CN220108469U - Controller for controlling a power supply - Google Patents

Abstract

The utility model provides a controller, which comprises a mounting body, an operation body, an electric connection assembly and an auxiliary connection assembly, wherein the electric connection assembly and the auxiliary connection assembly are arranged on the mounting body and the operation body, so that the operation body is detachably and electrically connected with the mounting body, a user can conveniently take down the operation body, the movement of the user is convenient, the operation is simple, and the use is convenient.

Description

Controller for controlling a power supply

Technical Field

The utility model relates to the technical field of control of health-care products, in particular to a controller.

Background

At present, the protective health care massage products are widely applied to knee pads, waist pads, shoulder pads, elbow pads by people, and physiotherapy is performed through phototherapy, drug therapy, vibration massage and other functions. However, the existing controller and the product body are all integrally designed, on one hand, the controller and the product body are required to be connected to the product body through electric wires in a plugging manner, the electric wires are always connected in the application process, a user is required to be always and firmly arranged near the plug row, the controller and the product body cannot be moved greatly in the process of physical therapy, and the controller and the product body are inconvenient and easy to squeeze and loose, so that the power is not supplied and even the electric shock risk exists; on the other hand, the integral design can not be taken down for operation, and when the integral type design is used, if the integral type design is required to be adjusted, the whole product is required to be taken down from the body for adjustment, and then the integral type design is worn on the corresponding part of the body, so that the integral type design is troublesome and inconvenient to operate.

Even if some products can be taken down from the controller, the connection between the controller and the products is unstable, the user is required to keep in a stationary state, and the user cannot do other things in the physiotherapy process, so that the working efficiency is reduced for the partially busy user. In addition, in the process of vibration massage, if the patient moves, the controller is easy to drop down, so that the physiotherapy is interrupted and even the controller is damaged. In addition, in the current products, the battery is arranged on the product body, the controller is only used for adjusting the use parameters and the like, and when the charging or the wire connection is needed, the whole product is often needed to be connected, so that the battery is very inconvenient.

Therefore, based on the above points, improvement of the controller in the existing health care products is needed, so that the controller is more convenient and faster to use for health care physiotherapy.

Disclosure of Invention

An advantage of the present utility model is to provide a controller that integrates a mounting body, an operating body, and a power supply element, and is detachably electrically connected to a product body, so that the product body does not need wires during application, and is convenient to move.

The utility model further provides a controller, wherein the operation body is detachably connected with the product body, so that the adjustment parameters can be conveniently taken down, the operation is convenient, the operation of the product is controlled by controlling the operation body, and the health care physiotherapy effect is exerted.

The utility model has the advantages that the controller is provided, the electric connection points, the magnetic connection assembly, the buckle connection assembly and the sliding rail connection assembly are reasonably arranged, the contact points are reduced, the connection stability and the connection safety are ensured, and the service life of the product is prolonged.

The utility model has the advantages that the controller is provided with a plurality of connection modes, so that the assembly is convenient, the connection stability is ensured, other activities can be performed simultaneously in the physiotherapy process of a user, the occurrence of accidents that the controller falls down is avoided, and the normal work and life of the user are not influenced.

The utility model has the advantages that the controller is provided, the wireless communication module is arranged, wireless remote control is realized through Bluetooth, infrared, wiFi and other modes, various parameters can be conveniently and timely adjusted without being taken down from a body, the parameters can be ensured to be adjusted under the condition of continuous use, and the use requirements of more people are met.

Another advantage of the present utility model is to provide a controller that can be installed in a variety of health care products with a wide range of applications.

The utility model has the advantages that the controller is provided, various electric connection modes are arranged, the stability between the controller and a product is ensured, the power supply is ensured, and the occurrence of the conditions such as interruption and the like is prevented.

According to one aspect of the present utility model, there is provided a controller comprising:

a mounting body adapted to be secured to a product body;

an operation body;

an electrical connection assembly disposed between the mounting body and the operating body to conduct a circuit between the mounting body and the operating body; and

and the auxiliary connecting component is arranged on the mounting body and the operation body so that the operation body is detachably connected with the mounting body.

The electric connection assembly comprises at least one magnetic connection assembly, each magnetic connection assembly comprises a first magnetic connection piece and a second magnetic connection piece, the first magnetic connection piece and the second magnetic connection piece are respectively arranged on the installation body and the operation body, and the second magnetic connection piece and the first magnetic connection piece are in magnetic attraction so that the operation body is installed on the installation body.

According to an embodiment, the auxiliary connection assembly comprises at least one snap connection assembly, each snap connection assembly comprises a snap connection groove and a snap connection buckle, and the snap connection grooves are respectively arranged on the installation body and the operation body and are matched with the snap connection buckles.

According to an embodiment, the auxiliary connecting assembly comprises at least one sliding rail connecting assembly, each sliding rail connecting assembly comprises a first sliding rail connecting piece and a second sliding rail connecting piece, the first sliding rail connecting piece and the second sliding rail connecting piece are respectively arranged on the operating body and the mounting body, and the first sliding rail connecting piece is matched with the second sliding rail connecting piece.

According to an embodiment, the first sliding rail connecting piece comprises two protruding edges and a sliding groove, the two protruding edges extend outwards from the installation body and form the sliding groove, the second sliding rail connecting piece comprises two extending edges and a sliding rail, the sliding rail extends outwards from the operation body and is formed by extending the operation body, the extending edges are arranged on two sides of the end portion of the sliding rail, and the extending edges and the sliding rail are suitable for moving along the sliding groove to connect the operation body with the installation body.

