CN115701357A - Electric stimulation therapeutic apparatus for orthopedics department and assembling process and method thereof - Google Patents

Abstract

The invention provides an orthopedic electric stimulation therapeutic apparatus and an assembly process and a method thereof. The therapeutic apparatus comprises a host, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points; the base is provided with a base groove and a plurality of conductive probes, the electrode sheet is provided with a plurality of second conductive contact points, a positive plate and a negative plate, and the metal conductive cap is provided with conductive salient points; the main machine is covered on the base groove, the first conductive contact points are in one-to-one corresponding electrical contact with the conductive probes, the electrode plates are located on the surface of the main machine, the second conductive contact points are sleeved on the conductive probes in one-to-one correspondence, the metal conductive caps are arranged on one sides of the second conductive contact points and sleeved on the conductive probes, and the conductive convex points are in electrical contact with the second conductive contact points. Through the improved structural design, the electrode plate and the base can be more reliably connected, the thickness of the base is reduced, the overall structure of the therapeutic apparatus is smaller, and the user experience can be further improved.

Description

Electric stimulation therapeutic apparatus for orthopedics department and assembling process and method thereof

Technical Field

The invention relates to the field of medical instruments, in particular to an orthopedic electrical stimulation therapeutic apparatus and an assembling process and method thereof.

Background

The functional electric stimulation therapy is a physical therapy method which applies low-frequency pulse current or sends the low-frequency pulse current or signal current after conversion and amplification into a human body to generate a therapeutic effect. Electrical stimulation therapy is finding increasing use in clinical medicine as one of the effective means of treating fractures and bone nonunions or delaying healing. The small-size orthopedics electro photoluminescence therapeutic instrument that is used for orthopedic treatment on the market at present is categorised according to the mode of linking between electrode slice and the host computer, mainly can divide into two kinds: the first is that electrode slice and host computer formula as an organic whole, is about to make host computer and electrode slice a whole that can not dismantle, and the user mode is disposable, and the shortcoming is that reuse can not be, and use cost is high, and environmental pollution is big. The second is that electrode slice and host computer are the disconnect-type, are detachable between electrode slice and the host computer promptly, can realize reuse many times through changing the electrode, can effectively reduce use cost. However, the existing separated electrical stimulation therapeutic apparatus for orthopedics department usually realizes the mutual linkage of the host and the electrode slice through the metal button, which results in the increase of the thickness and the volume of the whole apparatus, and has the defects of inconvenient use, poor user experience feeling and the like.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide an electrical stimulation therapeutic apparatus for orthopedics department, and an assembly process and a method thereof, for solving the problems that the thickness and volume of the whole apparatus are increased, the use is inconvenient, the user experience is not good, etc. due to the fact that the mutual connection between the main apparatus and the electrode plate is realized by using a metal button between the electrode plate and the main apparatus of the detachable small-sized bone stimulation therapeutic apparatus in the prior art.

In order to achieve the above objects and other related objects, the present invention provides an electrical stimulation therapeutic apparatus for orthopedics department, which comprises a main machine, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points, and the first conductive contact points are electrically connected with the electrical stimulation generating circuit; the base is provided with a base groove and a plurality of conductive probes positioned in the base groove, the electrode sheet is provided with a plurality of second conductive contact points, a positive plate and a negative plate, the positive plate and the negative plate are electrically connected with the second conductive contact points, and the metal conductive cap is provided with conductive bumps; the main machine covers on the base groove, the first conductive contact points are in one-to-one corresponding electrical contact with the conductive probes, the electrode plates are located on the surface of the main machine, the second conductive contact points are sleeved on the conductive probes in one-to-one correspondence, the metal conductive caps are arranged on one sides, deviating from the main machine, of the second conductive contact points and sleeved on the conductive probes, and the conductive convex points of the metal conductive caps are in electrical contact with the second conductive contact points.

Optionally, the surface of the host computer towards the base groove is provided with a first magnetic part, the base groove is internally provided with a second magnetic part, and when the host computer covers on the base groove, the first magnetic part and the second magnetic part attract each other.

Optionally, the number of the first conductive contact points, the second conductive contact points and the conductive probes is more than 3.

