CN216318793U - Treatment device and treatment apparatus - Google Patents

Abstract

The utility model discloses a treatment device and a treatment device. The therapeutic apparatus comprises: a first air bag; the second air bag is connected with the first air bag end to form an air bag cavity; the touch pressing piece is arranged in the air bag cavity and used for containing liquid; the touch pressing piece is provided with a plurality of blocking pieces, and the blocking pieces are used for carrying out flow dividing operation on liquid; the first air bag and the second air bag are used for wrapping the upper limb and/or the lower limb. The utility model can reduce the liquid pressure in the treatment equipment, thereby avoiding the fracture of the treatment equipment caused by the impact of the liquid pressure.

Description

Treatment device and treatment apparatus

Technical Field

The utility model relates to the technical field of limb treatment, in particular to treatment equipment and a treatment device.

Background

The therapeutic device is an instrument that reduces pain and swelling of a body part by means of compression, heat therapy, and the like.

In the related art, a treatment apparatus includes a control device and a treatment device. When a user selects a therapy mode requiring fluid for thermal therapy, the related art therapy device is easily broken due to the impact of fluid pressure, which affects the service life of the therapy device.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides a treatment device which can reduce the liquid pressure in the treatment device so as to avoid the rupture of the treatment device caused by the impact of the liquid pressure.

The utility model also provides a treatment device with the treatment equipment.

A treatment device according to an embodiment of the first aspect of the utility model, comprises: a first air bag; the second air bag is connected with the first air bag end to form an air bag cavity; the touch pressing piece is arranged in the air bag cavity and used for containing liquid; the touch pressing piece is provided with a plurality of blocking pieces, and the blocking pieces are used for carrying out flow dividing operation on liquid; the first air bag and the second air bag are used for wrapping the upper limb and/or the lower limb.

The treatment device according to the embodiment of the utility model has at least the following beneficial effects: the drainage to liquid is realized through a plurality of barriers that set up on the touch-and-press piece to reduced the pressure of the inside liquid of touch-and-press piece, and then avoided touch-and-press piece, first gasbag, second gasbag because of receiving the fracture that liquid pressure strikes and cause, improved treatment facility's life to a certain extent.

According to some embodiments of the utility model, the treatment device comprises: the first touch pressing piece is used for being connected with the control equipment, is attached to the first air bag and forms a first gap layer; and the second touch pressing piece is used for being connected with the control equipment, is attached to the second air bag and forms a second gap layer.

According to some embodiments of the utility model, the first balloon comprises at least one first sub-balloon; the second airbag comprises at least one second sub-airbag.

According to some embodiments of the utility model, the contact member is circular or needle-shaped.

A treatment apparatus according to an embodiment of the second aspect of the utility model comprises: a treatment apparatus as described in any of the embodiments above; a control device for connection with the treatment device; the control device is used for controlling the working mode of the treatment device.

According to some embodiments of the utility model, the control device is provided with a reservoir for containing a liquid; the control device comprises a control module, the control module is used for being connected with the water storage tank and the treatment device respectively, and the control module is used for executing the following steps: at least one of heating the liquid contained in the water storage tank, cooling the liquid contained in the water storage tank, controlling the liquid contained in the water storage tank to flow to the touch pressing piece, controlling the liquid in the touch pressing piece to be discharged from the touch pressing piece, controlling the first air bag to inflate, controlling the first air bag to deflate, controlling the second air bag to inflate and controlling the second air bag to deflate; the working mode comprises at least one of thermal therapy, cooling therapy, contrast therapy, pneumatic compression therapy and water pumping.

According to some embodiments of the utility model, the reservoir comprises: the first sub water tank and the second sub water tank are respectively used for being connected with the control module; the control module includes: the main control module and the power module; the power module is connected with the main control module and is used for being connected with the treatment equipment; the main control module is used for obtaining a control instruction, and cooling the liquid contained in the first sub water tank and/or heating the liquid contained in the second sub water tank according to the control instruction; the main control module is further used for generating a power signal according to the control instruction, and the power module is used for controlling the liquid flow direction of at least one of the first sub water tank, the second sub water tank and the touch pressing piece according to the power signal.

