CN212630795U - Self-induction medical coupling agent extrusion device - Google Patents

Abstract

A self-induction medical couplant extrusion device is composed of a bagged medical couplant and a bagged medical couplant extrusion driving device, wherein the bagged couplant is formed by communicating a conical tube structure at the head part with a cylindrical structure at the tail part; the couplant receives the heating of flexible heating film, temperature controller control heating temperature in the taper pipe shape structure, the utility model discloses convenient to use, labour saving and time saving especially is practical for the medical staff who often uses the couplant.

Description

Self-induction medical coupling agent extrusion device

Technical Field

The utility model relates to a medical couplant squeezer, in particular to an automatic couplant squeezing device used in the field of medical health, which belongs to the field of medical appliances.

Background

The prior medical couplant is mainly capable of being squeezed into bottles, needs to be squeezed by manpower when in use, is more laborious to squeeze when the amount of the couplant in the bottles is small, and is very easy to induce the chronic injuries of finger joints, wrist joints, elbow joints and the like when a user continuously squeezes the bottled couplant for a long time, for example, the prior publication No. CN207791563U discloses a utility model patent of a couplant squeezer, which comprises a bracket and a squeezing device arranged on the bracket; the extrusion device comprises a pipe body, an extrusion ring and a clamping structure; the body is installed on the support, the extrusion ring device is in the body, press from both sides tight structrual installation on the body, press from both sides tight structure and pass the pipe wall of body with the extrusion ring is connected, will have the packing bottle device of couplant in the body, applys the clamp force to the extrusion ring through pressing from both sides tight structure, extrudees out through the couplant of extrusion ring in with packing bottle, through the utility model provides a couplant squeezer replaces the current mode of extruding the couplant from packing bottle by inspection doctor is manual, has reduced the burden of inspection doctor's arm.

As another example, the present disclosure CN107174730A discloses an invention patent of "a couplant extrusion apparatus and an ultrasonic diagnostic device", wherein the couplant extrusion apparatus includes a couplant bottle and a driving structure, an extrusion port and an inlet port which are communicated with an inner cavity of the couplant bottle are formed on the couplant bottle, and a sliding sealing member for isolating the extrusion port from the inlet port is disposed in the inner cavity of the couplant bottle; the driving structure is used for pushing the sliding sealing element to slide; above-mentioned couplant extrusion device, no longer need extrude the couplant bottle during the use, only need control drive structure open stop can to self-propelled replaces manual extrusion, even when the amount of the couplant in the couplant bottle is less, also can realize the stability of couplant and extrude, slide to extreme position along the inner chamber until sliding seal spare, need not to operate repeatedly, can reduce doctor finger joint and exert oneself, save time, can guarantee to extrude the couplant completely simultaneously as far as possible, the waste of couplant has been avoided.

Still there is a couplant extruder for B ultrasonic examination, including two relative rotations, and fix squeeze rolls I and squeeze rolls II on the support, two squeeze rolls homonymy axle heads external to have drive gear I and drive gear II, I cooperations of drive gear connect the driving gear, II cooperations of drive gear connect reversing gear, reversing gear still cooperate with the driving gear to be connected, the driving gear axle head connect the twist grip, the utility model has the advantages of convenient operation, labour saving and time saving can remain the whole crowded purities of couplant.

Although the prior art has some structural improvements, the operation is convenient during the use, the time and the labor are saved, but the problem of insufficient application flexibility still exists, and the demand of modern medical treatment is to further design a medical couplant squeezer which has high automation degree and can be freely applied.

Disclosure of Invention

In order to overcome not enough when current bottled medical couplant uses, the utility model provides a from response medical couplant extrusion device, this extrusion device can extrude the couplant outside the bottle automatically, avoids the tired that long-time manpower extrusion brought for the user, makes the patient obtain better experience of seeing a doctor simultaneously.

The utility model adopts the following design technical proposal.

The utility model provides a self-induction medical couplant extrusion device, includes medical couplant in bags and medical couplant in bags extrusion drive arrangement, its characterized in that: the bagged medical coupling agent is placed in a bagged medical coupling agent extrusion driving device, so that the self-induction medical coupling agent is extruded in real time;

the bagged couplant is formed by communicating a conical pipe type structure at the head part and a cylindrical structure at the tail part, wherein the conical pipe type structure at the head part is made of hard pvc materials; the cylinder-mounted structure of the tail part is made of soft pvc material;

the bagged medical couplant extrusion driving device is characterized in that an inner cavity corresponding to the bagged medical couplant and an inner cavity extrusion air bag thereof are formed on the bagged medical couplant, a corresponding insulating shell with an inlet and an extrusion outlet is arranged on the bagged medical couplant, a photoelectric sensor, a power supply, a flexible heating film, a temperature controller and a miniature air pump are arranged at the front end of the insulating shell and are sequentially connected in a circuit mode, the miniature air pump is started by the photoelectric sensor after the power is on, and the miniature air pump is inflated in the inner cavity extrusion air bag and extruded outside a conical pipe type opening of the couplant.