Optionally, a protection structure is further disposed on the electrode sheet and circumferentially surrounds the second conductive contact point.

Optionally, glue is filled between the metal conductive cap and the conductive probe, and the glue includes one or a combination of an AB glue and a conductive glue.

Optionally, the conductive probe is welded to the base through a low-temperature tin wire welding process, and the positive plate and the negative plate are welded to the second conductive contact through the low-temperature tin wire welding process.

Optionally, the number of the conductive bumps is multiple, and the multiple conductive bumps are uniformly distributed at intervals on the same circumferential surface.

Optionally, the orthopedic electrical stimulation treatment instrument further comprises a conductive gel, and the conductive gel covers the surface of the electrode plate, which is away from the base.

Optionally, the orthopedic electrical stimulation treatment instrument further comprises release paper, and the release paper is located on the surface of the conductive gel, which is away from the electrode plate.

Optionally, the height of the second conductive contact point is smaller than the maximum thickness of the electrode plate, and when the metal conductive cap is sleeved on the second conductive contact point, the surface of the metal conductive cap is flush with the surface of the electrode plate.

The invention also provides an assembling process and a method of the orthopedic electrical stimulation therapeutic apparatus, wherein the orthopedic electrical stimulation therapeutic apparatus comprises a host, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points, and the first conductive contact points are electrically connected with the electrical stimulation generating circuit; the assembly process comprises the following steps of:

attaching the electrode plates to the surface of the base, which is far away from the host, and sleeving the second conductive contact points on the conductive probes of the base one by one;

sleeving the metal conductive cap on the conductive probe from one side of the electrode plate, which is far away from the base, and electrically contacting the conductive convex point of the metal conductive cap with the second conductive contact point;

pressing the metal conductive cap to electrically contact the metal conductive cap, the second conductive contact point and the conductive probe;

filling glue to fix the metal conductive cap and the conductive probe;

baking at high temperature to solidify the glue;

the conductive gel covers the electrode sheet;

a release paper is covered on the conductive gel;

and covering the main machine on the base groove.

As mentioned above, the orthopedic electrical stimulation therapeutic apparatus, the assembling process and the method thereof of the invention have the following beneficial effects: according to the improved structural design, the metal conductive cap with the conductive bumps is pressed on the electrode plate and is sleeved on the conductive probe of the host machine together with the conductive contact points on the electrode plate to be connected into a whole, the conductive bumps convert the contact between the plane and the plane into the contact between the plane and the points, so that the connection between the electrode plate and the base is more reliable, the thickness of the base is reduced, the integral structure of the orthopedic electrical stimulation therapeutic apparatus is smaller, and the user experience feeling can be further improved. Meanwhile, the electrode plate is fixed on the base through the pressing of the metal conductive cap, so that the electrode plate can be replaced by dismounting the metal conductive cap when needed, the base and the host can be recycled, and the use cost and the environmental pollution are reduced.

Drawings

Fig. 1 is a schematic exploded view of an electrical stimulation treatment instrument for orthopedics department provided by the invention.

Fig. 2 shows a schematic diagram of the orthopedic electrical stimulation therapeutic apparatus provided by the invention after the base, the electrode plate and the metal conductive cap are assembled.

Fig. 3 and 4 are schematic structural diagrams illustrating the metal conductive cap of the orthopedic electric stimulation therapeutic apparatus from two opposite sides.

Description of the element reference

11. Main unit

111. First conductive contact

12. Base seat

121. Base groove

122. Conductive probe

13. Electrode plate

131. Second conductive contact

132. Protection structure

14. Metal conductive cap

141. Conductive bump

15. Conductive gel

16. Release paper

Detailed Description

The following embodiments of the present invention are provided by way of specific examples, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. As in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the device structures are not partially enlarged in general scale for convenience of illustration, and the schematic views are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Spatially relative terms, such as "under," "below," "lower," "below," "over," "upper," and the like, may be used herein for convenience in describing the relationship of one element or feature to another element or feature illustrated in the figures. It will be understood that the spatial relationship terms are intended to encompass other orientations of the device in use or operation in addition to the orientation depicted in the figures. Further, when a layer is referred to as being "between" two layers, it can be the only layer between the two layers, or one or more intervening layers may also be present.

