CN215503818U - Take oxygen bucket strorage device's transport patient with flatcar - Google Patents

Abstract

The utility model discloses a flatcar with an oxygen barrel storage device for transferring patients, which comprises a flatcar body, a functional component, a first gear, an oxygen bottle, a second gear, a rotating shaft, a first transmission strip, a second transmission strip, a transmission bracket, a connecting piece, a through groove, a sliding block, a driving long shaft, an adjusting piece, a sliding rail, a hook, a fence and an electrocardiogram monitor. According to the multifunctional flat bed, the functional components are arranged, so that equipment which can obviously help treatment is additionally arranged on the traditional flat bed, and the expansion and the storage of multiple pieces of equipment are integrated for further operation, so that the operation complexity and the working strength of medical workers can be effectively reduced in the time-up emergency transfer period, the medical workers can be helped to concentrate on the monitoring and the maintenance of patient signs, the complicated structure is planed, only simple parts with mature manufacturing processes are needed, and the production and maintenance cost of the equipment can be reduced.

Description

Take oxygen bucket strorage device's transport patient with flatcar

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a flatcar with an oxygen barrel storage device for transferring patients.

Background

The emergency department and clinical department of hospital are all equipped with and protect and send the flatcar, and the nursing staff is used when nursing and sending critically ill patient and being in hospital, inspection, and the nursing and sending patient enters the operating room.

At present, the flatcar in the market has simple structure and single function, does not have a local monitor and an oxygen transferring barrel, and is inconvenient to monitor and oxygen inhalation of patients in real time in the process of first-aid transfer.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a flatcar with an oxygen barrel storage device for transferring patients, which is improved on the existing flatcar, helps medical staff monitor patients in real time and perform oxygen inhalation help treatment in the process of emergency transfer, reduces the operation complexity and working strength of the medical staff, and keeps the production and maintenance costs low.

The utility model achieves the aim through the following technical scheme, and the flatcar with the oxygen barrel storage device for transferring the patient comprises a flatcar main body, wherein a functional component is arranged on the flatcar main body;

the functional component comprises a first gear and a second gear which are meshed with each other, the first gear and the second gear are respectively connected to the flat wagon main body in a rotating mode through bearings, an oxygen bottle is movably mounted on the first gear, a connecting piece is mounted on the second gear, a transmission support is mounted on the connecting piece, the transmission support is of a strip-shaped plate structure, an electrocardiogram monitor is movably mounted on the transmission support, a through groove for movably clamping a sliding block is formed in the transmission support, the sliding block is rotatably connected with a driving long shaft, the driving long shaft is rotatably connected with an adjusting piece, the adjusting piece is movably connected with a sliding rail, and the sliding rail is mounted on the flat wagon main body;

the adjusting piece slides and displaces along the axial direction of the sliding rail, the long shaft and the sliding block are pushed to displace along the through groove, the transmission support is pushed by the sliding block and rotates to the electrocardio monitor to be in a horizontal display state, the second gear and the transmission support rotate in the same direction to drive the first gear meshed with the second gear to rotate in the same direction, the oxygen cylinder rotates to be in a vertical state along with the first gear, the axial direction of the oxygen cylinder is in a vertical state, the adjusting piece does return displacement, the long shaft and the sliding block are pulled to drive to displace along the reverse direction of the through groove, the transmission support is pulled by the sliding block, the reverse rotation is in a vertical storage state until the electrocardio monitor, the second gear and the transmission support rotate in the same direction to drive the first gear meshed with the second gear to rotate in the same direction, the oxygen cylinder rotates to be in a horizontal state along with the first gear, and the axial direction of the oxygen cylinder is in a horizontal state.

Preferably, the rotating shaft sleeve of the second gear is provided with a multi-connecting-rod transmission structure for stable rotation of the transmission bracket.

Preferably, many connecting rod transmission structure includes the pivot, the bearing that the second gear is connected in the pivot, and the pivot cover is equipped with first transmission strip, first transmission strip swing joint has the second transmission strip, second transmission strip swing joint keeps away from the one end in logical groove in the transmission support.

Preferably, the transmission support is formed by connecting two strip-shaped plates, the joint of the two strip-shaped plates is fixedly connected to the connecting piece, an included angle between the two strip-shaped plates faces the adjusting piece, the included angle is one hundred twenty degrees, and the first transmission strip, the second transmission strip and the transmission support are connected in a rotating mode.

Preferably, the flatcar main part is last to install the couple that supplies the oxygen tube rolling to conclude, and the oxygen tube input is connected in the oxygen cylinder, the rail is all installed at the relative edge of flatcar main part upper surface.