The technical characteristic scheme is further as follows.

A self-induction medical couplant extrusion device which is characterized in that: the bagged couplant extrusion driving device is arranged on one side of the front end of the insulating shell and electrically connected with a photoelectric inductor, a power supply, a power switch and a charging port thereof; the other side is provided with a temperature controller, a heating switch and a micro air pump which are electrically connected; a flexible heating film and a heat insulating material thereof are arranged around the conical pipe type structure of the insulating shell; an inner cavity extrusion air bag and an exhaust valve thereof are arranged on the inner wall surface of the middle part of the insulating shell; and a rear cover is arranged at the rear end of the insulating shell.

A self-induction medical couplant extrusion device which is characterized in that: the power source is a battery power source or a charging power source.

A self-induction medical couplant extrusion device which is characterized in that: the flexible heating film is a flexible heating film or a flexible liner film.

A self-induction medical couplant extrusion device which is characterized in that: the insulating shell is an outer surface anti-slip structure with finger grooves.

A self-induction medical couplant extrusion device which is characterized in that: the rear cover is of a spiral fixing structure or a buckle fixing structure.

Compared with the prior art, the technical scheme of the self-induction medical couplant extrusion device provided by the utility model has the advantages that the mechanical type couplant extrusion bottle is not needed, the couplant is extruded through the photoelectric induction and the miniature air pump, and the chronic injury of a user is avoided; the head of the coupling agent is heated, and the extruder has the effect of heating the coupling agent; the coupling agent is completely used, and waste is reduced.

Drawings

Fig. 1 is a sectional view of the overall structure of the present invention.

Fig. 2 is a sectional structure diagram of the conical couplant of the present invention.

Fig. 3 is a diagram of an electrical connection structure of the present invention.

In the figure: 1: a photoelectric sensor; 2: a thermal insulation material; 3: a power source; 4: a flexible heating film; 5: the inner cavity extrudes the air bag; 6: a temperature controller; 7: a heating switch; 8: a micro air pump; 9: a rear cover; 10: a bagged coupler; 11: a power switch; 12: a charging port; 13: an exhaust valve; 14: an insulating housing; 15: a cone-shaped structure.

Detailed Description

The following further describes the embodiments of the present invention.

Detailed description of the preferred embodiment 1

As shown in the attached drawings, the technical scheme of the self-induction medical couplant extrusion device is concretely implemented, the scheme comprises a bagged medical couplant and a corresponding bagged medical couplant extrusion driving device, and when the self-induction medical couplant extrusion driving device is used, the bagged medical couplant is placed in the bagged medical couplant extrusion driving device, so that the real-time extrusion of the self-induction medical couplant is realized.

The bagged couplant is formed by communicating a conical pipe-shaped structure at the head part with a cylindrical structure at the tail part, wherein the conical pipe-shaped structure at the head part is made of hard pvc material; the cylinder structure at the tail part is made of soft pvc material;

the bagged medical couplant extrusion driving device is characterized in that an inner cavity corresponding to the bagged medical couplant and an inner cavity extrusion air bag 5 thereof are formed on the bagged medical couplant, an insulating shell 14 with an inlet and an extrusion outlet is arranged, the head of the insulating shell 14 is provided with a photoelectric sensor 1, a power supply 3, a flexible heating film 4, a temperature controller 6 and a micro air pump 8 which are sequentially connected in a circuit manner, and the photoelectric sensor 1 starts the micro air pump 8 after being electrified and inflates the inner cavity extrusion air bag 5 to be extruded outside a conical opening of the couplant.

In the technical scheme, the bagged couplant extrusion driving structure is characterized in that a photoelectric inductor 1, a power supply 3, a power switch 11 and a charging port 12 thereof are arranged on one side of the front end of an insulating shell 14; the other side is provided with a temperature controller 6 and a micro air pump 8; a flexible heating film 4, a heat insulating material 2 thereof and a heating switch 7 are arranged around the conical pipe type structure 15 of the insulating shell 14; an inner cavity air bag 5 and an exhaust valve 13 thereof are arranged on the inner wall surface of the middle part of the insulating shell 14; a rear cover 9 is provided at the rear end of the insulating housing 14.

The power supply 3 can adopt a battery as a power supply and can also adopt charging as a power supply, and both power supply structures can be used.

The flexible heating film 4 may be a flexible heating film or an unheated flexible liner film, and generally, a flexible heating film should be disposed in a cold region for convenient use.

