CN211658445U - Full-intelligent dynamic cervical and lumbar traction machine - Google Patents

Abstract

The utility model discloses a full-intelligent dynamic traction machine for cervical vertebra and lumbar vertebra, which comprises a traction machine body, wherein the traction machine body is sequentially provided with a main machine, a machine body connecting component, a machine tail and an adjustable tail rod; the connecting component is connected with the tail through a hinge; the host comprises a control cabinet arranged inside, and the control cabinet is provided with a microcomputer control system; one side of the host close to the connecting component is fixedly connected with a transverse pull rod, and the transverse pull rod is connected with a microcomputer control system through a mechanical linkage device; the host is also provided with a control panel; the machine body connecting component comprises a cross beam arranged at the top of the machine body connecting component and a connecting plate fixedly arranged on the cross beam, and a cervical vertebra traction belt is arranged on the connecting plate; the top of the machine tail is a top plate which is arranged in parallel with the connecting component of the machine body, and the bottom of the machine tail is provided with a storage cabinet; an adjustable tail rod is movably inserted at one end part of the machine tail far away from the machine body connecting member. The utility model discloses full automatically regulated management also makes things convenient for manual operation, practicality strong, simple to operate, dismantlement fast, convenient transport, can be applied to multiple occasion.

Description

Full-intelligent dynamic cervical and lumbar traction machine

Technical Field

The utility model relates to the technical field of medical equipment, specifically be full intelligent cervical vertebra lumbar vertebrae developments tractor.

Background

With the increase of labor intensity of people in work and study, diseases such as lumbar intervertebral disc protrusion, cervical spondylosis, thoracic and lumbar vertebra posterior joint disorder, diseases related to the spine and other spine intervertebral soft tissue injury diseases (intervertebral disease for short) can occur. Relevant investigation shows that 97% of middle-aged and elderly people in China have spine diseases, and in recent years, the spine diseases tend to be younger, and more than 40% of people under the age of 45 have various types of spine diseases, and the incidence rate of scoliosis of children is more than 25%. With the continuous development of the society of China, people such as office white collars, students, teachers and the like lack effective activity exercise for a long time, sit still for a long time, and cause spine injury after long-term accumulation, and in addition, waist injury also affects the lives of vast motor vehicle drivers for a long time, so that the application population of the lumbar traction system is mainly expanded to wider waist injury population from the traditional physical workers.

At present, the treatment of the diseases mainly adopts cervical traction physiotherapy, and the traction bed is most applied. Lumbar traction is adopted by many doctors because of the supine position traction, less influence on the respiration of patients and comfortable feeling of the patients, and traction mainly uses mechanical strength to draw the intervertebral space, so as to relieve the internal pressure of the intervertebral disc and slightly relieve the compression of the protrusion on the nerves. The existing lumbar traction bed can be divided into a mechanical type and a micro-control type according to a traction control mode. Some mechanical traction beds adopt electric traction and some manual traction, the traction force is difficult to control, the safety factor is not high, patients are easy to damage, and the measuring device of some traction beds with dynamometers is not reasonable, so that the measuring result is not accurate; the existing micro-control traction bed has a complex structure, has certain technical requirements on operators, is high in manufacturing cost and is not beneficial to popularization and use.

Therefore, the cervical vertebra and lumbar vertebra traction equipment which is simple in structure, convenient to operate and high in accuracy needs to be developed.

SUMMERY OF THE UTILITY MODEL

For solving the existing problem above, the utility model provides a full-intelligent cervical vertebra lumbar vertebrae developments tractor. The utility model discloses a following technical scheme realizes.

The full-intelligent dynamic cervical and lumbar tractor comprises a tractor body, wherein a main machine, a machine body connecting component, a machine tail and an adjustable tail rod are sequentially arranged on the tractor body; the connecting component and the tail are connected through a hinge; the host comprises a control cabinet arranged inside, and the control cabinet is provided with a microcomputer control system; a transverse pull rod is fixedly connected to one side of the host close to the connecting component and is connected with the microcomputer control system through a mechanical linkage device; a collision ball is fixedly connected to the side end of the main machine; the host is also provided with a control panel; the machine body connecting component comprises a cross beam arranged at the top of the machine body connecting component and a connecting plate fixedly arranged on the cross beam, a cervical vertebra traction belt is placed on the connecting plate, and the cervical vertebra traction belt is connected with the transverse pull rod; the top of the machine tail is a top plate which is arranged in parallel with the machine body connecting component, and the bottom of the machine tail is provided with a storage cabinet; an adjustable tail rod is movably inserted at one end part of the machine tail, which is far away from the machine body connecting component; the adjustable tail rod is fixedly connected with an ankle bone sleeve belt through a connecting rope.

Preferably, the storage cabinet is provided with a quick opening door, and the quick opening door is provided with a quick safety lock.

Preferably, eight quick-opening doors are arranged on the storage cabinet.

