CN114101203B - Full-automatic enzyme label plate washing machine and using method thereof - Google Patents

Abstract

The invention discloses a full-automatic enzyme label plate washing machine, which comprises: a main frame of the machine body; the fixing frame is transversely fixed in the main frame of the machine body, the positions of two sides of the fixing frame are respectively and rotatably provided with a transmission wheel, and a transmission belt is connected between the transmission wheels; a guide bar; the positioning transmission assembly is arranged on the guide bar in a transverse sliding mode through a transmission belt, a plurality of mounting concave positions are arranged on the circumference of the positioning transmission assembly, and an enzyme label plate is clamped in each mounting concave position; the ultrasonic vibration cleaning assembly is arranged on the upper side in the main frame of the machine body and is used for carrying out primary vibration cleaning on the ELISA plates in the mounting concave positions one by one; the slot flushing component is embedded in one side, far away from the ultrasonic vibration cleaning component, of the machine body main frame; and the air drying device is arranged in the middle of the machine body main frame, the enzyme label plate is air-dried after the slot gap washing assembly finishes slot position washing, and a flow guide cover is also arranged below the air drying device in the machine body main frame.

Description

Full-automatic enzyme label plate washing machine and using method thereof

Technical Field

The invention belongs to the technical field of medical cleaning equipment, and particularly relates to a full-automatic enzyme label plate washing machine and a using method thereof.

Background

The ELISA plate is mainly used for carrying out chemical tests and detection such as sample adding, dilution, incubation, enzyme immunoassay reaction and the like on a sample. After the elisa plate is used, the elisa plate needs to be cleaned, and the plate washer is a clinical test device for cleaning the elisa plate. When current plate washer washs the ELIAS plate, carry out the full aspect to the ELIAS plate main part usually and soak and wash, carry out the centrifugation again and spin-dry, nevertheless it is difficult to effectively clean to each hole of ELIAS plate at the in-process of soaking, especially easily glue the dirt in the inboard bottom in partial hole, soak and wash the effect relatively poor, and only carry out the hole site washing of pertinence then easily appear the cleaning efficiency low, need carry out more adjustment repeatedly, the process is loaded down with trivial details.

Accordingly, a fully automatic enzyme label plate washing machine and a method for using the same are provided by those skilled in the art to solve the problems set forth in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic enzyme label plate washing machine, which comprises:

a main frame of the machine body;

the fixing frame is transversely fixed in the main frame of the machine body, the positions of two sides of the fixing frame are respectively and rotatably provided with a transmission wheel, and a transmission belt is connected between the transmission wheels;

the guide bar is transversely fixed in the main frame of the machine body and is positioned above the fixing frame;

the positioning transmission assembly is arranged on the guide bar in a transverse sliding mode through a transmission belt, a plurality of mounting concave positions are arranged on the circumference of the positioning transmission assembly, and an enzyme label plate is clamped in each mounting concave position;

the ultrasonic vibration cleaning assembly is arranged on the upper side in the main frame of the machine body and is used for carrying out primary vibration cleaning on the ELISA plates in the mounting concave positions one by one;

the slot flushing component is embedded in one side, far away from the ultrasonic vibration cleaning component, of the machine body main frame; and

and the air drying device is arranged in the middle of the machine body main frame, the slot washing assembly is used for carrying out air drying treatment on the ELISA plate after slot position washing, and a flow guide cover is also arranged below the air drying device in the machine body main frame.

Further, preferably, the positioning transmission assembly includes:

a sliding drive seat;

the central shaft is vertically arranged in the sliding drive seat in a relatively rotating way and is driven by a driving wheel arranged on the sliding drive seat through a connecting belt in a rotating way;

the bearing seat is coaxially fixed at the upper end of the central shaft;

the mounting guide sleeves are arranged in a circumferential array, each mounting guide sleeve is embedded and fixed on the bearing seat, and an inner link rod is coaxially and rotatably arranged in each mounting guide sleeve;

the driving motor is arranged on the upper side in the bearing seat, and the output end of the driving motor is connected with each inner link rod for transmission through the meshing action of the bevel gears; and

and the clamping seat is transversely fixed at one end of each inner link rod.

Further, preferably, the ultrasonic vibration cleaning assembly includes:

the upper connecting rail is transversely fixed above the machine body main frame, and a fixed seat is arranged on the upper connecting rail in a sliding manner;

the mounting bracket is transversely arranged below the fixed seat, and telescopic guide rods are symmetrically and vertically connected between the mounting bracket and the fixed seat;

the sealing cover seat is arranged below the mounting bracket and can be in relatively sliding fit with the clamping seat;

the liquid supply pipe vertically penetrates through and is fixed in the sealing cover seat, and one end of the liquid supply pipe is communicated with an external liquid pump;

the ultrasonic transducers are vertically and uniformly arranged and are fixed on the sealing cover seat in an embedded manner; and

and the liquid discharge pipe is transversely connected to one side of the sealing cover seat.