The outer surface of the insulating shell 14 is provided with a finger groove anti-slip structure, which is particularly convenient for medical workers who often use couplant.

The rear cover 9 can be of a spiral fixing structure, a buckle fixing structure or other fixing structures, and is beneficial to extruding the couplant.

The implementation of the technical scheme is mainly an improvement of the prior art and is applied to the field of medical appliances, firstly, the prior bottled couplant is converted into the bagged couplant, so that the head part of the bagged couplant is in a conical pipe type structure, the head part adopts a slightly hard pvc material to provide certain support, and the barrel part adopts a cylindrical structure made of a soft pvc material to facilitate extrusion deformation.

When the automatic induction type medical couplant squeezer is used, after charging is completed, the rear cover of the automatic induction type medical couplant squeezer is opened, the conical medical ultrasonic couplant is put into the automatic induction type medical couplant squeezer, the cover is closed, the power supply is turned on, when the automatic induction type medical couplant squeezer is placed within 5cm away from the skin, the couplant is continuously squeezed out, the squeezing out of the couplant is stopped when the automatic induction type medical couplant squeezer is away from the skin.

If the couplant is sucked and extracted, the suction channels of all bottles of couplants are common, so that bacteria are easy to breed; by adopting the extrusion mode, each bottle of couplant extrusion channel can be ensured to be independently used, the repeated use of the suction channel is avoided, and the cleaning and sanitation are realized; such a couplant extruder can also be used when the couplant is a sterile couplant.

The technical scheme has the advantages that: the automatic couplant squeezing device can avoid the chronic strain of fingers and wrist joints generated when the couplant is squeezed manually; the induction type starting can avoid a manual operation switch, so that the induction type starting is more convenient; the flexible heating film and the temperature controller can play a role in heating the couplant at constant temperature, so that the comfort level of the patient experience is improved; if suction type is adopted to extract the couplant, each bottle of couplant extrusion channel can be ensured to be independently used, the repeated use of the suction channel is avoided, the cleaning and sanitation are realized, and when the couplant is the disinfectant couplant, the couplant extruder can also be used.

Claims (6)

1. The utility model provides a self-induction medical couplant extrusion device, includes medical couplant in bags and medical couplant in bags extrusion drive arrangement, its characterized in that: the bagged medical coupling agent is placed in a bagged medical coupling agent extrusion driving device, so that the self-induction medical coupling agent is extruded in real time;

the bagged medical couplant is formed by communicating a conical pipe type structure at the head part and a cylindrical structure at the tail part, wherein the conical pipe type structure at the head part is made of hard pvc materials; the cylinder-mounted structure of the tail part is made of soft pvc material;

the bagged medical couplant extrusion driving device is characterized in that an inner cavity corresponding to the bagged medical couplant and an inner cavity extrusion air bag (5) of the inner cavity are formed in the bagged medical couplant, a corresponding insulating shell (14) with a loading port and an extrusion outlet is arranged, a photoelectric sensor (1), a power source (3), a flexible heating film (4), a temperature controller (6) and a micro air pump (8) are sequentially connected in a circuit mode at the front end of the insulating shell (14), and the photoelectric sensor (1) starts the micro air pump (8) after being electrified to inflate the inner cavity extrusion air bag (5) and extrude the inner cavity extrusion air bag out of a conical pipe type opening of the couplant.

2. The self-inductive medical couplant extrusion apparatus of claim 1, wherein: the bagged medical couplant extrusion driving device is characterized in that a photoelectric sensor (1), a power supply (3), a power switch (11) and a charging port (12) thereof are arranged on one side of the front end of the insulating shell (14) and electrically connected with the photoelectric sensor; the other side is provided with a temperature controller (6), a heating switch (7) and a micro air pump (8) which are electrically connected; a flexible heating film (4) and a heat insulating material (2) thereof are arranged around the conical pipe type structure (15) of the insulating shell (14); an inner cavity extrusion air bag (5) and an exhaust valve (13) thereof are arranged on the inner wall surface of the middle part of the insulating shell (14); and a rear cover (9) is arranged at the rear end of the insulating shell (14).

3. The self-inductive medical couplant extrusion apparatus of claim 1, wherein: the power supply (3) is a battery power supply or a charging power supply.

4. The self-inductive medical couplant extrusion apparatus of claim 1, wherein: the flexible heating film (4) is a flexible heating film or a flexible liner film.

5. The self-inductive medical couplant extrusion apparatus of claim 1, wherein: the insulating shell (14) is of an outer surface anti-slip structure with finger grooves.

6. The self-inductive medical couplant extrusion apparatus of claim 2, wherein: the rear cover (9) is of a spiral fixing structure or a buckling fixing structure.

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