CN210083260U - Medical oxygen cylinder shock attenuation conveyer - Google Patents

Abstract

The utility model discloses a medical oxygen cylinder shock attenuation conveyer, including the box shell, be provided with the handle on one side of box shell, the fixed supporting wheel is installed respectively to the bottom rear end left and right sides of box shell, the shock attenuation running gear is installed respectively to the bottom front end left and right sides of box shell; an installation inner shell is arranged in the outer shell of the box body, and an installation seat for placing an oxygen bottle is arranged in the installation inner shell; a bottom damping device is arranged between the bottom of the mounting inner shell and the box body outer shell, and side wall damping devices are respectively arranged between the four side walls of the mounting inner shell and the box body outer shell; the utility model discloses simple structure, reasonable in design, convenient to use can absorb vibrations, avoid the oxygen cylinder to cause the damage, can realize going at the safety on step or the special ground of stair, and then effectively reduce workman intensity of labour, improves work efficiency, provides good medical rescue condition for medical personnel.

Description

Medical oxygen cylinder shock attenuation conveyer

Technical Field

The utility model relates to the field of medical technology, especially, relate to a medical oxygen cylinder shock attenuation conveyer.

Background

The medical technology refers to a diagnosis and treatment measure which is taken by a medical institution and medical staff thereof for the purpose of diagnosing and treating diseases, judging and eliminating the diseases, relieving the illness state, relieving the pain, improving the function, prolonging the life and helping the patient to recover the health.

At present, oxygen has a vital role in medical rescue, and therefore, an oxygen cylinder containing oxygen is often needed in the medical process, but no special transport means is available for the oxygen cylinder in the hospital at present, and tools such as a rope are generally needed to bind the oxygen cylinder on a cart for convenient transportation due to large volume and heavy weight of the oxygen cylinder, and the existing cart is not used for the special oxygen cylinder, so that the following defects exist: firstly, because the installation mode of the oxygen cylinder is unstable, the oxygen cylinder is easy to roll off from the cart, and a plurality of potential safety hazards exist; secondly, because the existing cart has poor damping effect, the oxygen cylinder is easy to collide due to vibration, so that a plurality of potential safety hazards exist; thirdly, as the cart is not used for a special oxygen cylinder, the surface of the oxygen cylinder is easily abraded, and the service life of the oxygen cylinder is influenced; fourthly, because current shallow owner is to leveling ground, although under most circumstances, can satisfy the transportation requirement, when meetting the step, if still adopt shallow transport mode, vibrations can obviously aggravate, especially when meetting the stair section, consequently, often can only carry by the mode of artifical back carrying, intensity of labour is big and work efficiency is low, causes the burden for medical personnel. Therefore, in order to solve the problems, the damping and transporting device for the medical oxygen cylinder is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a medical oxygen cylinder shock attenuation conveyer that simple structure, reasonable in design, can absorb vibrations, avoid the oxygen cylinder to cause the damage can be realized going at the safety of step or the special ground of stair, and then effectively reduces workman intensity of labour, improves work efficiency, provides good medical rescue condition for medical personnel.

In order to solve the technical problem, the technical scheme of the utility model is that: the medical oxygen cylinder damping and conveying device comprises a box body shell, wherein a handle is arranged on one side of the box body shell, fixed supporting wheels are respectively arranged on the left side and the right side of the rear end of the bottom of the box body shell, and damping walking devices are respectively arranged on the left side and the right side of the front end of the bottom of the box body shell; an installation inner shell is arranged in the outer shell of the box body, and an installation seat for placing an oxygen bottle is arranged in the installation inner shell; a bottom damping device is arranged between the bottom of the installation inner shell and the box body outer shell, and side wall damping devices are arranged between the four side walls of the installation inner shell and the box body outer shell respectively.

As a preferred technical scheme, the bottom damping device comprises a plurality of bottom damping components, each bottom damping component comprises an inner shell top seat and an outer shell base which are mutually buckled, a bottom inner spring is connected between the inner shell top seat and the outer shell base, and a bottom outer spring is connected between the inner shell top seat and the outer shell base; the upper end of the inner shell top seat is installed at the bottom of the inner shell, the bottom end of the outer shell base is a hemispherical base, and a hemispherical groove matched with the hemispherical base is formed in the inner wall of the bottom of the box body outer shell.

