CN211705206U - Massage bed - Google Patents

Abstract

The application relates to the technical field of beds, in particular to a massage bed. Massage bed includes bed board and cushion, select first vibration position on the bed board, carry out the fretwork cutting in first vibration position, obtain first cantilever beam structure, the cushion is arranged in on the bed board, select the second vibration position on the cushion, the second vibration position is corresponding from top to bottom with first vibration position, carry out the fretwork cutting in second vibration position, obtain second cantilever beam structure, second cantilever beam structure is corresponding from top to bottom with first cantilever beam structure, set up drive arrangement below the bed board, the first cantilever beam structure of drive arrangement drive vibrates from top to bottom, and make first cantilever beam structure drive the second cantilever beam structure and vibrate from top to bottom. The traction between the eccentric wheel motor and the periphery is greatly reduced, obvious up-and-down vibration is generated, the energy acting in the up-and-down direction is large, and the problem that the energy in the up-and-down direction is small when the eccentric wheel motor is arranged on a bed plate in the existing massage bed is solved.

Description

Massage bed

Technical Field

The application relates to the technical field of beds, in particular to a massage bed.

Background

At present, most massage beds are driven by an eccentric wheel motor to generate vibration, and the eccentric wheel motor is arranged at two positions, namely the eccentric wheel motor is arranged on a bed plate, and the eccentric wheel motor is arranged in the middle of a cushion interlayer. The first arrangement mode can make the massage bed have large noise, small energy acting in the vertical direction and low efficiency. The second setting mode has obvious vibration feeling and low noise when being close to the human body, but the user has foreign body feeling when sleeping on the massage bed, and the installation is not only complicated but also not reliable enough. In addition, the eccentric wheel with large inertia has the defect that the use of the eccentric wheel with large inertia is difficult to overcome, namely the starting and stopping inertia is large, the reaction is slow, and the touch experience of clear height change is difficult to provide.

SUMMERY OF THE UTILITY MODEL

To prior art not enough, this application provides a massage bed, aims at solving current massage bed, sets up the eccentric wheel motor on the bed board, problem that the energy of direction is little about going up.

The technical scheme provided by the application is as follows:

the utility model provides a massage bed, massage bed includes bed board and cushion select first vibration position on the bed board first vibration position carries out the fretwork cutting, obtains first cantilever structure, the cushion is arranged in on the bed board select the second vibration position on the cushion, the second vibration position with it is corresponding from top to bottom to first vibration position the second vibration position carries out the fretwork cutting, obtains second cantilever structure, second cantilever structure with it is corresponding from top to bottom to first cantilever structure the bed board below sets up drive arrangement, the drive arrangement drive first cantilever structure vibrates from top to bottom, and makes first cantilever structure drives the vibration from top to bottom of second cantilever structure.

Further, the massage bed comprises a bed support, and the bed support supports the bed board.

Further, the massage bed comprises a connecting support, the driving device is installed on the connecting support, and the connecting support is connected with the bed support.

Further, the driving device is a linear motor, or a motor with a cam, or a motor with a crankshaft.

Further, the first cantilever structure is formed by cutting three sides at the first vibration position.

Furthermore, the massage bed comprises a first elastic connecting piece, and the first cantilever beam structure is connected with the bed board through the first elastic connecting piece after four sides of the first vibration position are cut off.

Further, the second cantilever structure is formed by cutting three sides at the second vibration position.

Furthermore, the massage bed comprises a second elastic connecting piece, and the second cantilever beam structure is connected with the soft pad through the second elastic connecting piece after four sides of the second vibration position are cut off.

Further, the bed board is a wood board or an organic material board.

Further, the bed board includes that the polylith plank pieces are pieced together and are formed, first vibration position is located one or the polylith plank, perhaps, the bed board includes that polylith organic material panel pieces are pieced together and are formed, first vibration position is located one or the polylith organic material panel.

According to the technical scheme, the method has the advantages that: the massage bed is characterized in that a first cantilever beam structure is arranged on the bed plate, a second cantilever beam structure is arranged on the cushion, and the first cantilever beam structure and the second cantilever beam structure greatly reduce the traction with the periphery when moving up and down to generate obvious up-and-down vibration, so that the energy acting in the up-and-down direction is large, and the problem that the energy of an eccentric wheel motor is small in the up-and-down direction when the eccentric wheel motor is arranged on the bed plate in the existing massage bed is solved.

