CN113142933A - Far infrared air circulation physiotherapy pillow - Google Patents

Abstract

The invention discloses a far infrared air circulation physiotherapy pillow, comprising: the physiotherapy pillow comprises a circulation physiotherapy pillow body, an air filling layer, a water circulation assembly, a physiotherapy pillow cushion layer, circulation control equipment and a heating layer, wherein the air filling layer and the water circulation assembly are arranged inside the circulation physiotherapy pillow body; make circulation physiotherapy pillow body can adjust the height and the hardness of circulation physiotherapy pillow body according to user's user demand of difference through the air-filled layer to improve and use the impression and use the flexibility, guarantee at the hot moxibustion in-process through the hydrologic cycle subassembly, the produced heat of zone of heating can be even the efficient effect on the cervical vertebra surface of using, control the rivers in the hydrologic cycle subassembly through circulation control equipment, realize humanized regulation of efficient and constant temperature effect.

Description

Far infrared air circulation physiotherapy pillow

Technical Field

The invention relates to the field of health care products, in particular to a far infrared air circulation physiotherapy pillow.

Background

A pillow is a sleeping tool. Pillows are generally considered to be a filler that people adopt for sleeping comfort. It is recognized from modern medical research that the human spine, when viewed from the front, is a straight line, but when viewed from the side, is a curve with four physiological curvatures. In order to protect the normal physiological curvature of the neck and maintain the normal physiological activities of people during sleeping, a pillow is needed during sleeping. The pillow generally comprises a pillow core and a pillow case.

In the existing far infrared heating pillow using process, the problems of over-strong local heating, too fast heat consumption and uneven heat generation often occur, so that the user experience is not good and the energy consumption is too fast.

Therefore, it is necessary to design a far infrared air circulation physiotherapy pillow capable of improving the uniformity of heat conduction.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a far infrared air circulation physiotherapy pillow, comprising:

circulation physiotherapy pillow body, air filling layer, hydrologic cycle subassembly, physiotherapy pillow layer, circulation control equipment, zone of heating, the air filling layer with the hydrologic cycle subassembly all sets up the inside of circulation physiotherapy pillow body, the zone of heating sets up the inside on air filling layer, the hydrologic cycle subassembly is located one side on air filling layer, the physiotherapy pillow layer sets up the upper surface of circulation physiotherapy pillow body, circulation control equipment with the hydrologic cycle subassembly is connected.

Preferably, the air filling layer includes middle level air filling layer, outer air filling layer, reinforcement intermediate layer, middle level air filling layer sets up the inside center of circulation physiotherapy pillow body, it sets up to consolidate the intermediate layer the outside surface on middle level air filling layer, outer air filling layer sets up consolidate interbedded outside surface, the zone of heating sets up consolidate interbedded inside.

Preferably, middle level air filling layer includes flexible embryo, spacing knitmesh, aerifys inner chamber, gas tube, layer of supplying gas, flexible embryo sets up consolidate interbedded inside, spacing knitmesh sets up consolidate interbedded internal surface, the layer of supplying gas sets up spacing knitmesh's inside, it sets up to aerify the inner chamber the inside on layer of supplying gas, the inside on layer of supplying gas is hollow structure, the layer surface of supplying gas evenly is provided with a plurality of gas pockets, the surface of circulation physiotherapy pillow body is provided with the inflation inlet, the gas tube sets up the inside of circulation physiotherapy pillow body, just the gas tube respectively with layer of supplying gas with the inflation inlet is linked together.

Preferably, the outer air filling layer comprises a pressure-bearing air bladder, an inflatable outer cavity, a circulating air passage and an exhaust pipe, the pressure-bearing air bladder is arranged inside the circulating physiotherapy pillow body, the inflatable outer cavity is arranged inside the pressure-bearing air bladder and located outside the reinforced interlayer, the circulating air passage is arranged between the inflatable outer cavity and the inflatable inner cavity, the circulating air passage is respectively communicated with the inflatable outer cavity and the inflatable inner cavity, the exhaust pipe is arranged on one side of the inflatable pipe, and the exhaust pipe is respectively communicated with the inflatable outer cavity and the outside.

Preferably, consolidate the intermediate layer including the bonding fixed bed, prevent pressing buffer layer, TPE reinforcement silk, protection skin, the protection skin sets up the middle level air packing layer with between the outer air packing layer, prevent pressing the buffer layer setting and be in the outer inside of protection, TPE reinforcement silk sets up prevent pressing the buffer layer with between the protection skin, the bonding fixed bed sets up prevent pressing the inside of buffer layer, the zone of heating sets up the inside of bonding fixed bed.

