CN216061271U - Endocrine patient foot nursing device - Google Patents

Abstract

The utility model provides a device for nursing feet of endocrine patients, which relates to the field of medical machinery and at least comprises: a housing for forming a space in which a user's foot is placed; a care assembly disposed within the interior of the shell and configured to contact a user's sole and/or instep and/or ankle in a use position; and the moving body is arranged in the shell and positioned at one side of the nursing component. The utility model carries out physical irradiation treatment on the feet of a patient through the radiating body, realizes the aim of massaging the muscles of the feet of the patient through the arrangement of the moving mode of the moving body, increases massage stimulation in various combination modes, improves massage efficiency, applies wind stimulation to the user through the rotating body, and radiates heat energy through the radiating body, thereby avoiding water and electricity mixing, avoiding the phenomenon of electric leakage and improving safety.

Description

Endocrine patient foot nursing device

Technical Field

The utility model relates to the field of medical machinery, in particular to a foot nursing device for endocrine patients.

Background

The endocrine system is a large system of body fluid regulation system composed of all endocrine glands and hormones (secretion of endocrine glands) in the body. Endocrine dyscrasia is a disease caused by disorder of hormone and nervous system regulation in the endocrine system, and particularly, teenagers and office workers suffer from endocrine dyscrasia, so that normal learning and working of the teenagers and the office workers are seriously affected, and the physical and mental fatigue of patients is caused. In the case of female, if endocrine dyscrasia occurs, excessive secretion of male hormones in the body can cause symptoms such as macula lutea and color spots in female, and infertility can be caused in the long run, so that the endocrine dyscrasia is seriously harmful to all people. Endocrine diseases can bring many side effects to human bodies, foot diseases (such as foot edema) are common symptoms, a foot massage mode is generally adopted for foot care aiming at the endocrine diseases, and some foot care devices are correspondingly provided.

The patent with publication number CN209885051U discloses a special foot nursing device for endocrine diseases, which relates to the technical field of nursing devices and comprises a shell, wherein a notch is arranged above the shell, ultraviolet lamp tubes are distributed on the inner side of the shell, a bracket is arranged in the middle of the shell, and the ultraviolet lamp tubes are connected with a switch and a power supply in series. When the special foot nursing device for endocrine diseases is used, the foot nursing device can only continuously use ultraviolet rays to perform physical irradiation treatment on the feet of a patient, and can not perform massage treatment.

Patent publication No. CN207755536U discloses a leg pillow for physical therapy, which massages a patient using an ankle resting point induction technique of a craniosacral therapy, but the massaging portion of the leg pillow is limited, and only the lower leg and the ankle can be massaged, and the leg pillow does not have a function of physical radiation therapy.

Patent publication No. CN111358681A discloses a special foot nursing device for endocrine diseases, which comprises: the power cord is arranged on the right side surface of the nursing box; the two handles are fixedly arranged on the tops of the inner walls of the left side and the right side of the nursing box; the first cover plate is fixedly connected to the rear side of the top of the nursing box; the second cover plate is hinged to the first cover plate through a hinge, and the second cover plate is folded at the top of the first cover plate. The first motor is controlled to rotate through the switch control group to drive the three massage rollers to rotate, the massage particles on the surfaces of the massage rollers are utilized to massage the soles of the feet of a patient, and the heating base is controlled through the switch control group to heat liquid medicine in the nursing box, so that the blood circulation of the patient is increased. The device can not be used for irradiation treatment, is a water-electricity mixing device, is easy to generate electric leakage phenomenon, and has poor safety.

There is therefore a need in the art for an improved endocrine patient care device designed to address the above problems.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor has studied a lot of documents and patents when making the present invention, but the space is not limited to the details and contents listed in the above, however, the present invention is by no means free of the features of the prior art, but the present invention has been provided with all the features of the prior art, and the applicant reserves the right to increase the related prior art in the background.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies of the prior art, the present invention provides an endocrine patient care device, at least comprising: a housing forming a space in which a user's foot is placed; a nursing assembly disposed inside the housing and capable of contacting a user's sole and/or instep and/or ankle in a use state; a moving body disposed inside the housing and located at one side of the care component; the nursing subassembly includes the body of rod, be in the pressure switch of body of rod first end, with what the pressure switch electricity is connected is located the inside radiator of body of rod the nursing device under the condition of work, the mobile body along first direction removal thereby with the condition of the first end contact of the body of rod of nursing subassembly, the nursing subassembly produces the displacement based on the pressure that the mobile body was applyed and applys mechanical stimulation to user's foot, pressure switch produces switch signal based on the pressure that the mobile body was applyed and transmits for the radiator, the radiator is by nursing subassembly mechanical stimulation position radiant energy to user's foot.

