CN108903972B

CN108903972B - Unilateral supplementary device for medical ultrasonic probe

Info

Publication number: CN108903972B
Application number: CN201810633863.0A
Authority: CN
Inventors: 张文伟; 邱杰; 丁慧; 徐亚维
Original assignee: Affiliated Hospital of University of Qingdao
Current assignee: Affiliated Hospital of University of Qingdao
Priority date: 2018-06-20
Filing date: 2018-06-20
Publication date: 2020-12-08
Anticipated expiration: 2038-06-20
Also published as: CN108903972A

Abstract

The invention discloses a unilateral supplementing device for a medical ultrasonic probe, which comprises an ultrasonic probe and a supplementing bracket, wherein the ultrasonic probe is connected with the supplementing bracket through a connecting rod; a central processor is arranged on the left end surface of the supplementary support; a traveling couplant rack is detachably mounted on the left end face of the ultrasonic probe; the following couplant rack comprises a following couplant box at the lower part; a following couplant groove is arranged in the following couplant box; an inserting groove which is matched with the ultrasonic probe is formed in the center of the upper end face of the bracket body in a downward penetrating manner; lower supporting plates are respectively formed at the lower ends of the left side wall and the right side wall of the inserting groove; a compression switch unit is arranged on the upper end surface of the lower supporting plate; the compression switch unit is connected with the central processor. The accompanying couplant rack automatically coats the couplant along with the use of the ultrasonic probe, so that the time for medical personnel to coat the couplant is reduced, the couplant can be automatically supplemented when the ultrasonic probe is placed on the supplementing support in the positive and negative directions, and the frequency for supplementing the couplant into the couplant containing groove is greatly reduced.

Description

Unilateral supplementary device for medical ultrasonic probe

Technical Field

The invention relates to medical ultrasonic instrument equipment, in particular to a unilateral supplementing device for a medical ultrasonic probe.

Background

During human ultrasonography, generally all can use the couplant in order to obtain better detection effect, but current medical ultrasonic probe does not have the function of carrying the couplant, when needing the couplant use, directly paints through holding the bottle by medical personnel, and intensity of labour is big, and extravagant serious.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a unilateral supplementing device for a medical ultrasonic probe, which comprises an ultrasonic probe and a supplementing bracket, wherein the ultrasonic probe is arranged on the supplementing bracket; the supplementary support comprises a support body; a central processor is arranged on the left end surface of the bracket body; a traveling couplant rack is detachably mounted on the left end face of the ultrasonic probe; the following couplant rack comprises a following couplant box at the lower part; a following couplant groove is arranged in the following couplant box; an inserting groove which is matched with the ultrasonic probe is formed in the center of the upper end face of the bracket body in a downward penetrating manner; lower supporting plates are respectively formed at the lower ends of the left side wall and the right side wall of the inserting groove; a compression switch unit is arranged on the upper end surface of the lower supporting plate; the compression switch unit is connected with the central processor; the upper parts of the left and right side walls of the inserting groove are formed with supplementary nozzle accommodating grooves; coupling agent accommodating grooves are formed in the lower parts of the left part and the right part of the bracket body respectively; the coupling agent containing groove is filled with the coupling agent; a movable support plate is horizontally arranged in the supplementary nozzle accommodating groove in a moving way; a supplementary nozzle is arranged at the lower part of the end face of the movable supporting plate, which is opposite to the ultrasonic probe; a supplementary injection opening matched with the supplementary nozzle is formed on the end surface of the follower coupling agent box away from the ultrasonic probe; the supplement injection port is opposite to the supplement nozzle; the replenishing nozzle is used for replenishing the couplant in the couplant containing groove into the accompanying couplant groove; the drive element of the replenishment nozzle is fixedly connected to the central processor.

