges of the sliding direction of the placing plate (31), and the two ends of the placing plate (31) and the two ends of the driving plate (32) along the direction perpendicular to the sliding path are respectively clamped and connected with the two guide grooves (211) in a sliding mode.

5. A floating physiotherapy cabin according to claim 3 wherein: the driving piece (34) comprises a driving motor (341) and a driving sliding pipe (342) used for driving a winding shaft (33) to rotate, the driving sliding pipe (342) is sleeved outside and is connected to an output shaft of the driving motor (341) in an axial sliding mode, the driving motor (341) is arranged on the cabin body (1), a sliding path of the driving sliding pipe (342) is intersected with a lifting path of the winding shaft (33), and the cabin body (1) is provided with a control piece (35) used for driving the driving sliding pipe (342) to slide and connected to the winding shaft (33).

6. The floating physiotherapy cabin of claim 5, wherein: the inner wall of the driving sliding pipe (342) is provided with a plurality of driving sliding grooves (344) extending along the axial direction, one end, facing the driving sliding pipe (342), of the winding shaft (33) is coaxially and fixedly connected with a winding connecting shaft (331), and the cross section profiles of an output shaft of the driving motor (341) and the winding connecting shaft (331) are matched with the inner wall of the driving sliding pipe (342).

7. The floating physiotherapy cabin of claim 6, wherein: rolling connecting axle (331) include coaxial fixed connection in the connection main shaft (332) of rolling axle (33) and coaxial the inserting transmission shaft (333) of locating connection main shaft (332), transmission shaft (333) are used for cooperation drive slide pipe (342), just it has relative circumferential rotation volume to connect main shaft (332) and transmission shaft (333), lifter plate (21) are equipped with towards connecting main shaft (332) gliding locking round pin (213), connect main shaft (332) and offer locking hole (334) that are used for grafting cooperation locking round pin (213), be provided with in locking hole (334) towards connecting main shaft (332) the gliding control pin (335) of central axis, transmission shaft (333) are located the one end of connecting main shaft (332) and are offered inner wall and are curved transmission groove (336), transmission groove (336) promote control pin (335) when being used for rotating and push out locking round pin (213) locking hole (334).

8. The floating physiotherapy cabin of claim 5, wherein: control piece (35) are including control expansion bend (351) and control ring (352) of fixed connection in the flexible end of control expansion bend (351), control expansion bend (351) set up in the flexible direction of cabin body (1) and flexible end and are on a parallel with the slip direction of drive slide pipe (342), the outer wall fixedly connected with of drive slide pipe (342) has drive ring (343) of the coaxial setting of fixedly connected with, control ring (352) overcoat is rotated and is connected in drive slide pipe (342), drive ring (343) card is established and circumferential direction connects in control ring (352).

9. The floating physiotherapy cabin of claim 8, wherein: installing port (12) have been seted up in the cabin body (1), installing port (12) are provided with and are used for driving control piece (35) and driving piece (34) to roll over or change over into installing port (12) and drive wind-up shaft (33) pivoted installed part (13), installed part (13) are including mount pad (131) and installation expansion bend (132), mount pad (131) rotate to be connected in the border of installing port (12), just mount pad (131) have towards the one end shaping in the cabin body (1) and are used for closing apron (133) of installing port (12) at the in-process lid of rolling over installing port (12), installation expansion bend (132) articulate in the outer wall of the cabin body (1) and flexible end hinge in mount pad (131), driving motor (341), control expansion bend (351) all set up in mount pad (131).

10. A floating physiotherapy cabin according to claim 3 wherein: the side of lifter plate (21) is along fixedly connected with set up in placing board (31) or drive plate (32) at least one elasticity guard plate (212), the outer lane border fixed connection in the cabin body (1) of elasticity guard plate (212), just elasticity guard plate (212) are the otter board.

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