In the context of this application, a structure described as having a first feature "on" a second feature may include embodiments in which the first and second features are formed in direct contact, and may also include embodiments in which additional features are formed in between the first and second features, such that the first and second features may not be in direct contact.

It should be noted that the drawings provided in this embodiment are only for schematically illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings and not drawn according to the number, shape and size of the components in actual implementation, and the form, quantity and proportion of each component in actual implementation may be arbitrarily changed, and the component layout may be more complicated. In order to keep the drawings as concise as possible, not all features of a single figure may be labeled in their entirety.

Adopt the metal button to realize the interlinkage of host computer and electrode slice between detachable small-size orthopedics electro photoluminescence therapeutic instrument's among the prior art electrode slice and the host computer, lead to complete machine thickness and volume increase, have and use inconveniently, user experience feels not good scheduling problem. In contrast, the inventors of the present application have proposed an improvement scheme through long-term research.

Specifically, as shown in fig. 1 to 3, the present invention provides an electrical stimulation treatment apparatus for orthopedics department, which can stimulate a human body by means of generated current to perform a physical treatment function. The orthopedic electrical stimulation therapeutic apparatus comprises a host 11, a base 12, an electrode plate 13 and a metal conductive cap 14; the host 11 is provided with an electrical stimulation generating circuit (not shown) for generating an electrical stimulation signal and a plurality of first conductive contact points 111, and the first conductive contact points 111 are electrically connected with the electrical stimulation generating circuit; a base groove 121 and a plurality of conductive probes 122 located in the base groove 121 are arranged on the base 12, a plurality of second conductive contact points 131, a positive plate (not shown) and a negative plate are arranged on the electrode sheet 13, the positive plate and the negative plate are electrically connected with the second conductive contact points 131, and conductive bumps 141 are arranged on the metal conductive cap 14; the host 11 covers the base groove 121, the first conductive contact points 111 are in one-to-one electrical contact with the conductive probes 122, the electrode sheet 13 is located on a surface of the base 12 departing from the host 11, the second conductive contact points 131 are sleeved on the conductive probes 122 in one-to-one correspondence, the metal conductive cap 14 is arranged on a side of the second conductive contact point 131 departing from the host 11 and sleeved on the conductive probes 122, the conductive bumps 141 of the metal conductive cap 14 are in electrical contact with the second conductive contact points 131, that is, the metal conductive cap 14 and the second conductive contact points 131 are mutually overlapped and commonly sleeved on the conductive probes 122, so that the electrical connection with the host 11 is realized. Through the improved structural design, the metal conductive cap with the conductive salient points is pressed on the electrode plate and is sleeved on the conductive probe of the host together with the conductive contact points on the electrode plate, so that the electrode plate, the base and the host are connected into a whole, the plane-to-plane contact is converted into the plane-to-point contact through the conductive salient points, the connection between the electrode plate and the base can be more reliable, the thickness of the base is reduced, the integral structure of the orthopedic electrical stimulation therapeutic apparatus is smaller, and the user experience can be further improved. Meanwhile, the electrode plate is fixed on the base through the pressing of the metal conductive cap, so that the electrode plate can be replaced (the metal conductive cap and the electrode plate can also be replaced simultaneously) by dismounting the metal conductive cap when needed, thereby realizing the recycling of the base and the host machine, and being beneficial to reducing the use cost and the environmental pollution.

The electrode sheet 13 may be in various forms such as an FPC (flexible printed circuit), and may be formed by plating silver on a PVC substrate to form a positive electrode sheet and a negative electrode sheet, or by transferring a prefabricated circuit structure to a substrate such as PVC. In one example, the positive and negative plates are welded to the second conductive contact 131 via a low temperature solder wire welding process. The specific structure of the electrode sheet 13 may be set as required, for example, in this embodiment, the electrode sheet 13 includes a first portion corresponding to the base groove 121 and a second portion electrically connected to the first portion and extending to one side, and the second conductive contact 131 is disposed on the first portion. In other examples, the electrode sheet 13 may include a first portion corresponding to the base groove 121 and a second portion electrically connected to the first portion and extending to both sides, that is, the first portion is located between the two second portions. In one example, the electrode sheet 13 is further provided with a protective structure 132 around the second conductive contact point 131, the protective structure 132 may be a structure similar to a structure of a v-21274. In a further example, a groove is formed within the v-21274type structure and the second conductive contact 131 is located within the groove. By providing the groove, the surface of the second conductive contact point 131 does not protrude from the surface of the electrode pad 13, or the height of the second conductive contact point 131 is smaller than the maximum thickness of the electrode pad 13, and in a further example, when the metal conductive cap 14 is fitted on the second conductive contact point 131, the surface of the metal conductive cap 14 is flush with the surface of the electrode pad 13. (in this specification, "electrical contact" means that two structures are in contact with each other and electrically conducted with each other in a current-carrying state.)