Further, preferably, the method further comprises:

the inner springs are vertically and symmetrically connected between the mounting bracket and the sealing cover seat;

the first rotating shaft and the second rotating shaft can rotate relatively and are arranged at two sides of the mounting bracket, and the first rotating shaft and the second rotating shaft can perform independent rotating motion or synchronous matched rotation; and

and the top position plates are arranged at the two sides of the sealing cover seat and are positioned below the first rotating shaft and the second rotating shaft.

Further, preferably, a rotational outer diameter of the first rotating shaft is larger than a rotational outer diameter of the second rotating shaft.

Further, preferably, inner clamping plates are symmetrically arranged in the clamping seat from left to right, and a plurality of fastening springs are transversely connected on the inner clamping plates; and the lower part of the clamping seat is rotatably sleeved with an outer frame body, and a plurality of supporting springs are connected between the outer frame body and the clamping seat.

Further, preferably, the slot flushing assembly comprises:

a side shaft connecting frame;

the injection pipes are vertically and uniformly arranged, and are in one-to-one correspondence with the pores of the ELISA plate;

the fine adjustment telescopic rod is vertically connected to the side shaft connecting frame, and the output end of the fine adjustment telescopic rod is communicated with the injection pipe;

the liquid supply cylinder is communicated with the injection pipes through connecting pipes, and a drainage cavity is arranged on one side, far away from the liquid supply cylinder, of the interior of the machine body frame; and

and the adjusting sleeve is arranged at the discharge end of each injection pipe.

Further, preferably, the adjustment kit comprises:

an outer fixed tube;

the positioning pipe is coaxially arranged in the outer fixing pipe;

the inner supporting piece is arranged in the positioning pipe in a sliding mode, a plurality of side guide plates are hinged to the circumference of one end, extending out of the outer fixing pipe, of the inner supporting piece, and the side guide plates are mutually attached in a laminated structure;

an elastic shaft body embedded between the side guide plates; and

and the expanding spring is connected between the opposite side guide plates.

Further, preferably, the cross section of the port of the outer fixing tube is in a trapezoidal structure.

Further, as the optimization, the use method of the full-automatic enzyme label plate washing machine comprises the following steps:

s1, embedding and installing an enzyme label plate; the inner clamping plate in the clamping seat is used for positioning and clamping two sides of the ELISA plate under the elastic force action of the fastening spring, and at the moment, the hole of the main body of the ELISA plate is upward;

s2, ultrasonic cleaning; the sliding driving seat is driven to move along the guide rod in a transverse driving mode through the transfer belt, one clamping seat corresponds to the ultrasonic vibration cleaning assembly, the sealing cover seat is driven to vertically slide by the telescopic guide rod and is in sealing fit with the clamping seat, at the moment, the cleaning liquid is conveyed inwards through the liquid supply pipe, the ultrasonic transducer starts to work and quickly forms tiny bubbles during cleaning, and the tiny bubbles are cavitated to enable stains on the enzyme label plate main body to be peeled off;

s3, vibration cleaning is carried out, the first rotating shaft and the second rotating shaft independently rotate or synchronously rotate in a matched mode according to the adhesion degree of stains on the main bodies of the ELISA plates, and therefore the ELISA plates can vibrate in a frequency-amplitude mode relative to the clamping seats;

s4, discharging liquid and standing, and partially discharging the cleaned sewage by a liquid discharge pipe, wherein clean foam still remains in pores of the enzyme label plate main body;

s5, reversing and washing, namely, transversely driving the sliding driving seat to move to the slot washing assembly by the transfer belt, and at the moment, rotationally driving the driving motor to enable each clamping seat to deflect and adjust by 180 degrees, so that the enzyme label plate is reversed, and high-pressure washing is carried out on the holes of the main body of each enzyme label plate by the injection pipe;

s6, adjusting the flow expansion; during flushing, the inner supporting piece initially extends out of the positioning pipe completely, so that the side guide plate is externally supported through the expanding spring and is matched with the trapezoidal port of the outer fixing pipe to perform dispersed flow injection, cleaning water can be injected into the inner wall of the hole, the fine adjustment telescopic rod performs vertical fine adjustment to control the whole injection pipe to extend into the hole, and after the bottom of the inner wall of the hole is flushed, the side guide plate is gradually retracted into the positioning pipe through vertical sliding of the inner supporting piece, so that cleaning water linear jet flushing is realized, and the hole cleaning effect is improved;