According to some embodiments of the utility model, the power module comprises: a first pressure control member, a second pressure control member, a first fluid control member, and a second fluid control member; the master control module comprises: a signal acquisition unit and a thermoelectric cooling unit; or, the power module includes: a third pressure control member, a third fluid control member, and a fourth fluid control member; the master control module comprises: the signal acquisition unit and the heating unit; or, the power module includes: the first pressure control, the second pressure control, the third pressure control, the first fluid control, the second fluid control, the third fluid control, and the fourth fluid control; the master control module comprises: the signal acquisition unit, the thermoelectric cooling unit, and the heating unit; the signal acquisition unit is used for acquiring a control command and generating a power signal according to the control command; the thermoelectric cooling unit is used for cooling the liquid contained in the first sub water tank according to the control instruction, and the heating unit is used for heating the liquid contained in the second sub water tank according to the control instruction; the first pressure control part is respectively connected with the first sub-water tank and the thermoelectric cooling unit; the first fluid control element is respectively used for being connected with the thermoelectric cooling unit and the treatment equipment; the second pressure control part is respectively used for being connected with the treatment equipment and the second fluid control part; the second fluid control member is connected with the first sub-tank; the third pressure control piece is connected with the second sub-water tank; the third fluid control member is used for being connected with the third pressure control member and the treatment equipment respectively; the fourth fluid control member is connected to the second pressure control member and the second sub-tank, respectively.

According to some embodiments of the utility model, the power module further comprises: one end of the fifth fluid control member is connected with the thermoelectric cooling unit, and the other end of the fifth fluid control member is connected with the first sub-tank.

According to some embodiments of the utility model, the power module further comprises: and one end of the sixth fluid control member is connected with the third pressure control member, and the other end of the sixth fluid control member is connected with the second sub-water tank.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described with reference to the following figures and examples, in which:

FIG. 1 is a diagram of a connection between a treatment apparatus and a control module according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a treatment apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a contact element according to an embodiment of the present invention;

FIG. 4 is a block diagram of a treatment apparatus according to an embodiment of the present invention;

fig. 5A and 5B are schematic structural views of a control apparatus according to an embodiment of the present invention;

FIG. 6 is a block diagram of a control device according to an embodiment of the present invention;

fig. 7 is another block diagram of a control device according to an embodiment of the present invention.

Reference numerals:

the control device 100, the control module 110, the reservoir 120, the first sub-reservoir 121, the second sub-reservoir 122, the touch screen 130, the signal acquisition unit 141, the thermoelectric cooling unit 142, the heating unit 143, the first pressure control 151, the second pressure control 152, the first fluid control 153, the second fluid control 154, the third pressure control 155, the third fluid control 156, the fourth fluid control 157, the fifth fluid control 158, the sixth fluid control 159, the connection 160, the treatment device 200, the first balloon 210, the first sub-balloon 211, the second balloon 220, the second sub-balloon 221, the touch-and-press 230, and the barrier 231.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and the above, below, exceeding, etc. are understood as excluding the present numbers, and the above, below, within, etc. are understood as including the present numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

In the description of the present invention, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1-3, an embodiment of the present application provides a therapeutic apparatus 200. The therapeutic device 200 is adapted to be connected to a control device 100, the control device 100 being adapted to control the operational mode of the therapeutic device 200. The treatment apparatus 200 includes: a first bladder 210, a second bladder 220, and at least one trigger 230. The first airbag 210 and the second airbag 220 are respectively used for connecting with the control device 100, and the first airbag 210 and the second airbag 220 are connected end to end and form an airbag cavity. The touching and pressing member 230 is disposed in the air bag cavity, the touching and pressing member 230 is used for connecting with the control device 100, and the control device 100 is used for controlling the liquid to flow to the touching and pressing member 230. Wherein the contact member 230 is provided with a plurality of stoppers 231. Specifically, both sides of the first balloon 210 are connected to both sides of the second balloon 220, respectively, to form a cylindrical structure having at least one end opened, so that the treatment site can be inserted into the treatment device 200 from the opened end. The cylindrical structure forms an air bag cavity inside, and the touch and press member 230 is arranged in the air bag cavity. The control device 100 is used for controlling an operation mode of the therapeutic device 200 according to the control command, the operation mode including at least one of a thermal therapy, a cooling therapy, and a pneumatic compression therapy.

