CN209770836U - Rectum electronic vibration bolt - Google Patents

Abstract

The utility model discloses a rectum electronic vibration bolt, in particular to a rectum electronic vibration bolt which comprises a vibration bolt shell and a vibration unit positioned in the vibration bolt shell; wherein the vibration unit comprises a vibration device, and the vibration device is configured that the vibration direction of the vibration device is parallel to the axial direction of the vibration bolt housing. The vibrating device is used for driving the rectum electronic vibrating bolt to vibrate. The rectum electronic vibration bolt of the utility model can be placed into the rectum from the anus for use. The rectum electronic vibration bolt vibrates in the rectum and can reach the vibration stimulation position in a short time.

Description

Rectum electronic vibration bolt

Technical Field

The utility model relates to the field of medical equipment, especially, relate to a rectum electronic vibration bolt.

Background

Constipation is a common symptom of middle-aged and elderly people, and about 1/3 of people can have constipation, which seriously affects the life quality of people. The clinical manifestations of constipation include decreased frequency of defecation, decreased stool volume, dry stool, and labourious defecation. The defecation frequency of many patients is less than 2 times per week, and the defecation is performed for 2-4 weeks in severe cases. Some patients can obviously show difficult defecation, the defecation time can be more than 30 minutes, or the defecation is carried out for a plurality of times every day, but the defecation is difficult, and the feces are hard like sheep feces and are few in quantity.

For various reasons, patients do not pay much attention to constipation, and also pay little attention to their condition in the early stage of the disease, so that the pathogenic conditions are increasingly severe or worsened. In the prior art, the main treatment methods for constipation are: medicinal treatment, appliance-assisted treatment, biofeedback treatment and the like. The drug therapy is a commonly used treatment method at present, but the side effect is large, the dependence on the drug is increased gradually, and the self-defecation capability of the body is further damaged.

The existing digestive tract vibration capsule is orally taken, so that the possibility that the digestive tract is retained and finally can not be discharged out of the body exists, for example, the digestive tract is narrow or diverticulum and other factors cause. Therefore, those skilled in the art have endeavored to develop a constipation treating apparatus which is safer, more convenient to use, and has a better therapeutic effect.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, in order to solve current constipation treatment side effect big, use inconvenient, and therapeutic effect is not good, perhaps leads to the technical problem that the apparatus is detained at the alimentary canal because factors such as alimentary canal stenosis or diverticulum, the utility model provides a rectum electronic vibration bolt.

In order to achieve the above object, the present invention provides a rectum electronic vibration bolt, which comprises: the vibration bolt comprises a vibration bolt shell and a vibration unit positioned inside the vibration bolt shell; wherein the vibration unit comprises a vibration device, and the vibration device is configured that the vibration direction of the vibration device is parallel to the axial direction of the vibration bolt housing. The vibrating device is used for driving the rectum electronic vibrating bolt to vibrate.

In another preferred example, the inner wall of the vibration bolt housing is provided with a groove matched with the shape of the vibration unit. The vibration unit is integrally embedded in the groove, so that the vibration unit is tightly connected with the shell of the vibration bolt.

In another preferred example, the vibration device is a flat polarization motor (flat motor).

In another preferred example, the vibration unit further includes: the vibration device, the electric control assembly and the power supply assembly are mutually combined and fixed in the vibration bolt shell.

In another preferred example, the electronic control assembly includes a printed circuit board, a control chip and a tunnel reluctance switch, the printed circuit board is arranged along the axial direction of the vibration bolt housing, and the control chip and the tunnel reluctance switch are welded on the printed circuit board.

In another preferred embodiment, the power supply assembly includes a first battery, a second battery, and a third battery, wherein the first battery and the vibration device are located on one side of the printed circuit board, and the second battery, and the third battery are located on the other side of the printed circuit board.

In another preferred example, the first battery and the vibration device are located on a front surface of the printed circuit board, and the second battery and the third battery are located on a rear surface of the printed circuit board.

In another preferred example, the control chip and the tunnel magnetic resistance switch are welded on the front surface of the printed circuit board.

In another preferred example, the electronic rectal vibrating bolt further comprises a permanent magnetic element, the permanent magnetic element is arranged outside the vibrating bolt housing, and when the permanent magnetic element is close to the vibrating bolt housing, the tunnel magnetic resistance switch cuts off the power supply of the electronic rectal vibrating bolt; when the permanent magnetic element is far away from the shell of the vibrating bolt, the tunnel magnetic resistance switch turns on the power supply of the electronic rectal vibrating bolt.