According to a preferred embodiment, the care elements are distributed inside the housing with a spacing such that the care elements, in the event of contact with the mobile body, can exert a mechanical stimulus on the point of contact of the user's foot with the care elements.

According to a preferred embodiment, the housing is provided with a resilient, deformable membrane separating the treatment member from the mobile body, on which membrane wires are provided for supplying power to the treatment member.

According to a preferred embodiment, the moving body includes a moving body main body having a length with corners smoothly connected, a motor connected to the motor by a screw, and a guide rail connected to the motor by a gear.

According to a preferred embodiment, a battery groove for accommodating a battery is arranged inside the shell, and a notch for installing a key and/or transmitting data is arranged on the outer side wall of the shell.

According to a preferred embodiment, the pressure switch comprises a contact layer, an anode layer, a cathode layer, an elastic material and a conductive wire, wherein the contact layer is arranged on a first end face of the anode layer, a second end face of the anode layer is connected with the cathode layer through the elastic material, the conductive wire is connected with both the anode layer and the cathode layer, the contact layer presses the anode layer and the cathode layer to enable the conductive wire to be electrified after being pressed, electric signals are transmitted, and the anode layer and the cathode layer are separated from contact under the action of the elastic material to form an open circuit and stop transmitting the electric signals after the contact layer is not pressed.

According to a preferred embodiment, the end face of the rod body contacting with the foot of the user is provided with a projection with a radian under the condition that the endocrine patient foot nursing device works, so that the mechanical stimulation effect can be enhanced by reducing the contact area with the foot of the user under the condition that the nursing component performs mechanical stimulation on the foot of the user.

According to a preferred embodiment, at least one rotating body is arranged inside the housing, which is capable of conducting an air flow between the inside of the housing and the outside of the housing when the endocrine patient foot care device is used by a user.

According to a preferred embodiment, the casing is provided with an opening for the foot of the user to enter and exit, and the outside of the casing is provided with a sealing cover which can be connected with the opening to realize the sealing of the endocrine patient foot care device.

According to a preferred embodiment, a handle is arranged on the outer part of the shell body, and the handle is convenient for a user to take the endocrine patient foot care device.

The endocrine patient nursing device provided by the utility model has at least one or more of the following advantages:

(1) the utility model applies pressure to the nursing component through the moving body to force the nursing component to move so as to realize the purpose of massaging the foot muscles of a patient, and the massage stimulation is increased by combining and setting the moving direction and the moving speed of the moving body;

(2) the utility model realizes the treatment of physical irradiation to the massaged part of the foot of the patient under the condition of massaging the foot muscle of the patient by the radiation body arranged in the nursing assembly;

(3) the utility model conducts the air current inside and outside the device by the rotation of the rotating body to apply wind stimulation to the feet of a user;

(4) the utility model utilizes the heat energy generated by the radiator during irradiation treatment to carry out thermal stimulation, avoids the traditional hydroelectric generating mode, is not easy to generate electric leakage phenomenon and has good safety.

Drawings

FIG. 1 is a schematic structural view of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of a mobile body according to a preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a care assembly in accordance with a preferred embodiment of the present invention;

FIG. 4 is a schematic structural view of a pressure switch in accordance with a preferred embodiment of the present invention;

FIG. 5 is a schematic structural view of a housing of a preferred embodiment of the present invention;

fig. 6 is a circuit diagram of a preferred embodiment of the present invention.

List of reference numerals

100: the apparatus body 110: the housing 111: battery jar

112: opening 113: sealing cover 114: handle of hand grip

115: notch 120: the care component 121: rod body

122: projection 123: radiator 124: pressure switch

130: the moving body 131: moving body main body 132: electric machine

133: guide rail 134: screws 135: gear wheel

140: the diaphragm 150: the rotating body 210: contact layer

220: the anode layer 230: the cathode layer 240: elastic material

250: conductive wire

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

As shown in fig. 1, the present invention provides a device 100 for caring for the feet of an endocrine patient, comprising at least: a housing 110 forming a space in which a user's foot is placed; a nursing assembly 120 disposed inside the housing 110 and capable of contacting a user's sole and/or instep and/or ankle in a use state; and a moving body 130 disposed inside the housing 110 and at one side of the treating assembly 120.