Drawings

Fig. 1 is a schematic structural diagram of a massage bed provided by an embodiment of the present application;

fig. 2 is a schematic structural diagram of a bed plate provided by an embodiment of the application;

FIG. 3 is a schematic structural view of a cushion provided by an embodiment of the present application;

fig. 4 is a schematic structural diagram of a bed plate provided by another embodiment of the present application;

fig. 5 is a schematic structural view of a cushion provided by another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1 to 3, an embodiment of the present application provides a massage bed 1, the massage bed 1 includes a bed plate 11 and a cushion 12, a first vibration position 111 is selected on the bed plate 11, a hollow-out cutting is performed at the first vibration position 111 to obtain a first cantilever structure 112, the cushion 12 is placed on the bed plate 11, a second vibration position 121 is selected on the cushion 12, the second vibration position 121 corresponds to the first vibration position 111 up and down, a hollow-out cutting is performed at the second vibration position 121 to obtain a second cantilever structure 122, the second cantilever structure 122 corresponds to the first cantilever structure 112 up and down, a driving device 13 is disposed below the bed plate 11, the driving device 13 drives the first cantilever structure 112 to vibrate up and down, and the first cantilever structure 112 drives the second cantilever structure 122 to vibrate up and down.

The driving device 13 drives the first cantilever structure 112 to vibrate up and down, the first cantilever structure 112 greatly reduces the traction with the periphery, and generates obvious up and down vibration, the energy acting in the up and down direction is large, because the second cantilever structure 122 corresponds to the first cantilever structure 112 up and down, the first cantilever structure 112 drives the second cantilever structure 122 to vibrate up and down, and similarly, the second cantilever structure 122 greatly reduces the traction with the periphery, and generates obvious up and down vibration, and the energy acting in the up and down direction is large, thereby solving the existing massage bed, and arranging the eccentric wheel motor on the bed board, and solving the problem of small energy in the up and down direction.

The driving device 13 is provided below the bed plate 11, and the user does not feel a foreign body sensation when sleeping on the massage bed 1.

In the present embodiment, the massage bed 1 includes a bed frame 14, and the bed frame 14 supports the bed plate 11. The bed board 11 can be placed on the bed support 14, or can be fixed on the bed support 14 through a fixing piece.

In this embodiment, the massage couch 1 includes a connecting bracket 15, the driving device 13 is mounted on the connecting bracket 15, and the connecting bracket 15 is connected to the couch bracket 14. The driving device 13 is connected to the bed frame 14 through a connecting frame 15 and is installed below the bed plate 11.

In the present embodiment, the driving device 13 is a linear motor, or a motor with a cam, or a motor with a crankshaft. The problems of large starting and stopping inertia and slow reaction of the eccentric wheel motor are solved.

As shown in fig. 2, in the present embodiment, the first cantilever structure 112 is formed by cutting three sides at the first vibration position 111. Specifically, a vertical hollow edge is cut at the first vibration position 111, a horizontal hollow edge is cut right at the upper end point of the vertical hollow edge, and then a vertical hollow edge is cut downward at the right end point of the horizontal hollow edge, two vertical hollow edges and one horizontal hollow edge form a U-shaped hollow, and part of the bed plate 11 surrounded by the U-shaped hollow is a first cantilever beam structure 112.

As shown in fig. 4, in some embodiments, the massage couch 1 includes a first elastic connector 161, and the first cantilever structure 112 is connected to the couch board 11 by the first elastic connector 161 after four sides are cut at the first vibration position 111. Specifically, a vertical hollow edge is cut at the first vibration position 111, a horizontal hollow edge is cut right at the upper end point of the vertical hollow edge, a vertical hollow edge is cut downward at the right end point of the horizontal hollow edge, a horizontal hollow edge is cut left at the lower end point of the vertical hollow edge, so that a small plate falls off from the bed plate 11, a square hollow is formed by the two vertical hollow edges and the two horizontal hollow edges, the small plate is connected with the bed plate 11 through a first elastic connecting piece 161, and the small plate and the first elastic connecting piece 161 form a first cantilever beam structure 112.