Preferably, the water circulation component comprises a water injection port, a binding surface, a water circulation area, a supporting mesh surface and a water return port, the water circulation area is arranged in the circulation physiotherapy pillow body and is located on one side of the outer air filling layer, the water injection port and the water return port are both arranged on the surface of the circulation physiotherapy pillow body, the water injection port is located on one side of the water return port, the water injection port and the water return port are respectively communicated with the water circulation area and the circulation control equipment, the binding surface is arranged on the surface of the circulation physiotherapy pillow body, the supporting mesh surface is arranged in the water circulation area, the water circulation area comprises a circulation pipeline, the circulation pipeline is alternately arranged in the supporting mesh surface, the water circulation area is respectively communicated with the water injection port and the water return port, and the supporting mesh surface is made of a breathable 3D three-dimensional mesh surface, the binding surface is made of an antibacterial material.

Preferably, the surface of circulation physiotherapy pillow body is provided with the interface that charges, the interface that charges with the zone of heating electricity is connected.

Preferably, the zone of heating includes far infrared heating membrane, mica basement, connects electrical end, insulating layer, the mica basement sets up the inside of bonding fixed bed, the far infrared heating membrane sets up the surface of mica basement, it is in to connect electrical end the one end of far infrared heating membrane, the insulating layer sets up the surface of far infrared heating membrane, connect electrical end with the interface electricity that charges is connected.

Preferably, the circulation control equipment includes the play water pipe, goes into the water pipe, bears seat, treatment chamber, chip collector, filter screen, absorption fan, water conservancy diversion fan, clean commentaries on classics leaf, bear the seat setting and be in the outside of circulation physiotherapy pillow body, the treatment chamber sets up bear the inside of seat, go into the water pipe with the play water pipe all sets up the surface of treatment chamber, just go into the water pipe respectively with the water filling port with the inside of treatment chamber is linked together, the play water pipe respectively with the return water mouth with the inside of treatment chamber is linked together, the detachable setting of chip collector is in the below of treatment chamber, the absorption fan sets up chip collector with the treatment chamber junction, the inside of treatment chamber is provided with the pivot, the even clean commentaries on classics leaf that is provided with in surface of pivot, the edge of clean commentaries on classics leaf is provided with the brush, the brush with the inner wall of process chamber contacts, the water conservancy diversion fan sets up the inside of play water pipe, just the water conservancy diversion fan is in rivers are by the one-way transport of process chamber to play water pipe department, the filter screen sets up the inside of process chamber, just the filter screen is located one side of water conservancy diversion fan, absorb the fan the water conservancy diversion fan the pivot is connected with control motor respectively.

Preferably, the circulation control device controls and compensates the flow rate of the water flow in the water circulation assembly according to a predetermined method, which comprises the following steps:

step 1, establishing input quantity of circulation control equipment and a rotating speed corresponding to water flow rate control according to the following formula:

wherein: w_IntoRho is the density constant of water, g is the gravitational acceleration, a is the rotation speed ratio, L is the total input energy consumption of the circulation control equipment₀For pump head, B₁、B₂、A₀、A₁、A₂All are fitted curve coefficient constants, σ is the efficiency of the pump at the instantaneous speed, σ_sTo motor efficiency, σ_nFor frequency conversion efficiency, W₁For initial power consumption, W₂The energy consumption is carried out after frequency conversion adjustment, and lambda is the energy saving rate of the water circulation component;

and 2, constructing a control system according to the input quantity constructed in the step 1 and a rotating speed relation corresponding to the control of the water flow velocity, directly and quickly realizing the control of the flow velocity in the water flow circulation process by controlling the total input energy consumption of the circulation control equipment, and simultaneously ensuring the energy conservation and effectiveness in the control process.

Compared with the prior art, the invention at least comprises the following beneficial effects:

according to the far infrared air circulation physiotherapy pillow, the head and the neck of a user are supported by the circulation physiotherapy pillow body, the height and the hardness of the circulation physiotherapy pillow body can be adjusted according to the use requirements of different users by the air filling layer, so that the use feeling and the use flexibility are improved, the water circulation component is used for ensuring that heat generated by the heating layer can uniformly and efficiently act on the surface of the cervical vertebra used in the thermal moxibustion process, local overheating or insufficient thermal moxibustion is avoided, the heat action efficiency is improved, water flow in the water circulation component is driven and circulated by the circulation control equipment, the circulation rate is controlled, the efficient humanized adjustment and constant temperature effect is realized, blood circulation and metabolism are promoted, and the sleep quality of the user is improved.

Other advantages, objects, and features of the far infrared air circulation physiotherapeutic pillow of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of a far infrared air circulation physiotherapy pillow according to the present invention;

FIG. 2 is a schematic top view of the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 3 is a schematic structural view of an air-filled layer in the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 4 is an enlarged view of the structure of the air-filled layer in the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 5 is a schematic structural view of a heating layer in the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 6 is a schematic structural view of a water circulation assembly in the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 7 is a schematic structural view of a circulation control device in the far infrared air circulation physiotherapy pillow according to the present invention;

FIG. 8 is a schematic view showing the structure of the cleaning rotary blade in the far infrared air circulation physiotherapy pillow of the present invention;