In another preferred embodiment, the power supply module further includes a first battery spring, the first battery spring is welded to the front surface of the printed circuit board, the first battery is mounted in the first battery spring, the positive electrode of the first battery is in close contact with the first battery spring, and the negative electrode of the first battery is in close fit with the front surface of the printed circuit board.

In another preferred embodiment, the power supply module further includes a second battery spring, the second battery spring is welded to the back of the printed circuit board, the second battery is mounted in the second battery spring, the positive electrode of the second battery is in close contact with the second battery spring, and the negative electrode of the second battery is in close fit with the back of the printed circuit board.

In another preferred embodiment, the power supply module further includes a third battery spring, the third battery spring is welded to the back of the printed circuit board, the third battery is mounted in the third battery spring, the positive electrode of the third battery is in close contact with the third battery spring, and the negative electrode of the third battery is in close fit with the back of the printed circuit board.

In another preferred example, the electronic control assembly further comprises an electronic switching element, and the electronic switching element is welded on the front surface of the printed circuit board.

In another preferred example, the vibration bolt housing comprises a lower end housing and an upper end housing, and the vibration device is fixed in the vibration bolt housing.

In another preferred embodiment, the inner wall of the lower end shell is provided with a groove for accommodating the vibration device.

In another preferred example, the inner wall of the lower end housing is provided with a groove for accommodating the third battery.

In another preferred example, the inner wall of the upper end housing is provided with a groove for accommodating the first battery and/or the second battery.

In another preferred example, the outer arc of the lower end housing is equal to the outer arc of the upper end housing.

In another preferred example, the diameter of the rectal electronic vibration bolt is 9 mm-15 mm, and the length of the rectal electronic vibration bolt is 15 mm-30 mm; preferably, the rectal electronic vibrating plug has a diameter greater than 11mm (e.g., 15mm) and a length greater than 19mm (e.g., 20mm or 25 mm).

The utility model has the effects that:

The rectum electronic vibration bolt of the utility model can be placed into the rectum from the anus for use. The rectum electronic vibration bolt vibrates in the rectum and can reach the vibration stimulation position in a short time. The rectum is stimulated and massaged by mechanical vibration, so that the self peristalsis of the intestinal tract is recovered or enhanced, and the patient can be effectively promoted to defecate autonomously. The rectum electronic vibration bolt has the advantages of simple structure, convenient use, low energy consumption and long working time, and overcomes the possible alimentary canal detention caused by oral instruments, thereby having higher safety.

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

Drawings

Fig. 1 is a perspective view of the whole internal structure of a rectal electronic vibration plug according to a preferred embodiment of the present invention.

Fig. 2 is an exploded structural diagram of the electronic rectal vibrating plug according to a preferred embodiment of the present invention.

Fig. 3 is a schematic view of the overall structure of the electronic rectal vibrating plug according to a preferred embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts. Further, although the terms used in the present invention are selected from publicly known and used terms, some of the terms mentioned in the description of the present invention may be selected by the applicant at his or her discretion, the detailed meanings of which are described in relevant parts of the description herein. Furthermore, it is required that the present invention is understood, not simply by the actual terms used but by the meaning of each term lying within.

It should be noted that in the description herein, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

as shown in the figure, fig. 1 is a schematic view of the overall structure of the electronic rectal vibrating bolt of this embodiment. The electronic vibrating plug for rectum provided by the embodiment comprises: the vibration bolt comprises a vibration bolt shell 1 and a vibration unit 2 positioned inside the vibration bolt shell; wherein the vibration unit 2 comprises a vibration device 21, and the vibration device 21 is configured such that the vibration direction of the vibration device 21 is parallel to the axial direction of the vibration bolt housing 1. The vibrating device 21 is configured to drive the rectal electronic vibrating bolt to vibrate. In the present embodiment, the vibration device 21 is a flat polarization motor (flat motor).

As shown in fig. 1 and 2, the vibrating bolt housing is shaped like a capsule, and includes an upper end housing 11 and a lower end housing 12, and the upper end housing 11 and the lower end housing 12 form a space for accommodating the vibrating unit 2 after being closed.

In this embodiment, the vibration unit 2 further includes: an electronic control assembly 22 and a power supply assembly 23, said vibrating device 21, said electronic control assembly 22 and said power supply assembly 23 being fixed in combination with each other in said vibrating bolt housing. The vibration device 21, the electronic control assembly 22 and the power supply assembly 23 are electrically connected. The power supply assembly 23 is arranged to supply power to the entire vibration unit 2; the electronic control assembly 22 is arranged to control the entire vibration unit 2, in particular the vibration device 21.