According to a preferred embodiment, the interior of the housing 110 is provided with a resilient deformable diaphragm 140, as shown in fig. 1. A wire is provided on the diaphragm 140 for powering the treatment assembly 120. The membrane 140 separates the care assembly 120 from the mobile body 130. The membrane 140 provides support for the treatment assembly 120 without the treatment assembly 120 contacting the mobile body 130.

As shown in fig. 2, according to a preferred embodiment, the moving body 130 includes a moving body main body 131. The moving body 130 has a length. The corners of the moving body 130 are smoothly connected. The movable body 130 acts on the care unit 120, applies pressure to the care unit 120, and operates the care unit 120 to perform care treatment on the user's feet.

The mobile body 130 shown in fig. 2 further includes a motor 132, such as a 12GA-N20-10 reduction motor or other conventional motor. The moving body main body 131 is connected to a motor 132 by a screw 134. The motor 132 can be equipped with sensors to detect the speed and direction of rotation of the motor in real time. The motor 132 is provided with a rotary encoder (not shown), and the rotation speed and the rotation direction of the motor 132 are monitored in real time through the rotation of the motor. The rotary encoder can be in data connection with a control processor (not shown) in a wired or wireless mode, and signals received by the rotary encoder are output to the control processor in real time.

The moving body 130 further includes a guide rail 133 as shown in fig. 2. The motor 132 is connected to the guide rail 133 through a gear 135. The rotation of the motor 132 moves the gear 135, and the moving body 131 moves in the direction of the guide rail 133. The movable body 131 moves along the guide rail 133 in the first direction to contact the nursing member 120, and applies pressure to the nursing member 120, thereby operating the nursing member 120. After the movable body 131 moves in the first direction along the guide rail 133 and continues to move for a displacement of the length of the movable body 131, the movable body 131 is separated from the care module 120, and the application of pressure to the care module 120 is stopped, so that the care module 120 stops operating.

As shown in fig. 3, the nursing assembly 120 includes a shaft 121. Preferably, the rod body 121 adopts a nearly circular truncated cone structure. The rod body is internally provided with a cavity for accommodating other devices. The rod body is made of a hard material, and can transmit the pressure received from the moving body 130 to the user when the moving body 130 contacts the rod body 121. The moving body 130 moves in a first direction to contact a first end of the rod body 121 of the treating assembly 120. Under the condition that the moving body 130 moves along the first direction to contact with the first end of the rod body 121 of the nursing assembly 120, the nursing assembly 120 generates displacement based on the pressure applied by the moving body 130 to apply mechanical stimulation to the foot of the user.

The treatment assembly 120 also includes a pressure switch 124. As shown in fig. 3, a pressure switch 124 is disposed at a first end of the rod 121. In the case where the moving body 130 moves in the first direction to contact the first end of the lever body 121 of the nursing member 120, the pressure switch may receive pressure applied based on the moving body 130. The pressure switch 124 generates a switching signal based on the pressure applied by the moving body 130 to be transmitted to the radiator 123.

The care assembly 120 is further provided with a radiator 123, such as the high power blue LED model name XPEBBL-L1-0000-00Z05 manufactured by CREE corporation. As shown in fig. 3, the radiator 123 is electrically connected to the pressure switch 124 and is located inside the rod 121. The radiator 123 can radiate energy to the mechanical stimulation part of the foot of the user generated by the nursing component 120 under the condition of receiving the switch signal generated by the pressure switch 124. The radiator 123, preferably an ultraviolet LED, enables physical radiation treatment of the user. Meanwhile, since the radiator 123 generates heat energy when it is physically irradiated, the radiator can apply thermal stimulation to a user.

As shown in fig. 3, the treatment assembly 120 is preferably further provided with a projection 122. A protrusion 122 is provided on an end surface of the stick body 121 contacting the foot of the user. The protrusion 122 has a certain curvature. The protrusions 122 are configured to enhance the mechanical stimulation effect by reducing the contact area with the user's foot when the care assembly 120 mechanically stimulates the user's foot while the user is using the care device 100.

