CN109351706B - Biological test tube cleaning machine of intraductal degasification of multiaspect cleaning - Google Patents

Abstract

The invention discloses a biological test tube cleaning machine for degassing in a multi-surface cleaning tube, which structurally comprises: the quantitative cleaning device comprises a quantitative cleaning device, a protective ceiling, a transmission belt, a machine body, an adjusting foot pad, an ultrasonic generator, a disinfection chassis, a multi-path air valve, a drying box and a controller, wherein the quantitative cleaning device is fixed at the bottom of the protective ceiling and connected with a main shaft of a rotating motor in the machine body, threads at the bottom of the machine body are mutually meshed with external threads of a screw rod of the adjusting foot pad, and a frame body of the transmission belt is fixed on the left side of the quantitative cleaning device and is in a straight line.

Description

Biological test tube cleaning machine of intraductal degasification of multiaspect cleaning

Technical Field

The invention relates to biological equipment, in particular to a biological test tube cleaning machine for degassing in a multi-surface cleaning tube.

Background

Biological tubes are instruments commonly used in laboratories, used as reaction vessels for small amounts of reagents, and for blood collection, and because of the necessity of thorough cleaning of the inner wall to avoid residual substances causing experimental bias, similar to the hospital, which is a product that uses blood collection tubes in large quantities, requires thorough cleaning of the machines, but occurs in the cleaning process:

the test tube all is whole row and arranges the condition of discharging to avoid causing the tube head to break and extrude each other, thereby the pipe wall top can lead to liquid can't to dip into and appear wasing unclean owing to there being the air when the mouth of pipe perpendicularly soaks the surface of water downwards in the washing, and the mouth of pipe still need clear up inside remaining water after finishing wasing in the immersion fluid up, whether the person has the filth in the water stain will be attached to the pipe wall in dry time.

Disclosure of Invention

In order to solve the problems, the invention provides a biological test tube cleaning machine for degassing in a multi-surface cleaning tube.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a biological test tube cleaning machine of degasification in multiaspect cleaning tube which the structure includes: a quantitative cleaner, a protective ceiling, a transmission belt, a machine body, an adjusting foot pad, an ultrasonic generator, a disinfection chassis, a multi-path air valve, a drying box and a controller, the quantitative cleaner is fixed at the bottom of the protective ceiling and is connected with a main shaft of a rotating motor in the machine body, the thread at the bottom of the machine body is meshed with the external thread of the screw rod of the adjusting foot pad, the frame body of the transmission belt is fixed at the left side of the quantitative cleaner, and is in a straight line, the quantitative cleaner is fixed between the ultrasonic generators and is communicated with the multi-path air valve through an air pipe, the drying box is arranged on the right side of the transmission belt, the disinfection chassis is horizontally fixed at the bottom of the quantitative cleaner, and a control circuit in the disinfection chassis is connected with the controller through a lead, the groove seat of drying cabinet front end is nested each other with the drain pan of controller, its internal structure of ration purger includes: the two-stroke cleaning pipe frame is provided with six cleaning pipe frames which are uniformly fixed on the periphery of the fixing base, the circle center of the fixing base is consistent with that of the air cavity, the vertical pipe ball heads are welded on the periphery of the fixing base and communicated with the air cavity, the connecting shaft flange ring is welded at the center of the fixing base and connected with a motor shaft of a machine body, and the two-stroke cleaning pipe frame is arranged on the periphery of the air cavity.

As a further improvement of the invention, the two-way cleaning pipe frame comprises a pipe orifice supporting plate, a two-way control seat, a U-shaped pipe clamp, a winding shaft lug, an isolation outer membrane, an action hose and a pipe spring, wherein the pipe orifice supporting plate is arranged at the top of the two-way control seat and is parallel to the two, the two-way control seat is nested at the left side and the right side of the U-shaped pipe clamp frame body, the pipe orifice supporting plate is arranged at the top of the U-shaped pipe clamp and is parallel to the two, the winding shaft lug is welded at the left side of the U-shaped pipe clamp and forms an integral structure, the isolation outer membrane covers the two sides of the U-shaped pipe clamp and is arranged in the two-way control seat, and the action hose penetrates through the center of the pipe spring and is connected with the end head at the right side of the U-shaped pipe clamp at the top.

