CN210009520U - Defibrillation equipment for intensive care unit - Google Patents

Abstract

The utility model discloses an intensive care unit is with equipment of defibrillating, including the equipment of defibrillating body, the bottom fixed mounting of the equipment of defibrillating body has the base, and the bottom of base is rectangular fixed mounting and has four silica gel sucking discs, is located and is equipped with same cavity of seting up on the base with two silica gel sucking discs of one side, and is equipped with two standpipe in the cavity, the bottom of standpipe extends to in the silica gel sucking disc that corresponds, be equipped with the pull rod in the cavity, and sliding sleeve is equipped with the diaphragm with the cavity lateral wall slidable mounting that corresponds on the pull rod, the bottom fixed mounting of diaphragm has two vertical axes, and the bottom of vertical axis extends to in the vertical axis that corresponds and fixed mounting has the piston board, fixed cover is equipped with the sealing washer on the piston board. The utility model discloses simple structure, the equipment body of being convenient for defibrillate is firm places on the desktop, and the area falls to cause the damage when avoiding using, is favorable to medical personnel and severe patient's use.

Description

Defibrillation equipment for intensive care unit

Technical Field

The utility model relates to an intensive care therapy equipment technical field especially relates to an intensive care unit is with equipment of defibrillating.

Background

Defibrillation equipment is also called a defibrillator and is equipment widely applied to defibrillate patients in intensive care units, cardiac direct current electrical cardioversion is an effective method for treating rapid ectopic arrhythmia by using electric energy to convert the arrhythmia into sinus rhythm, and is divided into synchronous electrical cardioversion and asynchronous electrical cardioversion, wherein the synchronous electrical cardioversion refers to that the defibrillator is excited by an electric signal of an R wave to discharge, and the asynchronous electrical cardioversion refers to that the defibrillator can discharge at any time of a cardiac cycle.

Through retrieval authorization notice number CN204073107U discloses a severe patient uses multi-functional defibrillator electrode equipment, including electrode cover, handle, the line of gripping, press gasbag, T type limit, splint, electric wire, fixing device, slide, plate electrode, electrode function device, manometer and gas pocket, splint are a severe patient uses multi-functional defibrillator electrode equipment's main part spare, be provided with electrode cover at splint, press gasbag, electric wire, fixing device, slide, plate electrode, electrode function device, manometer and gas pocket, be provided with handle and T type limit at electrode cover, be provided with the line of gripping at the handle, a severe patient uses defibrillator electrode equipment, not only can the electric shock defibrillate, possess the function of extracardiac pressure moreover, avoided the trouble of making a round trip to change equipment, alleviateed doctor's the work degree of difficulty.

Above-mentioned equipment still has certain not enough when the intensive care unit uses, place the defibrillator on the desk of patient's bedside most when using in the intensive care unit, make and be convenient for defibrillate the patient, but current defibrillator be not convenient for place on the desktop firm, easily take the defibrillator during use, make the defibrillator drop and lead to damaging, influence the normal use of defibrillator, bring very big inconvenience for the use, therefore we have proposed a defibrillation equipment for the intensive care unit.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a defibrillation device for an intensive care unit.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an intensive care unit uses defibrillation equipment, includes the defibrillation equipment body, the bottom fixed mounting of defibrillation equipment body has the base, and the bottom of base is rectangular fixed mounting has four silica gel sucking discs, is located the top of two silica gel sucking discs with one side and is equipped with same cavity of seting up on the base, and is equipped with two standpipe in the cavity, the bottom of standpipe extends to in the corresponding silica gel sucking disc, be equipped with the pull rod in the cavity, and sliding sleeve is equipped with the diaphragm with corresponding cavity lateral wall slidable mounting on the pull rod, the bottom fixed mounting of diaphragm has two vertical axes, and the bottom of vertical axis extends to in the corresponding vertical tube and fixed mounting has the piston plate, fixed cover is equipped with the sealing washer on the piston plate, and the outside of sealing washer and the lateral wall sliding seal of corresponding standpipe are connected, the welding has a plurality of compression springs between the top of diaphragm and the top inner wall of corresponding, equal fixed mounting has first triangle fixture block on the one side inner wall that two cavitys are close to each other, and the equal fixed mounting of one end that two pull rods are close to each other has second triangle fixture block, the bottom of second triangle fixture block contacts with the top of the first triangle fixture block that corresponds, fixed cover is equipped with the montant on the pull rod, and the montant keeps away from one side welding of the second triangle fixture block that corresponds and has a plurality of first springs, and the one end that corresponding second triangle fixture block was kept away from to first spring welds mutually with one side that the diaphragm is close to second triangle fixture block, the one end that corresponding second triangle fixture block was kept away from to the pull rod extends to the base outside and fixed mounting has the pull head.

