CN212352029U - Pharynx swab collecting robot - Google Patents

Abstract

The utility model discloses a pharynx swab acquisition robot, include: a mechanical arm; the device comprises an image acquisition unit and a pharynx swab collector, wherein the image acquisition unit and the pharynx swab collector are respectively connected to the output end of a mechanical arm; the controller is connected with the mechanical arm, the image acquisition unit and the pharynx swab collector; the short-distance communication module is connected with the controller; and the control terminal is connected with the short-distance communication module. The pharynx swab collecting robot is manually controlled through the control terminal, the control terminal sends a collecting instruction to the controller through the short-distance communication module, the controller controls the motion of the mechanical arm, the output end of the mechanical arm moves into the oral cavity of a patient, the image collecting unit collects image information in the oral cavity and feeds the image information back to the control terminal through the short-distance communication module, the control terminal monitors the information in the oral cavity of the patient in real time, the control terminal controls the motion of the mechanical arm, and the mechanical arm drives the pharynx swab collector 3 to move towards the pharynx close to the patient, so that a pharynx specimen is collected.

Description

Pharynx swab collecting robot

Technical Field

The utility model relates to the technical field of medical equipment, specifically speaking relates to a pharynx swab acquisition robot.

Background

Since the occurrence of new coronary pneumonia epidemic situation, 14 hundred million Chinese people keep their minds in favor of each other and struggle with each other, showing Chinese spirit and Chinese strength. In the epidemic situation, the majority of medical staff are not afraid of the difficulty, and a solid defense line is constructed before the assault. In the process of curing the new coronary pneumonia, the collection of the pharyngeal swab is an indispensable link, the collection of bacteria by the pharyngeal swab can separate out pathogenic bacteria, and the pharyngeal swab is the most main sampling method for diagnosing the new coronary virus infection.

At present, a throat swab can be obtained only by means of manual sampling, medical staff must be in close contact with a patient in the collection process, and the patient can generate a large amount of droplets or aerosol due to cough, forceful breathing and the like, so that the risk of cross infection is high.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the utility model discloses a pharynx swab acquisition robot, include:

a mechanical arm;

the device comprises an image acquisition unit and a pharynx swab collector, wherein the image acquisition unit and the pharynx swab collector are respectively connected to the output end of a mechanical arm;

the controller is connected with the mechanical arm, the image acquisition unit and the pharynx swab collector;

the short-distance communication module is connected with the controller;

and the control terminal is connected with the short-distance communication module.

Preferably, the image acquisition unit comprises a binocular endoscope.

Preferably, the pharyngeal swab collector comprises:

the mounting seat is connected to the output end of the mechanical arm;

the mounting groove is formed in the end, far away from the mechanical arm, of the mounting seat;

the electromagnet device is connected to the bottom end of the mounting groove;

the sliding seat is connected in the mounting groove;

one end of the first spring is connected to the bottom end of the mounting groove, and the other end of the first spring is connected with the sliding seat;

the rigid suction block is connected to the end, close to the first spring, of the sliding seat, and the electromagnet device and the rigid suction block are sleeved in the first spring;

the fixing groove is formed in the end, far away from the first spring, of the sliding seat;

the sealing plate is connected to the inner wall of the mounting groove and close to the notch end;

the socket is arranged in the center of the sealing plate, the socket is opposite to the fixing groove, and the socket is matched with the cross section of the throat swab;

the second spring is positioned in the mounting groove, one end of the second spring is connected with the sealing plate, and the socket is arranged at the center end of the second spring in a penetrating manner;

the clamping jaw device is connected to the other end of the second spring, and the clamping jaw device is connected to the inner wall of the fixing groove in a matched mode and close to the notch end.

Preferably, the jaw device comprises:

the mounting disc is positioned in the mounting groove;

the mounting channel penetrates through the center end of the mounting disc and is over against the socket and the fixing groove;

the stepped surface is annularly arranged on the inner wall of the mounting channel and close to the end of the seal plate, and the end, far away from the seal plate, of the second spring is connected into the stepped surface;

the two claw seats are symmetrically distributed at the side end of the installation plate, the section of each claw seat is of an L-shaped structure, each claw seat comprises a vertical part and a horizontal part, the vertical part is arranged close to the inner wall of the installation groove, and the horizontal part is connected to the end, close to the sliding seat, of the installation plate in a sliding mode;

one end of the third spring is connected with the side end of the mounting plate, and the other end of the third spring is connected with the inner end of the vertical part;

the wedge-shaped fixture block is connected to the end, close to the sliding seat, of the horizontal part, and the wedge-shaped fixture block is arranged close to the notch end of the fixing groove;

the groove is annularly arranged on the inner wall of the fixed groove and close to the groove opening end, and the inclined end of the wedge-shaped fixture block is matched with the groove.