For example, the control device 100 is used for heating and/or cooling the liquid, and the contact pressure member 230 is connected to the control device 100 through four pipes. When the control device 100 controls the treatment device 200 to perform the thermal treatment, the control device 100 performs a heating operation on the liquid according to the control command and controls the liquid after the heating operation to flow into the touch-pressing member 230 through one of the pipes; alternatively, the control device 100 controls the inflow of a liquid prepared in advance into the contact member 230. When the control device 100 controls the treatment device 200 to perform cooling treatment, the control device 100 performs a cooling operation on the liquid according to the control instruction, and controls the liquid after the cooling operation to flow into the contact-pressing member 230 through one of the pipes; or the control device 100 controls the inflow of the liquid prepared in advance into the contact member 230. When the control module inflates the first air bag 210 and/or the second air bag 220 according to the control instruction, the space range of the air bag cavity is reduced, so that the distance between the touch pressing piece 230 and the part to be treated is reduced and/or the contact area between the touch pressing piece 230 and the part to be treated is enlarged, further the pneumatic compression treatment is realized, and the effects of thermal treatment and cooling treatment are improved.

The first airbag 210 and the second airbag 220 are used for wrapping the upper limb and/or the lower limb. Specifically, the upper limb includes the upper arm, forearm and hand, and the lower limb includes the thigh, calf and foot. The treatment apparatus 200 is used for wrap treatment of the entire upper and/or lower limb to improve limb treatment effect and treatment efficiency.

Further, the blocking member 231 is provided on the contact member 230 by ultrasonic welding or the like, and the shape of the blocking member 231 is circular and/or needle-shaped. The blocking member 231 is used for draining the liquid flowing through the inside of the touch pressure member 230, so as to reduce the pressure of the liquid inside the touch pressure member 230 and avoid the damage of the touch pressure member 230, the first air bag 210 and the second air bag 220 caused by the excessive pressure of the liquid. It will be appreciated that the shape of the stop 231 may also be adapted as may be practical.

The treatment device 200 provided by the embodiment of the application realizes drainage of liquid through the plurality of blocking parts 231 arranged on the touch and press element 230, so that the pressure of the liquid in the touch and press element 230 is reduced, further, the rupture of the touch and press element 230, the first air bag 210 and the second air bag 220 caused by the impact of the liquid pressure is avoided, and the service life of the treatment device 200 is prolonged to a certain extent.

In some embodiments, the treatment device 200 includes a first and a second tact. The first tactile member is used to connect to the control device 100, and the first tactile member is attached to the first bladder 210 and forms a first interstitial layer. The second contact element is used for connection to the control device 100, which engages the second airbag 220 and forms a second clearance layer. Specifically, the treatment device 200 includes two tactions 230 (a first taction and a second taction). The edge of the first touch-press member is attached to the edge of the first airbag 210 and the edge of the second touch-press member is attached to the edge of the second airbag 220, thereby forming a first and second void layer, respectively, to expand the expansion range of the first and second airbags 210 and 220.

Referring to fig. 2, in some embodiments, the first balloon 210 includes at least one first sub-balloon 211 and the second balloon 220 includes at least one second sub-balloon 221. Specifically, in order to fit the line of the limb and adapt to the structural features of different parts of the limb, the first airbag 210 at least comprises one first sub-airbag 211, and the second airbag 220 at least comprises one second sub-airbag 221, so that the control module can control any one of the first sub-airbags 211 and/or any one of the second sub-airbags 221 according to the control instruction. For example, the first airbag 210 includes four first sub-airbags 211, and the second airbag 220 includes four second sub-airbags 221 to wrap four limb portions of the ankle, the calf, the knee, and the thigh. The control device 100 performs alternate inflation and deflation operations on the four first sub-airbags 211 and/or the four second sub-airbags 221 respectively, wherein each inflation time lasts for 30 seconds, so that wave treatment on the lower limbs is realized. It is understood that the number of the first sub-airbags 211 in the first airbag 210 and the number of the second sub-airbags 221 in the second airbag 220 can be adaptively set according to actual needs, and the embodiment of the present application is not particularly limited.

Referring to fig. 4, the present embodiment provides a treatment apparatus including a treatment device and a control device 100 as described in any of the above embodiments, the control device 100 being used to control the operation mode of the treatment device 200. The control device 100 comprises a control module 110, the control device 100 being provided with a reservoir 120, the reservoir 120 being adapted to contain a liquid. The control module 110 is disposed inside the control device 100, and the control module 110 is used for connecting with the reservoir 120 and the therapeutic device 200. The control module 110 is configured to perform: the method comprises the following steps of heating the liquid contained in the water storage tank 120, cooling the liquid contained in the water storage tank 120, controlling the liquid contained in the water storage tank 120 to flow to the touch pressing piece, controlling the liquid in the touch pressing piece to be discharged from the touch pressing piece, controlling the first air bag to inflate, controlling the first air bag to deflate, controlling the second air bag to inflate and controlling the second air bag to deflate. The operation mode of the treatment device 200 includes at least one of thermal treatment, cooling treatment, contrast treatment, pneumatic compression treatment, and water pumping.

