CN211272065U - Hand air wave physiotherapy equipment - Google Patents

Abstract

The utility model relates to a hand air wave physiotherapy equipment, including the shell that has first holding chamber, the inner shell that has second holding chamber, first holding intracavity is located to the inner shell, install the palm air pocket that all is provided with the charging connector that does not switch on each other in the second holding chamber, the back of the hand air pocket, four independent finger air pockets each other of installing in a finger cover, be provided with on the finger cover and match finger length and enable four cavitys that finger male, four finger air pockets correspond and install in four cavitys, be equipped with a control mainboard between inner shell and the shell, all with control mainboard electric connection's air pump and two at least solenoid valves, the both ends of solenoid valve are passed through the breather pipe and are corresponded and be connected with charging connector and air pump and switch on, and two adjacent finger air pockets correspond by two solenoid valves and switch on. The air bags for massaging the fingers in the utility model are mutually independent and respectively controlled, thereby facilitating the selective massage of the fingers and being convenient to use.

Description

Hand air wave physiotherapy equipment

Technical Field

The utility model relates to a massage device, in particular to a hand air wave physiotherapy instrument which has simple structure, can selectively massage and improve the massage effect.

Background

The massage can relieve tired muscles, so that people keep a good state, and the household massager is popularized in daily life of people. The existing massagers are various, a massage chair for massaging the whole body, a face massager for massaging the face for beauty, a massage hand for massaging the head and the like are provided, and for the massager for massaging the hand, some rollers are used, but the massage of the rollers easily causes damage to the skin of the hand.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a hand air wave physiotherapy instrument which has simple structure, can selectively massage and improve the massage effect.

The utility model provides a technical scheme that its technical problem adopted is:

a hand air wave physiotherapy instrument comprises an outer shell and an inner shell, wherein the outer shell and the inner shell are both cylindrical shells with openings at two ends, the interiors of the two ends of the shells are hollow, and a first accommodating cavity and a second accommodating cavity are correspondingly formed; the air pocket is including the palm air pocket that is located the corresponding palm of the hand of second holding intracavity front end bottom surface, the finger air pocket that is located four mutually independent corresponding to the finger of second holding intracavity rear end bottom surface, the back of the hand air pocket that is located the corresponding back of the hand of second holding intracavity front end top surface, four the finger air pocket is installed in a finger cover, be provided with on the finger cover and match finger length correspond the installation finger air pocket and enable finger four male cavitys, be equipped with a control mainboard between inner shell and the shell, all with control mainboard electric connection's air pump and two at least solenoid valves, the both ends of solenoid valve correspond through the breather pipe and are connected with charging connector and air pump and switch on, and two adjacent finger air pockets correspond by two solenoid valves and switch on.

Preferably, any one or more of the palm air bag, the back air bag and the finger air bag is/are provided with bulges which protrude out of the surface of the air bag after being inflated, and the bulges are arranged corresponding to acupuncture points of hands.

Preferably, the finger air bag is a strip-shaped air bag, the finger stall is made of cloth, and four cavities arranged on the finger stall are not communicated with each other.

Preferably, the hand-back air bag comprises a front end air bag and a rear end air bag which are not communicated and are both provided with inflating nozzles.

Preferably, the palm air bag comprises a first air bag and a second air bag which are arranged in tandem and are provided with electromagnetic valves, and the first air bag and the second air bag are integrated and separated by the arranged indentations.

Preferably, the vent pipe comprises a first vent pipe connected with the air pump, a multi-way vent pipe which is connected with the first vent pipe and is provided with air outlet ports with the same number as the electromagnetic valves, and a plurality of second vent pipes which are correspondingly connected with the plurality of inflating nozzles, wherein two ends of any one of the electromagnetic valves are correspondingly connected with one air outlet port and one or more second vent pipes of the multi-way vent pipe.

Preferably, the number of the electromagnetic valves is three, and the multi-way vent pipe is a four-way vent pipe with three vent ports.