Preferably, the end, far away from the closing plate, of the second spring is connected with a fixed ring seat, the fixed ring seat is connected to the inner side of the stepped surface, and the outer wall of the fixed ring seat is arranged in an inclined mode.

Preferably, the method further comprises the following steps:

the locking ring buckles are arranged into a notched annular structure, and a plurality of locking ring buckles are circumferentially distributed on the inner wall of the stepped surface in an embedded mode;

the ball body is connected to one end of the locking ring buckle and is matched with the outer wall of the fixed ring seat;

the pressing plate is connected to the other end of the locking buckle and matched with the fixing ring seat.

Preferably, the bottom end of the fixing groove is connected with a pressure sensor, and the pressure sensor is connected with a controller.

Preferably, the locking buckles are two and are symmetrically distributed on the inner wall of the stepped surface.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a control schematic diagram of the present invention;

FIG. 2 is a schematic view of the structure of the throat swab collector of the present invention;

FIG. 3 is a diagram of the working state of the throat swab collector of the present invention;

fig. 4 is an enlarged view of reference character a in fig. 3.

In the figure: 1. a mechanical arm; 2. an image acquisition unit; 3. a throat swab collector; 4. a controller; 5. a short-range communication module; 6. a control terminal; 7. a jaw device; 31. a mounting seat; 32. mounting grooves; 33. an electromagnet device; 34. a sliding seat; 35. a first spring; 36. a rigid suction block; 37. fixing grooves; 38. closing the plate; 39. a socket; 30. a second spring; 71. mounting a disc; 72. installing a channel; 73. a step surface; 74. a pawl seat; 75. a third spring; 76. a wedge-shaped fixture block; 77. a stationary ring seat; 78. locking the ring buckle; 79. a sphere; 70. and pressing the plate.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides a pharyngeal swab collecting robot, including:

a mechanical arm 1;

the device comprises an image acquisition unit 2 and a pharynx swab collector 3, wherein the image acquisition unit 2 and the pharynx swab collector 3 are respectively connected to the output end of a mechanical arm 1;

the controller 4 is connected with the mechanical arm 1, the image acquisition unit 2 and the pharynx swab collector 3;

the short-distance communication module 5 is connected with the controller 4;

and the control terminal 6 is connected with the short-distance communication module 5.

The working principle and the beneficial effects of the technical scheme are as follows:

the utility model discloses a pharynx swab acquisition robot, replace artifical the collection, avoid cross infection, the manual work is through 6 control pharynx swabs acquisition robot of control terminal, control terminal 6 sends the acquisition instruction to controller 4 through short distance communication module 5, 1 motion of controller 4 control arm, 1 output of arm moves to patient's oral cavity, image acquisition unit 2 gathers oral cavity image information and feeds back to control terminal 6 through short distance communication module 5 on, patient's oral cavity information is monitored in real time to control terminal 6, 1 action of 6 control arm of control terminal, arm 1 drives pharynx swab collector 3 to being close to patient's pharynx motion, thereby gather pharynx sample, arm 1 has very accurate perception and control in the motion process, can not harm patient's delicate tissue, cause the injury to the patient.

In one embodiment, the image acquisition unit 2 comprises a binocular endoscope.

