CN220632764U - Ultrasonic conductivity meter with multiple probes - Google Patents

Abstract

The utility model discloses a multi-probe ultrasonic conductivity meter, which relates to the field of electronic medical equipment and comprises an ultrasonic conductivity meter body and a storage assembly, wherein a socket is arranged on the side of the ultrasonic conductivity meter body, and a detection probe assembly is arranged on the outer surface of the socket in a clamping manner. This ultrasonic conductivity meter of many probes is through the fixed bolster that sets up and accomodate the subassembly for this ultrasonic conductivity meter is convenient for accomodate the processing to detecting probe subassembly, simultaneously through the hand formula two-way lead screw that sets up, make the staff can carry out the opposite direction removal at the wire tightening subassembly of drive both sides when the inside rotation of receiver body of hand formula two-way lead screw, thereby reach and carry out the processing of stretching out to the detecting probe subassembly of accomodating, thereby avoided medical personnel to directly put into the condition emergence of wire body winding phenomenon between the probe that causes to deposit in the case with a plurality of probes after finishing using ultrasonic conductivity meter, and then take out the use to medical personnel's follow-up and provide convenient.

Description

Ultrasonic conductivity meter with multiple probes

Technical Field

The utility model relates to the field of electronic medical equipment, in particular to an ultrasonic conductivity meter with multiple probes.

Background

An ultrasonic conductivity meter is an electronic medical device which takes ultrasonic waves as main power and realizes needleless injection target site drug penetration of drugs, and is widely applied to local positioning drug treatment of partial diseases, such as local closed injection, acupoint drug closure, intra-organ drug intervention treatment and the like.

However, the existing ultrasonic conductivity meter still has some defects, such as the existing ultrasonic conductivity meter probe is inconvenient to store, so that medical staff often put a plurality of probes into the storage box directly after the ultrasonic conductivity meter is used, and therefore a wire winding phenomenon occurs between the stored probes, and further inconvenience is brought to the follow-up taking out and use of the medical staff.

Therefore, the utility model provides a multi-probe ultrasonic conductivity meter which aims at the defects of the existing structure and is researched and improved.

Disclosure of Invention

The utility model aims to provide a multi-probe ultrasonic conductivity meter for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an ultrasonic conductance appearance of many probes, includes ultrasonic conductance appearance body and accomodates the subassembly, connect the socket is installed to the avris of ultrasonic conductance appearance body, and connects the surface block of socket to install the detection probe subassembly to the bottom fixedly connected with fixed bolster of ultrasonic conductance appearance body, the bottom fixed mounting of fixed bolster has anti-skidding base moreover, accomodate subassembly sliding connection in the inside of fixed bolster, and accomodate the inside fixed mounting of subassembly and have the division board.

Further, the detection probe assembly comprises a connector, a transmission line and a probe body, wherein the end part of the connector is fixedly connected with the transmission line, and the probe body is fixedly arranged at the other end of the transmission line.

Further, the end of the transmission line is fixedly connected with the end of the connector, the other end of the transmission line is fixedly connected with the side of the probe body, the probe body and the connector form a fixed structure through the transmission line, and the inside of the connector is in clamping connection with the outer surface of the connector jack.

Further, the number of the anti-slip base is four, every two anti-slip bases are in a group, the two anti-slip bases are symmetrically arranged by taking the perpendicular bisector of the fixing support as a symmetry axis, the top of the fixing support is fixedly connected with the bottom of the ultrasonic conductivity meter body, and the anti-slip base and the ultrasonic conductivity meter body form a fixing structure through the fixing support.

Further, the storage component comprises a T-shaped sliding strip, a storage box body, a hand-operated bidirectional screw rod, a wire tightening component and a handle, wherein the storage box body is fixedly connected to the side of the T-shaped sliding strip, the hand-operated bidirectional screw rod is rotatably connected to the inside of the storage box body, the wire tightening component is slidably connected to the inner surface of the storage box body, and the handle is fixedly connected to the side of the storage box body.