Specifically, the control module 110 is configured to receive a control command, and the control module 110 performs a heating operation and/or a cooling operation on the liquid received in the reservoir 120 according to the control command, and controls the heated and/or cooled liquid to flow to the touch pressing member, thereby implementing any one of a thermal therapy, a cooling therapy, and a contrast therapy. After the treatment is finished, the control module 110 pumps the liquid in the touch member according to the corresponding control instruction, so as to discharge the liquid in the touch member to the water storage tank 120, thereby avoiding the influence of the liquid residue in the touch member on the service life of the touch member.

In addition, the touch pressure member may be controlled in a stepwise manner according to the number of sub-airbags included in the first sub-airbag 211 and the second sub-airbag 220. For example, the touch member is divided into four segments of sub-touch members to correspond to the four first sub-air bags 211, respectively. The control module 110 controls the heated and/or cooled liquid to flow through the four-segment sub-pressing member in sequence, so as to realize the segmented treatment of the limb.

Referring to fig. 4, 5A and 5B, in some embodiments, the reservoir 120 includes a first sub-tank 121 and/or a second sub-tank 122, the first sub-tank 121 and the second sub-tank 122 being respectively configured to be connected to the control module 110. Specifically, as shown in fig. 5A and 5B, the control device 100 is a three-dimensional structure with a certain accommodating groove therein, and the shape of the control device 100 may be adaptively set according to actual needs, which is not particularly limited in this embodiment of the present application. By placing liquid in the receiving reservoir to form the reservoir 120, the number of sub-reservoirs included in the reservoir 120 can be adaptively set according to the type of operation mode of the treatment apparatus 200.

For example, when the operation mode of the treatment device 200 comprises a cooling treatment, the reservoir 120 comprises a first sub-tank 121, the first sub-tank 121 being adapted to contain a liquid. The control module 110 performs a cooling operation on the liquid in the first sub-tank 121 according to the received control instruction, and controls the liquid after the cooling operation to flow to the treatment device 200, thereby implementing the cooling treatment on the limb.

When the operation mode of the therapeutic device 200 comprises the thermal treatment mode, the reservoir 120 comprises a second sub-reservoir 122, the second sub-reservoir 122 being adapted to contain a liquid. The control module 110 performs a heating operation on the liquid in the second sub-tank 122 according to the received control command, and controls the liquid after the heating operation to flow to the treatment device 200, thereby performing a thermal treatment on the limb.

When the operation mode of the treatment apparatus 200 includes contrast treatment, the reservoir 120 includes a first sub-reservoir 121 and a second sub-reservoir 122, and the first sub-reservoir 121 and the second sub-reservoir 122 are respectively used for containing liquid. The control module 110 performs a cooling operation on the liquid in the first sub-tank 121 and performs a heating operation on the liquid in the second sub-tank 122 according to the control command. The control module 110 is further configured to control the heated liquid and the cooled liquid to flow to the treatment device 200 according to the cycle period indicated by the control instruction, so as to form a cold-hot alternating effect, thereby implementing a contrast treatment module for the limb. It is to be understood that the temperature of the liquid contained in the first and second sub-water tanks 121 and 122 is not particularly limited in the embodiments of the present application; the temperature of the heated liquid and the temperature of the cooled liquid are correspondingly controlled by the control command received by the control module 110.

In addition, when the therapeutic apparatus 200 performs thermal therapy, cooling therapy, contrast therapy, the control module 110 can synchronously control the first air bag 210 and/or the second air bag 220 to perform an inflation operation, so as to realize the combination of thermal therapy and pneumatic compression therapy, or the combination of cooling therapy and pneumatic compression therapy, or the combination of contrast therapy and pneumatic compression therapy. The control module 110 may also control only the first and/or second air bags, for example: the first air bag 210 and the second air bag 220 are alternately inflated and deflated, so that the wave treatment is realized.

The method for the user to send the control instruction comprises direct sending, wireless transmission sending and the like. The direct transmission comprises screen touch transmission, key press transmission and other modes; the wireless transmission comprises modes of infrared transmission, Bluetooth communication transmission, terminal application transmission and the like. When the control command sent by the user is changed, the types of the components included in the control module 110 are also adaptively adjusted. For example, when the user sends a control instruction through a screen touch sending manner, the control module 110 correspondingly includes the touch screen 130.