As a further improvement of the invention, the U-shaped pipe clamp comprises a bottom groove, a communicating pipe, a frame body, a bag seat and a main pipe sleeve, wherein the bottom groove is welded and fixed at the left side and the right side of the frame body, the inner wall of the frame body is tightly attached to the bag seat, the main pipe sleeve is arranged at the right side of the frame body and is connected with the bidirectional control seat through a pipeline, and the communicating pipe is arranged at the two sides of the frame body and is tightly attached.

As a further improvement of the invention, the bidirectional control seat is composed of a pipe clamping rod, a valve ring, a balance rod, an adjusting cavity and a connecting pipe orifice, wherein the pipe clamping rod is vertically fixed on the top wall of the valve ring close to the left side, the balance rod penetrates through the valve ring and is parallel to the pipe clamping rod on the left side, the valve ring is tightly attached to the inner wall of the pipe clamping rod, the connecting pipe orifice is nested with the clamping grooves on the two sides of the U-shaped pipe clamp, and the inner pipe wall of the adjusting cavity is tightly attached to the outer wall of the valve ring.

As a further improvement of the invention, the inner wall of the adjusting cavity is of a structure with a narrow bottom and a wide upper part.

As a further improvement of the invention, the bottom of the pipe orifice supporting plate is provided with a plurality of raised clamping columns.

As a further improvement of the invention, the capsule seat is U-shaped and is jointed with the wall of the test tube after being expanded.

As a further improvement of the invention, the isolating outer membrane can deform in the process of rotating the U-shaped pipe clamp.

The invention has the beneficial effects that:

carry out the test tube of drive belt transmission through the ration purger centre gripping then angle regulation makes the income water be the straight condition and has avoided the inside condition that the air appears, unclamp the utricule of centre gripping when the bottom washs conveniently and freshen the exterior wall, pour intraductal remaining rivers when going out water at last, whole washing compact structure and avoided the air and need the secondary to pour the water in the bottle and greatly improve abluent efficiency.

In conclusion, the improved test tube cleaning machine enables the test tube to horizontally enter water after improvement, and is thoroughly cleaned under the condition that liquid is filled, so that the influence of part of residual germs, which are most likely to have viruses at the bottom, on secondary use is avoided, and meanwhile, the convenience of the machine is improved after optimization, and the cleaning steps are reduced.

Drawings

FIG. 1 is a schematic structural diagram of a biological tube cleaning machine for degassing in a multi-surface cleaning tube according to the present invention.

FIG. 2 is a schematic side view of the quantitative washer of the present invention.

FIG. 3 is a schematic structural view of a two-pass cleaning pipe rack according to the present invention.

Fig. 4 is a schematic structural view of the U-shaped pipe clamp of the present invention.

FIG. 5 is a schematic structural diagram of the bi-directional control seat of the present invention.

Fig. 6 is a schematic perspective view of the quantitative cleanser of the present invention.

Fig. 7 is a schematic top view of the U-shaped pipe frame of the present invention.

FIG. 8 is a schematic view showing the installation position of the quantitative washer of the present invention.

In the figure: quantitative cleaner-1, protective ceiling-2, transmission belt-3, machine body-4, adjusting foot pad-5, ultrasonic generator-6, disinfection chassis-7, multi-channel air valve-8, drying box-9, controller-10, two-way cleaning pipe frame-11, fixed seat-12, air cavity-13, vertical pipe ball-head-14, connecting flange ring-15, pipe orifice supporting plate-111, two-way control seat-112, U-shaped pipe clamp-113, shaft lug-114, isolation outer film-115, action hose-116, pipe spring-117, bottom groove-1131, communicating pipe-1132, frame body-1133, bag seat-1134, main pipe sleeve-1135, pipe clamping rod-1121, valve ring-1122, balancing rod-1123, adjusting cavity-1124, balancing rod-1122, and ultrasonic generator-6, Connecting orifice-1125.

Detailed Description

In order to make the technical means, the creation features, the achievement objects and the effects of the invention easy to understand, fig. 1 to 8 schematically show the structure of the quantitative cleaner of the embodiment of the invention, and the invention is further explained below with reference to the detailed embodiment.