The electronic control assembly 22 comprises a printed circuit board 221, a control chip 222 and a tunnel reluctance switch 223, wherein the printed circuit board 221 is arranged along the axial direction of the vibration bolt housing 1, and the control chip 222 and the tunnel reluctance switch 223 are welded on the printed circuit board. Specifically, the control chip 222 and the tunnel magnetoresistance switch 223 are soldered on the front surface of the printed circuit board 221.

Further, the power supply module 23 includes a first battery 231, a second battery 232, and a third battery 233, wherein the first battery 231 and the vibration device 21 are located on one side of the printed circuit board 221, and the second battery 232 and the third battery 233 are located on the other side of the printed circuit board 221. In this embodiment, the first battery 231 and the vibration device 21 are located on the front surface of the printed circuit board 221, and the second battery 232 and the third battery 233 are located on the back surface of the printed circuit board 221. Further, the control chip 222 and the tunnel reluctance switch 223 are soldered on the front surface of the printed circuit board 221.

Further, the power module 23 further includes a first battery tab 2311, the first battery tab 2311 is welded to the front surface of the pcb, the positive electrode of the first battery 231 is in close contact with the first battery tab 2331, and the negative electrode of the first battery 231 is in close contact with the front surface of the pcb 221. The printed circuit board 221 has solder joints;

Further, the power supply module 23 further includes a second battery elastic sheet 2321, the second battery elastic sheet 2321 is welded to the back of the printed circuit board 221, the second battery 232 is installed in the second battery elastic sheet 2321, the positive electrode of the second battery 232 is in close contact with the second battery elastic sheet 2321, and the negative electrode of the second battery 232 is in close fit with the back of the printed circuit board 221. Printed circuit board 221 having solder joints

Further, the power supply module 23 further includes a third battery striking plate 2331, the third battery striking plate 2331 is welded to the back surface of the printed circuit board 221, the third battery 233 is mounted in the third battery striking plate 2331, the anode of the third battery 233 is in close contact with the third battery striking plate 2331, and the cathode of the third battery 233 is in close fit with the back surface of the printed circuit board 221. Printed circuit board 221 having solder joints

Further, the electronic control assembly further comprises an electronic switching element, and the electronic switching element is welded on the front face of the printed circuit board.

In the present embodiment, as shown in fig. 1, the inner wall of the vibration bolt housing 1 is provided with a groove matching with the external shape of the vibration unit 2. The vibration unit 2 is integrally embedded in the groove, so that the vibration unit 2 and the vibration bolt housing 1 are tightly matched.

Specifically, a groove for accommodating the vibration device 21 is provided in the inner wall of the lower end housing 12. So that the vibration means 21 and the lower end housing 12 are closely fitted. A groove for accommodating the third battery 233 and the third battery spring 2331 is formed on the inner wall of the lower housing 12. So that the third battery 233, the third battery spring 2331 and the lower end housing 12 are tightly fitted. A groove for receiving the first battery 231 and the first battery elastic piece 2311 is formed on the inner wall of the upper end housing 11. So that the first battery 231, the first battery fragment 2311 and the upper end housing 11 are tightly fitted. A groove for accommodating the second battery 232 and the second battery elastic sheet 2321 is formed in the inner wall of the upper end housing 11. So that the second battery 232, the second battery elastic piece 2321 and the upper end housing 11 are tightly fitted.

As shown in fig. 3, the electronic rectal vibrating bolt further comprises a permanent magnetic element 3, the permanent magnetic element 3 is arranged outside the vibrating bolt housing 1 and close to the end of the lower end housing 12, and when the permanent magnetic element 3 is close to the vibrating bolt housing 1, the tunnel magnetic resistance switch 223 cuts off the power supply of the electronic rectal vibrating bolt; when the permanent magnet element 3 is far away from the housing of the vibrating bolt, the tunnel reluctance switch 223 turns on the power supply of the rectal electronic vibrating bolt.

The permanent magnet element 3 is arranged outside the housing 1 of the vibrating bolt, and the arrangement ensures that the tunnel reluctance switch 223 cuts off the power supply of the electronic rectal vibrating bolt when the permanent magnet element 3 is close to the housing 1 of the vibrating bolt. When the permanent magnet element 3 is away from the vibrating bolt housing 1, the tunnel reluctance switch 223 turns on the power supply of the rectal electronic vibrating bolt. The permanent magnet element 3 can control the on and off of the tunnel magnetic resistance switch 223 through a magnetic field, so that the purpose of controlling the power supply of the electronic rectal vibrating bolt is achieved.