Preferably, the inner shell is further internally provided with a cloth cover and is arranged on the inner shell through a cloth cover support arranged outside the inner shell, and the cloth cover support comprises a front-end cloth cover support positioned at the front end of the inner shell and a rear-end cloth cover support positioned at the rear end of the inner shell.

Preferably, the outer shell comprises a face shell and a bottom shell which are clamped with each other, a rechargeable battery is further arranged between the outer shell and the inner shell, the rechargeable battery is electrically connected with a battery circuit board arranged on the bottom shell, the control mainboard is electrically connected with the battery circuit board, and a charging interface is arranged on the battery circuit board.

Preferably, the control main board is further provided with a switch, the upper shell is provided with a key corresponding to the switch, and the air pump is externally provided with a buffer cushion for buffering.

The beneficial effects of the utility model reside in that: the utility model discloses a well each air pocket does not switch on each other, just can control different air pockets through the different solenoid valves of control, can have corresponding regulation and control to realize the massage to the different positions of hand, the finger air pocket is independent each other, each finger can separately massage, can realize breaking the effect that the finger was releived to the fingers off with the fingers between the finger, the massage effect has been increased, and can also massage other fingers under the condition of the injured inconvenient massage of certain finger, high durability and convenient use, this massager simple structure simultaneously, also can be convenient maintain after the air pocket damages and change.

Drawings

Fig. 1 is an exploded view of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of an air bag according to an embodiment of the present invention;

FIG. 4 is a schematic view of the bottom surface of the air bag according to the embodiment of the present invention;

part names and serial numbers in the figure: 1-outer shell 10-first containing cavity 11-face shell 12-bottom shell 2-inner shell 20-second containing cavity 3-air bag 30-charging nozzle 31-palm air bag 32-finger air bag 33-hand back air bag 34-bulge 300-indentation 310-first air bag 311-second air bag 320-finger sleeve 321-finger air bag 330-front end air bag 331-rear end air bag 3200-cavity 4-control mainboard 40-switch 41-button 5-air pump 50-buffer pad 6-electromagnetic valve 7-vent pipe 70-first vent pipe 71-multi-way vent pipe 72-second vent pipe 8-cloth cover 80-cloth cover support 800-front end cloth cover support 801-rear end cloth cover support 9-chargeable Electric battery 90-battery circuit board 91-charging interface.

Detailed Description

To more clearly illustrate the objects, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and examples, which are for clear and complete description. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, belong to the scope of protection of the present invention. In addition, directional terms used in the present invention, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer to directions only as shown in the attached drawings, and are used for better and clearer explanation and understanding of the present invention, and do not indicate or imply orientation which the present invention must have, and thus, should not be construed as limiting the present invention.