As a preferred technical scheme, the side wall damping device comprises a plurality of side wall damping components, each side wall damping component comprises an inner shell outer seat and an outer shell inner seat which are mutually buckled, and a side wall spring is connected between the inner shell outer seat and the outer shell inner seat; the end part of the inner shell outer seat is arranged on the side wall of the inner shell, the bottom end of the outer shell inner seat is a hemispherical inner seat, the side wall of the box body outer shell is provided with a limiting mounting hole matched with the hemispherical inner seat, and the hemispherical inner seat is clamped in the limiting mounting hole.

As a preferred technical scheme, four mounting positions are arranged on the mounting seat, the shape of each mounting position is the same as that of the bottom of the oxygen cylinder, and a sponge protective layer is further arranged on the inner wall of each mounting position.

According to a preferable technical scheme, the damping walking device comprises a star frame, three angles are arranged on the star frame, the star frame is connected to the bottom of the box body shell through a fixing rod, and obstacle-crossing damping wheels are respectively arranged at each angle of the star frame.

As a preferable technical scheme, a brake pedal is arranged on the fixed supporting wheel.

By adopting the technical scheme, the medical oxygen cylinder damping and conveying device comprises a box body shell, wherein a handle is arranged on one side of the box body shell, the left side and the right side of the rear end of the bottom of the box body shell are respectively provided with a fixed supporting wheel, and the left side and the right side of the front end of the bottom of the box body shell are respectively provided with a damping walking device; an installation inner shell is arranged in the outer shell of the box body, and an installation seat for placing an oxygen bottle is arranged in the installation inner shell; a bottom damping device is arranged between the bottom of the mounting inner shell and the box body outer shell, and side wall damping devices are respectively arranged between the four side walls of the mounting inner shell and the box body outer shell; the utility model has simple structure, reasonable design, convenient use, remarkable practical effect, good popularization prospect and wider applicability, and can be applied to other fields; the utility model has the advantages that:

firstly, in the transportation process, the oxygen cylinder is placed in the corresponding mounting seat, so that the stability of the oxygen cylinder is improved, the oxygen cylinder cannot easily shake, the outer surface of the oxygen cylinder can be protected from being damaged, and the service life is prolonged;

in the transportation process, the damping walking device, the bottom damping device and the side wall damping device have the effect of absorbing vibration, so that the vibration acting on the oxygen cylinder can be effectively reduced under the combined action, the oxygen cylinder is prevented from being damaged by the vibration, the safety in the transportation process is improved, and the practicability is good;

the damping walking device has the functions of walking and obstacle crossing, can pass through special grounds such as unevenness, steps and stairs more labor-saving and safer, overcomes the defect that the existing cart tool can only be used on flat ground, can realize safe running on special grounds such as unevenness, steps and stairs, effectively reduces the labor intensity of workers, improves the working efficiency, and provides great convenience for medical workers.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 2 after being tilted by a shock;

FIG. 4 is an enlarged view of the structure at B in FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 4 after being tilted by a shock;

fig. 6 is a structural effect diagram of the embodiment of the present invention;

FIG. 7 is an effect diagram of the damping walking device of the embodiment of the present invention when crossing obstacles;

