CN215230024U - Massage foot machine capable of automatically adjusting air bag massage force according to foot size - Google Patents

Abstract

The utility model is suitable for the technical field of massage equipment, and provides a foot massage machine which can automatically adjust the massage strength of an air bag according to the size of a foot, an air pressure detection component, which is fixedly arranged on the base of the foot machine and is connected with the air charging and discharging component through signals and is used for detecting real-time air pressure values in the instep massage component and the heel massage component and adjusting the air pressure in the instep massage component and the heel massage component through the air charging and discharging component, by installing the air pressure detection component in the air path, the real-time air pressure in the instep air bag and the heel air bag can be detected in real time, the current storage capacity of the air pressure can be sensed through a set program, when the air pressure in the instep air bag and the heel air bag reaches a set value, the air pump is closed, if the air pressure in the instep air bag and the heel air bag is insufficient, the air pump can pressurize the instep air bag and the heel air bag at any time through the inflation and deflation assembly, in this way, users with different foot sizes can experience the same air bag wrapping pressure.

Description

Massage foot machine capable of automatically adjusting air bag massage force according to foot size

Technical Field

The utility model belongs to the technical field of massage equipment, especially, relate to a massage foot machine that can be according to big or small automatically regulated gasbag massage dynamics of foot sign indicating number.

Background

Most have all been equipped with the gasbag massage on present foot massage appearance, but the unable detection of atmospheric pressure of gasbag, can not self-interacting, the extrusion force that the foot received when the user that leads to different foot yards uses foot massage appearance is different, and the extrusion force that the user that the foot yard is little received is little, leads to the massage power of sole not enough, and the extrusion force that the user that the foot yard is big received is big, leads to the massage power of foot to say too big.

SUMMERY OF THE UTILITY MODEL

The utility model provides a massage foot machine capable of automatically adjusting air bag massage force according to foot size, which aims to solve the problems mentioned in the background technology.

The utility model discloses a realize like this, a massage foot machine that can be according to big or small automatically regulated gasbag massage dynamics of foot sign indicating number, include:

the foot machine base is provided with a heel bracket;

the inflation and deflation assembly is fixedly connected to the base of the foot machine;

the instep massage assembly is arranged on the foot machine base, is communicated with the inflation and deflation assembly, and is used for conveying air pressure into the instep massage assembly through the inflation and deflation assembly and discharging the air pressure inside the instep massage assembly through the inflation and deflation assembly;

the heel massage component is communicated with the air inflation and deflation component, is fixedly connected to the foot machine base corresponding to the instep massage component, and realizes the transmission and discharge of air pressure in the heel massage component through the air inflation and deflation component;

the air pressure detection component is fixedly arranged on the base of the foot machine, is in signal connection with the air inflation and deflation component, is used for detecting real-time air pressure values in the instep massage component and the heel massage component, and adjusts the air pressure in the instep massage component and the heel massage component through the air inflation and deflation component.

Preferably, the inflation and deflation assembly comprises an air pump, an electromagnetic valve is fixedly communicated with the air source output end of the air pump through a first air delivery pipe, and the instep massage assembly and the heel massage assembly are respectively communicated with the electromagnetic valve.

Preferably, instep massage subassembly includes the instep gasbag that is used for carrying out the instep massage of two relative settings, and two all the intercommunication has the second gas-supply pipe, two on the instep gasbag the correspondence is kept away from to the second gas-supply pipe one of instep gasbag serves the intercommunication and has first constant diameter tee bend, be provided with first reducing tee bend on the solenoid valve, just first reducing tee bend with the intercommunication has the third gas-supply pipe between the first constant diameter tee bend.

Preferably, the heel massage subassembly includes the heel gasbag of two relative settings, two all communicate with fourth gas-supply pipe on the heel gasbag, just be provided with second reducing tee joint on the solenoid valve, the last intercommunication of second reducing tee joint has the one end of a fifth gas-supply pipe, just the other end and two of fifth gas-supply pipe communicate with the second equal-diameter tee joint between the fourth gas-supply pipe.

Preferably, the air pressure detection part is provided with two sixth air conveying pipes, and the two sixth air conveying pipes are respectively communicated with the first reducing tee joint and the second reducing tee joint.