s7, centrifugally drying; the enzyme label plate main body is centrifugally dried by the preliminary circumferential rotation of the central shaft and the rotation action of the inner link rod;

s8, air-drying treatment; and the air drying device is used for air-drying the enzyme label plate main body.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the comprehensive immersion cleaning and targeted hole site cleaning working modes of the enzyme label plate main body are combined, so that residual dirt in the holes of each enzyme label plate main body can be peeled off and separated through the ultrasonic vibration cleaning assembly preferentially in the immersion cleaning, and then the hole back-off cleaning work is carried out through the slot cleaning assembly, so that the cleaning effect is improved, wherein the enzyme label plate main body can achieve relative amplitude oscillation in the ultrasonic vibration cleaning process, and the relative amplitude oscillation is matched with tiny bubble cavitation generated by an ultrasonic transducer to primarily separate stains on the enzyme label plate main body; and especially in hole site washes, each regulation external member can effectively adjust and spout and establish the scattered flow range for the cleaning water is preliminary to be certain inclination and expands a class and wash the hole inner wall, and realize the cleaning water straight line efflux and wash in the adjustment, improves the hole cleaning effect.

Drawings

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

FIG. 2 is a schematic structural view of a positioning and transporting assembly according to the present invention;

FIG. 3 is a schematic view of the ultrasonic vibration cleaning assembly of the present invention;

FIG. 4 is a schematic structural view of the outer frame of the present invention;

FIG. 5 is a schematic view of the structure of the slot flushing assembly of the present invention;

FIG. 6 is a schematic view of an adjustment kit according to the present invention;

in the figure: the device comprises a machine body main frame 1, a fixing frame 2, a positioning transmission assembly 3, a sliding driving seat 31, a central shaft 32, a bearing seat 33, a mounting guide sleeve 34, a clamping seat 35, a driving motor 36, an ultrasonic vibration cleaning assembly 4, an upper connecting rail 41, a fixing seat 42, a mounting support 43, a sealing cover seat 44, a liquid supply pipe 45, an ultrasonic transducer 46, a liquid discharge pipe 47, a first rotating shaft 48, a gap flushing assembly 5, a side connecting frame 51, a fine adjustment telescopic rod 52, a spray pipe 53, a liquid supply cylinder 54, a flow discharge cavity 55, an air drying device 6, a flow guide cover 61, an outer frame body 7, a supporting spring 71, an inner clamping plate 72, a fastening spring 73, an adjusting kit 8, an outer fixing pipe 81, a positioning pipe 82, a side guide plate 83, an inner supporting member 84 and an expanding spring 85.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a full-automatic label plate washing machine includes:

a main frame 1 of the machine body;

the fixing frame 2 is transversely fixed in the machine body main frame 1, transmission wheels are rotatably arranged at the positions of two sides of the fixing frame 2, and a transmission belt is connected between the transmission wheels;

the guide bar is transversely fixed in the machine body main frame 1 and is positioned above the fixing frame 2;

the positioning transmission assembly 3 is transversely arranged on the guide bar in a sliding manner through a transmission belt, a plurality of mounting concave positions are arranged on the circumference of the positioning transmission assembly 3, and an enzyme label plate is clamped in each mounting concave position;

the ultrasonic vibration cleaning assembly 4 is arranged on the upper side in the machine body main frame 1 and is used for carrying out primary vibration cleaning on the ELISA plates in the mounting concave positions one by one;

the slot flushing component 5 is embedded in one side of the machine body main frame 1 far away from the ultrasonic vibration cleaning component 4; and

and the air drying device 6 is arranged in the middle of the machine body main frame 1, the slot gap washing component 5 is used for performing air drying treatment on the elisa plate after slot cleaning, and a flow guide cover 61 is arranged below the air drying device 6 in the machine body main frame 1.

In this embodiment, the positioning transmission assembly 3 includes:

a slide drive base 31;

the central shaft 32 is vertically arranged in the sliding drive seat 31 in a relatively rotating way and is driven by a driving wheel arranged on the sliding drive seat 31 through a connecting belt in a rotating way;

a bearing seat 33 coaxially fixed on the upper end of the central shaft 32;

the installation guide sleeves 34 are arranged in a circumferential array, each installation guide sleeve 34 is embedded and fixed on the bearing seat 33, and an inner link rod is coaxially and rotatably arranged in each installation guide sleeve 34;

the driving motor 36 is arranged at the inner upper side of the bearing seat 33, and the output end of the driving motor 36 is connected with each inner link rod through the meshing action of bevel gears for transmission; and

the clamping seats 35 are transversely fixed at one end of each inner connecting rod, a plurality of clamping seats are used for positioning and clamping the enzyme label plate main body, and the enzyme label plate main body is square or inverted under the rotary drive of the driving motor, so that the subsequent cleaning work is facilitated, particularly in pore cleaning, dirt in pores can be effectively discharged in a reverse buckling mode in time, and secondary adhesion is prevented; meanwhile, the air drying device can be matched with the later-stage centrifugal drying to achieve a quick air drying effect.