According to a preferred embodiment, the nursing members 120 are spaced apart from one another within the housing 110 to provide accurate nursing of a user at a particular location. The nursing member 120 can apply mechanical stimulation to the point where the user's foot contacts the nursing member 120 when contacting the movable body 130. Including the sole portion, instep portion and ankle portion of the user's foot, can be mechanically stimulated by the treatment assembly 120.

A preferred pressure switch 124 configuration is shown in fig. 4. Pressure switch 124 is comprised of a contact layer 210, a male layer 220, a female layer 230, an elastomeric material 240, and a conductive wire 250. The contact layer 210 is disposed at a first end face of the male layer 220. The second end face of the male layer 220 is connected to the female layer 230 by an elastomeric material 240. Conductive wires 250 are connected to both the anode layer 220 and the cathode layer 230. The contact layer 210 is pressed against the male layer 220 and the female layer 230 to electrically connect the conductive wires 250 and transmit electrical signals. After the contact layer 210 is not pressed, the male layer 220 and the female layer 230 are separated from contact by the elastic material 240, and an open circuit is formed, and the transmission of the electrical signal is stopped.

According to a preferred embodiment, as shown in fig. 5, a battery well 111 for housing a battery is provided inside the case 110. The battery container 111 is provided in the nursing device 100, and the normal operation of the nursing device 100 can be ensured by a battery, for example, power supply, when the external power supply cannot be supplied. The battery can be a lithium battery, a lead storage battery or other common types of batteries. The output power of the battery is more than 20 watts to ensure that the device normally works, and the electric capacity is more than 12000 mAh. According to a preferred embodiment, the treatment device 100 employs a DC-1212A lithium battery, which ensures that the treatment device 100 operates continuously for 12 hours.

According to a preferred embodiment, as shown in fig. 5, the outer side wall of the housing 110 is provided with indentations 115 for mounting keys and/or data transmission. The user can set the working mode of the nursing device 100 through the keys. And the working mode of the nursing device 100 can be adjusted in a wired or wireless mode. Providing the user with a variety of options.

According to a preferred embodiment, as shown in fig. 5, at least one rotating body 150 is provided inside the housing 110. The rotating body 150 can conduct the air flow inside the case 110 and outside the case 110 by the self-generated rotation in the case where the user uses the endocrine patient foot care device 100. In the case where the rotating body 150 is rotated, the nursing device 100 can apply wind stimulus to the user. According to a preferred embodiment, the rotating body 150 is a 5012S type exhaust ventilator with 12V dc to ensure that the air flow inside and outside the housing 110 is conducted when the nursing device 100 is in operation.

According to a preferred embodiment, as shown in FIG. 5, an opening 114 is provided in the housing 110 for entry and exit of a user's foot. The opening 114 is oval shaped to facilitate entry and exit of the user's foot. The opening 114 is located in the middle of the housing near the two side edges. As shown in fig. 5, a sealing cover 113 is provided outside the housing 110. The sealing cap 113 is sized and shaped to fit the opening 114. The sealing cover 113 can be connected with the opening 114 to seal the endocrine patient foot care device 100, so that floating dust and other foreign matters are prevented from entering the device.

According to a preferred embodiment, as shown in fig. 5, a grip 114 of the endocrine patient foot care device 100 is provided on the outside of the side wall of the housing 110 for easy access by the user. The grip 114 is made of a metal material. The grip 114 has a curvature. The grip 114 is surface coated with a friction enhancing material such as rubber.

For ease of understanding, the working principle of an endocrine patient foot care device of the present invention will be described.

According to the endocrine patient foot care device, when the care device works, the moving body moves along the first direction to be in contact with the first end of the rod body of the care component, and the care component generates displacement based on pressure applied by the moving body to apply mechanical stimulation to the feet of a user. Under the condition that the moving body moves along the first direction and is contacted with the first end of the rod body of the nursing component, the pressure switch generates a switch signal based on the pressure applied by the moving body and transmits the switch signal to the radiating body, and the radiating body radiates energy to the mechanical stimulation part of the foot of the user by the nursing component. The radiator can perform physical irradiation treatment on a user. Meanwhile, the radiator can generate heat energy when in physical irradiation, so that the radiator can apply thermal stimulation to a user. In the case of a rotation of the rotary body, the nursing device can apply wind stimulation to the user. The utility model carries out the treatment of physical irradiation to the feet of the patient through the radiator; the aim of massaging the foot muscles of a patient is achieved by setting the moving mode of the moving body, and meanwhile, massage stimulation is increased by multiple combination modes, so that the massage efficiency is improved; applying wind stimulation to a user by using a rotating body; the radiator is adopted to radiate heat energy, so that the water and electricity are prevented from being mixed, the electric leakage phenomenon is not easy to occur, and the safety is improved.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the utility model. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the utility model is defined by the claims and their equivalents.