As shown in fig. 2 and 3, in one embodiment, the pharyngeal swab collector 3 comprises:

the mounting seat 31, the mounting seat 31 is connected to the output end of the mechanical arm 1;

the mounting groove 32 is formed in the mounting seat 31 and is far away from the end of the mechanical arm 1;

the electromagnet device 33 is connected to the bottom end of the mounting groove 32;

the sliding seat 34, the said sliding seat 34 links to in the mounting groove 32;

one end of the first spring 35 is connected to the bottom end of the mounting groove 32, and the other end of the first spring 35 is connected to the sliding seat 34;

the rigid suction block 36 is connected to the end, close to the first spring 35, of the sliding seat 34, and the electromagnet device 33 and the rigid suction block 36 are sleeved in the first spring 35;

a fixing groove 37, wherein the fixing groove 37 is opened at the end of the sliding seat 34 far away from the first spring 35;

a closing plate 38, wherein the closing plate 38 is connected to the inner wall of the mounting groove 32 near the notch end;

the socket 39 is arranged in the center of the closing plate 38, the socket 39 faces the fixing groove 37, and the socket 39 is matched with the cross section of the throat swab;

the second spring 30 is positioned in the mounting groove 32, one end of the second spring 30 is connected with the closing plate 38, and the socket 39 is arranged at the central end of the second spring 30 in a penetrating way;

and the jaw device 7 is connected to the other end of the second spring 30, and the jaw device 7 is connected to the inner wall of the fixing groove 37 in a matching manner and is close to the notch end.

The working principle and the beneficial effects of the technical scheme are as follows:

in the initial state, the electromagnet device 33 works, the electromagnet device 33 sucks the rigid suction block 36, the first spring 35 contracts, the sliding seat 34 is positioned at the bottom end of the bottom of the mounting groove 32, the throat swab is inserted into the mounting groove 32 through the socket 39, the tail of the throat swab sequentially penetrates through the socket 39, the second spring 30 and the jaw device 7 and is finally connected into the fixing groove 37, at this time, the pressure sensor positioned at the bottom end of the fixing groove 37 detects the pressure and feeds the pressure back to the controller 4, the controller 4 receives a pressure signal and sends a stop working instruction to the electromagnet device 33, the electromagnet device 33 stops working, the electromagnet device 33 releases the suction force on the rigid suction block 36, the first spring 35 extends, the sliding seat 34 moves towards the direction close to the sealing plate 38 in the mounting groove 32, so as to trigger the jaw device 7 to clamp the tail of the throat swab, when the throat swab needs to be removed, the control terminal 6 sends a working instruction of the electromagnet device 33 to the controller 4, the controller 4 receives the working instruction through the short-distance communication module 5, the electromagnet device 33 works to generate suction force, the rigid suction block 36 is sucked, the first spring 35 contracts again, the sliding seat 34 moves in the direction away from the sealing plate 38 in the mounting groove 32, and the claw device 7 releases the fixing of the pharynx swab.

In one embodiment, the jaw device 7 comprises:

the mounting disc 71, the mounting disc 71 is positioned in the mounting groove 32;

the mounting channel 72 penetrates through the central end of the mounting disc 71, and the mounting channel 72 is arranged right opposite to the socket 39 and the fixing groove 37;

the stepped surface 73 is annularly arranged on the inner wall of the mounting channel 72 at the end close to the sealing plate 38, and the end, far away from the sealing plate 38, of the second spring 30 is connected into the stepped surface 73;

the two jaw seats 74 are symmetrically distributed at the side end of the mounting disc 71, the section of each jaw seat 74 is of an L-shaped structure, each jaw seat 74 comprises a vertical part and a horizontal part, the vertical part is arranged close to the inner wall of the mounting groove 32, and the horizontal part is connected to the end, close to the sliding seat 34, of the mounting disc 71 in a sliding manner;

one end of the third spring 75 is connected with the side end of the mounting plate 71, and the other end of the third spring 75 is connected with the inner end of the vertical part;

a wedge-shaped fixture block 76, wherein the wedge-shaped fixture block 76 is connected to the end of the horizontal part close to the sliding seat 34, and the wedge-shaped fixture block 76 is arranged close to the notch end of the fixing groove 37;

and the groove is annularly arranged on the inner wall of the fixing groove 37 and close to the groove opening end, and the inclined end of the wedge-shaped fixture block 76 is matched with the groove.