As a preferred embodiment, the ultrasonic vibration cleaning assembly 4 comprises:

the upper connecting rail 41 is transversely fixed above the machine body main frame 1, and a fixed seat 42 is arranged on the upper connecting rail 41 in a sliding manner;

the mounting bracket 43 is transversely arranged below the fixed seat 42, and telescopic guide rods are symmetrically and vertically connected between the mounting bracket 43 and the fixed seat 42;

the sealing cover seat 44 is arranged below the mounting bracket 43, and the sealing cover seat 44 can be in relatively sliding engagement with the clamping seat 35;

a liquid supply pipe 45 vertically penetrating and fixed in the sealing cover seat 44, wherein one end of the liquid supply pipe 45 is communicated with an external liquid pump (not shown in the figure);

a plurality of ultrasonic transducers 46 are vertically and uniformly arranged, and each ultrasonic transducer 46 is embedded and fixed on the seal cover seat 44; and

and the liquid discharge pipe 47 is transversely connected to one side of the sealing cover seat 44, preferentially conveys quantitative cleaning liquid through a liquid supply pipe and is fully soaked in the enzyme label plate main body, and at the moment, the micro-bubble cavitation generated by the ultrasonic transducers under the synchronous working can preliminarily separate stains on the enzyme label plate main body and suspend in the cleaning liquid, and the stains are timely discharged by the liquid discharge pipe.

In this embodiment, the method further includes:

the inner springs are vertically and symmetrically connected between the mounting bracket 43 and the seal cover seat 44;

the first rotating shaft 48 and the second rotating shaft are arranged at two sides of the mounting bracket 43 in a relatively rotatable manner, and the first rotating shaft 48 and the second rotating shaft can perform independent rotating movement or synchronous matched rotation; and

and the top position plates are arranged at the two sides of the seal cover seat 44 and are positioned below the first rotating shaft 48 and the second rotating shaft.

In this embodiment, the rotating outer diameter of the first rotating shaft 48 is larger than that of the second rotating shaft, and the first rotating shaft and the second rotating shaft rotate independently or synchronously in a matched manner, so that a multistage vibration effect of the elisa plate main body is achieved, especially for the elisa plate main body which is seriously polluted and difficult to clean due to dirt adhesion and solidification, after the first rotating shaft rotates to enable the seal cover seat to oscillate and rock, the second rotating shaft can enable the seal cover seat to achieve secondary instantaneous oscillation under synchronous rotation, and therefore oscillation amplitude frequency is improved, and a cleaning effect is improved.

In this embodiment, inner clamping plates 72 are symmetrically arranged in the clamping base 35 from left to right, and a plurality of fastening springs 73 are transversely connected to the inner clamping plates 72; and the lower part of the clamping seat 35 is rotatably sleeved with an outer frame body 7, a plurality of supporting springs 71 are connected between the outer frame body 7 and the clamping seat 35, particularly, in ultrasonic vibration cleaning, the elisa plate main body can oscillate relative to the clamping seat, and dirt is timely peeled off by utilizing the inertia separation effect.

As a preferred embodiment, the slot flushing assembly 5 comprises:

a side shaft bracket 51;

the injection pipes 53 are vertically and uniformly arranged, and each injection pipe 53 corresponds to the pore of the ELISA plate one by one;

the fine adjustment telescopic rod 52 is vertically connected to the side shaft connecting frame 51, and the output end of the fine adjustment telescopic rod 52 is communicated with the injection pipe 53;

a liquid supply cylinder 54 communicated with each injection pipe 53 through a connecting pipe, wherein a drainage cavity 55 is arranged on one side of the interior of the machine body main frame 1 far away from the liquid supply cylinder 54; and

and an adjustment kit 8 provided at the discharge end of each of the injection pipes 53.