As an example, a groove may be correspondingly formed on the host 11, the groove opens toward the base 12, and the first conductive contact 111 is disposed in the groove (a receiving groove for receiving the first conductive contact 111 may be further disposed in the groove), the host 11 and the base 12 may be fixed to each other by a screw-thread fit, for example, an inner surface of the groove of the host 11 is provided with an inner thread and an outer surface of the base groove 121 is provided with an outer thread, so that when the host 11 is covered on the base 12, the inner thread on the host 11 is matched with the outer thread on the base groove 121. As an example, a battery unit and a key unit may be further disposed on the main body 11, the first conductive contact 111 and the key unit are electrically connected to the battery unit, and the battery unit includes, but is not limited to, a lithium ion battery and a charging interface electrically connected to the lithium ion battery, so that the portability of the electrical stimulation treatment apparatus for orthopedics department can be further improved.

In an example, a first magnetic member (not shown) is disposed on a surface of the host 11 facing the base groove 121, a second magnetic member (not shown) is disposed in the base groove 121, and when the host 11 covers the base groove 121, the first magnetic member and the second magnetic member attract each other, for example, the first magnetic member may be an iron sheet and the second magnetic member is a magnet, or the first magnetic member is a magnet and the second magnetic member is an iron sheet, and both the first magnetic member and the second magnetic member may be single or multiple. The magnetic member is provided to make the main body 11 and the base groove 121 fit better.

The number of the first conductive contact points 111, the second conductive contact points 131 and the conductive probes 122 is at least 2, so that a loop can be formed between the positive electrode tab and the negative electrode tab of the electrode tab 13. In one example, the number of the first conductive contact points 111, the second conductive contact points 131 and the conductive probes 122 is more than 3, so that different electrical contact points can be selectively connected according to different requirements, so as to realize different circuit breakthroughs and enable the electrical stimulation therapeutic apparatus to be in different working modes.

In an example, glue is filled between the metal conductive cap 14 and the conductive probe 122 to further secure the connection between the metal conductive cap 14 and the conductive probe 122. The glue is preferably but not limited to one or a combination of two of AB glue and conductive glue.

In one example, the conductive probe 122 is soldered to the base 12 via a low temperature solder wire bonding process.

The metal conductive cap 14 is similar to a screw cap and is sleeved on the conductive probe 122, and the structure thereof can be seen in fig. 3. It can be seen that the metal conductive cap 14 has a through hole in the middle, and a support portion surrounding the through hole, which can be used as a force application support point when it is installed. In one example, the conductive bumps 141 are multiple, and the multiple conductive bumps 141 are uniformly distributed at intervals on the same circumferential surface of the support portion. Providing a plurality of conductive bumps 141 may further ensure contact between the metal conductive cap 14 and the second conductive contact point 131. Of course, in other examples, the plurality of conductive bumps 141 may be connected together to form a conductive bump ring, which is not limited in particular.

As an example, the electrical stimulation treatment instrument for orthopedics department further comprises a conductive gel 15, the conductive gel 15 covers the surface of the electrode plate 13, which faces away from the base 12, and the area of the conductive gel 15 is preferably close to the surface area of the electrode plate 13. The conductive gel 15 may be prepared by assembling the orthopedic electrical stimulation treatment apparatus, coating the conductive gel on the surface of the electrode plate 13, and drying the conductive gel, or may be prepared by attaching the conductive gel to the surface of the electrode plate 13 after being customized.