Examples

As shown in fig. 1-8, the present invention provides a biological test tube cleaning machine with multi-surface cleaning tube degassing, which comprises: the quantitative cleaning device comprises a quantitative cleaning device 1, a protective ceiling 2, a transmission belt 3, a machine body 4, an adjusting foot pad 5, an ultrasonic generator 6, a disinfection chassis 7, a multi-path air valve 8, a drying box 9 and a controller 10, wherein the quantitative cleaning device 1 is fixed at the bottom of the protective ceiling 2 and is connected with a main shaft of a rotating motor inside the machine body 4, threads at the bottom of the machine body 4 are mutually meshed with external threads of a screw rod of the adjusting foot pad 5, a frame body of the transmission belt 3 is fixed at the left side of the quantitative cleaning device 1 and is in a straight line, the quantitative cleaning device 1 is fixed between the ultrasonic generator 6, the quantitative cleaning device 1 is communicated with the multi-path air valve 8 through an air pipe, the drying box 9 is installed at the right side of the transmission belt 3, the disinfection chassis 7 is horizontally fixed at the bottom of the quantitative cleaning device 1 and a control circuit inside the quantitative cleaning device is connected with the controller 10 through a lead, a groove seat at the front end of the drying box 9 is mutually nested with a bottom shell of the controller 10, the quantitative cleaner 1 has an internal structure comprising: the two-way cleaning pipe support 11, the fixing seat 12, the air cavity 13, the stand pipe ball head 14 and the connecting shaft flange ring 15 are arranged, six cleaning pipe supports 11 are uniformly fixed on the periphery of the fixing seat 12, the circle center of the fixing seat 12 is consistent with that of the air cavity 13, the stand pipe ball head 14 is welded on the periphery of the fixing seat 12 and communicated with the air cavity 13, the connecting shaft flange ring 15 is welded at the center of the fixing seat 12 and connected with a motor shaft of the machine body 4, the two-way cleaning pipe support 11 is arranged on the periphery of the air cavity 13, and the multi-way air valve 8 is provided with six interfaces and can carry out independent control on the bag seat 1134 of the U-shaped pipe clamp 113 inside the two-way cleaning pipe support 11, so that the two-way cleaning pipe support can better adapt to the opening and closing states at different angles.

As a further improvement of the invention, the two-way cleaning pipe rack 11 is composed of a nozzle supporting plate 111, a bidirectional control seat 112, a U-shaped pipe clamp 113, a pivoting lug 114, an isolating outer membrane 115, an action hose 116 and a pipe spring 117, wherein the nozzle supporting plate 111 is arranged at the top of the bidirectional control seat 112, the two are parallel to each other, the two-way control seat 112 is nested at the left and right sides of the U-shaped pipe clamp 113, the orifice plate 111 is placed on top of the U-clamp 113 and parallel to each other, the bobbin lug 114 is welded to the left side of the U-shaped pipe clamp 113 and forms an integral structure, the insulating outer film 115 covers both sides of the U-shaped pipe clamp 113 and the bidirectional control seat 112 is arranged inside the U-shaped pipe clamp, the actuating hose 116 penetrates the center of the tube spring 117 and is connected with the end of the top U-shaped tube clamp 113 on the right side, the actuating hose 116 is nested in the tube spring 117, so that the tube wall can be prevented from being bent too much when being bent, and the tube wall can be prevented from being bent to cause leakage in repeated actions.

As a further improvement of the present invention, the U-shaped pipe clamp 113 comprises a bottom trough 1131, a communication pipe 1132, a frame body 1133, a bag holder 1134, and a main pipe sleeve 1135, wherein the bottom trough 1131 is welded and fixed on the left and right sides of the frame body 1133, the inner wall of the frame body 1133 is tightly attached to the bag holder 1134, the main pipe sleeve 1135 is installed on the right side of the frame body 1133 and is connected to the bidirectional control holder 112 through a pipe, and the communication pipe 1132 is installed on both sides of the frame body 1133 and is tightly attached.

As a further improvement of the present invention, the bidirectional control seat 112 is composed of a tube clamping rod 1121, a valve ring 1122, a balancing rod 1123, an adjusting cavity 1124, and a connecting pipe orifice 1125, the tube clamping rod 1121 is vertically fixed on the top wall of the valve ring 1122 near the left side in the center, the balancing rod 1123 penetrates through the valve ring 1122 and is parallel to the tube clamping rod 1121 on the left side, the valve ring 1122 is tightly attached to the inner wall of the tube clamping rod 1121, the connecting pipe orifice 1125 is nested with the clamping grooves on the two sides of the U-shaped tube clamp 113, and the inner wall of the adjusting cavity is tightly attached to the outer wall of the valve ring 1122.