According to an embodiment, the first sliding rail connector comprises a guiding edge and a sliding groove, the guiding edge is connected to the installation body and forms the sliding groove with the installation body, the second sliding rail connector comprises a sliding rail and a guiding groove, the sliding rail is connected to the operation body and forms the guiding groove with the operation body, the sliding rail is suitable for moving along the sliding groove, and the guiding edge is suitable for moving along the guiding groove to connect the operation body with the installation body.

The operation body comprises a chip, a power interface and a power supply element, wherein the power supply element is electrically connected with the chip, the power interface and the second electric connecting piece so as to supply electric energy to the controller and control the controller.

The operation body further comprises a wireless communication module, wherein the wireless communication module is connected with the chip and is suitable for realizing wireless communication with electronic equipment.

According to an embodiment, the magnetic connection assembly is suitable for conducting electricity, the first magnetic connection piece is electrically connected to the circuit structure inside the installation body, the second magnetic connection piece is electrically connected to the circuit structure inside the operation body, and the second magnetic connection piece and the first magnetic connection piece are connected through magnetic attraction to conduct a circuit of the controller.

According to an embodiment, the electrical connection assembly comprises a first electrical connector electrically connected to the circuit structure inside the mounting body and a second electrical connector electrically connected to the circuit structure inside the operating body, wherein the first electrical connector is disposed on the mounting body and adjacent to the first magnetic connector, and the second electrical connector is disposed on the operating body and adjacent to the second magnetic connector.

According to an embodiment, the electrical connection assembly includes at least one elastic connection assembly, each elastic connection assembly includes a first elastic connection member and a second elastic connection member, the first elastic connection member is disposed inside the card connection slot and electrically connected to the circuit structure inside the mounting body, and the second elastic connection member is disposed inside the card connection buckle and electrically connected to the circuit structure inside the operating body.

According to an embodiment, the electrical connection assembly includes at least one elastic connection assembly, each elastic connection assembly includes a first elastic connection member and a second elastic connection member, the first elastic connection member is disposed inside the first sliding rail connection member and electrically connected to the circuit structure inside the installation body, and the second elastic connection member is disposed inside the second sliding rail connection member and electrically connected to the circuit structure inside the operation body.

According to an embodiment, the electrical connection component and the auxiliary connection component are different components or the same component performs electrical connection and separable connection functions.

According to an embodiment, the operation body comprises a chip, a power interface and a power supply element, wherein the power supply element is electrically connected with the chip and the power interface, so as to provide electric energy for the controller and control the controller, and the chip has a memory function, so that when the physiotherapy parameters are set, the operation body is installed on the installation body, and the product body can work according to the preset parameters.

According to an embodiment, the product body is a health care product for at least one physical therapy and key protection of knee protection, waist protection, shoulder protection, elbow protection, neck protection, phototherapy, medication, vibration massage functions.

According to another aspect of the present utility model, there is provided a controller comprising:

a mounting body adapted to be secured to a product body;

an operation body;

the detachable electric connection assembly is arranged on the installation body and the operation body, so that the operation body is detachably and electrically connected with the installation body, the operation body comprises a chip and an operation interface, the operation interface is electrically connected with the chip, and the chip has a memory function, so that after physiotherapy parameters are set, the operation body is installed on the installation body, and the product body can work according to preset parameters.

According to an embodiment, the detachable electric connection assembly comprises at least one magnetic connection assembly, each magnetic connection assembly comprises a first magnetic connection piece and a second magnetic connection piece, the first magnetic connection piece and the second magnetic connection piece are respectively arranged on the installation body and the operation body, and the second magnetic connection piece and the first magnetic connection piece enable the operation body to be installed on the installation body through magnetic attraction, and the magnetic connection assembly has a conductive function.

According to an embodiment, the separable electrical connection assembly further comprises at least one top bead connection assembly, each top bead connection assembly comprises a top bead and a mounting groove, the mounting grooves are formed in the mounting body and located in the middle of the two first magnetic connection pieces, and the top beads are arranged in the operating body and located in the middle of the two second magnetic connection pieces and are connected with separable electrical connections matched with the mounting grooves so as to conduct a circuit between the mounting body and the operating body.

According to an embodiment, the separable electrical connection assembly includes at least one elastic connection assembly, each elastic connection assembly includes a first elastic connection member and a second elastic connection member, the first elastic connection member is disposed on the mounting body and electrically connected to a circuit structure inside the mounting body, the second elastic connection member is disposed on the operating body and electrically connected to the circuit structure inside the operating body, and after the first elastic connection member and the second elastic connection member are connected in a matched manner, a circuit between the operating body and the mounting body is conducted.

According to an embodiment, the auxiliary connecting component comprises at least one buckle connecting component, each buckle connecting component comprises a card connecting groove and a card connecting buckle, the card connecting grooves are respectively arranged on the installation body and the operation body, the card connecting buckles are matched with the card connecting grooves, the first elastic connecting piece is arranged in the card connecting grooves, and the second elastic connecting piece is arranged in the card connecting buckle.

The operation body comprises a power interface, a power supply element and a switch, wherein the power supply element is electrically connected with the power interface and the switch so as to supply electric energy to the controller and control the controller.

According to an embodiment, the power supply element is further adapted to supply power to the product body.

According to an embodiment, the device further comprises a wireless communication module, which is arranged on the operation body, wherein the wireless communication module is connected with the chip and is suitable for realizing wireless communication with an electronic device so as to control the work of the controller.