Preferably, the inner walls of one sides of the two cavities far away from each other are provided with limiting through holes, and the inner walls of the two sides of the limiting through holes are respectively in movable contact with the two sides of the corresponding pull rods.

Preferably, one side of the transverse plate is provided with a first rectangular hole, and the first rectangular hole is in sliding connection with the corresponding pull rod.

Preferably, the inner walls of the two sides of the cavity are provided with limit grooves, the two sides of the transverse plate are fixedly provided with limit blocks, and the limit blocks are connected with the corresponding limit grooves in a sliding mode.

Preferably, one side of the vertical rod is provided with a second rectangular hole, and the second rectangular hole is fixedly sleeved with the corresponding pull rod.

Preferably, a first round hole is formed in the top of the inner side of the silica gel sucker, and the first round hole is fixedly sleeved with the corresponding vertical pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

through the cooperation of the defibrillation equipment body, the base, the silica gel sucker, the cavity, the vertical tube, the transverse plate, the vertical shafts, the piston plate, the sealing ring, the compression spring, the first triangular clamping block, the second triangular clamping block, the vertical rod, the first spring, the pull rod and the limiting through hole, the defibrillation equipment body is placed on a table top beside a patient bed, the pull head is pulled upwards, the pull head drives the transverse plate to slide upwards in the cavity through the corresponding pull rod and compress the compression spring, the transverse plate also drives the corresponding two vertical shafts to move upwards, the vertical shafts drive the sealing ring to slide in the vertical tube through the corresponding piston plate and generate upward suction force, so that negative pressure is generated in the silica gel sucker and firmly adsorbed on the table top, the pull rod also drives the corresponding first triangular clamping block to extrude the first triangular clamping block, the second triangular clamping block drives the corresponding pull rod to move, and the pull rod drives the corresponding vertical rod to move and compress the first spring, when the second triangular clamping block is staggered with the corresponding first triangular clamping block, the first spring in a compressed state can drive the corresponding second triangular clamping block to reset, at the moment, the bottom of the second triangular clamping block is contacted with the top of the corresponding first triangular clamping block, the first triangular clamping block limits the corresponding second triangular clamping block, thereby limiting the transverse plate to move, when the defibrillation equipment body needs to be moved to be used by the next patient, only two pull heads need to be pulled in the direction away from each other, the pull heads drive the second triangular clamping block to be staggered with the top of the first triangular clamping block through the corresponding pull rods, at the moment, the compression spring in a compressed state resets and drives the corresponding transverse plate to move downwards, the transverse plate drives the corresponding two vertical shafts to move downwards, the vertical shafts drive the sealing ring to move downwards through the corresponding piston plates, so that a downward air thrust is generated, and the silica gel sucker is contacted with the adsorption force of the desktop.

The utility model discloses simple structure, the equipment body of being convenient for defibrillate is firm places on the desktop, and the area falls to cause the damage when avoiding using, is favorable to medical personnel and severe patient's use.

Drawings

Fig. 1 is a schematic structural diagram of a defibrillation apparatus for an intensive care unit according to the present invention;

fig. 2 is a schematic sectional view of a part a of a defibrillation apparatus for an intensive care unit according to the present invention.