Referring to FIG. 6, in some embodiments, the control module 110 includes a master control module and a power module. The power module is connected with the main control module and is used for connecting the therapeutic device 200. The main control module is configured to obtain a control instruction, and according to the control instruction, the main control module performs a cooling operation on the liquid contained in the first sub-tank 121 and/or performs a heating operation on the liquid contained in the second sub-tank 122. The main control module is further configured to generate a power signal according to the control instruction, and the power module is configured to perform a liquid flow direction control operation on at least one of the first sub-tank 121, the second sub-tank 122, and the treatment device 200 according to the power signal.

Specifically, the manner in which the main control module receives the control instruction corresponds to the manner in which the user sends the control instruction, and the manner also includes direct reception and wireless transmission reception. The main control module is used for receiving the control instruction and generating a corresponding power signal according to the control instruction so that the power module performs liquid flow direction control operation according to the power signal. The control instructions comprise thermotherapy selection, cooling therapy selection, contrast therapy selection, heating temperature, heating time, cooling temperature, cooling time, cold and hot alternation period during contrast therapy, water pumping operation starting and the like. The fluid flow direction control operation includes controlling the fluid outflow of the first sub-tank 121, controlling the fluid outflow of the second sub-tank 122, controlling the fluid discharge in the treatment apparatus 200 to the first sub-tank 121, controlling the fluid discharge in the treatment apparatus 200 to the second sub-tank 122, and the like. For example, when the control command indicates a cooling treatment selection, the main control module generates a power signal according to the control command to control the power module to pump the liquid in the first sub-tank 121. The main control module is further configured to perform a cooling operation on the pumped liquid according to the control instruction, and control the cooled liquid to flow to the treatment device 200, thereby implementing cooling treatment on the limb.

Referring to fig. 5, in some embodiments, the power module and the main control module may include specific components of which types are adaptively set according to the type of the operation mode of the therapeutic apparatus, as the principle of setting the number of the sub-tanks by the water storage tank 120. For example, the specific component types included in the power module and the main control module include three embodiments corresponding to the three operation modes (i.e., cooling therapy, thermal therapy, and contrast therapy) described in the above examples. Hereinafter, these three embodiments will be specifically described.

When the operational mode of the treatment apparatus includes cooling treatment, the power module includes a first pressure control 151, a second pressure control 152, a first fluid control 153, and a second fluid control 154; the main control module includes a signal acquisition unit 141 and a thermoelectric cooling unit 142. The first pressure control part 151 is connected to the first sub-tank 121 and the thermoelectric cooling unit 142, respectively. The first fluid control member 153 is used to connect with the thermoelectric cooling unit 142 and the treatment device 200, respectively. The signal obtaining unit 141 is configured to obtain a control command and generate a power signal according to the control command. The thermoelectric cooling unit 142 performs a cooling operation on the liquid contained in the first sub-tank 121 according to a control command.

Specifically, the control device further includes a connector 160, where the connector 160 has a plurality of ports, and the connector 160 is used to conductively connect any two components. When the user sends a control command in the manner described in any of the above embodiments, and the control command indicates that the cooling therapy is selected, the signal obtaining unit 141 controls the first pressure control member 151 to perform a pressure reduction operation according to the obtained control command, so as to control the liquid in the first sub-tank 121 to flow to the thermoelectric cooling unit 142. The thermoelectric cooling unit 142 includes a thermoelectric semiconductor cooling device such as peltier, and the thermoelectric cooling unit 142 performs a cooling operation on the liquid according to a control instruction to cool the liquid without using ice cubes. The first fluid control member 153 is a device for controlling the flow direction of the liquid, and the first fluid control member 153 conducts the connection path between the first sub-tank 121 and the treatment apparatus 200 according to the power signal sent by the signal obtaining unit 141, so that the cooled liquid flows into the treatment apparatus 200. When the control command sent by the user indicates a pumping operation, the second pressure control member 152 performs a pressure reduction operation according to the power signal sent by the signal acquisition unit 141 to control the discharge of the liquid in the treatment apparatus 200. The second fluid control member 154 is a device for controlling the flow direction of the liquid, and the second fluid control member 154 conducts the other connection path between the treatment apparatus 200 and the first sub-tank 121 according to the power signal sent by the signal obtaining unit 141, so as to prevent the liquid in the treatment apparatus 200 from remaining and causing the mildew of the treatment apparatus 200 and/or affecting the service life of the treatment apparatus. It is understood that the connection manner of the signal obtaining unit 141 and the first pressure control element 151, the first fluid control element 153, the second pressure control element 152, and the second fluid control element 154 may be a wired connection manner or a wireless connection manner, and the embodiment of the present application is not particularly limited thereto.