The working principle and the beneficial effects of the technical scheme are as follows:

the pharynx swab tail is inserted into the fixing groove 37 through the installation channel 72, when the electromagnet device 33 stops working, the first spring 35 extends to abut against the sliding seat 34 to move towards the direction close to the sealing plate 38, the second spring 30 connected between the stepped surface 73 and the sealing plate 38 contracts under the force, when the sliding seat 34 moves towards the direction close to the sealing plate 38, the wedge-shaped fixture block 76, the jaw seat 74 and the mounting disc 71 are driven to move towards the direction close to the sealing plate 38 respectively, at the moment, the wedge-shaped fixture block 76 connected with the groove in a matched mode overcomes the acting force of the sliding seat 34 to move towards the central end close to the installation channel 72, the third spring 75 contracts, the vertical part moves towards the side end close to the mounting disc 71, the horizontal part moves towards the central end close to the installation channel 72, the wedge-shaped fixture block 76 clamps the pharynx swab tail, so that the fixing of the pharynx swab tail is completed, on the contrary, when the pharynx swab needs to be taken, and because the reason that first spring 35 extends, the pharynx swab is mostly exposed outside mount pad 31, makes things convenient for medical personnel to take out, and can not pollute the pharynx swab head, and when needs rearranged the pharynx swab, electro-magnet device 33 work, and first spring 35 contracts, and sliding seat 34 is to keeping away from shrouding 38 direction motion, and second spring 30 connected between ladder face 73 and shrouding 38 is tensile, wedge fixture block 76 loses the effort of sliding seat 34, and wedge fixture block 76 relieves the binding power of groove, and second spring 30 is tensile, and vertical portion is to being close to the motion of mounting groove 32 inner wall end direction, and wedge fixture block 76 opens again.

In one embodiment, a fixed ring seat 77 is connected to the end of the second spring 30 away from the closing plate 38, the fixed ring seat 77 is connected to the stepped surface 73, and the outer wall of the fixed ring seat 77 is inclined.

The beneficial effects of the above technical scheme are:

the fixing ring seat 77 plays a supporting role, and the second spring 30 is conveniently and fixedly connected with the stepped surface 73 due to the arrangement of the fixing ring seat 77.

As shown in fig. 4, in one embodiment, the method further includes:

the locking buckles 78 are arranged in a notched annular structure, and the locking buckles 78 are circumferentially distributed on the inner wall of the stepped surface 73;

the ball 79 is connected to one end of the locking ring buckle 78, and the ball 79 is matched with the outer wall of the fixed ring seat 77;

the pressing plate 70 is connected to the other end of the locking ring buckle 78, and the pressing plate 70 is matched with the fixing ring seat 77.

The working principle and the beneficial effects of the technical scheme are as follows:

in fixed ring seat 77 inserted the ladder face 73, spheroid 79 is pressed to fixed ring seat slope outer wall, locking latch 78 upset is pressed according to the board 70 and is pressed on fixed ring seat 77 to accomplish fixed connection of fixed ring seat 77 and locking latch 78.

In one embodiment, a pressure sensor is connected to the bottom end of the fixing groove 37, and the pressure sensor is connected to the controller 4.

The beneficial effects of the above technical scheme are:

pressure sensor's setting is convenient for judge whether inside inserting fixed slot 37 tank bottom end of pharynx swab, when the pharynx swab afterbody inserts fixed slot 37 tank bottom end, and the pressure sensor who is located fixed slot 37 tank bottom end detects pressure to feed back controller 4, controller 4 receives pressure signal to send out stop work instruction to electro-magnet device 33, electro-magnet device 33 device stop work, electro-magnet device 33 removes the suction to rigid suction piece 36, and first spring 35 extends, sliding seat 34 is to being close to shrouding 38 direction motion in mounting groove 32, thereby triggers jack catch device 7 and presss from both sides tight pharynx swab afterbody, and first spring 35 extension in-process, and it mostly exposes outside socket 39 to drive the pharynx swab, makes things convenient for medical personnel to take out the pharynx swab under the condition of non-staining pharynx swab head.

In one embodiment, there are two locking buckles 78, and the two locking buckles 78 are symmetrically distributed on the inner wall of the stepped surface 73.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (8)

1. A pharyngeal swab collection robot, comprising:

a robot arm (1);

the device comprises an image acquisition unit (2) and a pharynx swab collector (3), wherein the image acquisition unit (2) and the pharynx swab collector (3) are respectively connected to the output end of a mechanical arm (1);

the controller (4), the said controller (4) is connected with mechanical arm (1), image acquisition unit (2), pharynx swab collector (3);

the short-distance communication module (5), the short-distance communication module (5) is connected with the controller (4);

and the control terminal (6), the control terminal (6) is connected with the short-distance communication module (5).

