CN209944002U - Multifunctional medical emergency pipeline system - Google Patents

Abstract

The utility model discloses a multifunctional medical emergency pipeline system, which comprises a slide rail module, a driving module and a gas-liquid conveying module, the slide rail module comprises a slide rail, a first end and a second end, an upper slide groove and a side slide groove are arranged on the slide rail, the first end is formed by assembling an upper cover plate and a lower cover plate through bolts, a belt driving rotating shaft is arranged between the upper cover plate and the lower cover plate, the side surfaces of the first end head and the second end head are provided with through holes, a belt passes through the through holes and is arranged on the belt driving rotating shaft, the driving module comprises a gear motor, a motor frame, a side sliding block, a switch handle and a reset switch, the gas-liquid conveying module comprises a top sliding block, a first connecting plate, a sliding clamping plate, a second connecting plate, a heat dissipation support, a heat dissipation fin, a gas-liquid passing assembly and a liquid-phase output end, and the gas-liquid conveying module is connected with a gas-phase output end through a fixer. The utility model discloses can be used to the multi-functional emergent pipe-line system of interim installation before the sick bed and before the operating table.

Description

Multifunctional medical emergency pipeline system

Technical Field

The utility model belongs to medical instrument equipment field, concretely relates to multi-functional medical emergent pipe-line system.

Background

No matter on a rescue bed, a sickbed or an operating table, various pipeline systems can be used when patients are treated and nursed, and therefore, permanent pipelines such as oxygen supply or water supply pipelines are arranged on the operating table in a ward. However, since patients have various diseases, the permanently installed oxygen supply or water supply pipeline cannot meet the requirements for various kinds of fluid (gas or liquid) during rescue of patients or operation, and thus an additional pipeline system on a hospital bed or an operating table is required.

It would be more desirable if such tubing could be temporarily installed as needed, and removed when not needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the existing problem, the utility model provides a can dismantle the multi-functional emergent pipe-line system who removes when not needing, installed temporarily as required.

The utility model discloses a realize through following technical scheme:

a multifunctional medical emergency pipeline system is characterized by comprising a slide rail module, a driving module and a gas-liquid conveying module, the slide rail module comprises a slide rail, a first end and a second end, an upper slide groove and a side slide groove are arranged on the slide rail, the first end is formed by assembling an upper cover plate and a lower cover plate through bolts, a belt driving rotating shaft is arranged between the upper cover plate and the lower cover plate, the side surfaces of the first end head and the second end head are provided with through holes, a belt passes through the through holes and is arranged on the belt driving rotating shaft, the driving module comprises a gear motor, a motor frame, a side sliding block, a switch handle and a reset switch, the gas-liquid conveying module comprises a top sliding block, a first connecting plate, a sliding clamping plate, a second connecting plate, a heat dissipation support, a heat dissipation fin, a gas-liquid passing assembly and a liquid-phase output end, and the gas-liquid conveying module is connected with a gas-phase output end through a fixer.

Preferably, the gear motor is installed below the motor frame, the motor frame is connected with the side sliding block through a bolt, the side sliding block is installed in the side sliding groove, the reset switch is installed on the side face of the motor frame, and the switch handle controls the reset switch through a screw rod.

Preferably, a gasket is arranged below a fixer on one side of the gas-liquid conveying module connected with the gas phase output end, a spring is arranged below the gasket, the lower end of the spring is placed above the flange bushing, an opening is formed in the top of the heat dissipation support, and the flange bushing penetrates through the opening and is arranged at the top of the heat dissipation support.

Preferably, a first heat dissipation groove is formed in the heat dissipation support, and a second heat dissipation groove is formed in the heat dissipation sheet.

Preferably, the side surface of the gas-liquid passing component is provided with a gas phase passing hole connected with an external access gas pipe, a liquid phase passing hole connected with an external access liquid conveying pipe, a side fixing hole and a bottom fixing hole.

Preferably, the liquid phase output end consists of a metal spout and a flexible pipe.

Preferably, the liquid phase output port communicates with the liquid phase passage hole, and the gas phase output port communicates with the gas phase passage hole.

Preferably, the gas phase output end can be closed by connecting the holder mounted on the driving module when not in use.