in the figure: 1-a box body shell; 2-a handle; 3-fixing a supporting wheel; 4-damping walking device; 41-a star frame; 42-obstacle crossing shock-absorbing wheels; 5, mounting an inner shell; 6-oxygen cylinder; 7-mounting seats; 71-a mounting location; 72-a sponge protective layer; 8-a bottom damping device; 81-inner shell top seat; 82-a housing base; 83-bottom internal spring; 84-bottom outer spring; 85-a hemispherical base; 86-hemispherical groove; 9-side wall damping means; 91-inner shell outer seat; 92-housing inner seat; 93-a side wall spring; 94-hemispherical inner seat; 95-limiting mounting holes.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, certain exemplary embodiments of the present invention have been described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1 to 6, the medical oxygen cylinder shock-absorbing transportation device comprises a box body shell 1, wherein a handle 2 is arranged on one side of the box body shell 1, in the transportation process, an operator holds the handle 2 with hands to conveniently and conveniently push the embodiment, fixed supporting wheels 3 are respectively arranged on the left side and the right side of the rear end of the bottom of the box body shell 1, the fixed supporting wheels 3 have supporting and walking functions, shock-absorbing walking devices 4 are respectively arranged on the left side and the right side of the front end of the bottom of the box body shell 1, and the shock-absorbing walking devices 4 have functions of supporting, walking and crossing obstacles; an installation inner shell 5 is arranged in the box body outer shell 1, and an installation seat 7 for placing an oxygen bottle 6 is arranged in the installation inner shell 5; a bottom damping device 8 is arranged between the bottom of the installation inner shell 5 and the box body outer shell 1, and side wall damping devices 9 are respectively arranged between four side walls of the installation inner shell 5 and the box body outer shell 1; in the transportation process, the oxygen cylinder 6 is placed in the corresponding mounting seat 7, so that the stability of the oxygen cylinder 6 is improved, the oxygen cylinder is not easy to shake, the outer surface of the oxygen cylinder 6 can be protected from being damaged, and the service life is prolonged; the bottom damping device 8 and the side wall damping device 9 are arranged between the installation inner shell 5 and the box body outer shell 1, the bottom damping device 8 and the side wall damping device 9 have a three-dimensional overall damping function, vibration of the oxygen cylinder 6 is avoided or relieved to the maximum extent, the oxygen cylinder 6 is prevented from being damaged during impact and vibration, safety in the carrying process is improved, and practicability is good; the damping walking device 4 has the walking and obstacle crossing functions, can pass through special grounds such as rugged surfaces, steps, stairs and the like more easily and safely, overcomes the defect that the existing cart tool can only be used on flat grounds, can realize safe running on the special grounds such as rugged surfaces, steps, stairs and the like, effectively reduces the labor intensity of workers, improves the working efficiency and provides great convenience for medical staff; the utility model discloses simple structure, reasonable in design, convenient to use, the practical function is showing, has good popularization prospect, and the suitability is wider, can use other fields.

Referring to fig. 2, the bottom damping device 8 includes a plurality of bottom damping components, in this embodiment, six bottom damping components are uniformly arranged at the bottom of the mounting inner shell 5 for achieving a better damping effect; the bottom damping assembly comprises an inner shell top seat 81 and an outer shell base 82 which are buckled with each other, the top end of the outer shell base 82 is sleeved in the inner shell top seat 81, a bottom inner spring 83 is connected between the inner shell top seat 81 and the outer shell base 82, the bottom inner spring 83 is positioned in the outer shell base 82, the top end of the bottom inner spring 83 is abutted against the inner shell top seat 81, and the bottom end of the bottom inner spring 83 is abutted against the outer shell base 82; the utility model discloses a floating installation of inner shell 5, including inner shell footstock 81, outer shell 82, bottom outer spring 84 suit is in outside the inner shell footstock 81, the top of bottom outer spring 84 supports and leans on the inner shell footstock 81, the bottom of bottom outer spring 84 supports and leans on the box body outer shell 1, bottom inner spring 83 with bottom outer spring 84 supports jointly the inner shell footstock 81 makes the inner shell footstock 81 float the suit outside outer shell 82, the upper end of inner shell footstock 81 is installed the bottom of installation inner shell 5, thereby supports installation inner shell 5 floats and installs in box body outer shell 1, the bottom of outer shell 82 is hemisphere base 85, be provided with on the bottom inner wall of box body outer shell 1 with hemisphere groove 86 that hemisphere base 85 matches.