Preferably, a rectangular insertion mounting plate is formed at one end of the upper end surface of the follower coupling agent box, which is close to the ultrasonic probe; a lower insertion mounting groove matched with the follower coupling agent box is formed at the lower end of the left end face of the ultrasonic probe; the center of the upper side wall of the lower inserting installation groove is provided with an inserting installation groove matched with the inserting installation plate.

Preferably, an upper one-way valve is arranged between the supplementary injection port and the accompanying couplant tank; a plurality of compression spring installation grooves which are uniformly distributed up and down are arranged on the side wall of the accompanying couplant groove close to the ultrasonic probe; a pressure spring is fixed on the bottom surface of the pressure spring mounting groove; extrusion plates are arranged in the accompanying couplant grooves in a left-right sliding manner; the other end of the pressure spring is fixed on the extrusion plate; an L-shaped moving driving groove is formed on the upper side wall of the mixture groove; the horizontal part of the movable driving groove penetrates through the end face, far away from the ultrasonic probe, of the follower coupling agent box; an L-shaped driving block matched with the movable driving groove is formed at the upper end of the extrusion plate; an upward through avoidance groove matched with the driving block is respectively formed at one end close to the upper side wall of the pair of complementary nozzle accommodating grooves; one end of each avoidance groove close to the corresponding avoidance groove is not sealed; an ejector rod matched with the driving block is formed at the upper part of the end face of the movable supporting plate, which is opposite to the ultrasonic probe; a discharge pipeline vertically penetrates downwards from one end, far away from the ultrasonic probe, of the lower side wall of the accompanying couplant groove; a lower check valve is arranged on the discharge pipeline.

Preferably, the upper side wall of the couplant storage tank is provided with an electric pump; the lower end of the electric pump is provided with a lower absorption pipe, and the upper end of the electric pump is provided with a connecting hose; the left end face and the right end face of the supplementary support are respectively fixed with a supplementary driving electric cylinder; the piston rod of the supplementary driving electric cylinder penetrates through the side wall of the supplementary nozzle receiving groove on the corresponding side; the movable supporting plate is fixed on a piston rod of the supplementary driving electric cylinder on the corresponding side; the upper end of the connecting hose is fixed on the movable supporting plate and is connected with the supplementary nozzle; the electric pump and the supplementary driving electric cylinder are connected with the central processor.

Preferably, rectangular supporting insertion plates are respectively formed at the lower parts of the front side wall and the rear side wall of the insertion groove; the lower parts of the front end surface and the rear end surface of the ultrasonic probe are respectively formed with a supporting slot matched with the supporting inserting plate.

Preferably, the front and rear side walls of the insertion mounting groove are respectively formed with an insertion guide groove; the front end surface and the rear end surface of the inserting installation plate are respectively provided with an inserting guide block matched with the inserting guide groove.

Preferably, an inverted T-shaped lifting groove is formed in the upper end surface of the lower support block; a circular ring groove-shaped pressure spring placing groove is formed on the lower side wall of the lifting groove; the compression switch unit comprises a compression block matched with the lifting groove, a pressure sensor and a switch compression spring; the switch compression spring is inserted in the compression spring arrangement groove, the lower end of the switch compression spring is fixed on the bottom surface of the compression spring arrangement groove, and the upper end of the switch compression spring is fixed on the lower end surface of the compression block; the pressure sensor is arranged in the center of the lower side wall of the lifting groove; the pressure sensor is connected with the central processor.

Preferably, in the above technical solution, a lower side line of the end face of the follower coupler cartridge away from the ultrasonic probe is formed with a rounded corner; the upper end surface of the lower supporting block is matched with the rounded corner of the follower coupling agent box.

The invention has the beneficial effects that: the accompanying couplant rack automatically paints the couplant along with the use of the ultrasonic probe, so that the time for medical personnel to paint the couplant is reduced, the couplant can be automatically supplemented when the ultrasonic probe is positively and negatively placed on the supplementing support, and the frequency for supplementing the couplant into the couplant containing groove is greatly reduced.