Wherein the product body is health product for at least one physiotherapy and health protection key selected from knee pad, waist support, shoulder support, elbow support, neck support, phototherapy, pharmacotherapy, and vibration massage.

Drawings

Fig. 1 is a schematic structural diagram of a controller according to a first preferred embodiment of the present utility model.

Fig. 2 is a schematic structural view of the controller according to the first preferred embodiment of the present utility model.

Fig. 3 is a schematic application view of the controller according to the first preferred embodiment of the present utility model.

Fig. 4 is another application schematic diagram of the controller according to the first preferred embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of a controller according to a second preferred embodiment of the present utility model.

Fig. 6 is a schematic application view of the controller according to the second preferred embodiment of the present utility model.

Fig. 7 is a schematic application view of the controller according to the second preferred embodiment of the present utility model.

Fig. 8 is a schematic structural diagram of a controller according to a third preferred embodiment of the present utility model.

Fig. 9 is a schematic structural diagram of a controller according to a fourth preferred embodiment of the present utility model.

Fig. 10 is another structural diagram of a controller according to the fourth preferred embodiment of the present utility model.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present utility model.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 and 2, a controller according to a first preferred embodiment of the present utility model is illustrated. In this embodiment, the controller includes a mounting body 30, an operating body 40, an electrical connection assembly and an auxiliary connection assembly, wherein the mounting body 30 is adapted to be fixedly connected to a product body 100 and electrically connected to the circuit module of the product body 100, and the operating body 40 is detachably electrically connected to the mounting body 30 through the electrical connection assembly and the auxiliary connection assembly.

The mounting body 30 includes a first mounting surface 31 and a second mounting surface 32, wherein the first mounting surface 31 is electrically connected to a product body 100, the mounting body 30 is connected to the product body through the first mounting surface 31, and the second mounting surface 32 is correspondingly connected to the first mounting surface 31, and the second mounting surface 32 is adapted to be electrically connected to the operation body 40.

The operation body 40 includes a power supply element 46, the power supply element 46 is disposed inside the operation body 40, and supplies power to the product body through the power supply element 46, so that the product can be applied to the physiotherapy process of the shoulder, knee joint, elbow and waist without wires, and physiotherapy parameters conforming to the user and the use position are set through the operation body 40, so as to control the work of the product body.

The operation body 40 further comprises an operation interface 41, a connection interface 42, a chip 43, a power interface 44 and a switch 45, wherein the chip 43 and the power supply element 46 are both installed in a cavity formed by connecting the operation interface 41 and the connection interface 42, the chip 43 is connected to the operation interface 41, physical therapy parameters of a product are adjusted through the operation interface 41, and the power interface 44 and the switch 45 are disposed at a side portion of the operation body 40 and are electrically connected to the power supply element 46.

When the operating body 40 is connected to the mounting body 30, the connection interface 42 is adapted to be attached to the second mounting surface 32, and the operating body 40 is detachably and electrically connected to the mounting body 30 through the electrical connection between the connection interface 42 and the second mounting surface 32.

The user is suitable for charging the power supply element 46 through the power interface 44, so as to supply power to the product, so that the product body does not need to be connected with a wire when working, the movement is more convenient, and the starting and closing of the product body are controlled through the switch 45.

In the application, the controller further includes a preset program module, which is disposed on the operation body. In this embodiment, the operation interface 46 and the chip 43 form a preset program module, and the physiotherapy parameters of the product during operation are set by the preset program module, and can be adjusted at any time, so that the product meets the requirements of the user.

Specifically, the user is adapted to set corresponding parameters through the operation interface 41, wherein the set parameters are preset in the chip 43, and the chip 43 has a memory function, so that when the physiotherapy parameters are set, the operation body 40 is mounted on the mounting body 30, and the product body can work according to the preset physiotherapy parameters.

When the parameters need to be readjusted, the operator body 40 is taken down for readjustment without taking down the whole product, so that the operator body 40 is easy and convenient to take down and install, and the loss of the operator body 40 can be prevented.

The electrical connection assembly in the present application is a detachable electrical connection assembly, in this embodiment, the electrical connection assembly is implemented as at least one magnetic connection assembly 50, and the auxiliary connection assembly is implemented as at least one snap connection assembly 60, wherein the magnetic connection assembly 50 and the snap connection assembly 60 are disposed in pairs on the mounting body 30 and the operation body 40 to detachably electrically connect the mounting body 30 and the operation body 40.

Each magnetic connection assembly 50 includes a first magnetic connection member 51 and a second magnetic connection member 52, the first magnetic connection member 51 is disposed on the second mounting surface 32 of the mounting body 30, and the first magnetic connection member 51 is electrically connected to the circuit structure inside the mounting body 30 and the circuit module inside the product body 100.

The plurality of first magnetic connectors 51 are disposed on the second mounting surface 32 of the mounting body 30 at intervals, in this embodiment, six first magnetic connectors 51 are implemented, and three rows and two columns of first magnetic connectors are disposed on the second mounting surface 32 of the mounting body 30, so as to form multi-point connection, so as to ensure connection and conductive stability.

The second magnetic connectors 52 are provided at the connection interface 42 of the operation body 40 and connected with the power supply assembly 46 and the chip 43, wherein the number and arrangement positions of the second magnetic connectors 52 correspond to those of the first magnetic connectors 51.