Further, the number of the T-shaped sliding strips is two, the two T-shaped sliding strips are symmetrically arranged by taking the perpendicular bisectors of the storage box body as symmetry axes, and the storage box body and the fixing support form a sliding structure through the T-shaped sliding strips.

Further, the wire tightening assembly comprises a guide sliding block, a wire tightening plate and an arc clamping groove, the side of the guide sliding block is fixedly connected with the wire tightening plate, the top of the wire tightening plate is equidistantly separated from the arc clamping groove, and the wire tightening plate and the detection probe assembly form a clamping structure through the arc clamping groove.

Furthermore, the number of the guide sliding blocks is two, the two guide sliding blocks are symmetrically arranged by taking the perpendicular bisectors of the wire stretching plates as symmetry axes, and the wire stretching plates and the storage box body form a sliding structure through the guide sliding blocks.

The utility model provides a multi-probe ultrasonic conductivity meter, which has the following beneficial effects:

1. according to the utility model, through the fixed support and the storage component, the ultrasonic conductivity meter is convenient for storing the detection probe component, and meanwhile, through the hand-operated bidirectional screw rod, the wire stretching components on two sides can move oppositely when a worker drives the hand-operated bidirectional screw rod to rotate in the storage box body, so that the stored detection probe component is straightened, the situation that a wire body is wound between the stored probes due to the fact that a plurality of probes are directly placed in the storage box by a medical worker after the ultrasonic conductivity meter is used is avoided, and convenience is provided for the follow-up taking out and use of the medical worker.

2. According to the ultrasonic conductivity meter, the plurality of detection probe assemblies can be installed and used simultaneously through the arranged connector socket, so that convenience is brought to practical use of medical staff, the stability of the ultrasonic conductivity meter in use can be further enhanced through the arrangement of the anti-slip base, meanwhile, as the medical staff can put spare redundant detection probe assemblies into the storage assembly for storage, the phenomenon of losing the detection probe assemblies when the detection probe assemblies are not in use can be effectively prevented, and the situation that the used detection probe assemblies are damaged and cannot be replaced in time to cause interference to follow-up operation of the medical staff can be avoided.

Drawings

FIG. 1 is a schematic diagram of the front view of a multi-probe ultrasonic conductivity meter according to the present utility model;

FIG. 2 is a schematic diagram of the structure of a multi-probe ultrasonic conductivity meter in cross-section;

fig. 3 is an exploded perspective view of a receiver body-wire stretching plate of the multi-probe ultrasonic conductivity meter according to the present utility model.