Preferably, the air pressure detection component is a PCB board with an air pressure detection module.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a can be according to massage foot machine of foot sign indicating number size automatically regulated gasbag massage dynamics:

through installation atmospheric pressure detection part in the gas circuit, real-time atmospheric pressure in can real-time detection instep gasbag and the heel gasbag, and current memory space through the procedure perception atmospheric pressure that sets for, the air pump is closed after atmospheric pressure in instep gasbag and the heel gasbag reaches the setting value, when the atmospheric pressure in discovery instep gasbag and the heel gasbag is not enough, again the accessible fills the gassing subassembly and pressurizes at any time in instep gasbag and the heel gasbag, the user that can make different foot sign indicating number through this kind of mode can experience the same instep gasbag and heel gasbag parcel pressure, make the massage power that user's sole acupuncture point received the same way, promote user's use and experience.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic diagram of the explosion structure of the present invention;

fig. 3 is an enlarged schematic view of a portion of the structure at a in fig. 2 according to the present invention;

fig. 4 is an enlarged schematic view of a portion of the structure at B in fig. 2 according to the present invention;

FIG. 5 is a schematic diagram of the air pressure detection in the present invention;

in the figure:

1. a foot machine base; 11. a heel support;

2. an air charging and discharging assembly; 21. an air pump; 22. an electromagnetic valve; 23. a first gas delivery pipe;

3. an instep massage assembly; 31. an instep airbag; 32. a second gas delivery pipe; 33. a first equal-diameter tee joint; 34. a third gas delivery pipe; 35. a first reducing tee;

4. a heel massaging assembly; 41. a heel airbag; 42. a fourth gas delivery pipe; 43. a second equal-diameter tee joint; 44. a fifth gas delivery pipe; 45. a second reducing tee;

5. an air pressure detecting member; 51. a sixth gas delivery pipe;

6. a user.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it is to be understood that the specific embodiments described herein are only used for explaining the present invention, and are not used for limiting the present invention.

Referring to fig. 1-2, the present invention provides a foot massaging machine capable of automatically adjusting air bag massaging force according to foot size, comprising:

the foot machine base 1 is provided with a heel bracket 11;

specifically, the staff is fixed mounting has two heel supports 11 on foot machine base 1, when user 6 is using this device, places the heel correspondence of both feet on two heel supports 11, through the setting of heel support 11, can be stable play fixed stay's effect to user 6's both feet for the user can obtain better use when using this device and experience.

It should be noted that, in some embodiments, when the staff designs two heel supports 11, the staff may also adjust the angles of the two heel supports 11, so that when the device is used by the user 6, the user 6 can freely adjust the angles of the two heel supports 11 according to the preference and the actual demand of the user 6, and further the device brings better use experience to the user 6.

Referring to fig. 1-2, the inflation and deflation assembly 2 is fixedly connected to the base 1 of the foot machine, the inflation and deflation assembly 2 comprises an air pump 21, an electromagnetic valve 22 is fixedly connected to an air source output end of the air pump 21 through a first air pipe 23, and the instep massage assembly 3 and the heel massage assembly 4 are respectively communicated with the electromagnetic valve 22.

Specifically, in this embodiment, the inflation and deflation assembly 2 is composed of an air pump 21, an electromagnetic valve 22 and a first air pipe 23, when in use, the PCB board with the air pressure detection module gives a working signal to the air pump 21, the air pump 21 starts to inflate, at this time, the inflation end of the electromagnetic valve 22 is open and the exhaust end is closed, after the air is input into the electromagnetic valve 22 through the first air pipe 23, the air is inflated into the instep airbag 31 and the heel airbag 41 through the third air pipe 34 and the fifth air pipe 44, the inflation of the instep massage assembly 3 and the heel massage assembly 4 is completed, and the feet of the user 6 are massaged.

It should be noted that the electromagnetic valve 22 is used for, on one hand, delivering the air filled in by the air pump 21 to the instep massage assembly 3 and the heel massage assembly 4, and on the other hand, when the air pressure detection component 5 connected thereto detects that the air pressure in the instep massage assembly 3 and the heel massage assembly 4 is surplus, sending a command to the electromagnetic valve 22 to discharge part of the air pressure stored in the instep massage assembly 3 and the heel massage assembly 4, so that the user 6 can obtain the best use experience.

Referring to fig. 1-4, the instep massage assembly 3 is disposed on the base 1 of the foot machine, and is communicated with the inflation and deflation assembly 2 for delivering air pressure into the instep massage assembly 3 through the inflation and deflation assembly 2, and the internal air pressure is discharged through the inflation and deflation assembly 2, the instep massage assembly 3 includes two instep airbags 31 oppositely disposed for performing instep massage, and the two instep airbags 31 are both communicated with the second air pipes 32, one ends of the two second air pipes 32 far away from the corresponding instep airbags 31 are communicated with a first constant diameter tee 33, the electromagnetic valve 22 is provided with a first variable diameter tee 35, and a third air pipe 34 is communicated between the first variable diameter tee 35 and the first constant diameter tee 33.