It should be noted that the magnetic connection assembly 50 is a detachable electrical connection assembly, wherein the first magnetic connection member 51 is electrically connected to the circuit structure inside the mounting body 30, and the second magnetic connection member 52 is electrically connected to the circuit structure inside the operation body 40. The first magnetic connecting piece 51 and the second magnetic connecting piece 52 are made of metal conductive materials, and when the second magnetic connecting piece 52 is connected with the first magnetic connecting piece 51 through magnetic attraction, a circuit between the first magnetic connecting piece and the second magnetic connecting piece is conducted, so that the first magnetic connecting piece and the second magnetic connecting piece are conductive, and further the product body 100 is powered. That is, after conducting electricity, the physiotherapy equipment such as the heating device, the vibration device and the like arranged in the product body can be powered so as to control the product to perform physiotherapy such as heating, vibration and the like.

The first magnetic connection member 51 and the second magnetic connection member 52 are implemented as protrusions and recesses in the present embodiment, and may be implemented as a magnetic fastening manner or other magnetic attraction manners.

The snap connection assembly 60 comprises a snap connection groove 61 and a snap connection button 62, which are respectively arranged on the second mounting surface 32 of the mounting body 30 and the connection interface 42 of the control body 40, wherein the snap connection button 62 is matched with the snap connection groove 61.

Wherein two card connecting grooves 61 are provided at both ends of the first magnetic connecting member 51, and two card connecting buckles 62 are provided at both ends of the second magnetic connecting member 52, which are correspondingly arranged so as to facilitate the mating connection.

The specifications of the magnetic connection assemblies 50 arranged on the installation body 30 and the operation body 40 are the same, and the specifications of the magnetic connection assemblies 60 arranged on the installation body 30 and the two buckling connection assemblies 60 arranged on the two ends of the operation body 40 are also the same, so that the two ends of the operation body 40 are optionally matched with the two ends of the installation body 30, the installation direction is not required to be considered during installation, and the installation is more convenient.

Referring to fig. 3 and 4, there are shown schematic views of a process in which the controller of the present utility model is applied. The installation body 30 is disposed in a product, the operation body 40 is detachably installed on the installation body 30, and the installation body and the operation body are connected through the magnetic connection assembly 50 and the snap connection assembly 60.

Before application, the user may remove the operation body 40, and wear the product body 100 with the installation body 30 on the shoulder, waist, elbow, knee, etc., and the application location is not limited by the drawings. Then, the user sets the corresponding parameters by operating the operation body 40, and after the parameters are set successfully, the operation body 40 is mounted on the mounting body 30, and the electrical connection between the magnetic connection components 50 is used for conducting electricity. The installation is simple, and the operation is convenient.

The operating body 40 is firmly connected to the mounting body 30 due to the snap connection assembly 60. The user can perform home, reading, sports, etc. at this time, without worrying about the operation body 40 falling down.

Compared with the traditional integrated product, the user can take off the operation body 40 to set parameters instead of putting hands on the shoulders to adjust, and the product is more convenient for the user in the adjusting process.

Referring to fig. 5, a controller according to a second preferred embodiment of the present utility model is shown, in this embodiment, the controller includes a mounting body 30A, an operating body 40A, an electrical connection assembly and an auxiliary connection assembly, and the mounting body 30A and the operating body 40A are detachably electrically connected through the electrical connection assembly and the auxiliary connection assembly.

Wherein the electrical connection assembly is implemented as a magnetic connection assembly 50A and a top bead connection assembly 80A, and the auxiliary connection assembly is implemented as a slide rail connection assembly 70A, wherein the magnetic connection assembly 50A is a separable electrical connection assembly.

The operation body 40A includes a power supply element 46A, the power supply element 46A is disposed inside the operation body 40A and is connected with the magnetic connection assembly 50A, the magnetic connection assembly 50A and the sliding rail connection assembly 70A are both disposed on the installation body 30A and the operation body 40A, the operation body 40A is detachably and electrically connected to the installation body 30A through the connection of the magnetic connection assembly 50A, and the sliding rail connection assembly 70A is further connected, so that the connection between the operation body 40A and the installation body 30A is more stable and prevents falling.

In comparison with the above-described embodiment, the second mounting surface 32A of the mounting body 30A and the connection interface 42A of the operation body 40A are deformed, wherein the mounting body 30A is fixed to the product body by the first mounting surface 31A.

Specifically, the magnetic connection assembly 50A includes a first magnetic connection member 51A and a second magnetic connection member 52A, where the first magnetic connection member 51A and the second magnetic connection member 52A are matched and made of metal materials, and the two magnetic connection members are connected to conduct a circuit. The first magnetic connectors 51A are implemented in four pairs and are arranged at two ends of the mounting body 30A in parallel, and the second magnetic connectors 52A are implemented in four pairs and are arranged in the operating body 40A in parallel and are connected with the first magnetic connectors 51A in a matched manner.

The top bead connecting assembly 80A includes a set of mounting grooves 81A disposed on the mounting body 30A and located in the middle of the first magnetic connecting member 51A; the top bead connection assembly 80A further includes a set of top beads 82A, where the top beads 82A are disposed on the operation body 40A, are located in the middle of the second magnetic connection member 52A, and are connected with the mounting groove 81A in a matching manner.

The top bead 82A is in a nearly spherical shape, the mounting groove 81A is also in a nearly spherical groove, and the top bead 82A is suitable for sliding into the mounting groove 81A, so that the user can conveniently and quickly connect in a matching manner. The top bead 82A is slightly elastic, and enters the mounting groove 81A by rolling extrusion, so that the operation body 40A and the mounting body 30A are ensured to be firm and separated. In addition, the fastening connection of the top bead connecting assembly 80A is also beneficial to preventing the occurrence of dislocation power failure caused by large-scale movement and other factors, so that continuous operation of the product can be ensured.

