A portable gynecological examination device

By designing a portable gynecological examination device, the problem of patients being unable to undergo examinations in other departments has been solved, enabling convenient, comfortable, and accurate examination services, meeting the needs of different patients, and reducing time and labor costs.

CN224484169UActive Publication Date: 2026-07-14QUAN ZHOU SHI DI YI YI YUAN

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QUAN ZHOU SHI DI YI YI YUAN
Filing Date
2025-04-25
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The lack of portable gynecological examination devices in existing hospitals forces patients to travel back and forth to the hospital for examinations, increasing time and labor costs, and making it impossible to consult with other departments.

Method used

A portable gynecological examination device was designed, comprising a housing, partitions, sealing mechanism, foot support mechanism, and lighting components. It is made of medical-grade plastic and equipped with an electric push rod and electromagnet, a pulley assembly, and foot pads connected by Velcro, enabling multi-area storage and flexible lighting, ensuring the stability and functionality of the device.

Benefits of technology

It provides convenient examination services, improves patient comfort and examination accuracy, reduces patients' travel time and labor costs, meets the needs of patients of different heights and body types, and ensures that the examination is conducted under sufficient lighting conditions.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224484169U_ABST
    Figure CN224484169U_ABST
Patent Text Reader

Abstract

The utility model relates to gynecological examination device technical field, concretely is a kind of portable gynecological examination device, including box, baffle, sealing mechanism, foot support mechanism and lighting assembly, the baffle is arranged in the box inside, the baffle is equipped with multiple, multiple baffle divides the box into multiple placement area, the sealing mechanism includes sliding frame, sliding slot, slider, pulley assembly and docking rod, the sliding slot is opened in the box outer wall, the slider one end is inserted into the sliding slot, the slider other end is connected with the sliding frame, first electromagnet is equipped on the box, the docking rod is arranged in the sliding frame top, the sealing mechanism is equipped with two, the foot support mechanism includes electric push rod, support seat, iron sheet, foot pad, fixing band and connecting frame, the electric push rod bottom is connected with the support seat, the electric push rod top is connected with the iron sheet, the utility model a kind of portable gynecological examination device, solve the problem of current equipment portability worse.
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Description

Technical Field

[0001] This utility model relates to the field of gynecological examination devices, specifically a portable gynecological examination device. Background Technology

[0002] As is well known, hospitals currently lack portable gynecological examination devices. Only outpatient gynecology departments and gynecological inpatient departments have gynecological examination beds. Due to professional requirements and cost considerations, other departments have not applied for gynecological examination beds. When clinicians need consultation or emergency care, the available facilities do not provide such consultations, and patients must travel to the outpatient or inpatient department for consultation, increasing the patient's travel time and risks, as well as the manpower costs of transportation. Therefore, a portable gynecological examination device has been proposed. Utility Model Content

[0003] (a) Technical problems to be solved

[0004] To address the shortcomings of existing technologies, this utility model provides a portable gynecological examination device.

[0005] (II) Technical Solution

[0006] To achieve the above objectives, this utility model provides the following technical solution: a portable gynecological examination device, comprising a housing, partitions, a sealing mechanism, a footrest mechanism, and a lighting assembly. Multiple partitions are disposed inside the housing, dividing the housing into multiple placement areas. The sealing mechanism includes a sliding frame, a sliding groove, a slider, a pulley assembly, and a connecting rod. The sliding groove is formed on the outer wall of the housing. One end of the slider extends into the sliding groove, and the other end of the slider is connected to the sliding frame. A first electromagnet is provided on the housing. The connecting rod is disposed at the top of the sliding frame. Two sealing mechanisms are provided. The footrest mechanism includes an electric push rod and a support. The system comprises a base, an iron plate, foot pads, a fixing strap, and a connecting frame. The bottom of the electric push rod is connected to the support base, and the top of the electric push rod is connected to the iron plate. The foot pads are located on the top of the iron plate, and the connecting frame is located on one side of the iron plate. One end of the fixing strap is fixedly connected to the other side of the iron plate. Two foot support mechanisms are provided. The lighting assembly includes a second electromagnet, a long plate, a serpentine tube, a hose clamp, and a flashlight. One end of the second electromagnet is connected to the long plate, and the other end of the second electromagnet is attracted to the iron plate. One end of the serpentine tube is connected to the long plate, and the other end of the serpentine tube is connected to the hose clamp. The flashlight is connected to the serpentine tube through the hose clamp.