As a further improvement of the present invention, the inner wall of the adjusting cavity 1124 has a structure with a narrow bottom and a wide upper portion, and the narrow bottom surface can cause the valve ring 1122 to be clamped in the adjusting cavity 1124 during air suction, thereby avoiding excessive extrusion of the test tube.

As a further improvement of the present invention, the bottom of the nozzle support plate 111 is provided with a plurality of protruding clamping columns, and the clamping columns are mainly used for embedding the test tube downwards into the clamping columns when the bottom is cleaned due to the fact that the bag base 1134 sucks air to loosen the test tube, then cleaning the outer wall of the test tube, and when the tube body is returned, the tube body cannot be returned in time due to the support of the clamping columns, so that the tube body is prevented from falling.

As a further improvement of the present invention, the bag seat 1134 is U-shaped and is attached to the wall of the test tube after being inflated, so as to increase the pressure between the bag seat and the wall of the test tube and prevent the bag seat from falling off during rotation.

As a further improvement of the invention, the isolating outer membrane 115 can deform during the rotation of the U-shaped pipe clamp 113, so as to protect the internal rotating mechanism and avoid the corrosion of water vapor.

The working principle is as follows:

the cleaning device is in the in-process of operation, and organism top drive belt 3 is to the test tube conveying of treating the washing of permutation, and the extrusion is then reached the two journey cleaning tube support 11 of ration purger 1 and is arranged neatly in permutation, and the test tube that fills completion on the U type pipe clamp 113 is rotatory then gone into water by the motor rotation regulation in organism 4 again.

Protection ceiling 2 is fixed and is protected avoiding touching at the top of organism 4 to the rotation part, and the test tube is gone into the water back supersonic generator 6 during operation in the liquid bubble and is carried out quick clearance with the remaining filth in the test tube, and the water that finishes of clearance is disinfected through disinfection chassis 7, then is discharged.

The multi-path air valve 8 is controlled to clean the pipe frame 11 in two passes, the multi-path air valve 8 is inflated simultaneously in a water inlet state, then the multi-path air valve 8 is connected with a vertical pipe ball 14 connected with the outside of the air cavity 13 and an action hose 116 fixed inside a pipe spring 117, in the process that the controller 10 controls the motor to rotate, a connecting shaft flange ring 15 connected with the motor drives the fixing seat 12 to rotate, the frame body 1133 keeps an upright state under the condition that the action hose 116 is inflated, and the test tube is tightly clamped by the bag seat 1134 inside.

Rotatory inside gas of two-way control seat 112 when bottommost face is inhaled by air cavity 13 back, and the inside gas dissipation of bag seat 1134 then loses the strength of centre gripping, and the test tube drops perpendicularly on mouth of pipe layer board 111 in aqueous, and the outer pipe wall of test tube can be by the sanitization this moment, and bag seat 1134 aerifys again and washes when the test tube of bottom will carry out the rotation once more afterwards and carry out the centre gripping with the test tube then rotatory.

The atmospheric pressure of the action hose 116 of the two-way washing pipe support 11 on that way reduces when last water goes out, and the whole row of test tube leans out along around journal ear 114 under the effect of gravity, and inside remaining moisture is emptyd out, and the rivers of empting under the protection of keeping apart adventitia 115 can not get into the organism in, and the test tube that finishes washing is by getting back to the top again, then the not abluent test tube of extrusion of drive belt 3 down thinks that the right side is removed and will wash the body extrusion that finishes to dry in drying cabinet 9.