FIG. 9 is a schematic top sectional view of a structure of a circulation control device in the far infrared air circulation physiotherapy pillow according to the present invention;

fig. 10 is a schematic structural view of a chip collecting groove in the far infrared air circulation physiotherapy pillow of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 10, the present invention provides a far infrared air circulation physiotherapy pillow, comprising:

circulation physiotherapy pillow body 1, air filling layer 2, hydrologic cycle subassembly 3, physiotherapy pillow layer 4, circulation control equipment 5, zone of heating 6, air filling layer 2 with hydrologic cycle subassembly 3 all sets up circulation physiotherapy pillow body 1's inside, zone of heating 6 sets up air filling layer 2's inside, hydrologic cycle subassembly 3 is located one side of air filling layer 2, physiotherapy pillow layer 4 sets up circulation physiotherapy pillow body 1's upper surface, circulation control equipment 5 with hydrologic cycle subassembly 3 is connected.

The working principle of the technical scheme is as follows: the physiotherapy pillow comprises a circulation physiotherapy pillow body 1, an air filling layer 2, a water circulation component 3, a physiotherapy pillow layer 4, circulation control equipment 5 and a heating layer 6, wherein the air filling layer 2 and the water circulation component 3 are arranged inside the circulation physiotherapy pillow body 1, the heating layer 6 is arranged inside the air filling layer 2, the water circulation component 3 is located on one side of the air filling layer 2, the physiotherapy pillow layer 4 is arranged on the upper surface of the circulation physiotherapy pillow body 1, and the circulation control equipment 5 is connected with the water circulation component 3; in the use, be full of inert gas in the air filling layer 2 earlier, volume according to the user demand to gas is controlled, satisfy the demand of different users to circulation physiotherapy pillow body 1 height and hardness, the user can arrange head and neck in the upper surface of circulation physiotherapy pillow body 1 after that, and contact with physiotherapy pillow layer 4, and simultaneously, heat through zone of heating 6, the realization is to the far infrared thermal moxibustion of user's neck, rivers in the circulation control equipment 5 control hydrologic cycle subassembly 3 circulate, thereby guarantee at the thermal moxibustion in-process, the produced heat of zone of heating 6 can be even the efficient cervical vertebra surface that is used in.

The beneficial effects of the above technical scheme are that: through the design of the structure, the invention provides a specific structure of a far infrared air circulation physiotherapy pillow, the head and the neck of a user are supported by the circulation physiotherapy pillow body 1, the height and the hardness of the circulation physiotherapy pillow body 1 can be adjusted according to the use requirements of different users by the circulation physiotherapy pillow body 1 through the air filling layer 2, so that the use feeling and the use flexibility are improved, the heat generated by the heating layer 6 can uniformly and efficiently act on the surface of the cervical vertebra used in the thermal moxibustion process through the water circulation component 3, the local overheating or insufficient thermal moxibustion is avoided, the acting efficiency of the heat is improved, the water flow in the water circulation component 3 is driven and circulated by the circulation control equipment 5, the circulation rate is controlled at the same time, the efficient humanized adjustment and constant temperature effect are realized, and the blood circulation and the metabolism are promoted, improve the sleep quality of the user.

As shown in fig. 3 and 8, in one embodiment, the air-filled layer 2 includes a middle air-filled layer 201, an outer air-filled layer 202, and a reinforcing interlayer 203, the middle air-filled layer 201 is disposed at the center of the interior of the cycling physiotherapy pillow body 1, the reinforcing interlayer 203 is disposed on the outer side surface of the middle air-filled layer 201, the outer air-filled layer 202 is disposed on the outer side surface of the reinforcing interlayer 203, and the heating layer 6 is disposed inside the reinforcing interlayer 203.

Middle level air filling layer 201 includes flexible embryo 211, spacing knitmesh 212, aerifys inner chamber 215, gas tube 213, air supply layer 214, flexible embryo 211 sets up consolidate the inside of intermediate layer 203, spacing knitmesh 212 sets up consolidate the internal surface of intermediate layer 203, air supply layer 214 sets up spacing knitmesh 212's inside, it sets up to aerify inner chamber 215 air supply layer 214's inside, air supply layer 214's inside is hollow structure, air supply layer 214 surface evenly is provided with a plurality of gas pockets, the surface of circulation physiotherapy pillow body 1 is provided with the inflation inlet, gas tube 213 sets up circulation physiotherapy pillow body 1's inside, just gas tube 213 respectively with air supply layer 214 with the inflation inlet is linked together.

The outer air filling layer 202 comprises a pressure-bearing air bladder 221, an inflatable outer cavity 222, a circulating air passage 223 and an exhaust pipe 224, wherein the pressure-bearing air bladder 221 is arranged inside the circulating physiotherapy pillow body 1, the inflatable outer cavity 222 is arranged inside the pressure-bearing air bladder 221 and located outside the reinforcing interlayer 203, the circulating air passage 223 is arranged between the inflatable outer cavity 222 and the inflatable inner cavity 215, the circulating air passage 223 is respectively communicated with the inflatable outer cavity 222 and the inflatable inner cavity 215, the exhaust pipe 224 is arranged on one side of the inflation pipe 213, and the exhaust pipe 224 is respectively communicated with the inflatable outer cavity 222 and the outside.