The embodiment of the utility model is shown in fig. 1 to 4, a hand air wave physiotherapy instrument comprises an outer shell 1 and an inner shell 2, wherein the outer shell 1 and the inner shell 2 are both cylindrical shells with two open ends and hollow interiors and correspondingly form a first containing cavity 10 and a second containing cavity 20, which are beneficial to ventilation and heat dissipation of hands in the massage process, the cylindrical shells can be set into different shapes according to different requirements, such as a cylinder, an elliptical cylinder, a square cylinder or other shapes, so as to facilitate the appearance design of products, the inner shell 2 is arranged in the first containing cavity 10, thus forming a structure that the outer shell 1 is sleeved outside the inner shell 2, a space is formed between the inner shell 2 and the outer shell 1 so as to facilitate the installation of each part, a plurality of air bags 3 which are not communicated with each other are arranged in the second containing cavity 20, the air bags 3 can be made of TPU materials, so as to facilitate the production and enhance the durability, the air bags 3 are not communicated with each other, so that different parts of the hand can be massaged by controlling the inflation of different air bags 3 in a targeted manner, each air bag 3 is provided with an inflation nozzle 30, and the air bags 3 can be conveniently inflated by the inflation nozzles 30; the air bag 3 comprises a palm air bag 31 corresponding to the palm of the hand at the bottom of the front end of the second containing cavity 20, four finger air bags 32 corresponding to the fingers and independent from each other at the bottom of the rear end of the second containing cavity 20, and a back air bag 33 corresponding to the back of the hand at the top of the front end of the second containing cavity 20, so that the palm air bag 31 and the finger air bags 32 are arranged in front and back to massage the palm and the fingers in the second containing cavity 20, the front palm air bag 31 and the back air bag 33 in the second containing cavity 20 are arranged in parallel and correspondingly arranged at the bottom and top of the second containing cavity 20 to massage the palm and the back of the hand, the four finger air bags 32 are arranged in a finger sleeve 320, the finger sleeve 320 is provided with four cavities 3200 which are matched with the lengths of the fingers and can be inserted and correspondingly provided with the finger air bags 32, the four finger air bags 32 are correspondingly arranged in the four cavities 3200, the inflation of the finger air bags 32 can be respectively controlled independently, the finger sleeves 320 gather the finger air bags 32 into a whole to facilitate the installation in the second accommodating cavity 20, the four cavities 3200 arranged on the finger sleeves 320 facilitate the installation of the finger air bags 32, meanwhile, the mutual influence between the finger air bags 32 can not be caused, the normal use of the finger air bags 32 is ensured, one finger air bag 32 can be inflated during the use, the adjacent finger air bag 32 is not inflated, the finger can realize the massage effect similar to the wrestling of the finger under the action of the air bags, the massage effect is increased, the problem that the synchronous movement of the fingers is always poor when the fingers are massaged through the air bags is solved, and meanwhile, the finger air bags 32 corresponding to the fingers can not be inflated when the injured fingers are not convenient to massage, other fingers operate normally, which is convenient for use. To four cavities 3200 on the finger stall 320, it is with the finger assorted, will make the finger insert wherein and enclosedly, also mean that its length and width are not less than the length and the width of finger, and the size of each cavity 3200 can be the same also can be different and satisfy different demands, and in order to make the massage to the finger obtain good effect, finger air pocket 32 is rectangular shape air pocket, and the length that rectangular shape just can be fine corresponds to the finger comes the different positions of massage finger, can also set up different bumps on the air pocket simultaneously in order to increase massage effect, finger stall 320 is the dactylotheca made by the cloth and four cavities 3200 that set up on it are not mutually conducted, and finger stall 320 is made by the cloth, convenient production, also easily to the setting of four cavities 3200, also can be fine parcel the finger when massaging simultaneously, be equipped with a control mainboard 4, between inner shell 2 and outer shell 1, The air pump 5 and at least two electromagnetic valves which are electrically connected with the control mainboard 4 are arranged between the inner shell 2 and the outer shell 1, so that the direct contact between the air pump 5 and the air bag 3 is avoided, the air bag 3 is prevented from being damaged, the air pump 5 can be started to inflate through the control of the control mainboard 4, the inflation of different air bags 3 is adjusted and controlled through the control of different electromagnetic valves 6, two ends of the electromagnetic valves 6 are correspondingly connected and communicated with the inflating nozzle 30 and the air pump 5 through the vent pipes 7, and two adjacent finger air bags 32 are correspondingly communicated through the two electromagnetic valves 6, namely, the air pump 5 is correspondingly connected and communicated with the electromagnetic valves through a plurality of single through vent pipes or one multi-way vent pipe or the through and multi-way vent pipes, the connection of the same electromagnetic valves 6 and the inflating nozzle 30 on each air bag can be arranged according to the comparison of the number of the electromagnetic valves 6 and the inflating nozzle 30, if the number of the two air bags is the same, the air bags can be correspondingly connected and communicated one by one through single vent pipe, if the number of the electromagnetic valves 6 is less than that of the inflating valves 30, the combination of the single through vent pipe and the multi-way vent pipe can be selected to connect and communicate the air bags, and the better massaging effect is realized for the convenience of massaging the fingers, so that the two adjacent finger air bags 32 are correspondingly communicated through the two electromagnetic valves 6, namely the two adjacent finger air bags 32 can be in different states under the control of the electromagnetic valves 6, namely one is in an inflated state, the other can be in an uninflated state, the condition similar to the finger wrestling can be formed, and the massaging effect is improved.