[0007] To improve stability, this utility model is improved by symmetrically arranging the two sealing mechanisms.

[0008] To facilitate the replacement of the foot pads, this utility model is improved by connecting the foot pads and the iron plate via a Velcro structure.

[0009] To improve the strength of the enclosure, this utility model is improved by using medical-grade plastic material for the enclosure.

[0010] To improve stability, this utility model is improved by providing a plurality of pulley assemblies, which are symmetrically arranged.

[0011] To improve the sliding effect, the present invention is improved in that the slider matches the groove.

[0012] (III) Beneficial Effects

[0013] Compared with the prior art, the present invention provides a portable gynecological examination device, which has the following beneficial effects:

[0014] This portable gynecological examination device is designed with practical convenience and functionality in mind. Multiple partitions inside the casing cleverly divide the device into several dedicated areas, providing organized storage space for various medical equipment such as the footrest mechanism and lighting components. After storage, the casing is sealed using a convenient sealing mechanism that effectively protects the contents. Once these steps are completed, medical personnel can easily lift the device out, providing examination services for patients with mobility issues who are unable to travel to the hospital.

[0015] It is worth mentioning that the footrest mechanism in the device is ingeniously designed. The height can be flexibly adjusted via an electric push rod to meet the needs of patients of different heights and body types, improving patient comfort during the examination. The lighting component is also highly user-friendly. With the help of a second electromagnet, it can be easily attached to a suitable position on the iron plate. Medical staff can freely adjust the position of the lighting component according to the examination needs, effectively avoiding the influence of improper lighting position on the examination operation, ensuring that the examination can be carried out smoothly under sufficient and suitable lighting conditions, and greatly improving the accuracy and efficiency of the examination. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This utility model Figure 1 A magnified schematic diagram of the local structure at point A;

[0018] Figure 3 This is a schematic diagram of the axial structure of this utility model;

[0019] Figure 4 This utility model Figure 3 A magnified view of the structure at point B in the middle;

[0020] In the diagram: 1. Box body; 2. Partition; 3. Sealing mechanism; 4. Sliding frame; 5. Slide groove; 6. Slider; 7. Pulley assembly; 8. First electromagnet; 9. Foot support mechanism; 10. Electric push rod; 11. Support base; 12. Iron plate; 13. Foot pad; 14. Fixing strap; 15. Connecting frame; 16. Lighting assembly; 17. Second electromagnet; 18. Long plate; 19. Serpentine tube; 20. Hose clamp; 21. Flashlight; 22. Connecting rod. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] Please see Figure 1-4 A portable gynecological examination device includes a housing 1, partitions 2, a sealing mechanism 3, a footrest mechanism 9, and a lighting assembly 16. Multiple partitions 2 are disposed inside the housing 1, dividing the housing 1 into multiple placement areas. The sealing mechanism 3 includes a sliding frame 4, a sliding groove 5, a slider 6, a pulley assembly 7, and a connecting rod 22. The sliding groove 5 is formed on the outer wall of the housing 1. One end of the slider 6 extends into the sliding groove 5, and the other end of the slider 6 is connected to the sliding frame 4. A first electromagnet 8 is provided on the housing 1. The connecting rod 22 is disposed on the top of the sliding frame 4. Two sealing mechanisms 3 are provided. The footrest mechanism 9 includes an electric push rod 10, a support base 11, an iron plate 12, a foot pad 13, a fixing strap 14, and a connecting frame 15. The bottom of the electric push rod 10 is connected to the support base 11, the top of the electric push rod 10 is connected to the iron plate 12, the foot pad 13 is set on the top of the iron plate 12, the connecting frame 15 is set on one side of the iron plate 12, one end of the fixing strap 14 is fixedly connected to the other side of the iron plate 12, two foot support mechanisms 9 are provided, and the lighting assembly 16 includes a second electromagnet 17, a long plate 18, a serpentine tube 19, a hose clamp 20, and a flashlight 21. One end of the second electromagnet 17 is connected to the long plate 18, and the other end of the second electromagnet 17 is attracted to the iron plate 12. One end of the serpentine tube 19 is connected to the long plate 18, and the other end of the serpentine tube 19 is connected to the hose clamp 20. The flashlight 21 is connected to the serpentine tube 19 through the hose clamp 20.