Preferably, regulating part swing joint has the slide rail, corresponding rodent has been seted up respectively to the junction of slide rail and regulating part, the vertical direction of slide rail is installed in flat car main body lateral wall, the regulating part is L type structure, and fine anti-skidding line has been seted up on its surface.

Preferably, the oxygen cylinder has a capacity of four liters.

Preferably, the through groove comprises two hollowed-out grooves, the two hollowed-out grooves are arranged on the transmission support in parallel and are not communicated with each other, and the sliding block is of a clip hoop structure shaped like a Chinese character 'hui', and is clamped in the two hollowed-out grooves in a grabbing manner.

The utility model has the beneficial effects that:

1. by arranging the functional components, medical staff are respectively connected with the oxygen cylinder and the electrocardio monitor to the first gear and the transmission bracket, so that not only is equipment which can obviously help treatment added on a traditional flat bed, but also the expansion and the accommodation of multiple equipment are integrated for further operation, the complex operation degree and the working strength of the medical staff can be effectively reduced in the time-up emergency transfer period, further the medical staff is helped to concentrate on the monitoring and the maintenance of the physical signs of patients, the complicated structure is planed, only simple parts with mature manufacturing process are needed, and the production and maintenance cost of the equipment can be reduced;

2. the electrocardiogram monitor comprises a multi-connecting-rod transmission structure, a plurality of transmission strips are rotatably connected, the stability of the electrocardiogram monitor in the unfolding and storage processes can be effectively improved, the risk that the transmission support is subjected to unilateral stress and falls is avoided, the hook and the fence can further help medical workers to store and arrange oxygen uptake pipeline materials and protect patients from sliding and falling in the transfer process, the sliding block is of a clip hoop structure in a shape like a Chinese character 'hui', and is clamped in the through groove in a grasping manner, so that the stability of the transmission support during movement can be further improved, and the stability of the electrocardiogram monitor during movement is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic plan view of the present invention;

FIG. 2 is a schematic structural diagram of a functional module according to the present invention.

In the figure: 1. the device comprises a flat car body, 2, a functional component, 3, a first gear, 4, an oxygen cylinder, 5, a second gear, 6, a rotating shaft, 7, a first transmission bar, 8, a second transmission bar, 9, a transmission support, 10, a connecting piece, 11, a through groove, 12, a sliding block, 13, a driving long shaft, 14, a regulating piece, 15, a sliding rail, 16, a hook, 17, a fence, 18 and an electrocardiogram monitor.

Detailed Description

In order to make the objects, features and advantages of the present invention more apparent and understandable, the embodiments of the present invention will be described in detail and completely with reference to the accompanying drawings, and it is to be understood that the embodiments described below are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1-2, a flatcar with an oxygen barrel storage device for transferring patients comprises a flatcar body 1, on which a functional component 2 is mounted;

the functional component 2 comprises a first gear 3 and a second gear 5 which are meshed with each other, the first gear 3 and the second gear 5 are respectively connected to the flatcar main body 1 in a rotating mode through bearings, an oxygen cylinder 4 is movably mounted on the first gear 3, a connecting piece 10 is mounted on the second gear 5, a transmission support 9 is mounted on the connecting piece 10, the transmission support 9 is of a strip-shaped plate structure, an electrocardiogram monitor 18 is movably mounted on the transmission support 9, a through groove 11 for movably clamping a sliding block 12 is formed in the transmission support 9, the sliding block 12 is rotatably connected with a driving long shaft 13, the driving long shaft 13 is rotatably connected with an adjusting piece 14, the adjusting piece 14 is movably connected with a sliding rail 15, and the sliding rail 15 is mounted on the flatcar main body 1;

the adjusting piece 14 slides and displaces along the axial direction of the slide rail 15, pushes and drives the long shaft 13 and the slide block 12 to displace along the through groove 11, the transmission bracket 9 is pushed by the slide block 12 to rotate until the electrocardiogram monitor 18 is in a horizontal display state, the second gear 5 and the transmission bracket 9 rotate in the same direction to drive the first gear 3 meshed with the second gear 5 to rotate in the same direction, the oxygen cylinder 4 rotates to be in a vertical state along with the first gear 3, the axial direction of the oxygen cylinder 4 is in a vertical state, the adjusting piece 14 makes return stroke displacement, the long shaft 13 and the sliding block 12 are driven to make reverse displacement along the through groove 11 by pulling, the transmission support 9 is pulled by the sliding block 12 and rotates reversely to the electrocardiogram monitor 18 to be in a vertical accommodating state, the second gear 5 and the transmission support 9 rotate in the same direction to drive the first gear 3 meshed with the second gear 5 to rotate in the same direction, the oxygen bottle 4 rotates to be in a horizontal state along with the first gear 3, and the axial direction of the oxygen bottle 4 is in a horizontal state.