Specifically, after the air pump 21 delivers air to the electromagnetic valve 22 along the first air delivery pipe 23, the air is delivered to the first constant-diameter tee 33 through the third air delivery pipe 34 communicated with the first variable-diameter tee 35 between the electromagnetic valves 22, the first constant-diameter tee 33 has three air passages, one of the three air delivery pipes is communicated with the first constant-diameter tee 33, and the other two air delivery pipes are communicated with the second air delivery pipe 32, so that the air pumped in by the air pump 21 can move to the two corresponding second air delivery pipes 32 along the two air passages of the first constant-diameter tee 32 and is delivered to the corresponding instep air bags 31 through the second air delivery pipes 32, and the inflation of the two instep air bags 31 is completed.

It should be noted that, conversely, when the air pressure detecting component 5 detects that the air in the two instep airbags 31 is not consistent with the pressure generated by the feet of the user 6 and has surplus amount, the air in the two instep airbags 31 is conveyed to the first constant diameter tee 33 along the second air conveying pipe 32, then is conveyed to the electromagnetic valve 22 through the third air conveying pipe 34, and is exhausted by the electromagnetic valve 22, so that the air pressure in the instep airbags 31 is consistent with the pressure generated by the soles of the user 6, and the use experience of the user is ensured.

Heel massage subassembly 4, it communicates in inflating and deflating subassembly 2, and correspond instep massage subassembly 3 fixed connection on the sole base 1, realize the transport and the emission of heel massage subassembly 4 internal gas pressure through inflating and deflating subassembly 2, heel massage subassembly 4 includes two heel gasbag 41 that set up relatively, all communicate on two heel gasbag 41 has fourth gas-supply pipe 42, and be provided with second reducing tee 45 on the solenoid valve 22, the intercommunication has the one end of a fifth gas-supply pipe 44 on the second reducing tee 45, and the intercommunication has second constant diameter tee 43 between the other end of fifth gas-supply pipe 44 and two fourth gas-supply pipes 42.

Specifically, the electromagnetic valve 22 is further communicated with a second reducing tee joint 45, the gas received by the electromagnetic valve 22 is conveyed to the second reducing tee joint 43 along the fifth gas conveying pipe 44 through the second reducing tee joint 45, the second reducing tee joint 43 is provided with three gas passages, one of the gas passages is communicated with the fifth gas conveying pipe 44, and the other two gas passages are communicated with the fourth gas conveying pipes 42 on the heel airbags 41, so that the gas conveyed by the electromagnetic valve 42 is conveyed to the two heel airbags 41 along the fourth gas conveying pipes 42 and the fifth gas conveying pipe 44 and then is inflated to meet the normal use of the user 6.

It should be noted that, when it is necessary to discharge the gas in the heel bladders 41, the user 6 reverses the above-mentioned inflation steps, and then the deflation operation for the two heel bladders 41 is completed.

Atmospheric pressure detection part 5, its fixed mounting is on the foot machine base 1, and with fill gassing subassembly 2 signal connection, be used for detecting instep massage subassembly 3, the real-time atmospheric pressure value in the heel massage subassembly 4, and adjust the two inside atmospheric pressure through filling gassing subassembly 2, be provided with two sixth gas-supply pipes 51 on the atmospheric pressure detection part 5, and two sixth gas-supply pipes 51 are linked together with first reducing tee bend 35, second reducing tee bend 45 respectively, atmospheric pressure detection part 5 is for taking the atmospheric pressure detection module PCB board.

Specifically, the air pressure detecting component 5 is a PCB board with an air pressure detecting module, and is provided with two sixth air pipes 51 which are communicated with the first reducing tee 35 and the second reducing tee 45 on the electromagnetic valve 22, because the first reducing tee 35 and the second reducing tee 45 are both provided with three gas passages, and one of the gas passages is communicated with the electromagnetic valve 22, and the other gas passage is communicated with the corresponding third gas conveying pipe 34 and the fifth gas conveying pipe 44, therefore, the other gas passage is communicated with the end part of the sixth gas conveying pipe 51, thereby being convenient for the air pressure detecting component 6 to monitor the real-time air pressure in the instep air bag 31 and the heel air bag 41, thereby, the user with different foot codes can experience the same air bag wrapping force by feeding back the information to the program, and the same massage force of the sole acupuncture points can be obtained, and the use experience of the foot massage machine is greatly increased.