Wherein the first magnetic connector 51A is disposed on the mounting body 30A and is connected to the circuit structure of the mounting body 30A and the circuit module in the product body 100; the second magnetic connector 52A is disposed on the operation body 40A and is electrically connected to the circuit, the chip and the power supply element 46A inside the operation body 40A. When the second magnetic connector 52A is connected to the first magnetic connector 51A, power can be supplied to the product, so that the product can work normally.

That is, after the second magnetic connection member 52A is connected to the first magnetic connection member 51A, the operation body 40A is connected to the mounting body 30A, and the entire circuit between the controller and the product body is conducted, so that the product can operate according to the parameters set in advance for the operation body 40A.

The top bead connection assembly 80A also has electrical conductivity, on the one hand, connecting the operating body 40A to the mounting body 30A, and on the other hand, enabling the electrical circuit between the operating body 40A and the mounting body 30A to be completed.

In order to achieve the firmness of the connection between the operation body 40A and the installation body 30A, the auxiliary connection assembly of the present embodiment is implemented as a sliding rail connection assembly 70A, wherein the sliding rail connection assembly 70A includes a first sliding rail connection member 71A and a second sliding rail connection member 72A, and the second sliding rail connection member 72A is matched in number and size with the first sliding rail connection member 71A, and is correspondingly disposed, and the two are detachably connected.

The two first slide rail connectors 71A are longitudinally disposed on the mounting body 30A and located on both sides of the first magnetic connector 51A, and the second slide rail connectors 72A are longitudinally disposed on the operating body 40A and located on both sides of the second magnetic connector 52A.

In this embodiment, the first sliding rail connecting member 71A includes two protruding edges 711A and a sliding groove 712A, wherein the sliding groove 712A is disposed between the two protruding edges 711A, and the bottoms of the two protruding edges 711A are connected to the mounting body 30A, which is suitable for an integrally formed design with the mounting body 30A.

The second sliding rail connecting member 72A includes two extending sides 721A and a sliding rail 722A, wherein the two extending sides 721A extend outwards from two sides of the sliding rail 722A, and are suitable for being integrally formed with the sliding rail 722A.

When the second sliding rail connecting piece 72A is connected to the first sliding rail connecting piece 71A, the sliding rail 722A enters the sliding groove 712A, the extending edge 721A is located at the lower side of the protruding edge 711A, and is attached to the lower side of the protruding edge 711A and moves along the protruding edge 711A, so that the sliding rail 722A is stably located inside the sliding groove 712A, and the operating body 40A is stably connected to the mounting body 30A.

When the operation body 40A is connected to the mounting body 30A, the connection is performed in two ways, one is the connection between the second magnetic connection piece 52A and the first magnetic connection piece 51A, the other is the connection between the second sliding rail connection piece 72A and the first sliding rail connection piece 71A, and the connection between the second magnetic connection piece 52A and the first magnetic connection piece 51A is made of a conductive material, so that the connection between the second magnetic connection piece and the first sliding rail connection piece is conductive.

This way of connection of the present embodiment ensures both the electrical connection between the operating body 40A and the mounting body 30A and the stability of the connection between the two, and during the application process, the patient can do various movements during physiotherapy without worrying about the falling of the operating body 40A.

The preset program module inside the operation body 40A further includes a wireless communication module 47A, the wireless communication module 47A is disposed inside the operation body 40A, and the controller, the mobile phone, the tablet, the computer and other electronic devices can be controlled by the user through the mobile phone, the tablet, the computer and the like in the operation body 40A, so as to set and adjust parameters thereof, especially in the application process, if physical therapy parameters such as temperature, vibration frequency, time and the like need to be changed, the parameters need to be adjusted only through the electronic device, which is simple and convenient.

It should be noted that, the wireless communication module 47A may realize communication connection between the electronic device and the controller through wireless communication modes such as bluetooth, infrared, wiFi, etc., so as to achieve the purpose of wireless remote control, and control the work of the product body in a simpler manner.

In this embodiment, the operation body 40A may be mounted from both ends of the mounting body 30A, that is, when the operation body 40A is mounted to the mounting body 30A, the both ends of the operation body 40A may be mounted along the mounting body 30A without considering the direction, which brings great convenience to the user, and the user may conveniently and rapidly mount the operation body 40A to the mounting body 30A.

Referring to fig. 6 and 7, the controller according to the present embodiment is used in combination with a product body. The mounting body 30A is fixed in the product body and electrically connected to the circuit module inside the product body. In the use process, the user wears the product body with the installation body 30A on the part to be treated, such as the shoulder, ankle, elbow, waist, knee, etc., then holds the operation body 40A to set various parameters of treatment including temperature, time, vibration frequency, etc., and then installs the operation body 40A on the installation body 30A, so that the second magnetic connection piece 52A is electrically connected with the first magnetic connection piece 51A, and the second slide connection piece 72A is connected with the first slide connection piece 71A.

Since the operation body 40A and the installation body 30A can be firmly connected, a user can read books, home, exercise or work during the physiotherapy. When the physiotherapy parameters need to be adjusted, on one hand, the installation body 40A can be removed, the adjustment is performed through the operation interface 41A, and the physiotherapy parameters are installed after the adjustment; on the other hand, the adjustment may be performed by connecting an electronic device such as a mobile phone, a tablet, etc. to the wireless communication module 47A.

For example, when a user works in the physiotherapy process, if physiotherapy parameters are required to be adjusted, the physiotherapy parameters can be directly adjusted through a computer and the like in office, the user does not need to take down, bend down, turn around and the like, the work is not affected, the physiotherapy process is not interrupted, and the physiotherapy device is very convenient.

