CN220236907U - Novel ultrasonic guide sleeve - Google Patents

Abstract

The utility model provides a novel ultrasonic guide sleeve, which relates to the technical field of ultrasonic tools and comprises the following components: the guiding structure is sleeved at the front end of the ultrasonic machine probe and fully attached to the ultrasonic machine probe to protect the ultrasonic machine probe; the protection structure is fixedly connected to the rear end of the guide mechanism, and the protection structure is used for coating and protecting wires at the rear end of the ultrasonic machine probe after the guide structure is sleeved outside the ultrasonic machine probe; the storage mechanism is arranged inside the guide structure, and releases the coupling agent inside when the ultrasonic probe is attached to the guide structure, so that the attachment of the guide structure and the ultrasonic probe is promoted, and the problems that the existing ultrasonic guide sleeve is poor in elasticity, a large amount of coupling agent is needed to be used when the ultrasonic probe is sleeved, waste is generated, the guide sleeve is not attached to the ultrasonic probe, and the imaging effect is seriously affected are solved.

Description

Novel ultrasonic guide sleeve

Technical Field

The utility model relates to the technical field of ultrasonic tools, in particular to a novel ultrasonic guide sleeve.

Background

When the ultrasonic machine is used for detecting the body of a patient, in order to protect the probe of the ultrasonic machine and avoid pollution, an ultrasonic guide sleeve is often sleeved outside the probe of the ultrasonic machine, however, the existing ultrasonic guide sleeve is poor in elasticity, particularly when vascular ultrasound is carried out, a large amount of coupling agent is needed to be used during sleeving, waste is generated, and meanwhile, the guide sleeve is not attached to the probe of the ultrasonic machine, so that the imaging effect is seriously affected.

Disclosure of Invention

The utility model provides a novel ultrasonic guide sleeve, which specifically comprises:

the guiding structure is sleeved at the front end of the ultrasonic machine probe and fully attached to the ultrasonic machine probe to protect the ultrasonic machine probe;

the protection structure is fixedly connected to the rear end of the guide mechanism, and the protection structure is used for coating and protecting wires at the rear end of the ultrasonic machine probe after the guide structure is sleeved outside the ultrasonic machine probe;

and the storage mechanism is arranged inside the guide structure, releases the internal couplant when the ultrasonic probe is attached to the guide structure and is used for promoting the attachment of the guide structure and the ultrasonic probe.

Further, the guide structure is stored through curling, and after the protective structure is folded tightly against the guide structure, the protective structure is curled and folded along with the guide structure.

Further, the guide structure is an expanded sheet structure, and the guide structure is formed in a tubular shape after surrounding the coated wire.

Further, the guiding mechanism comprises a guiding part; the guide part comprises a guide sleeve and a guide ring; the guide sleeve is made of rubber; the head of the guide sleeve is of a spherical closed structure, and the rear end of the guide sleeve is of a tubular structure; the guide sleeve has elasticity.

Further, the guide ring is a rubber ring, and the lower end of the guide ring and the tail part of the guide sleeve are integrally formed.

Further, when the guide sleeve is in a storage state, the flat head of the guide sleeve is placed at the front end of the probe, and the curled guide sleeve is pulled upwards, so that the guide sleeve is fully attached to the probe.

Further, the protection structure comprises a protection part; the protection part comprises a protection sleeve and a connecting adhesive tape; the protective sleeve is made of plastic, and one half of the length of the lower end of the protective sleeve is fixedly connected with the guide ring; the lower ends of the other half lengths of the protective sleeves are folded back and overlapped.

Furthermore, a connecting adhesive tape is attached to the side edge of the protective sleeve with the length being one half of the length, the two side edges of the protective sleeve are adhered through the connecting adhesive tape, wires of the ultrasonic probe are wrapped, and the tail part of the guide sleeve is tightened.