[0023] Working principle: When storing equipment, the operating steps are as follows: First, as... Figure 1As shown, the two footrest mechanisms 9 are placed in their respective placement areas divided by multiple partitions 2. Then, the second electromagnet 17 is turned off, separating the lighting component 16 from the footrest mechanism 9. The lighting component 16 is then placed in its corresponding placement area. Following this, according to the item list provided with the device, auxiliary items such as a plastic bottle containing alcohol are placed in the placement area where the lighting component 16 is located. This placement area is reasonably sized to accommodate the lighting component 16 and related items. The placement area for the footrest mechanism is designed so that when the electric push rod is in the retracted state (e.g., ...), ... Figure 1 As shown), it can also fully accommodate the footrest mechanism.

[0024] During the storage process, to ensure the safety of items such as the foot support mechanism 9 and lighting components 16 placed inside the box 1 during transportation and to prevent shaking and collisions, this device incorporates multiple design features. Rubber layers are installed on the inner wall of the box 1 and the partitions 2. These rubber layers not only cushion the items when they come into contact with the box 1 and partitions 2, preventing damage from direct impacts, but also increase the friction between the items and the inner wall of the box 1 and partitions 2, reducing slippage to some extent. However, due to differences in the shape and size of the items, they are difficult to fit completely tightly in the placement area, inevitably resulting in gaps. To address this issue, staff should use soft, cushioning materials such as sponges and foam to fill these gaps during storage. Filling these gaps effectively reduces the relative movement space between items, lowering the risk of collisions caused by shaking during transport. In addition, when carrying the case 1, staff must be careful to avoid excessive shaking and keep the case 1 as stable as possible. This not only helps to further ensure the safety of the items but also prevents the filling material from shifting due to excessive shaking, thus affecting the protective effect on the items. This comprehensively ensures the stability and integrity of the stored items during transportation.

[0025] After the items are placed, the staff operates the brake assembly on the pulley assembly 7 to release the pulley from the lock. At this time, the two sliding frames 4 are pushed, and the slider 6 will slide in the slide groove 5. The pulley assembly 7 will also slide until the two sliding frames 4 are connected, sealing the box 1. After the two sliding frames 4 are connected, the two sliders 6 will contact the first electromagnet 8 respectively. At this time, the first electromagnet 8 is activated, and its magnetism attracts the two sliders 6, fixing the sliding frames 4. The connecting rods 22 on the two connected sliding frames 4 will combine to form a handle. Since the overall weight of the device is moderate, normal adults can easily lift it, making it convenient for medical staff to carry the box 1 out to treat patients.

[0026] When an examination is required, the operating procedure is the reverse of the storage procedure. First, use the brake assembly on the pulley assembly 7 to fix the pulleys, restoring the equipment to its initial state as shown in the figure. Next, place the footrest mechanism 9 in a suitable position for the patient's feet, ensuring the patient's feet are stably placed on the foot pads 13. Then, activate the electric push rod 10 to finely adjust the height of the foot pads 13 on the iron plate 12 according to the patient's actual height, body type, and other factors, ensuring the patient's comfort during the examination. When adjusting the footrest height, observe the patient's facial expressions, such as frowning or discomfort, and inquire about the patient's feelings. Combine this with the clinical experience of medical staff to comprehensively judge whether the footrest height is appropriate. After the height is adjusted to the correct position, use the fixing strap 14 to secure the patient's feet. For securing the patient's feet, one end of the securing strap 14 is fastened to the connecting frame 15 using a buckle. The buckle method can be flexibly selected according to the actual situation, and no specific restrictions are imposed here. This prevents the patient's feet from moving during the examination, which would affect the examination results. Regarding the lighting component 16, the second electromagnet 17 is turned on and placed on the iron plate 12 in a position that is easy to operate and provides good lighting. When adjusting the position of the lighting component 16, it is advisable to clearly illuminate the examination area without producing shadows. If shadows appear and affect the examination field of vision, the position of the second electromagnet 17 can be finely adjusted to change the overall angle of the lighting component 16; or the serpentine tube 19 can be finely adjusted to precisely adjust the illumination angle of the flashlight 21 to ensure that the examination is carried out under sufficient and uniform lighting conditions.