Consolidate intermediate layer 203 including the fixed layer 231 that bonds, prevent pressing buffer layer 232, TPE and consolidate silk 233, the outer 234 of protection, the outer 234 setting of protection is in middle level air packing layer 201 with between the outer air packing layer 202, prevent pressing buffer layer 232 and set up the inside of the outer 234 of protection, TPE consolidates silk 233 and sets up prevent pressing buffer layer 232 with between the outer 234 of protection, the fixed layer 231 that bonds sets up prevent pressing the inside of buffer layer 232, zone of heating 6 sets up the inside of the fixed layer 231 that bonds.

The surface of circulation physiotherapy pillow body 1 is provided with the interface that charges, the interface that charges with 6 electricity in zone of heating are connected.

The zone of heating 6 includes far infrared heating film 601, mica basement 602, connects electric end 603, insulating layer 604, mica basement 602 sets up the inside of bonding fixed layer 231, far infrared heating film 601 sets up the surface of mica basement 602, it sets up to connect electric end 603 the one end of far infrared heating film 601, insulating layer 604 sets up the surface of far infrared heating film 601, connect electric end 603 with the interface electricity that charges is connected.

The working principle and the beneficial effects of the technical scheme are as follows: the air filling layer 2 comprises a middle air filling layer 201, an outer air filling layer 202 and a reinforcing interlayer 203, the middle air filling layer 201 is arranged in the center of the interior of the circulating physiotherapy pillow body 1, the reinforcing interlayer 203 is arranged on the outer side surface of the middle air filling layer 201, the outer air filling layer 202 is arranged on the outer side surface of the reinforcing interlayer 203, and the heating layer 6 is arranged in the reinforcing interlayer 203; the middle air filling layer 201 comprises a telescopic blank 211, a limiting woven net 212, an inflation inner cavity 215, an inflation pipe 213 and an air supply layer 214, wherein the telescopic blank 211 is arranged inside the reinforced interlayer 203, the limiting woven net 212 is arranged on the inner surface of the reinforced interlayer 203, the air supply layer 214 is arranged inside the limiting woven net 212, the inflation inner cavity 215 is arranged inside the air supply layer 214, the air supply layer 214 is of a hollow structure, a plurality of air holes are uniformly formed in the surface of the air supply layer 214, an inflation port is formed in the surface of the circulation physiotherapy pillow body 1, the inflation pipe 213 is arranged inside the circulation physiotherapy pillow body 1, and the inflation pipe 213 is respectively communicated with the air supply layer 214 and the inflation port; the outer air filling layer 202 comprises a pressure-bearing air bladder 221, an inflatable outer cavity 222, a circulating air passage 223 and an exhaust pipe 224, wherein the pressure-bearing air bladder 221 is arranged inside the circulating physiotherapy pillow body 1, the inflatable outer cavity 222 is arranged inside the pressure-bearing air bladder 221 and positioned outside the reinforcing interlayer 203, the circulating air passage 223 is arranged between the inflatable outer cavity 222 and the inflatable inner cavity 215, the circulating air passage 223 is respectively communicated with the inflatable outer cavity 222 and the inflatable inner cavity 215, the exhaust pipe 224 is arranged on one side of the inflatable pipe 213, and the exhaust pipe 224 is respectively communicated with the inflatable outer cavity 222 and the outside; the reinforcing interlayer 203 comprises a bonding and fixing layer 231, a pressure-proof buffer layer 232, TPE reinforcing filaments 233 and a protective outer layer 234, wherein the protective outer layer 234 is arranged between the middle air filling layer 201 and the outer air filling layer 202, the pressure-proof buffer layer 232 is arranged inside the protective outer layer 234, the TPE reinforcing filaments 233 are arranged between the pressure-proof buffer layer 232 and the protective outer layer 234, the bonding and fixing layer 231 is arranged inside the pressure-proof buffer layer 232, and the heating layer 6 is arranged inside the bonding and fixing layer 231; the surface of the circulating physiotherapy pillow body 1 is provided with a charging interface which is electrically connected with the heating layer 6; the heating layer 6 comprises a far infrared heating film 601, a mica substrate 602, an electric connection end 603 and an insulating layer 604, wherein the mica substrate 602 is arranged inside the bonding and fixing layer 231, the far infrared heating film 601 is arranged on the surface of the mica substrate 602, the electric connection end 603 is arranged at one end of the far infrared heating film 601, the insulating layer 604 is arranged on the surface of the far infrared heating film 601, and the electric connection end 603 is electrically connected with a charging interface; in the inflation process, gas sequentially enters the gas feeding layer 214 and the inflation inner cavity 215 through the inflation pipe 213, so that the telescopic blank 211 is expanded, meanwhile, the limit mesh 212 limits the telescopic blank 211, the telescopic blank 211 is prevented from being broken due to overlarge expansion, meanwhile, the gas can uniformly enter the inflation inner cavity 215 through the air holes uniformly formed in the surfaces of the inflation inner cavity 215 and the inflation inner cavity 215, the telescopic blank 211 is ensured to be expanded firstly, and the uniformity, reliability and safety in the inflation process are ensured; then, when the telescopic blank 211 is inflated to a certain degree, the gas in the inflation inner cavity 215 enters the interior of the inflation outer cavity 222 through the circulating air passage 223 to realize further inflation, and the reliability of inflation is further ensured through the pressure-bearing air bladder 221, so that the breakage is avoided; when the gas needs to be discharged, the gas only needs to be discharged through the exhaust pipe 224; the heating layer 6 is used for far infrared heating, in the heating process, the electric connection end 603 is electrically connected with the charging interface, and current is communicated with the far infrared heating film 601 through the electric connection end 603, so that heat is generated, and hot moxibustion is realized; lead to hot in-process, insulating layer 604 carries out thermal-insulated, thereby avoid the electric leakage, the security of guaranteeing to use, guarantee through bonding fixed layer 231 that the last setting that zone of heating 6 can stabilize is in the inside of consolidating intermediate layer 203, avoid sliding, alleviate effort and the pressure to zone of heating 6 in the use through preventing pressing buffer layer 232, the security of generating heat has further been guaranteed, add the silk 233 through TPE and improve the toughness and the intensity of protecting outer 234, avoid breaking, thereby the validity of consolidating intermediate layer 203 has been guaranteed.