Further, the outer curvature of the lower housing is the same as that of the upper housing, and the upper housing 11 and the lower housing 12 are made of biocompatible materials.

Furthermore, the diameter of the rectum electronic vibration bolt is 9 mm-15 mm, and the length of the rectum electronic vibration bolt is 15 mm-30 mm.

In this embodiment, the circuit connection relationship of the components can be realized by using conventional arrangements in the art, and preferably, the cathode and the anode of the vibration device 21 are both connected to the printed circuit board 221, and form an electrical connection loop with the control chip 222 and the tunnel reluctance switch 223. The vibration device 21 here preferably employs a vibration motor, in particular a flat polarization motor. The tunnel magnetoresistive switch 223 has many advantages such as high sensitivity, low switching point, extremely low power consumption, wide operating voltage range, excellent thermal stability, excellent ESD performance, and small package.

The second and third batteries 232 and 233 are connected to the printed circuit board 221, and form another electrical connection loop with the control chip 222 and the tunnel reluctance switch 223.

When the vibration device 21 is vibrating, the vibration device 21 is a flat rotary motor in the present embodiment, since the vibration direction of the vibration device 21 is parallel to the axial direction of the vibration bolt housing, and the axial direction of the flat rotary motor is perpendicular to the axial direction of the vibration bolt housing. The utility model discloses in, each component is like equal direct electricity connection such as vibrating device 21, first battery 231, second battery 232, third battery 233 in printed circuit board 221, consequently is showing the circuit fault rate that has reduced in production process and the working process. Moreover, the production is more convenient.

According to the above structure, the negative electrode and the positive electrode of the vibrating device 21 of the rectal electronic vibrating bolt of the present invention are connected to the printed circuit board 221 through the conducting wires, and the positive electrode of the first battery 231 is connected to the printed circuit board 221 through the first bridge elastic piece 2311, and the negative electrode of the first battery 231 abuts against the welding contact on the front surface of the printed circuit board 221. Meanwhile, the printed circuit board 221 has a solder contact on the reverse side thereof for closely contacting the negative electrodes of the second and third batteries 232 and 233, and the positive electrodes of the second and third batteries 232 and 233 are connected to the printed circuit board 221 through the second and third bridge pieces 2321 and 2331, respectively. The printed circuit board 221 here may preferably be a double-sided FR4 printed circuit board, and the tunnel reluctance switch 223, the control chip (MCU)222 and the electronic switching element 224 are soldered on the front side.

The utility model discloses rectum electronic vibration bolt's simple structure, volume are moderate, convenient to use and energy consumption are low, and operating time is not less than 8 hours for a long time, provide new treatment for treating serious constipation patient. Generally, a patient with severe constipation defecates once in 5-6 days, and is even longer, and the electronic rectal vibration suppository of the utility model can reach the working position, stimulate and massage the intestinal tract to promote the peristalsis of the intestinal tract. The utility model discloses the theory of operation that rectum electronic vibration tied does: firstly, after the binary code program is solidified by the control chip (MCU)222, the permanent magnet element 3 is removed, so that the electronic rectal vibration bolt program is initialized, and the registers and pins of the control chip (MCU)222 are configured. After the configuration is finished, program self-checking is carried out, and the electronic switch element 224 is controlled to be turned on and off through the pins of the controller, so that the vibration time of the vibration device 21 is controlled, and the vibration device vibrates repeatedly for many times, and the effect of testing the quality of the rectum electronic vibration bolt is achieved.

After the first vibration multiple times, the program enters a quiet period (about 3 minutes) and the vibration is temporarily stopped. When the vibrating device 21 vibrates again, it applies a vibrating force to the vibrating plug housing, which stimulates and massages the intestinal wall and promotes the peristalsis of the intestinal tract.

Therefore, the utility model discloses rectum electronic vibration is tied mainly is that the intelligent rectum electronic vibration of treatment chronic constipation is tied, according to normal intestinal peristaltic frequency, amazing, massage intestinal to resume or strengthen the wriggling of intestinal self, thereby reach the purpose of treatment constipation. When the rectum electronic vibration bolt is far away from the permanent magnet, the internal power supply of the rectum electronic vibration bolt is turned on, so that the internal program of the rectum electronic vibration bolt carries out self-checking, and the rectum electronic vibration bolt enters a silent period after self-checking vibration is carried out for multiple times. Then, the electronic rectal vibration bolt is placed into the rectum from the anus, after the silent period is finished, the electronic rectal vibration bolt starts to work until the set vibration time is finished or the battery of the vibration device is exhausted, the electronic rectal vibration bolt stops vibrating, and finally the electronic rectal vibration bolt is discharged out of the body along with excrement.