Further, the storage mechanism comprises a storage part, and the storage part comprises a storage bag and a seepage hole; the storage bag is connected to the junction of the spherical closing structure and the tubular structure of the guide sleeve, and the outside of the storage bag is provided with circumferentially arranged exudation holes.

Further, the couplant is injected into the storage bag, and when the probe is inserted into the guide sleeve, the storage bag is extruded, and the couplant overflows from the seepage hole, so that the probe is fully attached to the inner wall of the spherical closed structure of the guide sleeve.

Advantageous effects

In the utility model, when not in use, the protective sleeve takes half length as a limit, and is folded for storage, so that when the ultrasonic probe is inserted into the guide sleeve, the protective sleeve is not needed, the ultrasonic probe can not be extruded with the protective sleeve made of plastic materials, the flat head of the guide sleeve is placed at the front end of the probe, the curled guide sleeve is pulled upwards, the guide sleeve is fully attached to the probe, then the wire at the tail end of the probe is wrapped through the protective sleeve, the protective sleeve is tightened through the connecting adhesive tape, meanwhile, the tail part of the guide sleeve is tightened at the same time, the loosening of the tail part of the guide sleeve is avoided, the couplant is injected into the storage bag, when the probe is inserted into the guide sleeve, the storage bag is extruded, the couplant overflows from the seepage hole, the probe is fully attached to the inner wall of the spherical closed structure of the guide sleeve, waste is reduced, the attachment of the guide sleeve and the probe is ensured, and the imaging quality is ensured through the structure.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the utility model and are not intended to limit the utility model.

In the drawings:

fig. 1 shows a schematic view of the housing of an ultrasound guiding sleeve according to an embodiment of the utility model.

Fig. 2 shows a semi-expanded schematic view of an ultrasound guiding sleeve according to an embodiment of the utility model.

Fig. 3 shows an enlarged partial schematic view of the ultrasound guide sleeve at a of fig. 2 according to an embodiment of the utility model.

Fig. 4 shows a fully expanded schematic view of an ultrasound guiding sleeve according to an embodiment of the utility model.

Fig. 5 shows an enlarged partial schematic view of the ultrasound guide sleeve at B of fig. 4, in accordance with an embodiment of the present utility model.

Fig. 6 shows a cross-sectional view of the guide portion of the ultrasonic guide sleeve according to an embodiment of the present utility model.

List of primary reference numerals

1. A guide section; 101. a guide sleeve; 102. a guide ring;

2. a protection part; 201. a protective sleeve; 202. connecting a glue paste;

3. a storage section; 301. a storage bag; 302. exudation from the pores.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present utility model more clear, the technical solution of the embodiment of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present utility model.

Examples: please refer to fig. 1 to 6:

the utility model provides a novel ultrasonic guide sleeve, which comprises:

the guiding structure is sleeved at the front end of the ultrasonic machine probe and fully attached to the ultrasonic machine probe to protect the ultrasonic machine probe;

the protection structure is fixedly connected to the rear end of the guide mechanism, and the protection structure is used for coating and protecting wires at the rear end of the ultrasonic machine probe after the guide structure is sleeved outside the ultrasonic machine probe;

the storage mechanism is arranged inside the guide structure, releases the coupling agent inside when the ultrasonic probe is attached to the guide structure and is used for promoting the attachment of the guide structure and the ultrasonic probe.

The guide structure is stored by curling, and after the protection structure is folded tightly against the guide structure, the protection structure is curled and folded along with the guide structure; after the winding, the volume of the device can be greatly reduced, and the device is convenient to store and transport.

The guide structure is an expanded sheet-like structure, and the guide structure is formed into a tubular shape after surrounding the coated wire.