In the figure: 1 defibrillation equipment body, 2 bases, 3 silica gel sucking discs, 4 cavities, 5 standpipe, 6 diaphragm, 7 vertical axes, 8 piston plates, 9 sealing rings, 10 compression spring, 11 first triangle fixture blocks, 12 second triangle fixture blocks, 13 montant, 14 first spring, 15 pull rods, 16 spacing through-holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a defibrillation apparatus for intensive care unit, comprising a defibrillation apparatus body 1, a base 2 is fixedly installed at the bottom of the defibrillation apparatus body 1, four silica gel suckers 3 are fixedly installed at the bottom of the base 2 in a rectangular shape, a cavity 4 opened on the base 2 is disposed above the two silica gel suckers 3 located at the same side, two vertical tubes 5 are disposed in the cavity 4, the bottom ends of the vertical tubes 5 extend into the corresponding silica gel suckers 3, pull rods 15 are disposed in the cavity 4, transverse plates 6 slidably installed with the corresponding side walls of the cavity 4 are slidably sleeved on the pull rods 15, two vertical shafts 7 are fixedly installed at the bottom of the transverse plates 6, the bottom ends of the vertical shafts 7 extend into the corresponding vertical tubes 5 and are fixedly installed with piston plates 8, sealing rings 9 are fixedly sleeved on the piston plates 8, and the outer sides of the sealing rings 9 are slidably and sealingly connected with the corresponding side walls of, a plurality of compression springs 10 are welded between the top of the transverse plate 6 and the inner wall of the top of the corresponding cavity 4, a first triangular clamping block 11 is fixedly installed on the inner wall of one side of each of the two cavities 4 close to each other, a second triangular clamping block 12 is fixedly installed at one end of each of the two pull rods 15 close to each other, the bottom of each second triangular clamping block 12 is in contact with the top of the corresponding first triangular clamping block 11, a vertical rod 13 is fixedly sleeved on each pull rod 15, a plurality of first springs 14 are welded on one side of each vertical rod 13 far away from the corresponding second triangular clamping block 12, one end of each first spring 14 far away from the corresponding second triangular clamping block 12 is welded with one side of the transverse plate 6 close to the corresponding second triangular clamping block 12, one end of each pull rod 15 far away from the corresponding second triangular clamping block 12 extends out of the base 2 and is fixedly installed, and the defibrillation equipment body 1, the base 2, the silica gel, The lateral plate 6, the vertical shafts 7, the piston plates 8, the sealing rings 9, the compression springs 10, the first triangular clamping blocks 11, the second triangular clamping blocks 12, the vertical rods 13, the first springs 14 and the pull rods 15 are matched with the limiting through holes 16, the defibrillation device body 1 is placed on a table top beside a patient bed, the pull heads are pulled upwards, the pull heads drive the lateral plates 6 to slide upwards in the cavities 4 through the corresponding pull rods 15 and compress the compression springs 10, the lateral plates 6 further drive the corresponding two vertical shafts 7 to move upwards, the vertical shafts 7 drive the sealing rings 9 to slide in the vertical pipes 5 through the corresponding piston plates 8 and generate upward suction force, negative pressure is generated in the silica gel suckers 3 and firmly adsorbed on the table top, the pull rods 15 further drive the corresponding first triangular clamping blocks 12 to extrude the first triangular clamping blocks 11, the second triangular clamping blocks 12 drive the corresponding pull rods 15 to move, the pull rods 15 drive the corresponding vertical rods 13 to move and compress the first springs 14, when the second triangular clamping block 12 is staggered with the corresponding first triangular clamping block 11, the first spring 14 in a compressed state can drive the corresponding second triangular clamping block 12 to reset, at the moment, the bottom of the second triangular clamping block 12 is contacted with the top of the corresponding first triangular clamping block 11, the first triangular clamping block 11 limits the corresponding second triangular clamping block 12, so that the transverse plate 6 is limited to move, when the defibrillation device body 1 needs to be moved for the next patient, only two pull heads need to be pulled in the mutually-away direction, the pull heads drive the second triangular clamping block 12 to be staggered with the top of the first triangular clamping block 11 through the corresponding pull rods 15, at the moment, the compression spring 10 in the compressed state resets and drives the corresponding transverse plate 6 to move downwards, the transverse plate 6 drives the corresponding two vertical shafts 7 to move downwards, the vertical shafts 7 drive the sealing rings 9 to move downwards through the corresponding piston plates 8, make and produce a decurrent air thrust to contact silica gel sucking disc 3 is to the adsorption affinity of desktop, the utility model discloses simple structure, the equipment body 1 of being convenient for defibrillate is placed on the desktop that stabilizes, takes to fall to cause the damage when avoiding using, is favorable to medical personnel and severe patient's use.