In a further improvement, as shown in fig. 1, for the connection of the electromagnetic valve 6 with the inflation nozzle 30 and the air pump 5, the vent pipe 7 includes a first vent pipe 70 connected with the air pump 5, a multi-way vent pipe 71 connected with the first vent pipe 70 and having the same number of vent ports as the electromagnetic valve 6, and a plurality of second vent pipes 72 correspondingly connected with the plurality of inflation nozzles 30, wherein two ends of any one of the electromagnetic valves 6 are correspondingly connected with one vent port and one or more second vent pipes 72 of the multi-way vent pipe 71. That is to say, several electromagnetic valves 6 are arranged in the second accommodating cavity 20, so that several air outlets of the multi-way air pipe 71 are provided, and thus the air outlets of the multi-way air pipe 71 are adapted to the corresponding number of electromagnetic valves 6, so as to achieve one-to-one connection and facilitate control of the air bag. When the structure is operated, the air pump 5 is connected with the air inlet of the multi-way vent pipe 71 through the first vent pipe 70, then each air outlet of the multi-way vent pipe 71 is correspondingly connected with one electromagnetic valve 6, the electromagnetic valves 6 are connected with the inflating nozzle 30 through the second vent pipe 72, the whole air flow channel is communicated, and the first vent pipe 70 and the second vent pipe 72 can select an L-shaped pipe, an elbow pipe, a multi-way pipe or a straight pipe or the combination of the L-shaped pipe, the elbow pipe, the multi-way pipe or the straight pipe according to the positions of the air pump 5, the multi-way vent pipe 71, the electromagnetic valves 6 and the inflating. When the hand massager is used, the air pump 5 is started through the control main board 4, the air pump 5 performs an inflation action, then the corresponding air bag needing to be inflated is conducted through the adjustment electromagnetic valve 6, and the electromagnetic valve 6 is conducted to inflate the air bag, so that the hand massage can be realized. The structure of the massager is simplified, and the air bag can be conveniently maintained and replaced after being damaged. The number of the electromagnetic valves 6 is three, the multi-way vent pipe 71 is a four-way vent pipe with three air outlet ports, thus, the three electromagnetic valves 6 are correspondingly connected with the three air outlet ports of the multi-way vent pipe, three electromagnetic valves 6 are realized to control three paths of air flows, namely, one path of air flow is connected with two non-adjacent finger air bags 32 through a solenoid valve 6 and a three-way vent pipe, the second path of air flow controls the other finger air bag 32 through one solenoid valve 6, the third path of air flow controls the rest finger air bag 32 through one solenoid valve 6 to realize the massage to different fingers, the palm air bag 31 and the back air bag 33 can be correspondingly connected to different electromagnetic valves 6 according to different conditions, and at the moment, the palm air bag and the back air bag can be connected to the same electromagnetic valve 6 in parallel through a multi-way vent pipe and corresponding finger air bags 32, so that different massage methods and selective massage on different parts can be realized.