Drawings

FIG. 1 is a schematic structural view of a cross section of the present invention;

FIG. 2 is a schematic structural view of a cross section of the present invention;

fig. 3 is a partially enlarged structural view of a in fig. 1 according to the present invention.

In the figure, 10, an ultrasonic probe; 100. inserting the mounting groove; 101. a support slot; 102. the lower insertion mounting groove; 20. supplementing a bracket; 21. a stent body; 210. inserting into a groove; 211. a supplemental nozzle receiving slot; 212. an avoidance groove; 213. a couplant receiving tank; 214. a lower support plate; 2140. a lifting groove; 2141. a pressure spring placing groove; 215. supporting the inserting plate; 22. supplementing a driving electric cylinder; 221. moving the support plate; 23. a top rod; 24. a replenishing nozzle; 25. an electric pump; 251. a connecting hose; 252. a lower absorption tube; 26. a compression block; 27. a pressure sensor; 28. switching a pressure spring; 30. a traveling couplant rack; 31. a follower coupler cartridge; 310. a follower couplant tank; 311. a compressed spring mounting groove; 312. a mobile driving groove; 313. supplementing an injection port; 314. a discharge pipeline; 32. inserting the mounting plate; 33. a pressing plate; 331. a drive block; 34. a pressure spring; 35. an upper one-way valve; 36. a lower one-way valve.

Detailed Description

As shown in fig. 1 and 2, a unilateral supplementing device for a medical ultrasonic probe comprises an ultrasonic probe 10 and a supplementing bracket 20; the supplementary stand 20 includes a stand body 21; a central processor 40 is arranged on the left end surface of the bracket body 21; a traveling couplant rack 30 is detachably mounted on the left end face of the ultrasonic probe 10; the traveling couplant holder 30 includes a lower traveling couplant casing 31; a follower coupling agent groove 310 is formed in the follower coupling agent box 31; an insertion groove 210 which is matched with the ultrasonic probe 10 is formed in the center of the upper end face of the bracket body 21 in a downward penetrating manner; lower support plates 214 are respectively formed at the lower ends of the left and right side walls of the insertion groove 210; a press switch unit is arranged on the upper end surface of the lower support plate 214; the compression switch unit is connected with the central processor 40; a supplementary nozzle receiving groove 211 is formed at the upper part of the left and right sidewalls of the insertion groove 210; couplant receiving grooves 213 are formed in the lower portions of the left and right portions of the holder body 21; the coupling agent receiving groove 213 is filled with the coupling agent; a movable support plate 221 is horizontally arranged in the supplementary nozzle accommodating groove; a supplementary nozzle 24 is arranged at the lower part of the end surface of the movable supporting plate 221 facing the ultrasonic probe 10; a supplementary injection port 313 matched with the supplementary nozzle 24 is formed on the end surface of the follower coupler box 31 far away from the ultrasonic probe 10; the replenishment injection port 313 faces the replenishment nozzle 24; the replenishment nozzle 24 is used for replenishing the couplant in the couplant storage groove 213 into the accompanying couplant groove 310; the drive element of the replenishment nozzle 24 is fixedly connected to the central processor 40.

As shown in fig. 1 and 2, a rectangular parallelepiped insertion mounting plate 32 is formed at one end of the upper end surface of the follower coupler box 31 close to the ultrasonic probe 10; a lower insertion installation groove 102 matched with the follower coupling agent box 31 is formed at the lower end of the left end face of the ultrasonic probe 10; an inserting installation groove 100 matched with the inserting installation plate 32 is formed at the center of the upper side wall of the lower inserting installation groove 102.