In the figure: 1. an ultrasonic conductivity meter body; 2. a socket; 3. a detection probe assembly; 31. a connector; 32. a transmission line; 33. a probe body; 4. a fixed bracket; 5. an anti-slip base; 6. a receiving assembly; 61. a T-shaped slide; 62. a storage box body; 63. hand-operated bidirectional screw rod; 64. a wire stretching assembly; 641. a guide slide block; 642. a wire stretching plate; 643. an arc-shaped clamping groove; 65. a handle; 7. a partition plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1-3, an ultrasonic conductivity meter with multiple probes comprises an ultrasonic conductivity meter body 1 and a storage component 6, wherein a socket 2 is arranged at the side of the ultrasonic conductivity meter body 1, a detection probe component 3 is arranged on the outer surface of the socket 2 in a clamping way, a fixed support 4 is fixedly connected to the bottom of the ultrasonic conductivity meter body 1, an anti-slip base 5 is fixedly arranged at the bottom of the fixed support 4, the storage component 6 is slidingly connected to the inside of the fixed support 4, the storage component 6 comprises a T-shaped slide bar 61, a storage box body 62, a hand-operated bidirectional screw 63, a tightening assembly 64 and a handle 65, the storage box bodies 62 are fixedly connected to the side of the T-shaped slide bar 61, the two T-shaped slide bars 61 are symmetrically arranged by taking the perpendicular bisector of the storage box body 62 as a symmetrical axis, the storage box body 62 and the fixed support 4 form a sliding structure, through the storage box body 62 and the fixed bracket 4 which are arranged into a sliding structure, the storage box body 62 can not generate position deviation when moving, the hand-operated bidirectional screw rod 63 is rotationally connected in the storage box body 62, the inner surface of the storage box body 62 is slidingly connected with the wire tightening assembly 64, the wire tightening assembly 64 comprises the guide slide blocks 641, the wire tightening plates 642 and the arc clamping grooves 643, the wire tightening plates 642 are fixedly connected with the side sides of the guide slide blocks 641, the number of the guide slide blocks 641 is two, the two guide slide blocks 641 are symmetrically arranged by taking the perpendicular bisector of the wire tightening plates 642 as a symmetrical axis, the wire tightening plates 642 and the storage box body 62 form a sliding structure through the guide slide blocks 641, the wire tightening plates 642 and the storage box body 62 which are arranged into sliding structures can not generate position deviation when moving, the tops of the wire tightening plates 642 are equidistantly separated from the arc clamping grooves 643, moreover, the wire stretching plate 642 forms a clamping structure with the detection probe assembly 3 through the arc-shaped clamping groove 643, and the detection probe assembly 3 and the wire stretching plate 642 which are arranged into the clamping structure enable the detection probe assembly 3 to be convenient for medical staff to install on the wire stretching plate 642, meanwhile, the side of the storage box body 62 is fixedly connected with the handle 65, and the partition plate 7 is fixedly installed inside the storage assembly 6.

As shown in fig. 1 and 2, connect socket 2 is installed to the avris of ultrasonic conductivity meter body 1, and connect the surface block of socket 2 to install and detect probe subassembly 3, detect probe subassembly 3 includes connector 31, transmission line 32 and probe body 33, and the tip fixedly connected with transmission line 32 of connector 31, the tip of transmission line 32 and the tip fixed connection of connector 31, and the other end of transmission line 32 and the avris fixed connection of probe body 33, and probe body 33 constitutes fixed knot through transmission line 32 and connector 31, and the inside and the surface block of socket 2 of connector 31 are connected, through setting up into fixed knot constructs's probe body 33 and connector 31, make transmission line 32 receive and appear breaking away from between connector 31 or the probe body 33, and the other end fixed mounting of transmission line 32 has probe body 33, and the bottom fixedly connected with fixed bolster 4 of ultrasonic conductivity meter body 1, and the bottom fixed mounting of fixed bolster 4 has anti-slip base 5, the quantity of four anti-slip base 5 is four, two sets of base 5 are two sets of respectively, with fixed bolster 4 and take in the fixed knot and take in the base 6 and make the inside and take in the base 1 and take in the fixed knot to be fixed knot through setting up the symmetrical support body 6 of fixed knot of anti-slip meter body 1, the anti-slip meter body 1 and the anti-slip device is fixed knot constructs, the anti-slip meter 1 can take in the anti-slip electrical conductor assembly is fixed knot and take-slip piece 1.