Preferably, the control panel comprises a dynamic observation area, a data display setting area and an operation panel; the control panel is electrically connected with the microcomputer control system.

Preferably, the hinge member is a hinge.

Preferably, a high-precision sensor is arranged between the transverse pull rod and the mechanical linkage device.

Preferably, the transverse pull rod is a tapered traction pull rod.

Preferably, the bottom of the connecting member is fixedly provided with a supporting beam.

Preferably, the microcomputer control system comprises a central processing unit CPU random access memory RAM with data processing capability, a read only memory ROM, various I/O ports and an interrupt system.

More preferably, the bottom of the main machine, the machine body connecting component and the machine tail are provided with universal wheels with brakes.

The utility model has the advantages that:

the utility model is provided with a high-precision tension sensing inflator and a microcomputer control system, which can accurately control the force of the cervical vertebra traction process; the host is provided with a dynamic observation area, a data display setting area and an operation panel, so that the dynamic process of operation can be visually observed, the operation is convenient, and the stability is strong; the bottom of the tail is provided with a plurality of storage cabinets, and the storage cabinets are provided with quick-opening doors, so that the use is convenient.

The utility model discloses whole model comprises host computer, organism connecting elements, tail and adjustable tailpiece, and wherein collective connecting elements and tail pass through the articulated elements articulated together, and it has adjustable tailpiece to peg graft on the tail, and whole structure is nimble, can dismantle fast, and small convenient storage still has characteristics such as easy maintenance.

In a word the utility model discloses full automatically regulated management of full intelligent cervical vertebra lumbar vertebrae developments tractor also makes things convenient for manual operation, practicality strong, simple to operate, dismantlement fast, convenient transport, can compatible hospital, family, the unique appearance design in many places such as sanatorium.

Drawings

FIG. 1 is a side view of the structure of the fully intelligent dynamic cervical and lumbar traction machine of the present invention;

fig. 2 is a top view of the structure of the fully intelligent dynamic cervical and lumbar vertebra tractor.

Wherein: 01. a collision ball; 02. a control panel; 03. a sensor; 04. a transverse pull rod; 05. a cervical traction belt; 06. a support beam; 07. a universal wheel; 09. a quick safety lock; 10. opening the door quickly; 11. ankle bone cuffs; 12. a dynamic observation area; 12. a data display setting area; 13. an operation panel;

A. a host; B. a body connecting member; C. a tail; d, adjusting the tail rod.

Detailed Description

The technical solution of the present invention will be described in more detail and fully with reference to the accompanying drawings.

The full-intelligent dynamic cervical and lumbar tractor comprises a tractor body, wherein a host A, a machine body connecting component B, a machine tail C and an adjustable tail rod D are sequentially arranged on the tractor body; the connecting component B is connected with the tail C through a hinge; the host A comprises an internal control cabinet, and the control cabinet is provided with a microcomputer control system; a transverse pull rod 04 is fixedly connected to one side of the host A close to the connecting component B, and the transverse pull rod 04 is connected with the microcomputer control system through a mechanical linkage device; a collision ball 01 is fixedly connected to the side end of the main machine A; the host A is also provided with a control panel 02; the machine body connecting component B comprises a cross beam arranged at the top of the machine body connecting component and a connecting plate fixedly arranged on the cross beam, a cervical vertebra traction belt 05 is placed on the connecting plate, and the cervical vertebra traction belt 05 is connected with the transverse pull rod 04; the top of the machine tail C is a top plate which is arranged in parallel with the machine body connecting component B, and the bottom of the machine tail C is provided with a storage cabinet; an adjustable tail rod D is movably inserted into one end part of the machine tail, which is far away from the machine body connecting component B; the adjustable tail rod D is fixedly connected with an ankle bone sleeve belt 11 through a connecting rope.

Further, a quick opening door is arranged on the storage cabinet, and a quick safety lock 09 is mounted on the quick opening door; eight quick-opening doors 10 are arranged on the storage cabinet.

Further, the control panel 02 includes a dynamic viewing area 12, a data display setting area 13 and an operation panel 14; the control panel is electrically connected with the microcomputer control system; the microcomputer control system includes CPU RAM with data processing capacity, ROM, I/O ports and interrupt system.

The specific embodiment 1, full intelligent cervical vertebra lumbar vertebrae developments tractor, including the tractor body, the tractor body is host computer A, organism connecting elements B, tail C and adjustable tailpiece D from left to right in proper order.

