CN219517569U - Deep venous nerve stimulator - Google Patents

Abstract

The utility model relates to a deep venous nerve stimulator, which comprises a stimulator body, a shell, electrode wires, a display screen and electrode plates, wherein the electrode wires are arranged on the stimulator body; the shell is provided with a first output interface, a second output interface, a power socket and a switch button; the stimulation instrument body is arranged in the shell and is electrically connected with the first output interface, the second output interface, the power socket and the switch button respectively; the electrode plate is provided with a butt joint, two ends of the electrode wire are respectively provided with a plug connector, the plug connector at one end of the electrode wire is plugged on the butt joint of the electrode plate, and the plug connector at the other end is plugged on the first output interface or the second output interface; the display screen is electrically connected with the stimulation instrument body and is hinged to the shell.

Description

Deep venous nerve stimulator

Technical Field

The utility model relates to an electrical stimulation therapeutic apparatus, in particular to a deep venous nerve stimulation apparatus.

Background

Sometimes, people need to excite neuromuscular tissues and promote local blood circulation tubes during postoperative recovery and rehabilitation, and a deep venous nerve stimulator is needed. The deep vein nerve stimulator can output specific low-frequency pulse current to electrically stimulate nerve muscles of limbs or specific parts, excite nerve generation and muscle group movement, improve vein reflux of the region of a patient, improve circulation, reduce the risk of thrombosis and achieve the purpose of rehabilitation treatment. The existing deep vein nerve stimulator is mostly operated and controlled by adopting a display screen. However, the existing display screen is fixed on the shell, the angle cannot be adjusted, when the operation and control are needed through the display screen, the situation that human eyes cannot face the display screen exists, at the moment, a human body needs to be moved or a stimulator is adjusted, and the use is inconvenient.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide a deep vein nerve stimulator, wherein a display screen is hinged on a shell and can be rotated to perform angle adjustment, so that the operation and control are convenient through the display screen.

The utility model relates to a deep venous nerve stimulator, which comprises a stimulator body, a shell, electrode wires, a display screen and electrode plates, wherein the electrode wires are arranged on the stimulator body; the shell is provided with a first output interface, a second output interface, a power socket and a switch button; the stimulation instrument body is arranged in the shell and is electrically connected with the first output interface, the second output interface, the power socket and the switch button respectively; the electrode plate is provided with a butt joint, two ends of the electrode wire are respectively provided with a plug connector, the plug connector at one end of the electrode wire is plugged on the butt joint of the electrode plate, and the plug connector at the other end is plugged on the first output interface or the second output interface; the display screen is electrically connected with the stimulation instrument body and is hinged to the shell.

The utility model is further improved in that the upper surface of the shell is obliquely arranged, and the display screen is positioned on the upper surface of the shell; the switch button is positioned on the upper surface of the shell, and the power socket, the first output interface and the second output interface are positioned on the rear surface of the shell.

The utility model is further improved in that a groove is arranged on the upper surface of the shell; the display screen is arranged on the shell through a rotating shaft with damping, and the display screen is positioned in the groove.

The utility model further improves that the utility model also comprises a plurality of wire fixing buckles, wherein the wire fixing buckles comprise a fixed plate, a first circular ring and a second circular ring which are arranged on the fixed plate, the first circular ring and the second circular ring are arranged in parallel, and the first circular ring and the second circular ring are respectively provided with an opening; the fixing plate is adhered in the groove through fixing glue.

A further development of the utility model is that the opening of the first ring is located on the left side of the first ring and the opening of the second ring is located on the right side of the second ring.

The utility model further improves that a plurality of anti-slip gaskets are arranged on the bottom surface of the shell.

The utility model has the beneficial effects that:

the upper surface of the shell is obliquely arranged, the display screen is hinged to the upper surface of the shell through the damping rotating shaft, and the human eyes can be enabled to face the display screen through rotating the display screen, so that the operation and the control are convenient.