The bottom inner spring 83 and the bottom outer spring 84 have compression and expansion functions, and can buffer the force in the vertical direction of the mounting inner shell 5; the hemisphere base 85 can also buffer the force of the inclined direction of the installation inner shell 5, and the effect is as shown in fig. 3, so that the bottom inner spring 83 and the bottom outer spring 84 have certain flexibility, and meanwhile, the outer shell base 82 can be limited in the hemisphere groove 86 of the box body outer shell 1, so that the semispherical groove cannot be separated from the vibration range to cause shifting, and the inclination rotation of the shock absorber can be facilitated.

Referring to fig. 4, the side wall damping device 9 includes a plurality of side wall damping assemblies, in this embodiment, six side wall damping assemblies are uniformly arranged on each side wall of the side wall damping device 9, respectively, so as to achieve a better damping effect; the side wall shock absorption assembly comprises an inner shell outer seat 91 and an outer shell inner seat 92 which are mutually buckled, one end of the outer shell inner seat 92 is sleeved in the inner shell outer seat 91, a side wall spring 93 is connected between the inner shell outer seat 91 and the outer shell inner seat 92, the side wall spring 93 is sleeved in the outer shell inner seat 92, one end of the side wall spring 93 is abutted against the inner shell outer seat 91, the other end of the side wall spring 93 is abutted against the outer shell inner seat 92, and the side wall spring 93 supports the inner shell outer seat 91 to be connected to the outer shell inner seat 92 in a floating mode; the end of the inner shell outer seat 91 is mounted on the side wall of the mounting inner shell 5, so that the side wall supporting the mounting inner shell 5 is mounted in the box body outer shell 1 in a floating manner, the bottom end of the outer shell inner seat 92 is a hemispherical inner seat 94, a limiting mounting hole 95 matched with the hemispherical inner seat 94 is formed in the side wall of the box body outer shell 1, and the hemispherical inner seat 94 is clamped in the limiting mounting hole 95.

The side wall spring 93 has compression and ejection functions and can buffer the force of the mounting inner shell 5 in the horizontal direction; the hemisphere inner seat 94 can also buffer the force of the inclined direction of the installation inner shell 5, and the effect is as shown in fig. 5, so that the side wall spring 93 has certain flexibility, and meanwhile, the outer shell inner seat 92 is limited in the box body outer shell 1 in the limiting installation hole 95, the side wall spring cannot be separated from the position of play due to large vibration amplitude, and the rotation of the suspension inclined direction can be facilitated.

In this embodiment, the limiting mounting hole 95 has the same function as the hemispherical groove 86, so that flexibility and limiting mounting can be realized, and the difference is that the limiting mounting hole 95 is more convenient to machine than the hemispherical groove 86; during disassembly, the outer part of the box body outer shell 1 extends into the limiting installation hole 95 through a rod piece, the elastic force of the side wall spring 93 is overcome, so that the outer shell inner seat 92 is close to the inner shell outer seat 91, then the hemispherical inner seat 94 of the outer shell inner seat 92 is separated from the limiting installation hole 95, and disassembly is achieved.

The mounting seat 7 is provided with four mounting positions 71 for placing four oxygen cylinders 6, of course, the utility model is not limited to four mounting positions 71, and can be set to one, two, six, eight or more according to the actual use occasion, and simultaneously the box body outer shell 1, the mounting inner shell 5 and the mounting seat 7 of the utility model also need to be changed correspondingly along with the change of the number of the mounting positions 71, the number of the mounting positions 71 is selected to be known by the ordinary skilled person in the art without any labor, and is not described again; the shape of the mounting position 71 is the same as the shape of the bottom of the oxygen cylinder 6, in this embodiment, the bottom of the oxygen cylinder 6 is of an arc-shaped structure, and therefore the corresponding mounting position 71 is also of an arc-shaped structure, and is used for realizing stable mounting of the oxygen cylinder 6; the inner wall of the mounting position 71 is also provided with a sponge protective layer 72, and the arrangement of the sponge protective layer 72 can prevent the outer wall of the oxygen cylinder 6 from directly contacting the inner wall of the mounting position 71, protect the outer wall surface of the oxygen cylinder 6 from being damaged and prolong the service life; on the other hand, the sponge protective layer 72 also has the effect of buffering vibration.