The host A is a cuboid, a control cabinet is arranged in the host A, and a microcomputer control system is arranged in the control cabinet; the microcomputer control system includes CPU RAM with data processing capacity, ROM, I/O ports and interrupt system. A transverse pull rod 04 is fixedly connected to one side, close to the connecting component B, of the host A, and the transverse pull rod 04 is connected with a high-precision sensor 03, wherein the high-precision sensor 03 is a high-precision tension sensor in the embodiment; the sensor is connected with the microcomputer control system through a mechanical linkage device; the mechanical linkage device is a crank connecting rod device, the crank connecting rod device is also connected with a motor, and the motor is electrically connected with the microcomputer control system. The outermost end part of the main machine A is fixedly connected with a collision ball 01; the top of the host A is provided with a control panel 02 electrically connected with a microcomputer control system, and the control panel 02 comprises a dynamic observation area 12, a data display setting area 13 and an operation panel 14; the dynamic observation area 12 is a liquid crystal display screen, and various index changes of cervical vertebra traction can be dynamically displayed on the display screen; the data display setting area 13 can set the data of the control; the operation panel 14 includes a host setting automatic operation setting and a manual debugging setting and operation setting.

The connecting component B and the tail C are both arranged in a cuboid shape and hinged through a hinge. The machine body connecting component B comprises a cross beam arranged at the top of the machine body connecting component and a connecting plate fixedly arranged on the cross beam, a cervical vertebra traction belt 05 is placed on the connecting plate, and the cervical vertebra traction belt 05 is connected with a transverse pull rod 04; the top of the machine tail C is a top plate which is arranged in parallel with the machine body connecting component B, and the bottom of the machine tail C is provided with a storage cabinet; eight quick opening doors 10 are arranged on the storage cabinet, and a quick safety lock 09 is arranged on each quick opening door. The bottom of the connecting component B is fixedly provided with a supporting beam 06.

An adjustable tail rod D is movably inserted at one end part of the machine tail, which is far away from the machine body connecting component B; the adjustable tail rod comprises telescopic vertical rods symmetrically arranged on two sides of the tail C and a tail traction rod fixedly connected between the vertical rods, a connecting rope is fixedly connected onto the tail traction rod, and an ankle bone sleeve belt 11 is arranged on the connecting rope.

The bottom of the main machine A, the bottom of the machine body connecting component B and the bottom of the machine tail C are all provided with universal wheels 07 with brakes.

The main machine A and the machine body connecting component B can be hinged together through a hinge piece, and can also be in split type design, and the structure is flexible.

It is to be understood that the described embodiments are merely individual embodiments of the invention, rather than all embodiments. Based on the embodiments in the present invention, all other implementations obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Claims (10)

1. Full intelligent cervical vertebra lumbar vertebrae developments tractor, including the tractor body, its characterized in that:

the tractor body is sequentially provided with a main machine (A), a machine body connecting component (B), a machine tail (C) and an adjustable tail rod (D); the connecting component (B) is connected with the tail (C) through a hinge;

the host (A) comprises a control cabinet arranged in the host, and the control cabinet is provided with a microcomputer control system; a transverse pull rod (04) is fixedly connected to one side of the host (A) close to the connecting component (B), and the transverse pull rod (04) is connected with the microcomputer control system through a mechanical linkage device; a collision ball (01) is fixedly connected to the side end of the main machine (A); the host (A) is also provided with a control panel (02);

the machine body connecting component (B) comprises a cross beam arranged at the top of the machine body connecting component and a connecting plate fixedly arranged on the cross beam, a cervical vertebra traction belt (05) is arranged on the connecting plate, and the cervical vertebra traction belt (05) is connected with the transverse pull rod (04);

the top of the machine tail (C) is a top plate which is arranged in parallel with the machine body connecting component (B), and the bottom of the machine tail (C) is provided with a storage cabinet;

an adjustable tail rod (D) is movably inserted at one end part of the machine tail, which is far away from the machine body connecting component (B);

the adjustable tail rod (D) is fixedly connected with an ankle bone sleeve belt (11) through a connecting rope.

2. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: the storage cabinet is provided with a quick opening door, and a quick safety lock (09) is installed on the quick opening door.

3. The full intelligent dynamic cervical and lumbar traction machine according to claim 2, characterized in that: eight quick opening doors (10) are arranged on the storage cabinet.

4. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: the control panel (02) comprises a dynamic observation area (12), a data display setting area (13) and an operation panel (14); the control panel is electrically connected with the microcomputer control system.

5. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: the hinge piece is a hinge (08).

6. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: and a high-precision sensor (03) is arranged between the transverse pull rod (04) and the mechanical linkage device.

7. The full-intelligent dynamic cervical and lumbar traction machine according to claim 6, characterized in that: the transverse pull rod (04) is a taper structure traction pull rod.

8. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: and a supporting cross beam (06) is fixedly arranged at the bottom of the connecting member (B).

9. The full intelligent dynamic cervical and lumbar traction machine according to claim 1, characterized in that: the microcomputer control system includes CPU RAM with data processing capacity, ROM, I/O ports and interrupt system.

10. The fully intelligent dynamic cervical and lumbar traction machine according to any one of claims 1-7, characterized in that: the bottom of the main machine (A), the bottom of the machine body connecting component (B) and the bottom of the machine tail (C) are all provided with universal wheels (07) with brakes.

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