When the operational mode of the therapeutic device comprises thermal treatment, the power module comprises a third pressure control 155, a third fluid control 156 and a fourth fluid control 157. The main control module comprises a signal acquisition unit 141 and a heating unit 143. Third pressure control member 155 is connected to second water reservoir 122, third fluid control member 156 is adapted to be connected to third pressure control member 155 and treatment apparatus 200, respectively, and fourth fluid control member 157 is connected to second pressure control member 152 and second water reservoir 122, respectively. The signal obtaining unit 141 is configured to obtain a control command and generate a power signal according to the control command. The heating unit 143 is configured to perform a heating operation on the liquid received by the second sub-tank 122 according to the control command.

Specifically, the heating unit 143 includes a heating tube or other element having heating capability, and the heating unit 143 is disposed inside the second sub-water tank 122. When the user sends a control command in a manner as described in any of the above embodiments, and the control command indicates that the thermal therapy mode is selected, the signal obtaining unit 141 controls the heating unit 143 to heat the liquid contained in the second sub-tank 122 according to the obtained control command, and after the liquid is heated to a preset temperature, the signal obtaining unit 141 generates a power signal. The third pressure control member 155 performs a pressure reduction operation according to the power signal to control the flow of the liquid in the second sub-tank 122 to the third fluid control member 156. The third fluid control member 156 is a device for controlling the flow direction of the liquid, and the third fluid control member 156 conducts the connection path between the second sub-tank 122 and the treatment apparatus 200 according to the power signal, so that the heated liquid flows into the treatment apparatus 200, thereby performing the thermal treatment on the limb. When the control command sent by the user indicates a pumping operation, the second pressure control 152 operates to reduce pressure in response to the power signal to control the discharge of fluid from the treatment apparatus 200. The fourth fluid control element 157 is a device for controlling the flow direction of the liquid, and the fourth fluid control element 157 conducts the other connection path between the treatment device 200 and the second sub-tank 122 according to the power signal, so as to prevent the liquid in the treatment device 200 from being retained to cause the treatment device 200 to mildew and/or influence the service life of the treatment device. It is understood that the connection between the signal obtaining unit 141 and the heating unit 143, the third pressure control element 155, the third fluid control element 156 and the fourth fluid control element 157 may be a wired connection or a wireless connection, and the embodiment of the present application is not particularly limited thereto.

When the operation mode of the treatment apparatus includes cooling treatment, thermal treatment, contrast treatment, the power module includes a first pressure control 151, a second pressure control 152, a third pressure control 155, a first fluid control 153, a second fluid control 154, a third fluid control 156, and a fourth fluid control 157. The main control module includes a signal acquisition unit 141, a thermoelectric cooling unit 142, and a heating unit 143. The first pressure control part 151 is connected to the first sub-tank 121 and the thermoelectric cooling unit 142, respectively; the first fluid control element 153 is used for connecting with the thermoelectric cooling unit 142 and the treatment device 200 respectively; the second pressure control 152 is for connection with the treatment apparatus 200, the second fluid control 154, respectively; the second fluid control member 154 is connected to the first sub-tank 121; the third pressure control member 155 is connected to the second sub-tank 122; third fluid control element 156 is adapted to be connected to third pressure control element 155 and to treatment apparatus 200, respectively; the fourth fluid control member 157 is connected to the second pressure control member 152 and the second sub-tank 122, respectively. The signal obtaining unit 141 is configured to obtain a control command and generate a power signal according to the control command. The thermoelectric cooling unit 142 is used for performing a cooling operation on the liquid contained in the first sub-tank 121 according to the control instruction, and the heating unit 143 is used for performing a heating operation on the liquid contained in the second sub-tank 122 according to the control instruction.