To sum up, according to the structure shown in fig. 1 to 3, firstly, a medical staff grabs the handle 65 and pulls the storage box body 62 out of the fixed support 4 through the sliding of the T-shaped sliding bar 61, then grabs the hand-operated bidirectional screw 63 and drives the hand-operated bidirectional screw 63 to rotate in the storage box body 62, then the wire stretching plates 642 on two sides can simultaneously move towards the middle part through the sliding of the guide slide block 641 on the separation plate 7 and the storage box body 62, so as to achieve the purpose of loosening wires, then the medical staff takes the transmission wire 32 out of the arc-shaped clamping groove 643, so as to achieve the purpose of taking the detection probe assembly 3 out of the storage box 6, then the medical staff clamps the connector 31 on the outer surface of the connecting jack 2, so as to achieve the purpose of installing the detection probe assembly 3, and after all the detection probe assemblies 3 to be used are installed, the bidirectional screw 63 is reversely rotated, so that the wire stretching assemblies 64 carry out the stretching treatment on the detection probe assembly 3 which is remained in the storage box assembly 6, then the medical staff can move the storage box body 6 again into the storage box body 6 through the sliding of the T-shaped sliding bar 61, so as to achieve the purpose of taking the ultrasonic staff to attach the ultrasonic transducer body 1 to the patient on the body 1, so as to achieve the purpose of fixing the ultrasonic transducer body 1.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides an ultrasonic conductance appearance of many probes, includes ultrasonic conductance appearance body (1) and accomodates subassembly (6), its characterized in that, connect socket (2) are installed to the avris of ultrasonic conductance appearance body (1), and connect the surface block of socket (2) to install detection probe subassembly (3) to the bottom fixedly connected with fixed bolster (4) of ultrasonic conductance appearance body (1), the bottom fixed mounting of fixed bolster (4) has anti-skidding base (5) moreover, accomodate the inside of subassembly (6) sliding connection in fixed bolster (4), and accomodate the inside fixed mounting of subassembly (6) have division board (7).

2. The multi-probe ultrasonic conductivity meter according to claim 1, wherein the detecting probe assembly (3) comprises a connector (31), a transmission line (32) and a probe body (33), the end part of the connector (31) is fixedly connected with the transmission line (32), and the other end of the transmission line (32) is fixedly provided with the probe body (33).

3. The ultrasonic conductivity meter with multiple probes according to claim 2, wherein the end of the transmission line (32) is fixedly connected with the end of the connector (31), the other end of the transmission line (32) is fixedly connected with the side of the probe body (33), the probe body (33) and the connector (31) form a fixed structure through the transmission line (32), and the inside of the connector (31) is in clamping connection with the outer surface of the jack (2).

4. The multi-probe ultrasonic conductivity meter according to claim 1, wherein the number of the anti-slip bases (5) is four, each two of the four anti-slip bases (5) is one group, the two groups of anti-slip bases (5) are symmetrically arranged by taking the perpendicular bisector of the fixing support (4) as a symmetry axis, the top of the fixing support (4) is fixedly connected with the bottom of the ultrasonic conductivity meter body (1), and the anti-slip bases (5) and the ultrasonic conductivity meter body (1) form a fixing structure through the fixing support (4).

5. The multi-probe ultrasonic conductivity meter according to claim 1, wherein the storage component (6) comprises a T-shaped slide bar (61), a storage box body (62), a hand-operated bidirectional screw (63), a wire stretching component (64) and a handle (65), the storage box body (62) is fixedly connected to the side of the T-shaped slide bar (61), the hand-operated bidirectional screw (63) is rotatably connected to the inside of the storage box body (62), the wire stretching component (64) is slidably connected to the inner surface of the storage box body (62), and the handle (65) is fixedly connected to the side of the storage box body (62).

6. The multi-probe ultrasonic conductivity meter according to claim 5, wherein the number of the T-shaped slides (61) is two, the two T-shaped slides (61) are symmetrically arranged with the perpendicular bisector of the storage box body (62) as a symmetry axis, and the storage box body (62) and the fixing support (4) form a sliding structure through the T-shaped slides (61).

7. The multi-probe ultrasonic conductivity meter according to claim 5, wherein the wire stretching assembly (64) comprises a guide sliding block (641), a wire stretching plate (642) and an arc clamping groove (643), the side of the guide sliding block (641) is fixedly connected with the wire stretching plate (642), the top of the wire stretching plate (642) is equidistantly separated from the arc clamping groove (643), and the wire stretching plate (642) and the detection probe assembly (3) form a clamping structure through the arc clamping groove (643).

8. The multi-probe ultrasonic conductivity meter according to claim 7, wherein the number of the guide sliders (641) is two, the two guide sliders (641) are symmetrically arranged with the perpendicular bisector of the wire stretching plate (642) as a symmetry axis, and the wire stretching plate (642) and the storage box body (62) form a sliding structure through the guide sliders (641).