The utility model discloses in, spacing through-hole 16 has all been seted up on the one side inner wall that two cavities 4 kept away from each other, and spacing through-hole 16's both sides inner wall respectively with the both sides movable contact of the pull rod 15 that corresponds, first rectangular hole has been seted up to one side of diaphragm 6, and first rectangular hole and the pull rod 15 sliding connection that corresponds, spacing groove has all been seted up on the both sides inner wall of cavity 4, the equal fixed mounting in both sides of diaphragm 6 has the stopper, and stopper and the spacing groove sliding connection that corresponds, second rectangular hole has been seted up to one side of montant 13, and second rectangular hole and the fixed suit of the pull rod 15 that corresponds, first round hole has been seted up at the inboard top of silica gel sucking disc 3, and first round hole and the fixed suit of corresponding standpipe 5, through defibrillation apparatus body 1, base 2, silica gel sucking disc 3, cavity 4, standpipe 5, diaphragm 6, vertical shaft 7, piston plate 8, sealing washer 9, compression spring 10, The first triangular clamping block 11, the second triangular clamping block 12, the vertical rod 13, the first spring 14 and the pull rod 15 are matched with the limiting through hole 16, the defibrillation device body 1 is placed on a table top beside a patient bed, the pull head is pulled upwards, the pull head drives the transverse plate 6 to slide upwards in the cavity 4 through the corresponding pull rod 15 and compress the compression spring 10, the transverse plate 6 further drives the corresponding two vertical shafts 7 to move upwards, the vertical shafts 7 drive the sealing rings 9 to slide in the vertical pipes 5 through the corresponding piston plates 8 and generate upward suction force, so that negative pressure is generated in the silica gel sucker 3 and firmly adsorbed on the table top, the pull rod 15 further drives the corresponding first triangular clamping block 12 to extrude the first triangular clamping block 11, so that the second triangular clamping block 12 drives the corresponding pull rod 15 to move, the pull rod 15 drives the corresponding vertical rod 13 to move and compress the first spring 14, when the second triangular clamping block 12 is staggered with the corresponding first triangular clamping block 11, the first spring 14 in a compressed state can drive the corresponding second triangular clamping block 12 to reset, at this time, the bottom of the second triangular clamping block 12 is in contact with the top of the corresponding first triangular clamping block 11, the first triangular clamping block 11 limits the corresponding second triangular clamping block 12, thereby limiting the movement of the transverse plate 6, when the defibrillation device body 1 needs to be moved for the next patient, only two sliders need to be pulled in the directions away from each other, the sliders drive the second triangular clamping block 12 to be staggered with the top of the first triangular clamping block 11 through the corresponding pull rods 15, at this time, the compression spring 10 in a compressed state resets and drives the corresponding transverse plate 6 to move downwards, the transverse plate 6 drives the corresponding two vertical shafts 7 to move downwards, the vertical shafts 7 drive the sealing rings 9 to move downwards through the corresponding piston plates 8, so that a downward air thrust is generated, thereby contacting the adsorption force of the silica gel sucker 3 on the desktop, the utility model discloses simple structure, the equipment body 1 firm of being convenient for defibrillate places on the desktop, and the area falls to cause the damage when avoiding using, is favorable to medical personnel and severe patient's use.