Preferably, the driving module can move along the side chute, and the gas-liquid conveying module can slide along the belt.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses the demand of gas transmission and infusion is often used when considering to look after patient and operation provides one kind and installs temporarily as required, can dismantle when not needing and remove, can be used to before the sick bed and before the operating table multi-functional emergent pipe-line system of temporary installation.

The pipeline system is arranged on the side of a sickbed, or on a ward wall, or on the side of an operating table as required, external fluid is connected to the gas-liquid passing assembly through a hose, and the gas-liquid conveying module can be conveniently slid to a required position through the sliding rail module and the driving module. The liquid phase output end and the gas phase output end have the same structure and can be freely selected. The system can be flexibly moved, is convenient to operate, and can be used for conveying various gases and liquids in medical environments including industrial production environments.

Drawings

Fig. 1 is a schematic view of a first structure of the present invention.

Fig. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the driving module of the present invention.

Fig. 4 is a schematic view of a first structure of the gas-liquid delivery module of the present invention.

Fig. 5 is a second schematic structural diagram of the gas-liquid conveying module of the present invention.

Fig. 6 is a schematic view of the gas-liquid passing assembly of the present invention.

The labels in the figures are: 1-a slide rail module, 2-a drive module, 3-a gas-liquid conveying module, 4-a slide rail, 5-a first end, 6-a second end, 7-an upper chute, 8-a side chute, 9-an upper cover plate, 10-a lower cover plate, 11-a drive rotating shaft, 12-a perforation, 13-a belt, 14-a gear motor, 15-a motor frame, 16-a side slider, 17-a switch handle, 18-a reset switch, 19-a top slider, 20-a first connecting plate, 21-a sliding clamping plate, 22-a second connecting plate, 23-a heat dissipation bracket, 24-a heat dissipation plate, 25-a gas-liquid passing component, 26-a liquid phase output end, 27-a fixer, 28-a gas phase output end, 29-a screw rod and 30-a gasket, 31-spring, 32-flange bushing, 33-opening, 34-first heat dissipation groove, 35-second heat dissipation groove, 36-gas phase through hole, 37-external air inlet pipe, 38-liquid phase through hole, 39-external infusion pipe, 40-side fixing hole, 41-bottom fixing hole, 42-metal nozzle and 43-flexible pipe.

Detailed Description

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

as shown in fig. 1-2, a multi-functional medical emergent pipe-line system, its characterized in that, including slide rail module 1, drive module 2, gas-liquid transport module 3, slide rail module 1 includes slide rail 4, first end 5, second end 6, be provided with spout 7 and sideslip groove 8 on the slide rail 4, first end 5 is that upper cover plate 9 and lower apron 10 form through the bolt equipment, upper cover plate 9 with apron 10 middle belt drive pivot 11 has been arranged down, first end 5 with second end 6 side is opened has perforation 12, and belt 13 passes perforation 12 is installed on belt drive pivot 11, drive module 2 includes gear motor 14, motor frame 15, side slider 16, switch lever 17 and reset switch 18, gas-liquid transport module 3 includes top slider 19, first connecting plate 20, The gas-liquid conveying device comprises a sliding clamping plate 21, a second connecting plate 22, a heat dissipation support 23, heat dissipation fins 24, a gas-liquid passing assembly 25 and a liquid-phase output end 26, wherein the gas-liquid conveying module 3 is connected with a gas-phase output end 28 through a fixer 27.

The gas phase outlet 28 can be closed when not in use by connecting the holder 27 mounted on the drive module 2.

The driving module 2 can move along the side chute 8, and the gas-liquid conveying module 3 can slide along the belt 13.

As shown in fig. 3, the gear motor 14 is installed below the motor frame 15, the motor frame 15 is connected to the side slider 16 by a bolt, the side slider 16 is installed in the side sliding groove 8, the reset switch 18 is installed on the side surface of the motor frame 15, and the switch handle 17 controls the reset switch 18 by a screw 29.

A gasket 30 is arranged below the fixer 27 on one side of the gas-liquid conveying module 3 connected with the gas phase output end 28, a spring 31 is arranged below the gasket 30, the lower end of the spring 31 is placed above a flange bushing 32, an opening 33 is formed in the top of the heat dissipation support 23, and the flange bushing 32 penetrates through the opening 33 and is arranged on the top of the heat dissipation support 23.