As shown in fig. 3 and fig. 6, in an embodiment, the water circulation component 3 includes a water injection port 301, a bonding surface 302, a water circulation zone 303, a supporting mesh surface, and a water return port 304, the water circulation zone 303 is disposed inside the circulation physiotherapy pillow body 1, the water circulation zone 303 is located at one side of the outer air filling layer 202, the water injection port 301 and the water return port 304 are both disposed on the surface of the circulation physiotherapy pillow body 1, the water injection port 301 is located at one side of the water return port 304, the water injection port 301 and the water return port 304 are respectively communicated with the water circulation zone 303 and the circulation control device 5, the bonding surface 302 is disposed on the surface of the circulation physiotherapy pillow body 1, the supporting mesh surface is disposed inside the water circulation zone 303, the water circulation zone 303 includes a circulation pipeline, and the circulation pipeline is inserted and disposed inside the supporting mesh surface, and the water circulation area 303 is respectively communicated with the water injection port 301 and the water return port 304, the material of the supporting mesh surface is a breathable 3D three-dimensional mesh surface, and the material of the binding surface 302 is an antibacterial material.

The working principle and the beneficial effects of the technical scheme are as follows: the water circulation component 3 comprises a water injection port 301, a binding surface 302, a water circulation area 303, a supporting net surface and a water return port 304, the water circulation area 303 is arranged inside the circulation physiotherapy pillow body 1, the water circulation area 303 is positioned on one side of the outer air filling layer 202, the water injection port 301 and the water return port 304 are both arranged on the surface of the circulation physiotherapy pillow body 1, the water injection port 301 is positioned on one side of the water return port 304, the water injection port 301 and the water return port 304 are respectively communicated with the water circulation area 303 and the circulation control equipment 5, the binding surface 302 is arranged on the surface of the circulation physiotherapy pillow body 1, the supporting net surface is arranged inside the water circulation area 303, the water circulation area 303 comprises a circulation pipeline, the circulation pipeline is arranged inside the supporting net surface in an inserting manner, the water circulation area 303 is respectively communicated with the water injection port 301 and the water return port 304, the supporting mesh surface is made of a breathable 3D three-dimensional mesh surface, and the binding surface 302 is made of an antibacterial material; realize through water filling port 301 and return water mouth 304 liquid in the hydrologic cycle district 303 and circulation control equipment 5 between mutual, through realizing the buffering, guarantee that the rivers carry out the reliability of mutual in-process in the hydrologic cycle district 303, laminate mutually through binding face 302 and user's neck, improve user's use impression.

As shown in fig. 6-10, in one embodiment, the circulation control device 5 includes a water outlet conduit 501, a water inlet conduit 502, a bearing seat 503, a treatment cavity 504, a chip collecting groove 505, a filter screen 506, an absorption fan 507, a flow guiding fan 508, and a cleaning rotating blade 509, the bearing seat 503 is disposed at the outer side of the circulation physiotherapy pillow body 1, the treatment cavity 504 is disposed inside the bearing seat 503, the water inlet conduit 502 and the water outlet conduit 501 are both disposed on the surface of the treatment cavity 504, the water inlet conduit 502 is respectively communicated with the water inlet 301 and the treatment cavity 504, the water outlet conduit 501 is respectively communicated with the water return opening 304 and the treatment cavity 504, the chip collecting groove 505 is detachably disposed below the treatment cavity 504, the absorption fan 507 is disposed at the connection position of the chip collecting groove 505 and the treatment cavity 504, the inside of treatment chamber 504 is provided with the pivot, the even clean leaf 509 that changes in surface of pivot, the edge of clean leaf 509 that changes is provided with the brush, the brush with the inner wall of treatment chamber 504 contacts, water conservancy diversion fan 508 sets up the inside of play water pipe 501, just water conservancy diversion fan 508 is with rivers by the one-way transport of treatment chamber 504 to play water pipe 501 department, filter screen 506 sets up the inside of treatment chamber 504, just filter screen 506 is located one side of water conservancy diversion fan 508, absorb fan 507 the water conservancy diversion fan 508 the pivot is connected with the control motor respectively.