The wire fixing buckle is arranged in the groove, and when the electrode wire fixing buckle is not used, the electrode wire can be arranged on the wire fixing buckle in the groove, and the electrode sheet can be placed in the groove. Simultaneously, the display screen is rotated, so that the groove becomes a closed accommodating space for accommodating the electrode plate and the electrode wire.

Drawings

FIG. 1 is a schematic illustration of the present utility model;

fig. 2 is a schematic view of the cord lock of the present utility model.

Description of the reference numerals

1. The device comprises a shell, 2, electrode wires, 3, a display screen, 4, electrode plates, 5, a first output interface, 6, a second output interface, 7, a power socket, 8, a switch button, 9 and a wire fixing buckle.

Detailed Description

The technical solutions in the embodiments of the present utility model are clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

The utility model aims to provide a deep venous nerve stimulator, which is used for electrically stimulating nerve muscles acting on limbs or specific parts, wherein a display screen of the stimulator is hinged on a shell, and can be rotated to perform angle adjustment, so that the operation and control are convenient through the display screen.

The utility model relates to a deep vein nerve stimulator, which comprises a stimulator body, a shell 1, electrode wires 2, a display screen 3 and electrode plates 4, wherein the stimulator is shown in figure 1.

The shell 1 is provided with a first output interface 5, a second output interface 6, a power socket 7 and a switch button 8.

The stimulator body is used for generating low-frequency pulse current and outputting the low-frequency pulse current from the first output interface 5 and the second output interface 6, and the specific part connection mode and the working principle in the stimulator body are common knowledge in the field and adopt the prior art. The stimulator body is arranged in a housing 1 (not shown in the figures). The stimulator body is electrically connected with the first output interface 5, the second output interface 6, the power socket 7 and the switch button 8 respectively. The power socket 7 can be connected with a power line in a plugging manner, and can be connected with the mains supply through the power line to supply the power required by the stimulation instrument body. The switch button 8 is electrically connected with the stimulator body and can control the opening and closing of the stimulator body. The first output interface 5, the second output interface 6, the power socket 7 and the switch button 8 are all arranged on the shell 1

The two ends of the electrode wire 2 are respectively provided with a plug connector, the plug connector at one end of the electrode wire 2 is connected with the butt joint of the electrode plate 4, and the plug connector at the other end is connected with the first output interface 5 and/or the second output interface 6. When the electrode plate 4 is attached to the human body, the low-frequency pulse current generated by the stimulator body acts on the human body through the first output interface 5 or the second output interface 6, the electrode wire 2 and the electrode plate 4 to generate electric stimulation to the human body. When the number of the electrode wires 2 and the electrode plates 4 is 2, one electrode wire 2 can be inserted into the first output interface 5, and one electrode wire 2 can be inserted into the second output interface 6.

The display screen 3 is electrically connected with the stimulator body, and can operate and control the stimulator body through the display screen 3, such as adjustment time, pulse, frequency, intensity and the like, can be specifically adjusted according to actual tolerance and comfort of a patient, and belongs to the prior art, so that the stimulator body is not described in detail.

One end of the display screen 3 is hinged on the shell 1, so that the display screen 3 can be rotated, and the display screen 3 is rotated to perform angle adjustment according to the angle requirement, so that the display screen 3 is opposite to a user, and the operation and control are convenient.

Example 2:

the present embodiment is substantially the same in structure as the embodiment, and only the differences will be described in detail below.

In this embodiment, the upper surface of the housing 1 is obliquely arranged, and the display screen 3 is arranged on the upper surface of the housing 1; the switch button 8 is located on the upper surface of the housing 1, and the power socket 7, the first output interface 5, and the second output interface 6 are disposed on the rear surface of the housing 1.

The upper surface of the housing 1 is recessed to form a recess. The display screen 3 is arranged on the shell 1 through a rotating shaft with damping, and the display screen 3 is positioned at the groove. Optimally, the grooves are just blocked by the display 3. When not in use, the grooves can also be used as accommodating spaces for storing the electrode wires 2, the electrode plates 4, the power wires and the like.