2. A pharyngeal swab collection robot as recited in claim 1,

the image acquisition unit (2) comprises a binocular endoscope.

3. A pharyngeal swab collecting robot, according to claim 1, characterized in that said pharyngeal swab collector (3) comprises:

the mounting seat (31), the mounting seat (31) is connected to the output end of the mechanical arm (1);

the mounting groove (32) is formed in the end, far away from the mechanical arm (1), of the mounting seat (31);

the electromagnet device (33), the electromagnet device (33) is connected to the bottom end of the mounting groove (32), and the electromagnet device (33) is connected with the controller (4);

the sliding seat (34), the said sliding seat (34) is connected to the mounting groove (32);

one end of the first spring (35) is connected to the bottom end of the mounting groove (32), and the other end of the first spring (35) is connected with the sliding seat (34);

the rigid suction block (36) is connected to the end, close to the first spring (35), of the sliding seat (34), and the electromagnet device (33) and the rigid suction block (36) are sleeved in the first spring (35);

the fixing groove (37) is formed in the end, far away from the first spring (35), of the sliding seat (34);

the closing plate (38), the said closing plate (38) is connected to the inner wall of the said mounting groove (32) near the notch end;

the socket (39) is arranged in the center of the sealing plate (38), the socket (39) is opposite to the fixing groove (37), and the socket (39) is matched with the cross section of the throat swab;

the second spring (30), the second spring (30) is positioned in the mounting groove (32), one end of the second spring (30) is connected with the closing plate (38), and the socket (39) is arranged at the central end of the second spring (30) in a penetrating manner;

the clamping jaw device (7) is connected to the other end of the second spring (30), and the clamping jaw device (7) is connected to the inner wall of the fixing groove (37) in a matched mode and close to the groove opening end.

4. A pharyngeal swab collecting robot according to claim 3, characterized in that said jaw means (7) comprise:

the mounting disc (71), the mounting disc (71) is positioned in the mounting groove (32);

the mounting channel (72) penetrates through the center end of the mounting disc (71), and the mounting channel (72) is arranged right opposite to the socket (39) and the fixing groove (37);

the stepped surface (73) is annularly arranged at the end, close to the sealing plate (38), of the inner wall of the mounting channel (72), and the end, far away from the sealing plate (38), of the second spring (30) is connected into the stepped surface (73);

the two claw seats (74) are symmetrically distributed at the side end of the mounting disc (71), the section of each claw seat (74) is of an L-shaped structure, each claw seat (74) comprises a vertical part and a horizontal part, the vertical part is arranged close to the inner wall of the mounting groove (32), and the horizontal part is connected to the end, close to the sliding seat (34), of the mounting disc (71) in a sliding mode;

one end of the third spring (75) is connected with the side end of the mounting plate (71), and the other end of the third spring (75) is connected with the inner end of the vertical part;

the wedge-shaped fixture block (76) is connected to the end, close to the sliding seat (34), of the horizontal part, and the wedge-shaped fixture block (76) is arranged close to the notch end of the fixing groove (37);

the groove is annularly arranged on the inner wall of the fixing groove (37) and close to the groove opening end, and the inclined end of the wedge-shaped fixture block (76) is matched with the groove.

5. A throat swab collecting robot according to claim 4, wherein the end of the second spring (30) away from the sealing plate (38) is connected with a fixing ring seat (77), the fixing ring seat (77) is connected in the stepped surface (73), and the outer wall of the fixing ring seat (77) is inclined.

6. A pharyngeal swab collection robot as recited in claim 5, further comprising:

the locking ring buckles (78) are of a notched annular structure, and the locking ring buckles (78) are circumferentially distributed on the inner wall of the stepped surface (73);

the ball body (79) is connected to one end of the locking ring buckle (78), and the ball body (79) is matched with the outer wall of the fixed ring seat (77);

the pressing plate (70), the pressing plate (70) is connected to the other end of the locking buckle (78), and the pressing plate (70) is matched with the fixing ring seat (77).

7. A pharyngeal swab collecting robot according to claim 3, characterized in that a pressure sensor is connected to the bottom end of the fixing groove (37), and the pressure sensor is connected with the controller (4).

8. A throat swab collecting robot according to claim 6, wherein two locking buckles (78) are provided, and the two locking buckles (78) are symmetrically distributed on the inner wall of the stepped surface (73).

Images