In a further improvement, as shown in fig. 1 to 4, any one or more of the air bags 31 of the palm, the air bag 33 of the back of the hand and the air bag 32 of the fingers is/are provided with a bulge 34 which is inflated to protrude out of the surface of the air bag, the bulge 34 is arranged corresponding to the acupuncture point of the hand, the bulge 34 can be made of one or two materials of EVA or TPU, so that the bulge 34 on the air bag can be used as a massage point to contact with the hand and massage the hand, the surface area of the bulge 34 is small, the contact area of the massage point and the hand is reduced, the massage effect is increased due to the concentration of the massage force, the use effect can be improved on the premise of enhancing the massage force by massaging the acupuncture point according to the acupuncture point arrangement, the bulge 34 protrudes out of the air bag after the air bag is inflated, the hand contacts with the bulge 34 after the hand is put in the air bag, the change of the air is adjusted by the electromagnetic valve 6 to adjust the massage, the massage effect is improved. Meanwhile, the hand and back air bag 33 comprises a front air bag 330 and a rear air bag 331 which are not communicated and are provided with inflating nozzles 30, the palm air bag 31 comprises a first air bag 310 and a second air bag 311 which are arranged in front and back and are provided with electromagnetic valves 6, and the first air bag, the first air bag 30 and the second air bag 311 are integrated and are separated by an arranged indentation 300. Thus, the front and back of the hand can be massaged by controlling the inflation of the front air bag 330 and the back air bag 331 during use, the palm air bag 31 is composed of two air bags, the front and back parallel structures of the two air bags can massage the front and back positions of the palm, the massage positions are further refined, the massage effect is improved, the integrated first air bag 310 and the integrated second air bag 311 are convenient to produce and install, and the front air bag 330 and the back air bag 331 can be integrated and separated by the indentation 300 arranged between the front air bag 330 and the back air bag 331, or can be separated independent air bags.

In a further improvement, as shown in fig. 1 and 3, a cloth cover 8 is further arranged in the inner shell 2 and is mounted on the inner shell 2 through a cloth cover bracket 80 arranged outside the inner shell 2, the arrangement of the cloth cover 2 can prevent sundries from falling into the second accommodating cavity 20 to damage the air bag in the accommodating cavity, after the cloth cover 8 is arranged in the inner shell 2, the edge of the cloth cover is turned over outwards and wrapped on the edge of the inner shell 2, then the cloth cover 8 is fixed on the inner shell 2 through the cloth cover bracket 80, thereby avoiding the sliding and accumulation of the cloth cover 8, being convenient to install, protecting the air bag in the inner shell 2, the cloth cover bracket 80 comprises a front cloth cover bracket 800 positioned at the front end of the inner shell and a rear cloth cover bracket 801 positioned at the rear end of the inner shell, through different supports, a plurality of connection points are formed between the cloth cover 8 and the inner shell 2, and the cloth cover 8 is smoothly and firmly arranged in the inner shell 2.

In a further improvement, as shown in fig. 1 and 2, the outer shell 1 includes a front shell 11 and a bottom shell 12 that are engaged with each other, the front shell 11 and the bottom shell 12 are engaged with each other to form a first receiving cavity 10, which facilitates the production of the front shell 11 and the bottom shell 12, and also facilitates the installation of corresponding components in the outer shell 1, i.e. in the first receiving cavity 10, a rechargeable battery 9 is further disposed between the outer shell 1 and the inner shell 2, the rechargeable battery 9 is electrically connected to a battery circuit board 90 disposed on the bottom shell 12, the control motherboard 4 is electrically connected to the battery circuit board 90, the battery circuit board 90 is provided with a charging interface 91, the battery circuit board 90 is used for controlling the charging and discharging of the rechargeable battery 9 and monitoring the state of the battery, the battery discharges to provide power to the control motherboard 4 through the battery circuit board 90, then the operation of the massager is controlled by the control motherboard 4, and the rechargeable battery 9 can be conveniently charged, meanwhile, the power supply can be directly connected with the charging interface 91 to supply power to the massager. The control main board 4 is further provided with a switch 40, the upper case 11 is provided with a button 41 corresponding to the switch 40, the switch 40 can be set to a plurality of switches corresponding to the control power supply, the air pump 5 and the electromagnetic valve 6 according to different requirements, different electromagnetic valves 6 are adjusted and controlled by controlling different switches 40, the plurality of switches 40 thus set are provided with corresponding buttons 41 on the corresponding upper case 11, the operation and control of the structure are clear, but in order to simplify the structure, the plurality of switches for controlling the electromagnetic valve 6 can be integrated on one switch, the switch is a multi-section switch, when the multi-section switch is in a certain position, one electromagnetic valve 6 is correspondingly controlled, meanwhile, a corresponding power supply switch and a switch for controlling the air pump are further provided, the air pump 5 is externally provided with a buffer 50 for buffering, so that the transmission of vibration is reduced through the buffer 50 when the air pump 5 works, and also plays a role in reducing noise.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (10)