Specifically, when the working modes include cooling therapy, thermal therapy and contrast therapy, the cooling therapy and the thermal therapy can be implemented as shown in the corresponding embodiments, and the detailed description of the embodiments of the present application is omitted. When the user sends a control command in a manner as described in any of the above embodiments, and the control command indicates that the contrast therapy is selected, the signal obtaining unit 141 controls the first pressure control 151, the thermoelectric cooling unit 142, the heating unit 143, and the third pressure control 155 to operate simultaneously according to the obtained control command, or controls the first pressure control 151, the thermoelectric cooling unit 142, the heating unit 143, and the third pressure control 155 to operate respectively, that is, controls the liquid in the first sub-tank 121 to be cooled and the liquid in the second sub-tank 122 to be heated simultaneously, or controls the liquid in the first sub-tank 121 to be cooled and the liquid in the second sub-tank 122 to be heated respectively. The signal acquiring unit 141 generates a corresponding power signal according to information such as a cold-hot alternation sequence and a cold-hot alternation time indicated by the control command. For example, the control instructions indicate that ten minutes of cooling therapy and five minutes of post-heat therapy are performed, and three cycles are performed accordingly. The first fluid control part 153 conducts the connection path of the first sub-tank 121 and the treatment apparatus 200 according to the corresponding power signal, so that the liquid after the cooling operation flows to the treatment apparatus 200, thereby implementing the cooling treatment. At this time, third fluid control member 156 maintains the open state of the connection path of second sub-tank 122 to treatment apparatus 200 according to the power signal. After the cooling treatment is performed for ten minutes, the heating unit 143 performs a heating operation on the liquid in the second sub-tank 122 according to the control instruction; or, the heating unit 143 performs a heating operation on the liquid in the second sub-tank 122 according to the control instruction in the middle of the cooling treatment; or, the heating unit 143 performs a heating operation on the liquid in the second sub-water tank 122 while the thermoelectric cooling unit 142 cools the liquid in the first sub-water tank 121. The second pressure control member 152 performs a pressure reduction operation according to the power signal to discharge the liquid for cooling treatment from the treatment apparatus 200 and to be discharged back to the first sub-tank 121. After the liquid for cooling therapy in the therapeutic device 200 is completely discharged, the third pressure control member 155 and the third fluid control member 156 are respectively operated according to the power signal to make the liquid of the second sub-tank 122 after the heating operation flow to the therapeutic device 200, thereby implementing the thermal therapy. After the thermal treatment is performed for ten minutes, the second pressure control 152 discharges the liquid for the thermal treatment from the treatment apparatus 200 according to the power signal and back to the second sub-tank 122 through the fourth fluid control 157. And completing one cycle, and repeating the three-cycle operation according to the control instruction, thereby completing the contrast treatment corresponding to the control instruction.

Referring to fig. 7, in some embodiments, the power module further comprises: a fifth fluid control member 158. One end of the fifth fluid control member 158 is connected to the thermoelectric cooling unit 142, and the other end of the fifth fluid control member 158 is connected to the first sub-tank 121. Specifically, the fifth fluid control member 158 is a device for controlling the flow direction of the liquid, and the fifth fluid control member 158 is connected to the signal acquiring unit 141 through a wired connection or a wireless connection. The fifth fluid control member 158 is turned on according to the power signal, thereby controlling the liquid cooled by the thermoelectric cooling unit 142 to flow back to the first sub-tank 121 again. The liquid is controlled to flow through the closed conduction path formed by the first sub-tank 121, the first pressure control element 151, the thermoelectric cooling unit 142, the fifth fluid control element 158 and the first sub-tank 121 for multiple times, so as to achieve the cooling effect. In some specific embodiments, the minimum temperature of the liquid may be up to 2 ℃.

Referring to fig. 7, in some embodiments, the power module further comprises: and a sixth fluid control member 159. One end of sixth fluid control member 159 is connected to third pressure control member 155 and the other end of sixth fluid control member 159 is connected to second sub-tank 122. Specifically, the sixth fluid control member 159 is a device for controlling the flow direction of the liquid, and the sixth fluid control member 159 is connected to the signal acquiring unit 141 through a wired connection or a wireless connection. The sixth fluid control member 159 is turned on according to the power signal, thereby controlling the liquid heated by the heating unit 143 to flow back to the second sub-tank 122 again. The liquid passes through the closed conduction path formed by the second sub-water tank 122, the third pressure control member 155, the sixth fluid control member and the second sub-water tank 122 by being controlled for multiple times, so as to achieve the effect of temperature rise and heating. In some specific embodiments, the maximum temperature of the liquid may reach 50 ℃.

In some embodiments, first pressure control member 151, second pressure control member 152, and third pressure control member 155 are each a pump. First, second, third, fourth, and sixth fluid controls 153, 154, 156, 157, and 159 are all solenoid valves.