A plurality of wire fixing buckles 9 can be arranged in the grooves, and the wire fixing buckles 9 can be used for clamping the electrode wires 2. The wire fixing buckle 9 comprises a fixing plate, a first circular ring and a second circular ring, and as shown in fig. 2, the first circular ring and the second circular ring are arranged on the fixing plate in parallel. The first ring and the second ring are provided with openings, respectively, through which the electrode wire 2 can be stored in the first ring and the second ring. The fixing plate is adhered in the groove through fixing glue.

Preferably, the opening of the first ring is located at the left side of the first ring, and the opening of the second ring is located at the right side of the second ring. Thus, the electrode wire is not easy to fall off from the first circular ring and the second circular ring.

The bottom surface of the shell 1 is provided with a plurality of anti-slip gaskets. In order to facilitate the placement of the stimulation instrument body, the shell 1 can be in the form of an upper shell and a lower shell, screw holes are formed in the upper shell and the lower shell, and the upper shell and the lower shell are fixed together by nuts.

The specific use process is as follows: when not in use, the electrode wire 2, the electrode plate 4 and the power wire can be placed in the accommodating space formed by the grooves of the shell 1. The upper surface of the display screen 3 is in the same plane with the upper surface of the shell 1, so that the accommodating space is closed. When the display screen 3 is required to be used, the electrode plate 4, the power line and the electrode wire 2 are taken out, the electrode wire 2 is connected with the electrode plate 3, and then the electrode wire 3 (two electrode wires 2 and 4 can be arranged) is inserted on the first output interface 5 and/or the second output interface 5. The angle of the display screen 3 is adjusted, so that the display screen 3 can be conveniently operated by a person. The power cord is inserted on the power socket 7 and is connected with the mains supply, and the switch button 8 is opened for use.

The upper surface of the shell is obliquely arranged, the display screen is hinged to the upper surface of the shell through the damping rotating shaft, and the human eyes can be enabled to face the display screen through rotating the display screen, so that the operation and the control are convenient.

The wire fixing buckle is arranged in the groove, and when the electrode wire fixing buckle is not used, the electrode wire can be arranged on the wire fixing buckle in the groove, and the electrode sheet can be placed in the groove. Simultaneously, the display screen is rotated, so that the groove becomes a closed accommodating space for accommodating the electrode plate and the electrode wire.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (6)

1. The deep venous nerve stimulator is characterized by comprising a stimulator body, a shell, electrode wires, a display screen and electrode plates;

the shell is provided with a first output interface, a second output interface, a power socket and a switch button; the stimulation instrument body is arranged in the shell and is electrically connected with the first output interface, the second output interface, the power socket and the switch button respectively;

the electrode plate is provided with a butt joint, two ends of the electrode wire are respectively provided with a plug connector, the plug connector at one end of the electrode wire is plugged on the butt joint of the electrode plate, and the plug connector at the other end is plugged on the first output interface or the second output interface; the display screen is electrically connected with the stimulation instrument body and is hinged to the shell.

2. The deep vein nerve stimulator according to claim 1, wherein the upper surface of the housing is inclined, and the display screen is located on the upper surface of the housing; the switch button is positioned on the upper surface of the shell, and the power socket, the first output interface and the second output interface are positioned on the rear surface of the shell.

3. The deep vein stimulation apparatus according to claim 2, wherein an upper surface of the housing is provided with a recess; the display screen is arranged on the shell through a rotating shaft with damping, and the display screen is positioned in the groove.

4. The deep vein nerve stimulator according to claim 3, further comprising a plurality of wire fixing buckles, wherein the wire fixing buckles comprise a fixing plate and a first ring and a second ring which are arranged on the fixing plate, the first ring and the second ring are arranged in parallel, and openings are respectively arranged on the first ring and the second ring; the fixing plate is adhered in the groove through fixing glue.

5. The deep vein nerve stimulator according to claim 4, wherein: the opening of the first circular ring is positioned at the left side of the first circular ring, and the opening of the second circular ring is positioned at the right side of the second circular ring.

6. The deep vein stimulation apparatus according to any one of claims 1-5 wherein a plurality of anti-slip pads are provided on a bottom surface of said housing.