1. The utility model provides a hand air wave physiotherapy equipment which characterized in that: the air bag type air bag inflation device comprises an outer shell and an inner shell, wherein the outer shell and the inner shell are both cylindrical shells with openings at two ends, the interiors of the two ends of the shells are hollow, and a first accommodating cavity and a second accommodating cavity are correspondingly formed; the air pocket is including the palm air pocket that is located the corresponding palm of the hand of second holding intracavity front end bottom surface, the finger air pocket that is located four mutually independent corresponding to the finger of second holding intracavity rear end bottom surface, the back of the hand air pocket that is located the corresponding back of the hand of second holding intracavity front end top surface, four the finger air pocket is installed in a finger cover, be provided with on the finger cover and match finger length correspond the installation finger air pocket and enable finger four male cavitys, be equipped with a control mainboard between inner shell and the shell, all with control mainboard electric connection's air pump and two at least solenoid valves, the both ends of solenoid valve correspond through the breather pipe and are connected with charging connector and air pump and switch on, and two adjacent finger air pockets correspond by two solenoid valves and switch on.

2. The air wave physiotherapy instrument for hands of claim 1, wherein: any one or more of the air bags of the palm air bag, the hand back air bag and the finger air bag is/are provided with bulges which are inflated and protrude out of the surface of the air bag, and the bulges are arranged corresponding to the acupuncture points of the hand.

3. The air wave physiotherapy instrument for hands of claim 1, wherein: the finger air bag is a strip-shaped air bag, the finger sleeve is made of cloth and four cavities arranged on the finger sleeve are not mutually communicated.

4. The air wave physiotherapy instrument for hands of claim 1, wherein: the hand back air bag comprises a front end air bag and a rear end air bag which are not communicated and are provided with inflating nozzles.

5. The air wave physiotherapy instrument for hands of claim 1, wherein: the palm air bag comprises a first air bag and a second air bag which are arranged in front and back and are provided with electromagnetic valves, and the first air bag and the second air bag are integrated and separated by an arranged indentation.

6. The air wave physiotherapy instrument for hands of claim 1, wherein: the breather pipe includes the first breather pipe that is connected with the air pump, be connected with first breather pipe have with the same quantity of breather pipe of giving vent to anger of solenoid valve, correspond a plurality of second breather pipes that are connected with a plurality of charging connectors, arbitrary one the both ends of solenoid valve correspond and are connected with a breather pipe of giving vent to anger of many-way breather pipe and one or more second breather pipes.

7. The air wave physiotherapy instrument for hands of claim 6, wherein: the solenoid valve is equipped with three, the multi-pass breather pipe is the four-pass breather pipe that has three air outlet port.

8. The air wave physiotherapy instrument for hands of claim 1, wherein: the cloth cover support comprises a front-end cloth cover support positioned at the front end of the inner shell and a rear-end cloth cover support positioned at the rear end of the inner shell.

9. The air wave physiotherapy instrument for hands of claim 1, wherein: the shell comprises a face shell and a bottom shell which are clamped mutually, a rechargeable battery is further arranged between the shell and the inner shell, the rechargeable battery is electrically connected with a battery circuit board arranged on the bottom shell, the control mainboard is electrically connected with the battery circuit board, and a charging interface is arranged on the battery circuit board.

10. The air wave physiotherapy instrument for hands of claim 9, wherein: the control mainboard is further provided with a switch, the face shell is provided with keys corresponding to the switch, and the air pump is externally provided with a buffer cushion for buffering.

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