The treatment equipment and the treatment device provided by the embodiment of the application carry out heating operation and/or cooling operation on liquid through the control module, so that a user does not need to prepare hot water or ice blocks in advance when using the treatment equipment and the treatment device, the use of other matched kits is avoided, the whole volume of the treatment device is reduced, the application range of the treatment device is expanded, and the portability of the treatment device is improved. Through the cooperation of control module, first gasbag, second gasbag for therapeutic device can realize treatment methods such as thermotherapy, cooling therapy, contrast treatment, intermittent type pneumatic compression treatment.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. Furthermore, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

Claims (10)

1. Therapeutic apparatus, characterized in that it comprises:

a first air bag;

the second air bag is connected with the first air bag end to form an air bag cavity;

the touch pressing piece is arranged in the air bag cavity and used for containing liquid;

the touch pressing piece is provided with a plurality of blocking pieces, and the blocking pieces are used for carrying out flow dividing operation on liquid; the first air bag and the second air bag are used for wrapping the upper limb and/or the lower limb.

2. The treatment apparatus according to claim 1, characterized in that the treatment apparatus comprises:

the first touch pressing piece is attached to the first air bag, and a first gap layer is formed;

and the second touch pressing piece is attached to the second air bag and forms a second gap layer.

3. The treatment apparatus according to claim 2 wherein the first balloon comprises at least one first sub-balloon;

the second airbag comprises at least one second sub-airbag.

4. A treatment device as claimed in any one of claims 1 to 3, wherein the contact member is circular or needle-shaped.

5. A treatment device, comprising:

the therapeutic apparatus of any one of claims 1 to 4;

a control device for connection with the treatment device; the control device is used for controlling the working mode of the treatment device.

6. A treatment device as claimed in claim 5, wherein the control apparatus is provided with a reservoir for containing a liquid;

the control device comprises a control module, the control module is used for being connected with the water storage tank and the treatment device respectively, and the control module is used for executing the following steps: the control device comprises a touch pressing piece, a first air bag, a second air bag, a first air bag, a second air bag and a control device, wherein the touch pressing piece is used for controlling the first air bag to inflate, the second air bag is used for controlling the second air bag to deflate, and the control device is used for controlling the second air bag to inflate.

7. A treatment device as claimed in claim 6, wherein the reservoir comprises: the first sub water tank and the second sub water tank are respectively used for being connected with the control module;

the control module includes: the main control module and the power module; the power module is connected with the main control module and is used for being connected with the treatment equipment; the main control module is used for obtaining a control instruction, and cooling the liquid contained in the first sub water tank and/or heating the liquid contained in the second sub water tank according to the control instruction; the main control module is further used for generating a power signal according to the control instruction, and the power module is used for controlling the liquid flow direction of at least one of the first sub water tank, the second sub water tank and the touch pressing piece according to the power signal.

8. The treatment apparatus of claim 7, wherein the power module comprises: a first pressure control member, a second pressure control member, a first fluid control member, and a second fluid control member; the master control module comprises: a signal acquisition unit and a thermoelectric cooling unit;

or, the power module includes: a third pressure control member, a third fluid control member, and a fourth fluid control member; the master control module comprises: the signal acquisition unit and the heating unit;

or, the power module includes: the first pressure control, the second pressure control, the third pressure control, the first fluid control, the second fluid control, the third fluid control, and the fourth fluid control; the master control module comprises: the signal acquisition unit, the thermoelectric cooling unit, and the heating unit;

the signal acquisition unit is used for acquiring a control command and generating a power signal according to the control command; the thermoelectric cooling unit is used for cooling the liquid contained in the first sub water tank according to the control instruction, and the heating unit is used for heating the liquid contained in the second sub water tank according to the control instruction;

the first pressure control part is respectively connected with the first sub-water tank and the thermoelectric cooling unit; the first fluid control element is respectively used for being connected with the thermoelectric cooling unit and the treatment equipment; the second pressure control part is respectively used for being connected with the treatment equipment and the second fluid control part; the second fluid control member is connected with the first sub-tank; the third pressure control piece is connected with the second sub-water tank; the third fluid control member is used for being connected with the third pressure control member and the treatment equipment respectively; the fourth fluid control member is connected to the second pressure control member and the second sub-tank, respectively.

9. The therapeutic device of claim 8, the power module further comprising:

one end of the fifth fluid control member is connected with the thermoelectric cooling unit, and the other end of the fifth fluid control member is connected with the first sub-tank.

10. The therapeutic device of claim 9, the power module further comprising:

and one end of the sixth fluid control member is connected with the third pressure control member, and the other end of the sixth fluid control member is connected with the second sub-water tank.

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