As shown in fig. 1, an upper check valve 35 is provided between the replenishment injection port 313 and the accompanying couplant tank 310; a plurality of compression spring installation grooves 311 which are uniformly distributed up and down are arranged on the side wall of the accompanying couplant groove 310 close to the ultrasonic probe 10; a pressure spring 34 is fixed on the bottom surface of the pressure spring mounting groove 311; the extrusion plates 33 are arranged in the accompanying couplant groove 310 in a left-right sliding manner; the other end of the pressure spring 34 is fixed on the extrusion plate 33; an L-shaped moving driving groove 312 is formed on the upper side wall of the mixture groove 310; the horizontal portion of the movement driving groove 312 penetrates the end surface of the traveling coupler kit 31 away from the ultrasonic probe 10; an L-shaped driving block 331 matched with the moving driving groove 312 is formed at the upper end of the extrusion plate 33; an upward through-going escape groove 212 which is matched with the driving block 331 is respectively formed at one end of the upper side wall of the pair of complementary nozzle receiving grooves 211; the ends of the pair of avoiding grooves 212 close to each other are not sealed; a top rod 23 matched with the driving block 331 is formed at the upper part of the end surface of the movable supporting plate 221 facing the ultrasonic probe 10; a discharge pipeline 314 vertically penetrates downwards from one end of the lower side wall of the accompanying couplant tank 310 away from the ultrasonic probe 10; the discharge pipe 314 is provided with a lower check valve 36.

As shown in fig. 1, the upper side wall of the couplant receiving groove 212 is provided with an electric pump 25; the lower end of the electric pump 25 is provided with a lower absorption pipe 252, and the upper end is provided with a connecting hose 251; the left end face and the right end face of the supplementary support 21 are respectively fixed with a supplementary driving electric cylinder 22; the piston rod of the supplementary driving electric cylinder 22 passes through the side wall of the supplementary nozzle receiving groove 211 of the corresponding side; the movable support plate 221 is fixed on the piston rod of the supplementary driving electric cylinder 22 on the corresponding side; the upper end of the connection hose 251 is fixed to the moving support plate 221 and connected to the supplementary nozzle 24; the electric pump 25 and the supplementary driving electric cylinder 22 are connected to the central processor 40.

As shown in fig. 1 and 2, rectangular support insertion plates 215 are respectively formed at the lower portions of the front and rear side walls of the insertion groove 210; the lower portions of the front and rear end faces of the ultrasonic probe 10 are respectively formed with support slots 101 that are engaged with the support insertion plate 215.

As shown in fig. 1 and 2, the front and rear side walls of the insertion installation groove 100 are respectively formed with insertion guide grooves; the front and rear end surfaces of the inserting mounting plate 32 are respectively formed with inserting guide blocks matched with the inserting guide grooves.

As shown in fig. 1 and 3, an inverted T-shaped lifting groove 2140 is formed on the upper end surface of the lower support block 214; a circular groove-shaped pressure spring accommodating groove 2141 is formed in the lower side wall of the lifting groove 2140; the pressing switch unit comprises a pressing block 26 matched with the lifting groove 2140, a pressure sensor 27 and a switch pressure spring 28; the switch compression spring 28 is inserted into the compression spring accommodating groove 2141, the lower end of the switch compression spring is fixed on the bottom surface of the compression spring accommodating groove 2141, and the upper end of the switch compression spring is fixed on the lower end surface of the compression block 26; the pressure sensor 27 is installed at the center of the lower sidewall of the lifting tank 2140; the pressure sensor 27 is connected to a central processor 40.

As shown in fig. 1, the lower side line of the end face of the follower coupler box 31 away from the ultrasonic probe 10 is formed with a rounded corner; the upper end surface of the lower support block 214 is fitted at the rounded corner of the follower coupling agent box 31.