In addition, when the product is applied to the ankle, a user does not need to bend to take down or adjust, the function of adjusting parameters can be realized through the mobile phone, normal movement and physiotherapy are not affected, and the product is simple and practical.

Referring to fig. 8, a schematic structural diagram of a controller according to a third preferred embodiment of the present utility model is shown. In this embodiment, the controller includes a mounting body 30B, an operating body 40B, a magnetic connecting assembly 50B, a sliding rail connecting assembly 70B and an electric connecting assembly 80B, wherein the magnetic connecting assembly 50B and the sliding rail connecting assembly 70B are both auxiliary connecting assemblies, and are both disposed on the mounting body 30B and the operating body 40B, so that the operating body 40B is detachably connected to the mounting body 30B through the magnetic connecting assembly 50B and the sliding rail connecting assembly 70B, the electric connecting assembly 80B is also disposed on the mounting body 30B and the operating body 40B, the operating body 40B includes a power supply element 46B, and the power supply element 46B is disposed inside the operating body 40B, wherein the electric connecting assembly 80B is connected to the power supply element 46B, so as to supply power to the controller and the product body connected to the controller, so that the product can work normally.

Specifically, in the present embodiment, the mounting body 30B is fixed to the product body and connected to the circuit module in the product body.

The magnetic connection assembly 50B includes a first magnetic connection member 51B and a second magnetic connection member 52B that are matched with each other, and are respectively disposed on the mounting body 30B and the operating body 40B, wherein the first magnetic connection member 51B and the second magnetic connection member 52B are detachably connected by magnetic attraction, so that the operating body 40B is detachably connected to the mounting body 30B.

The magnetic connection component 50B in this embodiment has no conductive function and is not connected to the circuit structure.

The sliding rail connecting assembly 70B includes a first sliding rail connecting member 71B and a second sliding rail connecting member 72B, which are respectively disposed on the mounting body 30B and the operating body 40B, so as to further firmly connect the operating body 40B to the mounting body 30B.

Specifically, the first sliding rail connecting member 71B includes a guiding edge 711B and a sliding groove 712B, the guiding edge 711B extends outward from the mounting body 30B and forms the sliding groove 712B with the mounting body 30B, a side surface and a top surface of the sliding groove 712B are closed by the guiding edge 711B, a bottom surface of the sliding groove 712B is closed by the mounting body 30B, and other edges of the sliding groove 712B are all communicated with the outside.

The second sliding rail connector 72B includes a sliding rail 721B and a guiding slot 722B, wherein a side surface of the sliding rail 721B extends outwards from the operating body 40B, and the guiding slot 722B is formed between the operating body 40B and the sliding rail connector. Wherein the guiding slot 722B is matched with the guiding edge 711B, the sliding rail 721B is matched with the sliding groove 712B, so that the sliding rail 721B moves along the sliding groove 712B, and the guiding edge 711B moves along the guiding slot 722B, so as to connect the second sliding rail connector 72B to the first sliding rail connector 71B, thereby firmly connecting the operating body 40B and the mounting body 41B.

The electrical connection assembly 80B in this embodiment has the same structure as the marble connection assembly 80A in the above embodiment, and is also a detachable electrical connection assembly. In this embodiment, the electrical connection assembly 80B includes a first electrical connector 81B and a second electrical connector 82B, which are respectively disposed on the mounting body 30B and the operating body 40B, and are connected in a matching manner.

The first electrical connectors 81B are disposed on the mounting body 30B and are located between the plurality of groups of first magnetic connectors 51B, and the first electrical connectors 81B are electrically connected to the circuit structure of the mounting body 30B and the circuit module inside the product body.

The second electrical connector 82B is disposed on the operation body 40B and electrically connected to the chip 43B and the power supply element 46B, and when the second electrical connector 82B is detachably connected to the first electrical connector 81B, a circuit can be conducted through switch control.

In this embodiment, the first electrical connector 81B and the second electrical connector 82B are respectively implemented as two sets of matched protrusions and grooves, and when the two are connected, the electrical connectors disposed on the two are connected to conduct the circuit.

When the first sliding rail connecting member 71B is connected to the second sliding rail connecting member 72B, the first magnetic connecting member 51B is connected to the second magnetic connecting member 52B, and the first electric connecting member 81B is connected to the second electric connecting member 82B, so that the operating body 40B is detachably and electrically connected to the mounting body 30B.

In this embodiment, the preset program module inside the operation body 40B further includes a wireless communication module 47B, and the wireless communication module 47B is disposed inside the operation body 40B and is communicably connected to the chip 43B, wherein the wireless communication module 47B is further connected to an electronic device such as a mobile phone, a computer, a tablet of a user, and the like, and the wireless communication module 47B is used to realize communication connection between the electronic device and a controller, a product, and further, the product and the controller can be operated by the electronic device.

Referring to fig. 9 and 10, a controller according to a fourth preferred embodiment of the present utility model is shown. In this embodiment, the controller includes a mounting body 30C, an operating body 40C, a magnetic connection assembly 50C, a snap connection assembly 60C and an elastic connection assembly 90C, the Cao Zu body 40C includes a power supply element 46C, the power supply element 46C is mounted inside the operating body 40C and electrically connected to the elastic connection assembly 90C, and the magnetic connection assembly 50C and the snap connection assembly 60C are auxiliary connection assemblies and are disposed on the mounting body 30C and the operating body 40C, so that the operating body 40C is detachably electrically connected to the mounting body 30C.