A multi-connecting-rod transmission structure for the stable rotation of the transmission bracket 9 is arranged on the rotating shaft sleeve of the second gear 5; the multi-connecting-rod transmission structure comprises a rotating shaft 6, the rotating shaft 6 is connected to a bearing connected with the second gear 5, a first transmission strip 7 is sleeved on the rotating shaft 6, the first transmission strip 7 is movably connected with a second transmission strip 8, and the second transmission strip 8 is movably connected to one end, far away from the through groove 11, of the transmission support 9; the transmission bracket 9 is formed by connecting two strip-shaped plates, the joint of the two strip-shaped plates is fixedly connected to the connecting piece 10, an included angle between the two strip-shaped plates faces the adjusting piece 14, the included angle is one hundred twenty degrees, and the first transmission strip 7, the second transmission strip 8 and the transmission bracket 9 are connected in a rotating mode; the flat wagon main body 1 is provided with a hook 16 for winding and accumulating an oxygen uptake pipe, the input end of the oxygen uptake pipe is connected to the oxygen cylinder 4, and opposite edges of the upper surface of the flat wagon main body 1 are provided with fences 17; the adjusting piece 14 is movably connected with a slide rail 15, the joint of the slide rail 15 and the adjusting piece 14 is respectively provided with a corresponding rodent, the slide rail 15 is vertically installed on the side wall of the flat car main body 1, the adjusting piece 14 is of an L-shaped structure, and the surface of the adjusting piece 14 is provided with fine anti-skid lines; the volume of the oxygen cylinder 4 is four liters; the through groove 11 is composed of two hollow grooves which are arranged on the transmission support 9 in parallel and are not communicated with each other, and the slider 12 is of a clip-shaped hoop structure and is clamped in the two hollow grooves in a grabbing manner.

When the utility model is used, electrical components appearing in the application are externally connected with a power supply and a control switch, firstly, medical staff is enabled to connect an oxygen cylinder 4 and an electrocardio monitor 18 with a first gear 3 and a transmission bracket 9 respectively by arranging a functional component 2, then when a patient is transported in an emergency, a regulating part 14 is manually controlled or treaded to enable the oxygen cylinder 4 and the electrocardio monitor 18 to slide and displace along a slide rail 15 in the axial direction, a long shaft 13 and a slide block 12 are pushed to displace along a through groove 11, the transmission bracket 9 is pushed by the slide block 12 to rotate until the electrocardio monitor 18 is in a horizontal display state, a second gear 5 and the transmission bracket 9 rotate in the same direction, the first gear 3 meshed with the second gear 5 is driven to rotate in the same direction, the oxygen cylinder 4 rotates to a vertical state along with the first gear 3, the axial direction of the oxygen cylinder 4 is in a vertical state, at the moment, the electrocardio monitor 18 and the oxygen cylinder 4 are in a usable state through linkage control, when the oxygen cylinder 4 and the electrocardio monitor 18 are not needed to work, the adjusting piece 14 is enabled to do return displacement, the long shaft 13 and the sliding block 12 are driven to reversely displace along the through groove 11 by pulling, the transmission bracket 9 is pulled by the sliding block 12 to reversely rotate until the electrocardio monitor 18 is in a vertical storage state, the second gear 5 and the transmission bracket 9 rotate in the same direction, the first gear 3 meshed with the second gear 5 is driven to rotate in the same direction, the oxygen cylinder 4 rotates to a horizontal state along with the first gear 3, and the axial direction of the oxygen cylinder 4 is in a horizontal state. The multi-link type electrocardio monitor comprises a multi-link transmission structure, a plurality of transmission bars are connected in a rotating manner, the stability of the electrocardio monitor 18 in the unfolding and storage processes can be effectively improved, the risk that the transmission bracket 9 falls off due to unilateral stress is avoided, a hook 16 and a fence 17 can further help medical workers to store and arrange oxygen-absorbing pipeline materials and protect patients from sliding and falling off in the transfer process, a sliding block 12 is of a clip hoop structure in a shape like a Chinese character hui and is clamped in a through groove 11 in a grasping manner, the stability of the transmission bracket 9 in the motion process can be further improved, and the stability of the electrocardio monitor 18 in the motion process is further improved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a take oxygen bucket strorage device's flatcar for transportation patient which characterized in that: comprises a flat car main body (1) on which a functional component (2) is arranged;