The medical ultrasonic probe uses the working principle of the unilateral supplementary device:

after the ultrasonic probe 10 is used up each time, the pressing plate 33 is at the position farthest from the ultrasonic probe 10, the outer end of the driving block 331 exceeds the end surface of the follower coupling agent box 31 far away from the ultrasonic probe 10, the coupling agent above the pressing plate 33 in the follower coupling agent groove 310 is used up, then the ultrasonic probe 10 is inserted in the insertion groove 210, the follower coupling agent box 31 presses the press switch unit at the corresponding side during the insertion of the ultrasonic probe 10, so that the press switch unit gives a signal to the central processor 40, the central processor 40 controls the supplementary driving electric cylinder 22 at the corresponding side to be activated, so that the movable supporting plate 221 moves toward the follower coupling agent box 31, during the movement, the ejector 23 contacts with the driving block 331, when the supplementary nozzle 24 is inserted into the supplementary injection port 313, the driving block 331 is at the innermost side, namely, the pressing plate 33 is at the innermost side, and then the central processor 40 controls the electric pump 25 to be activated, the couplant in the couplant storage groove 212 is injected into the accompanying couplant groove 310, so that supplement is completed, when the medical ultrasonic probe is used, the ultrasonic probe 10 is pulled out, the accompanying couplant box 31 firstly contacts the skin of a patient, so that the extrusion plate 33 is gradually far away from the ultrasonic probe 10 to extrude the couplant on the outer side of the ultrasonic probe under the action of the pressure spring 34, the couplant flows out along the discharge pipeline 314 and is smeared on the skin of the patient, and the medical ultrasonic probe can normally work; therefore, the couplant is automatically smeared along with the use of the ultrasonic probe 10, the time for smearing the couplant by medical staff is reduced, the couplant can be automatically replenished when the ultrasonic probe 10 is placed on the replenishing bracket in the front and back directions, and the frequency for replenishing the couplant into the couplant accommodating groove is greatly reduced.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. A unilateral supplementary device for medical ultrasonic probe which characterized in that: comprises an ultrasonic probe (10) and a supplementary bracket (20); the supplementary support (20) comprises a support body (21); a central processor (40) is arranged on the left end surface of the bracket body (21); a traveling couplant rack (30) is detachably arranged on the left end face of the ultrasonic probe (10); the following couplant rack (30) comprises a following couplant box (31) at the lower part; a follower coupling agent groove (310) is arranged in the follower coupling agent box (31); an insertion groove (210) matched with the ultrasonic probe (10) penetrates downwards from the center of the upper end face of the support body (21); lower supporting plates (214) are respectively formed at the lower ends of the left side wall and the right side wall of the inserting groove (210); a compression switch unit is arranged on the upper end surface of the lower supporting plate (214); the compression switch unit is connected with the central processor (40); a supplementary nozzle accommodating groove (211) is formed on the upper part of the left side wall and the right side wall of the inserting groove (210); coupling agent accommodating grooves (213) are formed in the left side and the right side of the bracket body (21) respectively; the coupling agent accommodating groove (213) is filled with the coupling agent; a movable support plate (221) is horizontally arranged in the replenishing nozzle accommodating groove; a supplementary nozzle (24) is arranged at the lower part of the movable support plate (221) opposite to the end surface of the ultrasonic probe (10); a supplementary injection port (313) matched with the supplementary nozzle (24) is formed on the end surface of the follower coupling agent box (31) far away from the ultrasonic probe (10); the supplement injection port (313) is opposite to the supplement nozzle (24); a replenishing nozzle (24) for replenishing the couplant in the couplant storage groove (213) into the accompanying couplant groove (310); the drive element of the replenishment nozzle (24) is fixedly connected to the central processor (40).

2. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: a rectangular inserting mounting plate (32) is formed at one end, close to the ultrasonic probe (10), of the upper end face of the follower coupling agent box (31); a lower insertion mounting groove (102) matched with the follower coupling agent box (31) is formed at the lower end of the left end face of the ultrasonic probe (10); an inserting installation groove (100) matched with the inserting installation plate (32) is formed in the center of the upper side wall of the lower inserting installation groove (102).

3. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: an upper one-way valve (35) is arranged between the supplementary injection port (313) and the accompanying couplant groove (310); a plurality of compression spring installation grooves (311) which are uniformly distributed up and down are arranged on the side wall of the accompanying couplant groove (310) close to the ultrasonic probe (10); a pressure spring (34) is fixed on the bottom surface of the pressure spring mounting groove (311); extrusion plates (33) are arranged in the accompanying couplant groove (310) in a left-right sliding manner; the other end of the pressure spring (34) is fixed on the extrusion plate (33); an L-shaped moving driving groove (312) is formed on the upper side wall of the couplant groove (310); the horizontal part of the mobile driving groove (312) penetrates through the end surface of the traveling coupling agent box (31) far away from the ultrasonic probe (10); an L-shaped driving block (331) matched with the moving driving groove (312) is formed at the upper end of the extrusion plate (33); an upward through avoiding groove (212) matched with the driving block (331) is respectively formed at one end of the upper side wall of the pair of complementary nozzle accommodating grooves (211) close to the inserting groove (210); one end of the avoidance groove (212) close to the insertion groove (210) is not sealed; a mandril (23) matched with the driving block (331) is formed at the upper part of the end surface of the movable supporting plate (221) opposite to the ultrasonic probe (10); a discharge pipeline (314) vertically penetrates downwards from one end, far away from the ultrasonic probe (10), of the lower side wall of the accompanying couplant groove (310); a lower one-way valve (36) is arranged on the discharging pipeline (314).

4. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: an electric pump (25) is arranged on the upper side wall of the couplant storage groove (212); the lower end of the electric pump (25) is provided with a lower absorption pipe (252), and the upper end is provided with a connecting hose (251); the left end face and the right end face of the bracket body (21) are respectively fixed with a supplementary driving electric cylinder (22); the piston rod of the supplementary driving electric cylinder (22) passes through the side wall of the supplementary nozzle receiving groove (211) on the corresponding side; the movable support plate (221) is fixed on the piston rod of the supplementary driving electric cylinder (22) on the corresponding side; the upper end of the connecting hose (251) is fixed on the movable support plate (221) and is connected with the supplementary nozzle (24); the electric pump (25) and the supplementary driving electric cylinder (22) are connected with the central processor (40).

5. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: rectangular supporting inserting plates (215) are respectively formed at the lower parts of the front side wall and the rear side wall of the inserting groove (210); the lower parts of the front and rear end surfaces of the ultrasonic probe (10) are respectively provided with a supporting slot (101) matched with the supporting inserting plate (215).

6. The unilateral supplementing device for a medical ultrasonic probe according to claim 2, wherein: inserting guide grooves are respectively formed on the front side wall and the rear side wall of the inserting installation groove (100); the front end surface and the rear end surface of the inserting mounting plate (32) are respectively provided with an inserting guide block matched with the inserting guide groove.

7. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: an inverted T-shaped lifting groove (2140) is formed on the upper end surface of the lower supporting plate (214); a circular groove-shaped pressure spring placing groove (2141) is formed on the lower side wall of the lifting groove (2140); the compression switch unit comprises a compression block (26) matched with the lifting groove (2140), a pressure sensor (27) and a switch compression spring (28); the switch compression spring (28) is inserted into the compression spring arrangement groove (2141), the lower end of the switch compression spring is fixed on the bottom surface of the compression spring arrangement groove (2141), and the upper end of the switch compression spring is fixed on the lower end surface of the compression block (26); the pressure sensor (27) is arranged in the center of the lower side wall of the lifting groove (2140); the pressure sensor (27) is connected to the central processor (40).

8. The unilateral supplementing device for a medical ultrasonic probe according to claim 1, wherein: a fillet is formed on the lower side line of the end face of the follower coupling agent box (31) far away from the ultrasonic probe (10); the upper end face of the lower support plate (214) is matched with the rounded corner of the follower coupling agent box (31).