The working principle of the technical scheme is as follows: the circulation control device 5 comprises a water outlet conduit 501, a water inlet conduit 502, a bearing seat 503, a treatment cavity 504, a scrap collecting groove 505, a filter screen 506, an absorption fan 507, a diversion fan 508 and a cleaning rotating blade 509, wherein the bearing seat 503 is arranged at the outer side of the circulation physiotherapy pillow body 1, the treatment cavity 504 is arranged inside the bearing seat 503, the water inlet conduit 502 and the water outlet conduit 501 are both arranged on the surface of the treatment cavity 504, the water inlet conduit 502 is respectively communicated with the water inlet 301 and the treatment cavity 504, the water outlet conduit 501 is respectively communicated with the water return 304 and the treatment cavity 504, the scrap collecting groove 505 is detachably arranged below the treatment cavity 504, the absorption fan 507 is arranged at the connection position of the scrap collecting groove 505 and the treatment cavity 504, a rotating shaft is arranged inside the treatment cavity 504, the surface of the rotating shaft is uniformly provided with the cleaning rotating blade 509, the edge of the cleaning rotating blade 509 is provided with a brush, the brush is contacted with the inner wall of the treatment cavity 504, the diversion fan 508 is arranged inside the water outlet conduit 501, the diversion fan 508 unidirectionally conveys water flow from the treatment cavity 504 to the water outlet conduit 501, the filter screen 506 is arranged inside the treatment cavity 504, the filter screen 506 is positioned at one side of the diversion fan 508, and the absorption fan 507, the diversion fan 508 and the rotating shaft are respectively connected with the control motor; in the process that the circulation control device 5 controls the water flow in the water circulation component 3, the water in the water circulation component 3 enters the water outlet conduit 501 through the water return port 304, and then the diversion fan 508 rotates under the control of the control motor, so that the water flow is driven to sequentially pass through the treatment cavity 504, the filter screen 506 and the diversion fan 508 and enter the water inlet conduit 502, and then the circularly filtered liquid is circularly conveyed to the inside of the water circulation component 3 through the water inlet conduit 502 again; when liquid enters the processing cavity 504, the rotating shaft is driven by the control motor to rotate, so that the cleaning rotating blade 509 is driven to transmit in the processing cavity 504, and in the rotating process, a brush arranged at the edge of the cleaning rotating blade 509 is in scraping contact with the inner part of the processing cavity 504, so that the cleaning of the inner wall of the processing cavity 504 is realized, mineral substances and impurities in the liquid are prevented from being attached to the inner wall of the processing cavity 504, and the processing cavity 504 is prevented from being blocked due to long-term accumulation of the impurities; after the brushes scrape and drop impurities, the motor is controlled to control the absorption fan 507 to rotate, the impurities are collected into the chip collecting groove 505 under the action of the absorption fan 507 and gravity, after the impurities are fully collected in the chip collecting groove 505, the chip collecting groove 505 can be detached for cleaning, and finally the cleaned chip collecting groove 505 is installed below the processing cavity 504 again to realize recycling.

The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides a specific structure of the circulation control device 5, the water circulation component 3 is communicated with the treatment cavity 504 through the water outlet conduit 501 and the water inlet conduit 502, the circulation flow of water between the treatment cavity 504 and the water circulation component 3 is realized, the treatment cavity 504 is supported through the bearing seat 503, the stable water circulation work is ensured, the cleaning of the inner wall of the treatment cavity 504 is realized through the cleaning rotating vane 509 and the rotating shaft, the mineral substances and impurities in the liquid are prevented from being attached to the inner wall of the treatment cavity 504, the blockage of the treatment cavity 504 caused by the long-term accumulation of the impurities is avoided, the fallen impurity scraps are concentrated and collected through the absorption fan 507 and the chip collecting groove 505, the cleaning of the impurities is facilitated, the blockage in the treatment cavity 504 is prevented, the reliability of the water circulation is improved, the circulating water flowing back to the water inlet conduit 502 is filtered through the filter screen 506, the purity of water is ensured, so that the circulation effect in the water circulation process is ensured, and power for the water flow circulation process is provided through the diversion fan 508.