It should be noted that, when the air pressure detecting component 6 works, the air pressure values in the instep airbag 31 and the heel airbag 41 are converted into analog quantities and output to the PCB with the air pressure detecting module, when the air pressure reaches a predetermined value, the PCB with the air pressure detecting module sends an instruction to stop working of the air pump 21, and when an air leakage is detected in the pressure maintaining working state, the PCB with the air pressure detecting module also sends an instruction to inflate the air pump 21.

The utility model discloses a theory of operation and use flow: after the utility model is installed, when the utility model starts to work, the PCB board with the air pressure detection module supplies the working signal to the air pump 21, the air pump 21 starts to inflate, at the moment, the inflation end of the electromagnetic valve 22 is opened, the exhaust end is closed, the air passes through the first air pipe 23 and is inflated into the instep air bag 31 and the heel air bag 41 through the electromagnetic valve 22, the second air pipe 32, the third air pipe 34, the fourth air pipe 42 and the fifth air pipe 44, because the two air pressure sensors on the PCB board with the air pressure detection module are connected on the air passages of the instep air bag 31 and the heel air bag 41 through the first reducing tee 33 and the second reducing tee 43, the air pressure values in the instep air bag 31 and the heel air bag 41 can be detected in real time,

when the air needs to be exhausted, the PCB with the air pressure detection module sends an instruction to the electromagnetic valve 22 to perform reversing exhaust, and when the air pressure reaches an exhaust air pressure set value, the PCB with the air pressure detection module sends an instruction to stop the air pump 21, and the steps are repeated.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a can be according to massage foot machine of foot sign indicating number size automatically regulated gasbag massage dynamics which characterized in that includes:

the foot machine base (1) is provided with a heel bracket (11);

the inflation and deflation assembly (2) is fixedly connected to the base (1) of the foot machine;

the instep massage assembly (3) is arranged on the foot machine base (1), is communicated with the air inflation and deflation assembly (2), and is used for conveying air pressure into the instep massage assembly (3) through the air inflation and deflation assembly (2) and discharging the air pressure inside the instep massage assembly (3) through the air inflation and deflation assembly (2);

the heel massage component (4) is communicated with the air inflation and deflation component (2), is fixedly connected to the foot machine base (1) corresponding to the instep massage component (3), and realizes the transmission and discharge of air pressure in the heel massage component (4) through the air inflation and deflation component (2);

the air pressure detection component (5) is fixedly installed on the foot machine base (1), is in signal connection with the air inflation and deflation component (2), is used for detecting real-time air pressure values in the instep massage component (3) and the heel massage component (4), and adjusts the air pressure in the instep massage component and the heel massage component through the air inflation and deflation component (2).

2. The foot massage machine capable of automatically adjusting the massage strength of the air bag according to the size of the foot size as claimed in claim 1, wherein the inflation and deflation assembly (2) comprises an air pump (21), an electromagnetic valve (22) is fixedly communicated with the air source output end of the air pump (21) through a first air pipe (23), and the instep massage assembly (3) and the heel massage assembly (4) are respectively communicated with the electromagnetic valve (22).

3. The massage foot machine capable of automatically adjusting the massage force of the air bag according to the size of the foot size as claimed in claim 2, wherein the instep massage assembly (3) comprises two instep air bags (31) which are oppositely arranged and used for performing instep massage, the two instep air bags (31) are communicated with second air pipes (32), the second air pipes (32) are far away from and correspond to one ends of the instep air bags (31) and communicated with a first constant diameter tee (33), the electromagnetic valve (22) is provided with a first reducing tee (35), and the first reducing tee (35) is communicated with a third air pipe (34) between the first constant diameter tee (33).

4. The massage foot machine capable of automatically adjusting the massage strength of the air bags according to the size of the foot size as claimed in claim 2, wherein the heel massage assembly (4) comprises two heel air bags (41) which are arranged oppositely, the two heel air bags (41) are both communicated with fourth air conveying pipes (42), the electromagnetic valve (22) is provided with a second reducing tee joint (45), the second reducing tee joint (45) is communicated with one end of a fifth air conveying pipe (44), and the other end of the fifth air conveying pipe (44) and the two fourth air conveying pipes (42) are communicated with a second equal-diameter tee joint (43).

5. The foot massaging machine capable of automatically adjusting the massaging force of the air bag according to the size of the foot size as claimed in claim 3, wherein the air pressure detecting part (5) is provided with two sixth air pipes (51), and the two sixth air pipes (51) are respectively communicated with the first reducing tee joint (35) and the second reducing tee joint (45).

6. The massage foot machine capable of automatically adjusting the massage force of the air bag according to the size of the foot size as claimed in claim 1, wherein the air pressure detecting component (5) is a PCB board with an air pressure detecting module.

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