Claims (10)

1. An endocrine patient foot care device (100) comprising at least:

a housing (110) forming a space in which a user's foot is placed;

a care assembly (120) disposed inside the housing (110) and capable of contacting a user's sole and/or instep and/or ankle in a use state;

a moving body (130) disposed inside the housing (110) and located at one side of the nursing member (120);

it is characterized in that the preparation method is characterized in that,

the nursing component (120) comprises a rod body (121), a pressure switch (124) at the first end of the rod body (121), and a radiating body (123) which is electrically connected with the pressure switch (124) and is positioned inside the rod body (121),

when the nursing device (100) works and the moving body (130) moves along the first direction to contact with the first end of the rod body (121) of the nursing component (120), the nursing component (120) generates displacement based on the pressure applied by the moving body (130) to apply mechanical stimulation to the feet of a user, the pressure switch (124) generates a switch signal based on the pressure applied by the moving body (130) and transmits the switch signal to the radiator (123), and the radiator (123) radiates energy to the mechanical stimulation parts of the feet of the user by the nursing component (120).

2. An endocrine patient foot care device (100) as in claim 1, wherein the care components (120) are distributed inside the housing (110) in a spaced apart manner such that the care components (120) can apply mechanical stimulation to the point of contact of the user's foot with the care components (120) upon contact with the mobile body (130).

3. The endocrine patient foot care device (100) as claimed in claim 2, wherein the housing (110) is provided with a resilient deformable membrane (150),

the membrane (140) separates the care component (120) from the mobile body (130), and a conductor is arranged on the membrane (140) for supplying power to the care component (120).

4. The endocrine patient foot care device (100) according to claim 3, wherein the moving body (130) includes a moving body main body (131), a motor (132), a guide rail (133),

the moving body main body (131) has a length, corners are smoothly connected, the moving body main body (131) is connected with the motor (132) through a screw (134), and the motor (132) is connected with the guide rail (133) through a gear (135).

5. Endocrine patient foot care device (100) according to claim 4, characterized in that the inside of the casing (110) is provided with a battery well (111) for housing a battery, and the outer side wall of the casing (110) is provided with indentations (115) for mounting keys and/or data transmission.

6. The endocrine patient foot care device (100) according to claim 5, wherein the pressure switch (124) is comprised of a contact layer (210), a male layer (220), a female layer (230), an elastic material (240) and a conductive wire (250), the contact layer (210) is disposed at a first end of the male layer (220), a second end of the male layer (220) is connected to the female layer (230) through the elastic material (240), the male layer (220) and the female layer (230) are both connected to the conductive wire (250),

after the contact layer (210) is pressed, the male layer (220) and the female layer (230) are pressed to enable the conductive wire (250) to be electrified and transmit electric signals, and after the contact layer (210) is not pressed, the male layer (220) and the female layer (230) are separated from contact under the action of the elastic material (240) to form an open circuit and stop transmitting the electric signals.

7. The endocrine foot care device (100) as claimed in claim 6, wherein the end surface of the shaft (121) contacting the user's foot in the case of operation of the endocrine foot care device (100) is provided with a protrusion (122) having a curvature to enhance the mechanical stimulation effect by reducing the contact area with the user's foot in the case of mechanical stimulation of the user's foot by the care member (120).

8. The endocrine patient foot care device (100) as in claim 7, wherein at least one rotator (150) is provided inside the housing (110) to conduct the air flow between the inside of the housing (110) and the outside of the housing (110) in case the user uses the endocrine patient foot care device (100).

9. The endocrine patient foot care device (100) as claimed in claim 8, wherein an opening (112) is provided in the housing (110) for the user's foot to enter and exit, and a sealing cap (113) is provided on the exterior of the housing (110), the sealing cap (113) being connectable to the opening (112) to effect a seal of the endocrine patient foot care device (100).

10. The endocrine patient foot care device (100) as claimed in claim 9, wherein a grip (114) is provided on the outside of the housing (110) to facilitate the user's handling of the endocrine patient foot care device (100).

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