[0027] Regarding the lighting component 16, the second electromagnet 17 is turned on, allowing it to adhere to the iron plate 12 in a suitable position for medical personnel to operate. The serpentine tube 19 has good adjustability, making it easy to adjust the angle of the flashlight 21 and maintain its fixed position after adjustment. Its length is specially designed so that even if the foot support mechanism 9 is located at the patient's foot, the serpentine tube 19 can extend to the patient's buttocks to meet the lighting needs during the examination. Since the serpentine tube 19 is a common technology on the market, it will not be described in detail here. Before the patient's leg comes into contact with the foot pad 13, the staff can disinfect the foot pad 13 with alcohol, and then the medical personnel can examine the patient.

[0028] Regarding the fixing and power supply of the equipment components: the flashlight 21 is fixed to the serpentine tube 19 by a hose clamp 20. The hose clamp 20 is a common fixing component, usually composed of a steel band, a buckle, and bolts. Its working principle is to use the tightening force of the bolts to tighten the steel band around the flashlight 21, thereby achieving a firm fixation. If the flashlight 21 needs to be removed, use an external screwdriver to loosen the bolts on the hose clamp 20 to loosen the steel band. The width and thickness of the steel band of the hose clamp 20 have been optimized to ensure that it can provide sufficient clamping force when fixing the flashlight 21 without damaging the flashlight 21 or the serpentine tube 19 due to excessive tightening. There are also corresponding standards for the tightening torque of the bolts. During operation, the bolts must be tightened according to the standard torque to ensure the fixing effect.

[0029] The electric actuator has an internal battery for powering itself and a charging port for convenient charging. The electric actuator 10 includes a telescopic housing, motor, lead screw drive structure, switch, and other components. The motor power is selected based on the actual load to ensure stable adjustment of the footrest height. The lead screw drive structure has a reasonable pitch design to ensure the accuracy of height adjustment, meeting the needs of different patients. This is a common technology on the market, and its specific working principle is familiar to those in the technical field, so it will not be elaborated here. The housing 1 also has an internal battery to power the first electromagnet 8. A charging port on one side of the housing 1 can charge this battery. The flashlight 21 also has a replaceable battery. The long plate 18 has an internal battery to power the second electromagnet 17. A charging port on the long plate 18 can be used to charge the battery of the second electromagnet 17. When using it outdoors, it is recommended to carry a portable charger. If the battery is low, it can be charged promptly at a power source. If conditions permit, spare batteries can also be prepared in advance for timely replacement when the battery is depleted, ensuring normal operation of the device.

[0030] In addition, to reduce equipment wear and lower the coefficient of friction between components, all parts of this device that come into contact with each other and rub against each other are coated with a ceramic coating.

[0031] In this embodiment, in order to effectively improve the overall stability of the device, the two sealing mechanisms 3 are arranged symmetrically. From a mechanical point of view, the symmetrical sealing mechanism can make the force on both sides of the box even when closing the box. When the sliding frame is pushed to perform docking operation, the symmetrical structure can effectively avoid the box shaking or displacement caused by the force on one side, ensuring the smooth sealing action. Moreover, during the carrying process, the symmetrical sealing design can also make the center of gravity distribution of the box more reasonable, reducing the risk of the box tipping over due to the shift of the center of gravity, and further ensuring the stability of the device in various usage scenarios.

[0032] In this embodiment, considering practical usage needs, and to facilitate the replacement of the floor mat 13, the floor mat 13 and the iron plate 12 are specifically designed to be connected by a Velcro structure. The Velcro consists of a hook side and a loop side. This connection method is simple and convenient to operate. When the floor mat 13 needs to be replaced, simply peel off the hook side and the loop side of the Velcro to quickly remove the old floor mat. When installing the new floor mat, simply attach the Velcro on the new floor mat to the Velcro on the iron plate 12 and press it firmly. In this way, not only can contaminated or damaged floor mats be replaced in a timely manner to ensure hygiene, but the replacement efficiency is also greatly improved.

[0033] In this embodiment, in order to significantly improve the strength of the housing 1 and meet the actual use requirements, after extensive consideration and research, medical-grade plastic material was finally selected to make the housing 1. Medical-grade plastic material has excellent physical properties, and its strength and toughness far exceed those of ordinary plastic. It can not only effectively resist collisions and frictions during daily handling, preventing the housing from cracking or deforming, and ensuring the safety of the internal equipment, but also meet the hygiene standards of the medical environment. It is non-toxic, odorless, and will not contaminate medical equipment, providing a reliable protective shell for the portable gynecological examination device and extending the overall service life of the device.