Specifically, the mounting body 30C is fixed to the product body in advance and is electrically connected to the product body.

The magnetic connection assembly 50C achieves a first reconnection and the snap connection assembly 60C achieves a second reconnection, making the connection between the mounting body 30C and the operating body 40C more secure. The elastic connection assembly 90C is a detachable electrical connection assembly, and the snap connection assembly 60C is an auxiliary connection assembly, wherein the operation body 40C is detachably and electrically connected to the mounting body 30C through the snap connection assembly 60C and the elastic connection assembly 90C.

The magnetic connection assembly 50C includes a first magnetic connection member 51C and a second magnetic connection member 52C that are matched with each other, and are respectively disposed on the mounting body 30C and the operating body 40C, wherein the first magnetic connection member 51C and the second magnetic connection member 52C are detachably connected by magnetic attraction, so that the operating body 40C is detachably connected to the mounting body 30C.

The magnetic connection component 50C in this embodiment has no conductive function and is not connected to the circuit structure.

The snap connection assembly 60C comprises a set of snap connection slots 61C and a set of snap connection buckles 62C, wherein the snap connection buckles 62C are mated with the snap connection slots 61C and detachably connected.

Two of the card connecting grooves 61C are provided to the mounting body 30C at both ends of the first magnetic connector 51C. Wherein the mounting body 61C is extended outwardly to form a protrusion with a recess, and wherein the card connecting groove 61C is located between the protrusion and the mounting body 30C and communicates with the outside.

The two card-connecting buckles 62C are disposed on the connection interface 42C of the operation body 40C, and enter the card-connecting slot 61C through the opening of the card-connecting slot 61C, so as to be connected to the card-connecting slot 61C.

The elastic connection assembly 90C is a separable electrical connection assembly in this embodiment, and includes a set of first elastic connection members 91C and a set of second elastic connection members 92C, where two first elastic connection members 91C are respectively disposed inside two card connection slots 61C, two second elastic connection members 92C are respectively disposed inside two card connection buckles 62C, and when the card connection buckles 62C are connected to the card connection slots 61C, the second elastic connection members 82C squeeze the first elastic connection members 91C, that is, the second elastic connection members 92C are pressed against the first elastic connection members 91C, so that the second elastic connection members 92C are connected to the first elastic connection members 91C.

The first elastic connection member 91C is electrically connected to the circuit structure inside the mounting body 30C and the circuit module inside the product body, the second elastic connection member 92C is electrically connected to the chip 43C, and when the first elastic connection member 91C is connected to the second elastic connection member 92C, a circuit is conducted, so that the operating body 40C is electrically connected to the mounting body 30C.

That is, in the present embodiment, the first elastic connector 91C and the second elastic connector 92C are made of metal elastic sheets, and the first elastic connector 91C is electrically connected to the second elastic connector 92C by the connection and extrusion between the card connector 62C and the card connector slot 61C, so that the circuit is disconnected after the card connector 62C and the card connector slot 61C are separated.

Therefore, under the action of the magnetic connection assembly 50C and the snap connection assembly 60C, the operation body 40C is firmly connected to the installation body 30C, and under the action of the elastic connection assembly 90C, the operation body 40C is electrically connected to the installation body 30C, so as to supply power to the product body and control the product body to be worn on the corresponding position for physiotherapy.

In this embodiment, the preset program module in the operation body 40C may further include a wireless communication module 47C, which is installed in the operation body 40C, and the wireless communication module 47C is used to establish a wireless communication connection between the controller and the electronic device such as a mobile phone.

It should be noted that, the power interface may charge the power supply element 46C, may be directly connected to a power supply port such as a socket, or may provide an electrotherapy function for a product through a connection wire.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are by way of example only and are not limiting. The objects of the present utility model have been fully and effectively achieved. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments of the utility model may be modified or practiced without departing from the principles described.

Claims (23)

1. A controller, comprising:

a mounting body adapted to be secured to a product body;

an operation body;

an electrical connection assembly disposed between the mounting body and the operating body to conduct a circuit between the mounting body and the operating body; and

and the auxiliary connecting component is arranged on the mounting body and the operation body so that the operation body is detachably connected with the mounting body.

2. The controller of claim 1, wherein the electrical connection assembly comprises at least one magnetic connection assembly, each magnetic connection assembly comprising a first magnetic connection and a second magnetic connection disposed on the mounting body and the operating body, respectively, wherein the second magnetic connection and the first magnetic connection are magnetically attracted to each other such that the operating body is mounted on the mounting body.

3. The controller of claim 2, wherein the auxiliary connection assembly comprises at least one snap connection assembly, each of the snap connection assemblies comprising a snap connection slot and a snap connection clasp, respectively disposed on the mounting body and the operating body, wherein the snap connection slot mates with the snap connection clasp.

4. The controller of claim 2, wherein the auxiliary connection assembly comprises at least one slide connection assembly, each slide connection assembly comprising a first slide connection and a second slide connection, respectively, disposed on the operating body and the mounting body, respectively, wherein the first slide connection and the second slide connection mate.

5. The controller of claim 4, wherein the first rail connector includes two projecting edges and has a runner, the two projecting edges extending outwardly from the mounting body and forming the runner, the second rail connector includes two extending edges and a rail, the rail extending outwardly from the operating body, the extending edges being disposed on either side of the rail end, wherein the extending edges and the rail are adapted to move along the runner to connect the operating body to the mounting body.