The orthopedic electrical stimulation treatment instrument can further comprise release paper 16, the release paper 16 covers the surface of the conductive gel 15, which is far away from the electrode plate, so that the conductive gel 15 is protected from being polluted and damaged, and the release paper 16 can be torn off before the orthopedic electrical stimulation treatment instrument is used. The invention also provides an assembly process and an assembly method of the orthopedic electric stimulation therapeutic apparatus in any scheme. As mentioned above, the electrical stimulation therapeutic apparatus for orthopedics department comprises a main machine 11, a base 12, an electrode plate 13 and a metal conductive cap 14; the host 11 is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points 111, and the first conductive contact points 111 are electrically connected with the electrical stimulation generating circuit; the assembly process and the assembly method are characterized in that a base groove 121 and a plurality of conductive probes 122 located in the base groove 121 are arranged on the base 12, a plurality of second conductive contact points 131, a positive plate and a negative plate are arranged on the electrode sheet 13, the positive plate and the negative plate are electrically connected with the second conductive contact points 131, and conductive bumps 141 are arranged on the metal conductive cap 14, and the assembly process and the assembly method comprise the following steps:

the electrode plates 13 are attached to the surface of the base 12, which is away from the host 11, and the second conductive contact points 131 are sleeved on the conductive probes 122 of the base 12 one by one;

sleeving the metal conductive cap 14 on the conductive probe 122 from the side of the electrode sheet 13 departing from the base 12, wherein the conductive bump 141 of the metal conductive cap 14 is in electrical contact with the second conductive contact point 131;

pressing the metal conductive cap 14 to electrically contact the metal conductive cap 14, the second conductive contact point 131 and the conductive probe 122;

filling glue, such as dispensing conductive glue, to fix the metal conductive cap 14 and the conductive probe 122;

baking at high temperature to solidify the glue, for example, baking in a high-temperature oven;

the conductive gel 15 covers the electrode sheet 13, for example, the conductive gel may be coated on the surface of the electrode sheet 13 by a coating process, and then the electrode sheet is cured and formed, or the preformed conductive gel 15 may be attached to the surface of the electrode sheet;

a release paper 16 is covered on the conductive gel 15 for protection, such as preventing the conductive gel 15 from being contaminated or scratched by a sharp object;

finally, the main body 11 is covered on the base groove 121.

Of course, in other examples, the host 11 and the base 12 may be assembled first, but the host 11 and the base 12 are installed last, so that damage to the circuit in the host 11 caused by a subsequent process, such as a subsequent high-temperature baking process, can be effectively avoided.

For more description of the electrical stimulation treatment apparatus, reference is also made to the foregoing, and details are not repeated for the sake of brevity. The assembling process and the method of the orthopedic electrical stimulation therapeutic apparatus provided by the invention are simple and easy to implement, so that the electrode plates can be more flexibly replaced according to the use requirements to meet different requirements.

In summary, the present invention provides an electrical stimulation therapeutic apparatus for orthopedics department, and an assembling process and method thereof. The orthopedic electrical stimulation therapeutic apparatus comprises a host, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points, and the first conductive contact points are electrically connected with the electrical stimulation generating circuit; the base is provided with a base groove and a plurality of conductive probes positioned in the base groove, the electrode sheet is provided with a plurality of second conductive contact points, a positive plate and a negative plate, the positive plate and the negative plate are electrically connected with the second conductive contact points, and the metal conductive cap is provided with conductive convex points; the main machine covers on the base groove, the first conductive contact points are in one-to-one corresponding electrical contact with the conductive probes, the electrode plates are located on the surface of the main machine, the second conductive contact points are sleeved on the conductive probes in one-to-one correspondence, the metal conductive caps are arranged on one sides, deviating from the main machine, of the second conductive contact points and sleeved on the conductive probes, and the conductive convex points of the metal conductive caps are in electrical contact with the second conductive contact points. Through the improved structural design, the metal conductive cap with the conductive salient points is pressed on the electrode plate and is sleeved on the conductive probe of the host together with the conductive contact points on the electrode plate to be connected into a whole, the conductive salient points convert the plane-to-plane contact into the plane-to-point contact, the electrode plate can be more reliably connected with the base, the thickness of the base is reduced, the integral structure of the orthopedic electrical stimulation therapeutic apparatus is smaller, and the user experience can be further improved. Meanwhile, the electrode plate is fixed on the base through the pressing of the metal conductive cap, so that the electrode plate can be replaced by dismounting the metal conductive cap when needed, the base and the host can be recycled, and the use cost and the environmental pollution are reduced. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. An orthopedic electrical stimulation therapeutic apparatus is characterized by comprising a host, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points, and the first conductive contact points are electrically connected with the electrical stimulation generating circuit; the base is provided with a base groove and a plurality of conductive probes positioned in the base groove, the electrode sheet is provided with a plurality of second conductive contact points, a positive plate and a negative plate, the positive plate and the negative plate are electrically connected with the second conductive contact points, and the metal conductive cap is provided with conductive bumps; the main machine covers on the base groove, the first conductive contact points are in one-to-one corresponding electrical contact with the conductive probes, the electrode plates are located on the surface of the main machine, the second conductive contact points are sleeved on the conductive probes in one-to-one correspondence, the metal conductive caps are arranged on one sides, deviating from the main machine, of the second conductive contact points and sleeved on the conductive probes, and the conductive convex points of the metal conductive caps are in electrical contact with the second conductive contact points.