As shown in fig. 1 and 8, in one embodiment, the circulation control device 5 controls and compensates the flow rate of water in the water circulation assembly 3 according to a predetermined method, which comprises the following steps:

step 1, establishing the input quantity of the circulation control equipment 5 and the corresponding rotating speed for controlling the water flow rate according to the following formula:

wherein: w_IntoRho is the density constant of water, g is the gravitational acceleration, a is the rotation speed ratio, L is the total input energy consumption of the circulation control apparatus 5₀For pump head, B₁、B₂、A₀、A₁、A₂All are fitted curve coefficient constants, σ is the efficiency of the pump at the instantaneous speed, σ_sTo motor efficiency, σ_nFor frequency conversion efficiency, W₁For initial power consumption, W₂The energy consumption is carried out after frequency conversion adjustment, and lambda is the energy saving rate of the water circulation component 3;

and 2, constructing a control system according to the input quantity constructed in the step 1 and a rotating speed relation corresponding to the control of the water flow velocity, directly and quickly realizing the control of the flow velocity in the water flow circulation process by controlling the total input energy consumption of the circulation control equipment 5, and simultaneously ensuring the energy conservation and effectiveness in the control process.

The working principle and the beneficial effects of the technical scheme are as follows: the relation between the input quantity of the circulation control equipment 5 and the rotating speed corresponding to the control of the water flow velocity is established according to a preset algorithm formula, so that the simple and quick water flow control is realized by directly controlling the total input energy consumption quantity of the circulation control equipment 5, the steps required for realizing the water flow control are reduced, the efficiency is improved, and the energy-saving effectiveness in the control process is ensured.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. Far infrared air cycle physiotherapy pillow, its characterized in that includes: circulation physiotherapy pillow body (1), air filling layer (2), hydrologic cycle subassembly (3), physiotherapy pillow layer (4), circulation control equipment (5), zone of heating (6), air filling layer (2) with hydrologic cycle subassembly (3) all set up the inside of circulation physiotherapy pillow body (1), zone of heating (6) set up the inside of air filling layer (2), hydrologic cycle subassembly (3) are located one side of air filling layer (2), physiotherapy pillow layer (4) set up the upper surface of circulation physiotherapy pillow body (1), circulation control equipment (5) with hydrologic cycle subassembly (3) are connected.

2. The far infrared air circulation physiotherapy pillow according to claim 1, wherein the air filling layer (2) comprises a middle air filling layer (201), an outer air filling layer (202), and a reinforcement interlayer (203), the middle air filling layer (201) is disposed at the inner center of the circulation physiotherapy pillow body (1), the reinforcement interlayer (203) is disposed at the outer side surface of the middle air filling layer (201), the outer air filling layer (202) is disposed at the outer side surface of the reinforcement interlayer (203), and the heating layer (6) is disposed inside the reinforcement interlayer (203).

3. The far infrared air circulation physiotherapy pillow according to claim 2, wherein the middle air filling layer (201) comprises a retractable blank (211), a limiting woven mesh (212), an inflating inner cavity (215), an inflating tube (213) and an air supply layer (214), the retractable blank (211) is arranged inside the reinforced interlayer (203), the limiting woven mesh (212) is arranged on the inner surface of the reinforced interlayer (203), the air supply layer (214) is arranged inside the limiting woven mesh (212), the inflating inner cavity (215) is arranged inside the air supply layer (214), the air supply layer (214) is hollow, a plurality of air holes are uniformly arranged on the surface of the air supply layer (214), an inflating hole is arranged on the surface of the circulation physiotherapy pillow body (1), and the inflating tube (213) is arranged inside the circulation physiotherapy pillow body (1), and the air charging pipe (213) is respectively communicated with the air feeding layer (214) and the air charging port.

4. The far infrared air circulation physiotherapy pillow according to claim 3, wherein the outer air filling layer (202) comprises a pressure-bearing air bladder (221), an inflatable outer cavity (222), a circulation air duct (223), an exhaust pipe (224), the pressure-bearing air bladder (221) is arranged inside the circulation physiotherapy pillow body (1), the inflatable outer cavity (222) is arranged inside the pressure-bearing air bladder (221) and positioned outside the reinforcing interlayer (203), the circulation air duct (223) is arranged between the inflatable outer chamber (222) and the inflatable inner chamber (215), the circulating air passage (223) is respectively communicated with the inflation outer cavity (222) and the inflation inner cavity (215), the exhaust pipe (224) is arranged at one side of the inflation pipe (213), and the exhaust pipe (224) is respectively communicated with the inflatable outer cavity (222) and the outside.

5. The far infrared air circulation physiotherapy pillow according to claim 2, wherein the reinforcement interlayer (203) comprises an adhesion fixing layer (231), a pressure-proof buffer layer (232), TPE reinforcement filaments (233), and a protection outer layer (234), the protection outer layer (234) is disposed between the middle air filling layer (201) and the outer air filling layer (202), the pressure-proof buffer layer (232) is disposed inside the protection outer layer (234), the TPE reinforcement filaments (233) are disposed between the pressure-proof buffer layer (232) and the protection outer layer (234), the adhesion fixing layer (231) is disposed inside the pressure-proof buffer layer (232), and the heating layer (6) is disposed inside the adhesion fixing layer (231).