the functional component (2) comprises a first gear (3) and a second gear (5) which are meshed with each other, the first gear (3) and the second gear (5) are respectively connected to the flat wagon main body (1) in a rotating mode through bearings, an oxygen bottle (4) is movably mounted on the first gear (3), a connecting piece (10) is mounted on the second gear (5), a transmission support (9) is mounted on the connecting piece (10), the transmission support (9) is of a strip-shaped plate structure, an electrocardio monitor (18) is movably mounted on the transmission support (9), a through groove (11) for movably clamping a sliding block (12) is formed in the transmission support (9), the sliding block (12) is rotatably connected with a driving long shaft (13), the driving long shaft (13) is rotatably connected with an adjusting piece (14), the adjusting piece (14) is movably connected with a sliding rail (15), and the sliding rail (15) is mounted on the flat wagon main body (1);

the adjusting piece (14) slides and displaces along the axial direction of the sliding rail (15), the long shaft (13) and the sliding block (12) are pushed to drive to displace along the through groove (11), the transmission bracket (9) is pushed by the sliding block (12) to rotate until the electrocardiogram monitor (18) is in a horizontal display state, the second gear (5) and the transmission bracket (9) rotate in the same direction to drive the first gear (3) meshed with the second gear (5) to rotate in the same direction, the oxygen cylinder (4) rotates to a vertical state along with the first gear (3), the axial direction of the oxygen cylinder (4) is in a vertical state, the adjusting piece (14) moves in a return stroke, the long shaft (13) and the sliding block (12) are driven to move in a reverse direction along the through groove (11), the transmission bracket (9) is driven by the sliding block (12) to rotate in a reverse direction until the electrocardiogram monitor (18) is in a vertical storage state, and the second gear (5) and the transmission bracket (9) rotate in the same direction, the first gear (3) meshed with the second gear (5) is driven to rotate in the same direction, the oxygen cylinder (4) rotates to be in a horizontal state along with the first gear (3), and the oxygen cylinder (4) is in a horizontal state in the axial direction.

2. The flatcar with oxygen barrel storage device for transporting patients of claim 1, wherein: and a multi-connecting-rod transmission structure for stably rotating the transmission bracket (9) is sleeved on a rotating shaft of the second gear (5).

3. The flatcar with oxygen barrel storage device for transporting patients of claim 2, wherein: many connecting rod transmission structure includes pivot (6), pivot (6) are connected in the bearing that second gear (5) are connected, and pivot (6) cover is equipped with first transmission strip (7), first transmission strip (7) swing joint has second transmission strip (8), second transmission strip (8) swing joint keeps away from the one end that leads to groove (11) in transmission support (9).

4. The flatcar for transporting patients with oxygen barrel storage device of claim 3, wherein: the transmission support (9) is formed by connecting two strip-shaped plates, the joint of the two strip-shaped plates is fixedly connected with the connecting piece (10), an included angle between the two strip-shaped plates faces the adjusting piece (14), the included angle is one hundred twenty degrees, and the first transmission strip (7), the second transmission strip (8) and the transmission support (9) are connected in a rotating mode.

5. The flatcar with oxygen barrel storage device for transporting patients of claim 1, wherein: the oxygen cylinder is characterized in that a hook (16) for winding and summarizing the oxygen uptake pipe is installed on the flat car body (1), the input end of the oxygen uptake pipe is connected to the oxygen cylinder (4), and a fence (17) is installed on the opposite edge of the upper surface of the flat car body (1).

6. The flatcar with oxygen barrel storage device for transporting patients of claim 1, wherein: regulating part (14) swing joint has slide rail (15), corresponding rodent has been seted up respectively to the junction of slide rail (15) and regulating part (14), the vertical direction of slide rail (15) is installed in flatcar main part (1) lateral wall, regulating part (14) are L type structure, and fine anti-skidding line has been seted up on its surface.

7. The flatcar with oxygen barrel storage device for transporting patients of claim 1, wherein: the volume of the oxygen cylinder (4) is four liters.

8. The flatcar with oxygen barrel storage device for transporting patients of claim 1, wherein: the through groove (11) is composed of two hollowed-out grooves which are arranged on the transmission support (9) in parallel and are not communicated with each other, and the sliding block (12) is of a clip hoop structure shaped like a Chinese character 'hui' and is clamped in the two hollowed-out grooves in a grabbing manner.

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