The shock-absorbing walking device 4 comprises a star frame 41, three angles are arranged on the star frame 41, the star frame 41 is connected to the bottom of the box body shell 1 through a fixing rod, and obstacle-crossing shock-absorbing wheels 42 are respectively arranged at each angle of the star frame 41. The shock absorption walking device 4 is provided with three obstacle crossing shock absorption wheels 42 with angles of 120 degrees respectively, the obstacle crossing shock absorption wheels 42 can pass through the ground of concave-convex parts, steps and stairs more safely and more laborsavingly, the obstacle crossing capability is better, the state diagram is shown in fig. 7, and the technical effect which can be achieved can be the conclusion that a person skilled in the art can obtain without creative labor; because the obstacle crossing capability is good, the vibration generated during obstacle crossing is reduced, and the damping effect is further improved.

Install brake pedal on the fixed stay wheel 3, when needs this embodiment is static, utilize brake pedal will fixed stay wheel 3 blocks to die, can effectually prevent fixed stay wheel 3 removes convenient to use at will.

When needs are used for transporting other products, can with the utility model provides a 7 replacement of mount pad are other to correspond the pedestal of cooperation installation with the product, can realize the safety of other products, shock attenuation transportation, and the technical effect who reaches does not pass through creative work for the ordinary skilled person in the art conclusion that can draw, consequently, this embodiment suitability is wider, can use other fields.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. Medical oxygen cylinder shock attenuation conveyer, including the box shell, be provided with handle, its characterized in that on one side of box shell: the left side and the right side of the rear end of the bottom of the box body shell are respectively provided with a fixed supporting wheel, and the left side and the right side of the front end of the bottom of the box body shell are respectively provided with a damping walking device; an installation inner shell is arranged in the outer shell of the box body, and an installation seat for placing an oxygen bottle is arranged in the installation inner shell; a bottom damping device is arranged between the bottom of the installation inner shell and the box body outer shell, and side wall damping devices are arranged between the four side walls of the installation inner shell and the box body outer shell respectively.

2. The medical oxygen cylinder shock absorbing transport device of claim 1, wherein: the bottom damping device comprises a plurality of bottom damping components, each bottom damping component comprises an inner shell top seat and an outer shell base which are mutually buckled, a bottom inner spring is connected between the inner shell top seat and the outer shell base, and a bottom outer spring is connected between the inner shell top seat and the outer shell base; the upper end of the inner shell top seat is installed at the bottom of the inner shell, the bottom end of the outer shell base is a hemispherical base, and a hemispherical groove matched with the hemispherical base is formed in the inner wall of the bottom of the box body outer shell.

3. The medical oxygen cylinder shock absorbing transport device of claim 1, wherein: the side wall damping device comprises a plurality of side wall damping components, each side wall damping component comprises an inner shell outer seat and an outer shell inner seat which are mutually buckled, and a side wall spring is connected between the inner shell outer seat and the outer shell inner seat; the end part of the inner shell outer seat is arranged on the side wall of the inner shell, the bottom end of the outer shell inner seat is a hemispherical inner seat, the side wall of the box body outer shell is provided with a limiting mounting hole matched with the hemispherical inner seat, and the hemispherical inner seat is clamped in the limiting mounting hole.

4. The medical oxygen cylinder shock absorbing transport device of claim 1, wherein: the oxygen cylinder is characterized in that four mounting positions are arranged on the mounting seat, the shapes of the mounting positions are the same as the shape of the bottom of the oxygen cylinder, and a sponge protective layer is further arranged on the inner wall of each mounting position.

5. The medical oxygen cylinder shock absorbing transport device of claim 1, wherein: the shock-absorbing walking device comprises a star frame, three angles are arranged on the star frame, the star frame is connected to the bottom of the box body shell through a fixing rod, and obstacle-crossing shock-absorbing wheels are respectively arranged at each angle of the star frame.

6. A medical oxygen cylinder shock absorbing transport unit as claimed in any one of claims 1 to 5, wherein: and a brake pedal is arranged on the fixed supporting wheel.

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