6. The far infrared air circulation physiotherapy pillow according to claim 2, wherein the water circulation component (3) comprises a water injection port (301), a binding surface (302), a water circulation zone (303), a supporting mesh surface, and a water return port (304), the water circulation zone (303) is disposed inside the circulation physiotherapy pillow body (1), the water circulation zone (303) is located at one side of the outer air filling layer (202), the water injection port (301) and the water return port (304) are both disposed at the surface of the circulation physiotherapy pillow body (1), the water injection port (301) is located at one side of the water return port (304), the water injection port (301) and the water return port (304) are respectively communicated with the water circulation zone (303) and the circulation control device (5), the binding surface (302) is disposed at the surface of the circulation physiotherapy pillow body (1), the support wire side sets up the inside of hydrologic cycle district (303), hydrologic cycle district (303) includes circulation pipeline, circulation pipeline alternates to set up the inside of support wire side, just hydrologic cycle district (303) respectively with water filling port (301) with return water mouth (304) are linked together, the material of support wire side is ventilative 3D three-dimensional net face, the material of binding face (302) is antibiotic material.

7. The far infrared air circulation physiotherapy pillow according to claim 5, characterized in that the surface of the circulation physiotherapy pillow body (1) is provided with a charging interface, and the charging interface is electrically connected with the heating layer (6).

8. The far infrared air circulation physiotherapy pillow according to claim 7, wherein said heating layer (6) comprises a far infrared heating film (601), a mica substrate (602), an electric connection terminal (603), and an insulating layer (604), said mica substrate (602) is disposed inside said adhesive fixing layer (231), said far infrared heating film (601) is disposed on the surface of said mica substrate (602), said electric connection terminal (603) is disposed at one end of said far infrared heating film (601), said insulating layer (604) is disposed on the surface of said far infrared heating film (601), and said electric connection terminal (603) is electrically connected to said charging interface.

9. The far infrared air circulation physiotherapy pillow according to claim 1, wherein the circulation control device (5) comprises a water outlet conduit (501), a water inlet conduit (502), a bearing seat (503), a treatment cavity (504), a chip collecting groove (505), a filter screen (506), an absorption fan (507), a flow guide fan (508) and a cleaning rotary vane (509), the bearing seat (503) is arranged outside the circulation physiotherapy pillow body (1), the treatment cavity (504) is arranged inside the bearing seat (503), the water inlet conduit (502) and the water outlet conduit (501) are both arranged on the surface of the treatment cavity (504), the water inlet conduit (502) is respectively communicated with the water injection port (301) and the interior of the treatment cavity (504), the water outlet conduit (501) is respectively communicated with the water return port (304) and the interior of the treatment cavity (504), the chip collecting groove (505) is detachably arranged below the processing cavity (504), the absorption fan (507) is arranged at the joint of the chip collecting groove (505) and the processing cavity (504), a rotating shaft is arranged in the processing cavity (504), the surface of the rotating shaft is uniformly provided with cleaning rotating blades (509), the edge of the cleaning rotating blade (509) is provided with a brush which is contacted with the inner wall of the processing cavity (504), the flow guiding fan (508) is arranged inside the water outlet conduit (501), the diversion fan (508) unidirectionally conveys water flow from the treatment cavity (504) to the water outlet conduit (501), the filter screen (506) is arranged inside the treatment cavity (504), and the filter screen (506) is positioned at one side of the diversion fan (508), the absorption fan (507), the diversion fan (508) and the rotating shaft are respectively connected with the control motor.

10. The far infrared air circulation physiotherapy pillow according to claim 1, characterized in that said circulation control means (5) controls and compensates the flow rate of the water flow inside the water circulation assembly (3) according to a predetermined method, the steps of which are as follows:

step 1, establishing input quantity of a circulation control device (5) and a rotating speed corresponding to water flow rate control according to the following formula:

wherein: w_IntoRho is the density constant of water, g is the gravitational acceleration, a is the rotation speed ratio, L is the total input energy consumption of the circulation control device (5)₀For pump head, B₁、B₂、A₀、A₁、A₂All are fitted curve coefficient constants, σ is the efficiency of the pump at the instantaneous speed, σ_sTo motor efficiency, σ_nFor frequency conversion efficiency, W₁For initial power consumption, W₂The energy consumption is carried out after frequency conversion adjustment, and lambda is the energy saving rate of the water circulation component (3);

and 2, constructing a control system according to the input quantity constructed in the step 1 and a rotating speed relation corresponding to the control of the water flow velocity, directly and quickly realizing the control of the flow velocity in the water flow circulation process by controlling the total input energy consumption of the circulation control equipment (5), and simultaneously ensuring the energy conservation and effectiveness in the control process.

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