2. The electrical stimulation treatment instrument for orthopedics department according to claim 1, characterized in that a first magnetic member is arranged on the surface of the main machine facing the base groove, a second magnetic member is arranged in the base groove, and when the main machine is covered on the base groove, the first magnetic member and the second magnetic member attract each other.

3. The electrical stimulation treatment instrument for orthopedics department of claim 1, characterized in that the number of the first conductive contact points, the second conductive contact points and the conductive probes is more than 3.

4. The electrical stimulation treatment instrument for department of orthopaedics as claimed in claim 1, wherein the electrode sheet is further provided with a protection structure which is arranged around the circumference of the second conductive contact point.

5. The electrical stimulation treatment instrument for orthopedics department of claim 1, characterized in that glue is filled between the metal conductive cap and the conductive probe, and the glue comprises one or the combination of AB glue and conductive glue.

6. The electrical stimulation treatment instrument for orthopedics department according to claim 1, wherein the conductive probe is welded on the base through a low-temperature tin wire welding process, and the positive plate and the negative plate are welded with the second conductive contact point through a low-temperature tin wire welding process.

7. The electrical stimulation treatment instrument for the orthopedics department as recited in claim 1, wherein the plurality of conductive salient points are evenly distributed on the same circumferential surface at intervals.

8. The electrical stimulation treatment instrument for orthopedics department according to claim 1, further comprising a conductive gel and a release paper, wherein the conductive gel covers the surface of the electrode plate deviating from the base, and the release paper is located on the surface of the conductive gel deviating from the electrode plate.

9. The electrical stimulation treatment instrument for orthopedics department as recited in claim 1, wherein the height of the second conductive contact point is smaller than the maximum thickness of the electrode plate, and when the metal conductive cap is sleeved on the second conductive contact point, the surface of the metal conductive cap is flush with the surface of the electrode plate.

10. An assembling process and a method of an orthopedic electrical stimulation therapeutic apparatus are characterized in that the orthopedic electrical stimulation therapeutic apparatus comprises a host, a base, an electrode plate and a metal conductive cap; the host is provided with an electrical stimulation generating circuit and a plurality of first conductive contact points, and the first conductive contact points are electrically connected with the electrical stimulation generating circuit; the assembly process comprises the following steps of:

attaching the electrode plates to the surface of the base, which is far away from the host, and sleeving the second conductive contact points on the conductive probes of the base one by one;

sleeving the metal conductive cap on the conductive probe from one side of the electrode plate, which is far away from the base, and electrically contacting the conductive convex point of the metal conductive cap with the second conductive contact point;

pressing the metal conductive cap to electrically contact the metal conductive cap, the second conductive contact point and the conductive probe;

filling glue to fix the metal conductive cap and the conductive probe;

baking at high temperature to solidify the glue;

the conductive gel covers the electrode sheet;

a release paper is covered on the conductive gel;

and covering the main machine on the base groove.

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