[0034] In this embodiment, stability is a key factor in ensuring the reliable use of the portable gynecological examination device. To significantly improve the stability of the device, special measures have been taken in the design of the pulley assembly. The device is equipped with several pulley assemblies 7, which are arranged symmetrically. The symmetrically distributed pulley assemblies 7 can make the force on the box 1 more even during the movement of the device. Whether pushing or pulling the device, it can effectively reduce the tilting and shaking caused by uneven force, ensuring that the device can move smoothly under various ground conditions, thereby providing a more reliable stability guarantee for the use of the device.

[0035] In this embodiment, to effectively improve the sliding effect of the sealing mechanism, the matching of slider 6 and groove 5 has been carefully considered and designed. The matching of slider 6 and groove 5 means that both have been precisely controlled in terms of size, shape and tolerance. In terms of size, the outer dimensions of slider 6 are closely matched with the inner dimensions of groove 5, so that there will be no shaking due to excessive gaps or jamming due to excessive tightness. In terms of shape, the contours of the two are compatible with each other, ensuring that the slider can slide smoothly in the groove. The strict control of tolerance further ensures the accuracy and smoothness of sliding. In this way, in actual operation, when the sliding frame is pushed, the slider can slide easily in the groove, effectively improving the convenience and efficiency of sealing operation.

[0036] The dimensions and shapes of all components in this structure are not specifically limited here and need to be produced according to the actual situation. The control method of this utility model is controlled by manually starting and stopping the switch. The wiring diagram of the power element and the supply of power are common knowledge in this field. Furthermore, this utility model is mainly used to protect mechanical devices, so the control method and wiring layout will not be explained in detail here.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A portable gynecological examination device, comprising a housing (1), a partition (2), a sealing mechanism (3), a footrest mechanism (9), and a lighting assembly (16), characterized in that: The partition (2) is disposed inside the box (1). Multiple partitions (2) are provided, and the multiple partitions (2) divide the box (1) into multiple placement areas. The sealing mechanism (3) includes a sliding frame (4), a sliding groove (5), a slider (6), a pulley assembly (7), and a connecting rod (22). The sliding groove (5) is opened on the outer wall of the box (1). One end of the slider (6) extends into the sliding groove (5), and the other end of the slider (6) is connected to the sliding frame (4). The box (1) is provided with a first electromagnet (8). The connecting rod (22) is disposed on the top of the sliding frame (4). There are two sealing mechanisms (3). The foot support mechanism (9) includes an electric push rod (10), a support base (11), an iron plate (12), a foot pad (13), a fixing strap (14), and a connecting frame (15). The bottom of the electric push rod (10) is connected to the support base (11). 1) Connection: The top of the electric push rod (10) is connected to the iron plate (12), the foot pad (13) is set on the top of the iron plate (12), the connecting frame (15) is set on one side of the iron plate (12), one end of the fixing strap (14) is fixedly connected to the other side of the iron plate (12), two foot support mechanisms (9) are provided, the lighting component (16) includes a second electromagnet (17), a long plate (18), a serpentine tube (19), a hose clamp (20) and a flashlight (21), one end of the second electromagnet (17) is connected to the long plate (18), the other end of the second electromagnet (17) is attracted to the iron plate (12), one end of the serpentine tube (19) is connected to the long plate (18), the other end of the serpentine tube (19) is connected to the hose clamp (20), and the flashlight (21) is connected to the serpentine tube (19) through the hose clamp (20).

2. The portable gynecological examination device according to claim 1, characterized in that: The two sealing mechanisms (3) are arranged symmetrically.

3. A portable gynecological examination device according to claim 2, characterized in that: The foot pad (13) is connected to the iron plate (12) by a Velcro structure.

4. A portable gynecological examination device according to claim 3, characterized in that: The housing (1) is made of medical-grade plastic.

5. A portable gynecological examination device according to claim 4, characterized in that: The pulley assembly (7) is provided in several parts, and the several pulley assemblies (7) are arranged symmetrically.

6. A portable gynecological examination device according to claim 5, characterized in that: The slider (6) is matched with the groove (5).