Wherein, as shown in fig. 2, the guiding mechanism comprises a guiding part 1; the guide part 1 comprises a guide sleeve 101 and a guide ring 102; the guide sleeve 101 is made of rubber; the head of the guide sleeve 101 is of a spherical closed structure, and the rear end of the guide sleeve 101 is of a tubular structure; the guide sleeve 101 has elasticity; the ultrasonic probe is inserted into the guide sleeve 101 through the elasticity of the guide sleeve 101, so that the guide sleeve 101 is tightly attached to the surface of the probe, and the imaging effect can be effectively ensured.

As shown in fig. 2, the guide ring 102 is a rubber ring, and the lower end of the guide ring 102 and the tail of the guide sleeve 101 are integrally formed; the guide ring 102 plays a guiding role when the guide sleeve 101 is wound, and the guide sleeve 101 and the protective sleeve 201 are connected through the guide ring 102.

When the guide sleeve 101 is in the storage state, the flat guide sleeve 101 is placed at the front end of the probe, and the curled guide sleeve 101 is pulled upward, so that the guide sleeve 101 is fully attached to the probe, as shown in fig. 1 and 2.

Wherein, as shown in fig. 2 and 3, the protection structure comprises a protection part 2; the protection part 2 comprises a protection sleeve 201 and a connecting adhesive tape 202; the protective sleeve 201 is made of plastic, and one half of the length of the lower end of the protective sleeve 201 is fixedly connected with the guide ring 102; the lower ends of the other half length protective sleeves 201 are folded back and overlapped; the protective sleeve 201 takes half of the length as a limit, and is folded to be stored, so that when the ultrasonic probe is inserted into the guide sleeve 101, the ultrasonic probe does not need to pass through the protective sleeve 201, and further the ultrasonic probe cannot be extruded with the protective sleeve 201 made of plastic materials, and the couplant needed to be used is saved.

As shown in fig. 4 and fig. 5, a connecting adhesive tape 202 is attached to the side edge of the protective sleeve 201 with the other half length, two side edges of the protective sleeve 201 are adhered through the connecting adhesive tape 202, wires of an ultrasonic probe are wrapped, and the tail of the guide sleeve 101 is tightened; after the ultrasonic probe is inserted into the guide sleeve 101, the wire at the tail end of the probe is wrapped through the protective sleeve 201, and the protective sleeve 201 is tightened through the connecting adhesive tape 202, so that the wire of the probe is protected, meanwhile, the tail of the guide sleeve 101 is tightened while the protective sleeve 201 is tightened, and the tail of the guide sleeve 101 is prevented from loosening, so that the head of the guide sleeve 101 is prevented from being misplaced and not attached.

Wherein, as shown in fig. 6, the storage mechanism comprises a storage part 3, and the storage part 3 comprises a storage bag 301 and a exudation hole 302; the storage bag 301 is connected to the junction between the spherical closing structure and the tubular structure of the guide sleeve 101, and the outer side of the storage bag 301 is provided with circumferentially arranged exudation holes 302.

As shown in fig. 6, the couplant is injected into the storage bag 301, and when the probe is inserted into the guide sleeve 101, the storage bag 301 is extruded, and the couplant overflows from the effusion hole 302, so that the probe is fully attached to the inner wall of the spherical closed structure of the guide sleeve 101; the exudation holes 302 are uniformly distributed on the storage bag 301, so that the couplant can be uniformly output between the probe and the inner wall of the spherical closed structure of the guide sleeve 101, waste is reduced compared with manual injection of the couplant, meanwhile, the attachment of the guide sleeve 101 and the probe is ensured, and the imaging quality is ensured.

Specific use and action of the embodiment: according to the utility model, when the ultrasonic probe is not used, the protective sleeve 201 is folded and stored by taking the half length as a limit, so that the protective sleeve 201 is not needed to be passed when the ultrasonic probe is inserted into the guide sleeve 101, the ultrasonic probe cannot be extruded with the protective sleeve 201 made of plastic materials, the head of the flat guide sleeve 101 is placed at the front end of the probe, the curled guide sleeve 101 is pulled upwards, the guide sleeve 101 is fully attached to the probe, then the wire at the tail end of the probe is wrapped through the protective sleeve 201 and the protective sleeve 201 is tightened through the connecting adhesive 202, meanwhile, the tail part of the guide sleeve 101 is tightened at the same time, the tail part of the guide sleeve 101 is prevented from loosening, the couplant is injected into the storage bag 301 when the probe is inserted into the guide sleeve 101, and the couplant overflows from the effusion hole 302, so that the probe is fully attached to the inner wall of the spherical closed structure of the guide sleeve 101.