Make the test tube level income water after the improvement, carry out thorough washing under the liquid condition of filling, avoided the bottom to remain the part of virus most easily and remain the germ and influence the secondary use, improve the convenience of machine after optimizing simultaneously and reduce abluent step.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. The utility model provides a biological test tube cleaning machine of degasification in multiaspect cleaning tube which the structure includes: the quantitative cleaning device comprises a quantitative cleaning device (1), a protective ceiling (2), a transmission belt (3), a machine body (4), an adjusting foot pad (5), an ultrasonic generator (6), a disinfection chassis (7), a multi-path air valve (8), a drying box (9) and a controller (10), wherein the quantitative cleaning device (1) is fixed at the bottom of the protective ceiling (2) and is connected with a main shaft of a rotating motor inside the machine body (4), threads at the bottom of the machine body (4) are mutually meshed with external threads of a screw rod of the adjusting foot pad (5), a frame body of the transmission belt (3) is fixed on the left side of the quantitative cleaning device (1) and is in a straight line, the quantitative cleaning device (1) is fixed between the ultrasonic generator (6), the quantitative cleaning device (1) is communicated with the multi-path air valve (8) through an air pipe, and the drying box (9)) is installed on the right side of the transmission belt (3), the disinfection chassis (7) is horizontally fixed at the bottom of the quantitative cleaner (1) and a control circuit in the disinfection chassis is connected with the controller (10) through a lead, a groove seat at the front end of the drying box (9) and a bottom shell of the controller (10) are mutually nested, and the disinfection device is characterized in that:

the quantitative cleaner (1) has an internal structure comprising: the cleaning device comprises a two-stroke cleaning pipe frame (11), a fixed seat (12), an air cavity (13), a vertical pipe ball head (14) and a connecting shaft flange ring (15), wherein six cleaning pipe frames (11) are uniformly fixed on the periphery of the fixed seat (12), the circle center of the fixed seat (12) is consistent with that of the air cavity (13), the vertical pipe ball head (14) is welded on the periphery of the fixed seat (12) and communicated with the air cavity (13), the connecting shaft flange ring (15) is welded on the center of the fixed seat (12) and connected with a motor shaft of a machine body (4), and the two-stroke cleaning pipe frame (11) is arranged on the periphery of the air cavity (13);

the two-way cleaning pipe frame (11) consists of a pipe orifice supporting plate (111), a two-way control seat (112), a U-shaped pipe clamp (113), a shaft lug (114), an isolation outer membrane (115), an action hose (116) and a pipe spring (117), wherein the pipe orifice supporting plate (111) is arranged at the top of the two-way control seat (112), the two are parallel to each other, the bidirectional control seats (112) are nested at the left side and the right side of the frame body of the U-shaped pipe clamp (113), the nozzle supporting plate (111) is arranged on the top of the U-shaped pipe clamp (113) and is parallel to the U-shaped pipe clamp, the axle winding lug (114) is welded at the left side of the U-shaped pipe clamp (113) and forms an integral structure, the isolating outer membranes (115) cover two sides of the U-shaped pipe clamp (113) and the bidirectional control seat (112) is arranged inside the U-shaped pipe clamp, the action hose (116) penetrates through the center of the pipe spring (117) and is connected with the end head on the right side of the U-shaped pipe clamp (113) on the top;

u type pipe clamp (113) comprise kerve (1131), communicating pipe (1132), support body (1133), bag seat (1134), main pipe box (1135), kerve (1131) welded fastening is in the left and right sides of support body (1133), support body (1133) inner wall closely laminates with bag seat (1134), main pipe box (1135) are installed on the right side of support body (1133) and are connected with two-way control seat (112) through the pipeline, communicating pipe (1132) are installed in the both sides of support body (1133) and closely laminate.

2. The multi-faceted cleaning tube in-line degassing biological tube cleaning machine of claim 1, further comprising: the bidirectional control seat (112) is composed of a pipe clamping rod (1121), a valve ring (1122), a balance rod (1123), an adjusting cavity (1124) and a connecting pipe orifice (1125), wherein the pipe clamping rod (1121) is vertically fixed to the top wall, close to the left side, of the center of the valve ring (1122), the balance rod (1123) penetrates through the valve ring (1122) and is parallel to the pipe clamping rod (1121) on the left side, the valve ring (1122) is tightly attached to the inner wall of the pipe clamping rod (1121), the connecting pipe orifice (1125) is mutually embedded with clamping grooves on two sides of the U-shaped pipe clamp (113), and the inner wall of the adjusting cavity (1124) is tightly attached to the outer wall of the valve ring (1122).

3. The multi-faceted cleaning tube in-line degassing biological tube cleaning machine of claim 2, wherein: the inner wall of the adjusting cavity (1124) is of a structure with a narrow bottom and a wide upper part.

4. The multi-faceted cleaning tube in-line degassing biological tube cleaning machine of claim 1, further comprising: the bottom of the pipe orifice supporting plate (111) is provided with a plurality of raised clamping columns.

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