To sum up, the utility model discloses rectum electronic vibration is tied and is adopted physical therapy, and the no side effect is amazing, is massaged through mechanical vibration to resume or strengthen the wriggling of intestinal self, can effectively make the patient independently defecate. The rectum electronic vibration bolt has the advantages of simple structure, moderate volume, convenient use and low energy consumption.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (16)

1. An electronic vibrating rectal plug, comprising: the vibration bolt comprises a vibration bolt shell and a vibration unit positioned inside the vibration bolt shell; wherein the vibration unit comprises a vibration device, and the vibration device is configured that the vibration direction of the vibration device is parallel to the axial direction of the vibration bolt housing.

2. A rectal electronic vibrating bolt as claimed in claim 1, wherein the vibrating means is a flat polarizing motor.

3. A rectal electronic vibrating bolt as recited in claim 1, wherein the vibrating unit further comprises: the vibration device, the electric control assembly and the power supply assembly are mutually combined and fixed in the vibration bolt shell.

4. A rectal electronic vibrating bolt as recited in claim 3, wherein the electronic control assembly includes a printed circuit board, a control chip and a tunnel reluctance switch, the printed circuit board being disposed along an axial direction of the vibrating bolt housing, the control chip and the tunnel reluctance switch being soldered to the printed circuit board.

5. A rectal electronic vibrating bolt as recited in claim 4, wherein said power supply assembly includes a first battery, a second battery, and a third battery, wherein said first battery and said vibrating device are located on one side of said printed circuit board, and said second battery, and said third battery are located on the other side of said printed circuit board.

6. A rectal electronic vibrating bolt as recited in claim 5, wherein said first battery and said vibrating means are located on a front side of said printed circuit board, and said second battery, and said third battery are located on a back side of said printed circuit board.

7. A rectal electronic vibrating bolt as claimed in claim 6, wherein the control chip and the tunnel reluctance switch are soldered on the front surface of the printed circuit board.

8. A rectal electronic vibrating bolt as recited in claim 4, further comprising a permanent magnetic element disposed on the exterior of the vibrating bolt housing, the tunneling reluctance switch switching off power to the rectal electronic vibrating bolt when the permanent magnetic element is in proximity to the vibrating bolt housing; when the permanent magnetic element is far away from the shell of the vibrating bolt, the tunnel magnetic resistance switch turns on the power supply of the electronic rectal vibrating bolt.

9. The rectal electronic vibration bolt of claim 5, wherein the power supply assembly further comprises a first battery spring plate, the first battery spring plate is welded on the front face of the printed circuit board, the first battery is mounted in the first battery spring plate, the positive electrode of the first battery is in tight contact with the first battery spring plate, and the negative electrode of the first battery is in tight fit with the front face of the printed circuit board;

the power supply assembly further comprises a second battery elastic sheet, the second battery elastic sheet is welded on the back face of the printed circuit board, the second battery is installed in the second battery elastic sheet, the positive pole of the second battery is in close contact with the second battery elastic sheet, and the negative pole of the second battery is in close fit with the back face of the printed circuit board; and/or

The power supply assembly further comprises a third battery elastic sheet, the third battery elastic sheet is welded on the back face of the printed circuit board, the third battery is installed in the third battery elastic sheet, the positive pole of the third battery is in close contact with the third battery elastic sheet, and the negative pole of the third battery is in close fit with the back face of the printed circuit board.

10. A rectal electronic vibrating bolt as recited in claim 4, wherein said electronic control assembly further comprises an electronic switching element, said electronic switching element being soldered to a front surface of said printed circuit board.

11. A rectal electronic vibration bolt as claimed in claim 1, wherein the inner wall of the vibration bolt housing is provided with a groove matching with the external shape of the vibration unit.

12. A rectal electronic vibration plug as claimed in claim 1, wherein the rectal electronic vibration plug has a diameter of 9mm to 15mm and a length of 15mm to 30 mm.

13. A rectal electronic vibrating bolt as recited in claim 5, wherein the vibrating bolt housing comprises a lower end housing and an upper end housing, the vibrating device being secured within the vibrating bolt housing.

14. A rectal electronic vibration plug as claimed in claim 13, wherein the inner wall of the lower housing is provided with a recess for receiving the vibration device.

15. A rectal electronic vibration plug as claimed in claim 13, wherein the inner wall of the lower housing is provided with a recess for receiving the third battery.

16. A rectal electronic vibration bolt according to claim 13, characterised in that the inner wall of the upper end housing is provided with a recess for receiving the first battery and/or the second battery.