As shown in fig. 3, in the present embodiment, the second cantilever structure 122 is formed by cutting three sides at the second vibration position 121. Specifically, a vertical hollow edge is cut at the second vibration position 121, a horizontal hollow edge is cut right at the upper end point of the vertical hollow edge, and then a vertical hollow edge is cut downward at the right end point of the horizontal hollow edge, two vertical hollow edges and one horizontal hollow edge form a U-shaped hollow, and part of the cushion 12 surrounded by the U-shaped hollow is the second cantilever beam structure 122.

As shown in fig. 5, in some embodiments, the massage couch 1 includes a second elastic connecting member 162, and the second cantilever structure 122 is connected to the cushion 12 by the second elastic connecting member 162 after the four sides are cut at the second vibration position 121. Specifically, cut out perpendicular fretwork limit at second vibration position 121, cut out horizontal fretwork limit again right at the upper endpoint of erecting the fretwork limit, later cut out perpendicular fretwork limit again downwards at the right-hand member point of horizontal fretwork limit, later cut out horizontal fretwork limit again left at the lower endpoint of erecting the fretwork limit, have like this that a little soft backing plate falls from cushion 12, two are erected fretwork limits and two horizontal fretwork limits and form a square fretwork, be connected little soft backing plate and cushion 12 through second elastic connection piece 162, little soft backing plate and first elastic connection piece 161 constitute second cantilever beam structure 122.

In this embodiment, the bed plate 11 is a wood plate. Alternatively, the bed plate 11 is a plate of organic material.

In some embodiments, the deck 11 is formed from a plurality of boards, and the first vibration position 111 is provided on one or more of the plurality of boards. The bed plate 11 is made up of a plurality of wooden plates on one of which the first vibration position 111 is required. Alternatively, the bed plate 11 is formed by a plurality of wood plates lying flat and connected, and the first vibration position 111 is located at one or more of the wood plates.

In some embodiments, the deck 11 is formed from a plurality of organic material sheets, and the first vibration position 111 is provided in one or more of the plurality of organic material sheets. The bed plate 11 is formed by a plurality of organic material plates flatly placed, and the first vibration position 111 needs to be on one of the organic material plates. Alternatively, the bed plate 11 is formed by a plurality of organic material plates which are laid flat and connected, and the first vibration position 111 is located at one or more of the organic material plates.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a massage bed, a serial communication port, massage bed includes bed board and cushion select first vibration position on the bed board first vibration position carries out the fretwork cutting, obtains first cantilever beam structure, the cushion is arranged in on the bed board select the second vibration position on the cushion, the second vibration position with first vibration position is corresponding from top to bottom the second vibration position carries out the fretwork cutting, obtains second cantilever beam structure, second cantilever beam structure with first cantilever beam structure is corresponding from top to bottom the bed board below sets up drive arrangement, the drive arrangement drive first cantilever beam structure vibrates from top to bottom, and makes first cantilever beam structure drives the vibration from top to bottom of second cantilever beam structure.

2. The massage bed of claim 1, wherein the massage bed includes a bed support that supports the bed deck.

3. The massage bed of claim 2, including a connecting bracket on which the drive mechanism is mounted, the connecting bracket being connected to the bed bracket.

4. The massage couch of claim 1 wherein the drive means is a linear motor, or a motor with a cam, or a motor with a crankshaft.

5. The massage bed of claim 1, wherein the first cantilevered beam structure is formed by three sides being cut off at the first vibration location.

6. The massage bed of claim 1, wherein the massage bed includes a first resilient connector, and the first cantilever beam is configured to be connected to the deck through the first resilient connector after four sides are cut at the first vibration position.

7. The massage bed of claim 1, wherein the second cantilevered beam structure is formed by three sides cut off at the second vibration location.

8. The massage bed of claim 1, including a second resilient connector, wherein the second cantilevered beam is configured to be connected to the cushion by the second resilient connector after the four sides are severed at the second vibration position.

9. The massage bed of claim 1, wherein the bed plate is a piece of wood or organic material.

10. The massage bed of claim 1, wherein the deck comprises a plurality of wooden boards, and the first vibration position is located on one or more of the plurality of wooden boards, or wherein the deck comprises a plurality of organic material boards, and the first vibration position is located on one or more of the plurality of organic material boards.

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