The working principle is as follows: before the defibrillation device body 1 is unfixed, the defibrillation device body 1 is placed on a table top beside a patient bed, at the moment, four silica gel suction cups 3 are in contact with the table top, two pull heads are pulled upwards, the pull heads drive corresponding pull rods 15 to move upwards, the pull rods 15 drive corresponding transverse plates 6 to slide upwards in the cavities 4, the transverse plates 6 compress corresponding compression springs 10, the transverse plates 6 drive corresponding two vertical shafts 7 to move upwards, the vertical shafts 7 drive sealing rings 9 to slide in the vertical pipes 5 through corresponding piston plates 8 and generate upward suction force, negative pressure is generated in the silica gel suction cups 3 and elastic deformation is generated, so that the silica gel pressure plates 3 are firmly adsorbed on the table top, meanwhile, the pull rods 15 drive corresponding first triangular clamping blocks 12 to extrude the first triangular clamping blocks 11, the second triangular clamping blocks 12 drive corresponding pull rods 15 to move, the pull rods 15 drive corresponding vertical rods 13 to move and compress the first springs 14, when the second triangular clamping block 12 is staggered with the corresponding first triangular clamping block 11, the first spring 14 in a compressed state resets and drives the pull rod 15 to reset through the corresponding vertical rod 13, the pull rod 15 drives the corresponding second triangular clamping block 12 to reset, the bottom of the second triangular clamping block 12 is in contact with the top of the corresponding first triangular clamping block 11 at the moment, the first triangular clamping block 11 limits the corresponding second triangular clamping block 12, so that the transverse plate 6 is limited to move, when the defibrillation equipment body 1 needs to be moved for the next patient to use, only two pull heads need to be pulled in the direction away from each other, the pull heads drive the second triangular clamping block 12 to be staggered with the top of the first triangular clamping block 11 through the corresponding pull rod 15, the compression spring 10 in the compressed state resets and drives the corresponding transverse plate 6 to move downwards, the transverse plate 6 drives the corresponding two vertical shafts 7 to move downwards, vertical axis 7 drives sealing washer 9 downstream through the piston board 8 that corresponds for produce a decurrent air thrust, thereby contact silica gel sucking disc 3 is to the adsorption affinity of desktop, make placing that defibrillation equipment body 1 can stabilize on the desktop, take when avoiding using and fall to cause the damage, be favorable to medical personnel and severe patient's use.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an intensive care unit is with equipment of defibrillating, includes defibrillation equipment body (1), its characterized in that, the bottom fixed mounting of defibrillation equipment body (1) has base (2), and the bottom of base (2) is rectangular fixed mounting and has four silica gel sucking discs (3), and the top that lies in two silica gel sucking discs (3) with one side is equipped with same cavity (4) of seting up on base (2), and is equipped with two standpipe (5) in cavity (4), the bottom of standpipe (5) extends to in corresponding silica gel sucking disc (3), be equipped with pull rod (15) in cavity (4), and sliding sleeve is equipped with diaphragm (6) with corresponding cavity (4) lateral wall slidable mounting on pull rod (15), the bottom fixed mounting of diaphragm (6) has two vertical axis (7), and the bottom of vertical axis (7) extends to in corresponding standpipe (5) and fixed mounting has piston plate (8), the piston plate (8) is fixedly sleeved with a sealing ring (9), the outer side of the sealing ring (9) is connected with the side wall of the corresponding vertical pipe (5) in a sliding and sealing manner, a plurality of compression springs (10) are welded between the top of the transverse plate (6) and the inner wall of the top of the corresponding cavity (4), a first triangular clamping block (11) is fixedly installed on the inner wall of one side, close to each other, of the two cavities (4), a second triangular clamping block (12) is fixedly installed at one end, close to each other, of the two pull rods (15), the bottom of the second triangular clamping block (12) is contacted with the top of the corresponding first triangular clamping block (11), a vertical rod (13) is fixedly sleeved on the pull rod (15), a plurality of first springs (14) are welded at one side, far away from the corresponding second triangular clamping block (12), of the first springs (14) are welded with one side, close to the second triangular clamping block (12), of the transverse plate (6), one end of the pull rod (15) far away from the corresponding second triangular clamping block (12) extends out of the base (2) and is fixedly provided with a pull head.

2. The defibrillation device for the intensive care unit according to claim 1, wherein the inner walls of the two cavities (4) at the sides far away from each other are respectively provided with a limiting through hole (16), and the inner walls at the two sides of the limiting through hole (16) are respectively in movable contact with the two sides of the corresponding pull rod (15).

3. The defibrillation equipment for the intensive care unit according to claim 1, wherein a first rectangular hole is formed in one side of the transverse plate (6), and the first rectangular hole is slidably connected with the corresponding pull rod (15).

4. The defibrillation equipment for the intensive care unit according to claim 1, wherein the inner walls of the two sides of the cavity (4) are respectively provided with a limiting groove, the two sides of the transverse plate (6) are respectively and fixedly provided with a limiting block, and the limiting blocks are slidably connected with the corresponding limiting grooves.

5. The defibrillation equipment for the intensive care unit according to claim 1, wherein a second rectangular hole is formed in one side of the vertical rod (13), and the second rectangular hole is fixedly sleeved with the corresponding pull rod (15).

6. The defibrillation equipment for the intensive care unit according to claim 1, wherein a first round hole is formed in the top of the inner side of the silica gel suction cup (3), and the first round hole is fixedly sleeved with a corresponding vertical tube (5).

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