As shown in fig. 4, the liquid phase output port 26 communicates with the liquid phase passing hole 38, and the gas phase output port 28 communicates with the gas phase passing hole 36.

As shown in fig. 4-5, a first heat dissipation groove 34 is formed inside the heat dissipation bracket 23, and a second heat dissipation groove 35 is formed on the heat dissipation plate 24.

As shown in fig. 6, the gas-liquid passing module 25 has a gas phase passing hole 36 formed on a side surface thereof to be connected to an external inlet gas pipe 37, a liquid phase passing hole 38 to be connected to an external inlet liquid pipe 39, a side fixing hole 40, and a bottom fixing hole 41.

The utility model discloses the demand of often using gas transmission and infusion when considering to look after patient and operation provides a can be used to the multi-functional emergent pipe-line system before the sick bed and before the operating table, and this system can remove in a flexible way, and convenient operation can be used to the transport demand of multiple gas and liquid.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. 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 (9)

1. The utility model provides a multi-functional medical emergent pipe-line system, its characterized in that, including slide rail module (1), drive module (2), gas-liquid transport module (3), slide rail module (1) includes slide rail (4), first end (5), second end (6), be provided with on slide rail (4) spout (7) and side spout (8), first end (5) are apron (9) and apron (10) down and form through the bolt equipment, upper cover plate (9) with apron (10) centre has been arranged belt drive pivot (11) down, first end (5) with second end (6) side is opened there are perforation (12), and belt (13) pass perforation (12) are installed on belt drive pivot (11), drive module (2) include gear motor (14), motor frame (15), The gas-liquid conveying module comprises a side sliding block (16), a switch handle (17) and a reset switch (18), the gas-liquid conveying module (3) comprises a top sliding block (19), a first connecting plate (20), a sliding clamping plate (21), a second connecting plate (22), a heat dissipation support (23), cooling fins (24), a gas-liquid passing assembly (25) and a liquid-phase output end (26), and the gas-liquid conveying module (3) is connected with a gas-phase output end (28) through a fixer (27).

2. The multifunctional medical emergency pipeline system according to claim 1, wherein the gear motor (14) is installed below the motor frame (15), the motor frame (15) is connected with the side sliding block (16) through a bolt, the side sliding block (16) is installed in the side sliding groove (8), the reset switch (18) is installed on the side surface of the motor frame (15), and the switch handle (17) controls the reset switch (18) through a screw (29).

3. The multifunctional medical emergency pipeline system according to claim 1, wherein a gasket (30) is arranged below a fixer (27) at the side where the gas-liquid delivery module (3) is connected with the gas phase output end (28), a spring (31) is arranged below the gasket (30), the lower end of the spring (31) is placed above a flange bushing (32), an opening (33) is arranged at the top of the heat dissipation bracket (23), and the flange bushing (32) is arranged at the top of the heat dissipation bracket (23) through the opening (33).

4. The multifunctional medical emergency pipeline system according to claim 1, wherein a first heat dissipation groove (34) is formed inside the heat dissipation bracket (23), and a second heat dissipation groove (35) is formed on the heat dissipation fin (24).

5. The multifunctional medical emergency pipeline system according to claim 1, wherein a gas phase through hole (36) is formed in the side surface of the gas-liquid passing assembly (25) and connected with an external access gas pipe (37), a liquid phase through hole (38) is connected with an external access liquid pipe (39), a side fixing hole (40) and a bottom fixing hole (41).

6. Multifunctional medical emergency tubing system according to claim 1, characterized in that the liquid phase output (26) consists of a metal spout (42) and a flexible tube (43).

7. Multifunction medical emergency tubing system according to claim 5, characterized in that the liquid phase output (26) is in communication with the liquid phase through hole (38) and the gas phase output (28) is in communication with the gas phase through hole (36).

8. Multifunction medical emergency tubing system according to claim 1, characterized in that the gas phase output (28) can be closed when not in use by connecting the holder (27) mounted on the drive module (2).

9. Multifunctional medical emergency pipe system according to claim 1, wherein the drive module (2) is movable along the side chute (8) and the gas-liquid delivery module (3) is slidable along the belt (13).

Images