6. The controller of claim 4, wherein the first rail connector includes a guide edge and has a runner, the guide edge being coupled to the mounting body and defining the runner with the mounting body, the second rail connector includes a rail and has a guide slot, the rail being coupled to the operating body and defining the guide slot with the operating body, the rail being adapted to move along the runner, the guide edge being adapted to move along the guide slot to couple the operating body to the mounting body.

7. The controller according to any one of claims 2 to 6, wherein the operation body comprises a chip, a power interface and a power supply element, the power supply element being electrically connected to the chip and the power interface to supply power to the controller and control the controller, the chip having a memory function so that when the physical therapy parameters are set, the operation body is mounted on the mounting body, and the product body is operated according to the preset parameters.

8. The controller of claim 7, wherein the operating body further comprises a wireless communication module coupled to the chip and adapted to communicate wirelessly with an electronic device.

9. The controller of claim 8, wherein the magnetic connection assembly is adapted to conduct electricity, the first magnetic connection is electrically connected to the circuit structure inside the mounting body, the second magnetic connection is electrically connected to the circuit structure inside the operating body, and the second magnetic connection and the first magnetic connection are magnetically connected to conduct the circuit of the controller.

10. The controller of claim 8, wherein the electrical connection assembly comprises a first electrical connection electrically connected to the circuit structure within the mounting body and a second electrical connection electrically connected to the circuit structure within the operating body, wherein the first electrical connection is disposed within the mounting body and adjacent to the first magnetic connection, and the second electrical connection is disposed within the operating body and adjacent to the second magnetic connection.

11. The controller of claim 3, wherein the electrical connection assembly comprises at least one elastic connection assembly, each elastic connection assembly comprising a first elastic connection member and a second elastic connection member, the first elastic connection member being disposed inside the card connection slot and electrically connected to the circuit structure inside the mounting body, the second elastic connection member being disposed inside the card connection buckle and electrically connected to the circuit structure inside the operating body.

12. The controller of claim 4, wherein the electrical connection assembly comprises at least one elastic connection assembly, each elastic connection assembly comprising a first elastic connection member and a second elastic connection member, the first elastic connection member being disposed inside the first sliding rail connection member and electrically connected to the circuit structure inside the mounting body, the second elastic connection member being disposed inside the second sliding rail connection member and electrically connected to the circuit structure inside the operating body.

13. The controller of claim 10, wherein the operating body comprises a chip, a power interface, a power supply element and a wireless communication module, the power supply element is electrically connected to the chip, the power interface and the second electrical connector to provide power to the controller and control the controller, and the wireless communication module is connected to the chip and is adapted to wirelessly communicate with an electronic device.

14. The controller according to any one of claims 1 to 6, wherein the product body is a health product for at least one of a knee pad, a waist pad, a shoulder pad, an elbow pad, a neck pad, phototherapy, medication, vibration massage function.

15. A controller, comprising:

a mounting body adapted to be secured to a product body;

an operation body; and

the detachable electric connection assembly is arranged on the installation body and the operation body, so that the operation body is detachably and electrically connected with the installation body, the operation body comprises a chip and an operation interface, the operation interface is electrically connected with the chip, and the chip has a memory function, so that after physiotherapy parameters are set, the operation body is installed on the installation body, and the product body can work according to preset parameters.

16. The controller of claim 15, wherein the separable electrical connection assembly comprises at least one magnetic connection assembly, each of the magnetic connection assemblies comprising a first magnetic connection and a second magnetic connection disposed on the mounting body and the operating body, respectively, wherein the second magnetic connection and the first magnetic connection are magnetically attracted to each other such that the operating body is mounted on the mounting body, wherein the magnetic connection assembly has a conductive function.

17. The controller of claim 16, wherein the separable electrical connection assembly further comprises at least one top bead connection assembly, each of the top bead connection assemblies comprising a top bead and a mounting slot, the mounting slot being disposed in the mounting body and in the middle of the two first magnetic connectors, the top bead being disposed in the operating body and in the middle of the two second magnetic connectors, and being in mating separable electrical connection with the mounting slot to complete an electrical circuit between the mounting body and the operating body.

18. The controller of claim 15, wherein the separable electrical connection assembly comprises at least one elastic connection assembly, each elastic connection assembly comprising a first elastic connection member and a second elastic connection member, the first elastic connection member being disposed on the mounting body and electrically connected to the circuit structure inside the mounting body, the second elastic connection member being disposed on the operating body and electrically connected to the circuit structure inside the operating body, the first elastic connection member and the second elastic connection member being coupled to enable electrical continuity between the operating body and the mounting body after mating connection.

19. The controller of claim 18, wherein the controller further comprises an auxiliary connection assembly comprising at least one snap connection assembly, each snap connection assembly comprising a snap connection slot and a snap connection button, respectively disposed on the mounting body and the operating body, wherein the snap connection slot mates with the snap connection button, the first resilient connection is disposed in the snap connection slot, and the second resilient connection is disposed in the snap connection button.

20. The controller according to any one of claims 15 to 19, wherein the operation body comprises a power interface, a power supply element and a switch, the power supply element being electrically connected to the power interface and the switch to supply power to the controller and control the controller.

21. The controller of claim 20, wherein the power element is further configured to power the product body.

22. The controller according to any one of claims 15 to 19, further comprising a wireless communication module disposed on the operating body, the wireless communication module being connected to the chip and adapted to communicate wirelessly with an electronic device to control operation of the controller.

23. The controller according to any one of claims 15 to 19, wherein the product body is a health product for at least one of a knee pad, a waist pad, a shoulder pad, an elbow pad, a neck pad, phototherapy, medication, vibration massage function.