The foregoing is merely exemplary embodiments of the present utility model and is not intended to limit the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides a novel supersound guide pin bushing which characterized in that includes:

the guiding structure is sleeved at the front end of the ultrasonic machine probe and fully attached to the ultrasonic machine probe to protect the ultrasonic machine probe;

the protection structure is fixedly connected to the rear end of the guide mechanism, and the protection structure is used for coating and protecting wires at the rear end of the ultrasonic machine probe after the guide structure is sleeved outside the ultrasonic machine probe;

and the storage mechanism is arranged inside the guide structure, releases the internal couplant when the ultrasonic probe is attached to the guide structure and is used for promoting the attachment of the guide structure and the ultrasonic probe.

2. The novel ultrasonic guide sleeve of claim 1, wherein the guide structure is received by crimping and the protective structure is crimped with the guide structure after being folded against the guide structure.

3. The novel ultrasonic guide sleeve according to claim 1, wherein the guide structure is an expanded sheet structure, and the guide structure is formed in a tubular shape after surrounding the coated wire.

4. A new ultrasonic guide sleeve according to claim 1, characterized in that the guide means comprises a guide part (1); the guide part (1) comprises a guide sleeve (101) and a guide ring (102); the guide sleeve (101) is made of rubber; the head of the guide sleeve (101) is of a spherical closed structure, and the rear end of the guide sleeve (101) is of a tubular structure; the guide sleeve (101) has elasticity.

5. The novel ultrasonic guide sleeve according to claim 4, wherein the guide ring (102) is a rubber ring, and the lower end of the guide ring (102) and the tail part of the guide sleeve (101) are integrally formed.

6. The novel ultrasonic guide sleeve according to claim 4, wherein when the guide sleeve (101) is in the storage state, the flat guide sleeve (101) head is placed at the front end of the probe, and the curled guide sleeve (101) is pulled upwards, so that the guide sleeve (101) is fully attached to the probe.

7. The novel ultrasonic guide sleeve according to claim 4, wherein the protective structure comprises a protective part (2); the protection part (2) comprises a protection sleeve (201) and a connecting adhesive tape (202); the protective sleeve (201) is made of plastic, and one half of the length of the lower end of the protective sleeve (201) is fixedly connected with the guide ring (102); the lower ends of the other half lengths of the protective sleeves (201) are folded back and overlapped.

8. The novel ultrasonic guide sleeve according to claim 7, wherein a connecting adhesive tape (202) is attached to the side edge of the protective sleeve (201) with the other half length, two side edges of the protective sleeve (201) are adhered through the connecting adhesive tape (202), wires of an ultrasonic probe are wrapped, and the tail of the guide sleeve (101) is tightened.

9. The novel ultrasonic guide sleeve according to claim 4, wherein the storage mechanism comprises a storage part (3), and the storage part (3) comprises a storage bag (301) and a seepage hole (302); the storage bag (301) is connected to the junction of the spherical closed structure and the tubular structure of the guide sleeve (101), and the outside of the storage bag (301) is provided with circumferentially arranged seepage holes (302).

10. The novel ultrasonic guide sleeve according to claim 9, wherein a coupling agent is injected into the storage bag (301), and when the probe is inserted into the guide sleeve (101), the storage bag (301) is extruded, and the coupling agent overflows from the seepage hole (302) so that the probe is fully attached to the inner wall of the spherical closed structure of the guide sleeve (101).