In this embodiment, the adjusting kit 8 includes:

an outer fixing tube 81;

a positioning tube 82 coaxially disposed within the outer fixing tube 81;

an inner support 84 slidably disposed in the positioning tube 82, wherein a plurality of side guide plates 83 are hinged to a circumference of one end of the inner support 84 extending out of the outer fixing tube 81, and the side guide plates 83 are mutually attached in a laminated structure;

an elastic shaft body fitted between the side guides 83; and

and expanding springs 85 connected between the side guides 83 facing each other.

In this embodiment, the cross section of the port of the outer fixing pipe 81 is of a trapezoidal structure, and when the inner support member slides vertically relative to the inner support member, the side guide plate can be retracted and extended under the elastic action of the expanding spring, so that the side guide plate can cooperate with the trapezoidal port of the outer fixing pipe to perform divergent jet injection, and effectively control the jet inclination angle, so as to realize targeted flushing of the inner wall of the pore.

The use method of the full-automatic enzyme label plate washing machine comprises the following steps:

s1, embedding and installing an enzyme label plate; the inner clamping plate in the clamping seat 35 positions and clamps two sides of the ELISA plate through the elastic force of the fastening spring 73, and at the moment, the hole of the main body of the ELISA plate is upward;

s2, ultrasonic cleaning; the sliding driving seat 31 is driven to move along the guide rod by a transverse driving belt, so that one clamping seat 35 corresponds to the ultrasonic vibration cleaning assembly 4, the sealing cover seat 44 is driven by the telescopic guide rod to vertically slide and is in sealing fit with the clamping seat 35, at the moment, the liquid supply pipe 45 internally conveys cleaning liquid, the ultrasonic transducer 46 starts to work and quickly forms micro bubbles during cleaning, and the micro bubbles are cavitated to peel off and separate stains on the enzyme label plate main body;

s3, vibration cleaning is carried out, the first rotating shaft 48 and the second rotating shaft are independently rotated or synchronously rotated in a matched mode according to the adhesion degree of stains on the main bodies of the ELISA plates, and therefore the ELISA plates can vibrate in a frequency-amplitude mode relative to the clamping seats 35;

s4, discharging liquid, standing, and partially discharging the cleaned sewage through a liquid discharge pipe 47, wherein clean foam still remains in pores of the enzyme label plate main body;

s5, reversing and washing, namely, transversely driving the sliding driving seat 31 to move to the position of the slot washing assembly 5 by the transfer belt, and then, rotationally driving the driving motor 36 to enable each clamping seat 35 to deflect and adjust for 180 degrees so as to reverse the enzyme label plate, and washing the main body holes of each enzyme label plate at high pressure by the injection pipes 53;

s6, adjusting the flow expansion; during flushing, the inner support piece 84 initially extends out of the positioning pipe 82 completely, so that the side guide plate 83 is externally supported through the expanding spring 85, and is matched with a trapezoidal port of the outer fixing pipe 81 to perform divergent flow injection, so that cleaning water can be injected to the inner wall of a pore, at the moment, the fine adjustment telescopic rod 52 performs vertical fine adjustment to control the whole injection pipe 53 to extend into the pore, after the bottom of the inner wall of the pore is flushed, the inner support piece 84 slides vertically to enable the side guide plate 83 to be gradually retracted into the positioning pipe 82, so that cleaning water linear jet flushing is realized, and the pore cleaning effect is improved;

s7, centrifugally drying; the enzyme label plate main body is centrifugally dried by the primary circumferential rotation of the central shaft 32 and the rotation action of the inner link rod;

s8, air-drying treatment; and the air-drying device 6 is used for air-drying the enzyme label plate main body.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a full-automatic enzyme mark board washes trigger which characterized in that: it includes:

a machine body main frame (1);

the fixing frame (2) is transversely fixed in the machine body main frame (1), transmission wheels are rotatably arranged at the positions of two sides of the fixing frame (2), and a transmission belt is connected between the transmission wheels;

the guide bar is transversely fixed in the machine body main frame (1) and is positioned above the fixed frame (2);

the positioning transmission assembly (3) is transversely arranged on the guide bar in a sliding manner through a transfer belt, a plurality of mounting concave positions are arranged on the circumference of the positioning transmission assembly (3), and an enzyme label plate is clamped in each mounting concave position;

the ultrasonic vibration cleaning assembly (4) is arranged on the upper side in the body main frame (1) and is used for carrying out primary vibration cleaning on the ELISA plates in the mounting concave positions one by one;

the slot flushing component (5) is embedded in one side of the machine body main frame (1) far away from the ultrasonic vibration cleaning component (4); and

the air drying device (6) is arranged in the middle of the machine body main frame (1), the enzyme label plate is dried in the air after the slot cleaning is finished by the slot cleaning component (5), and a flow guide cover (61) is also arranged below the air drying device (6) in the machine body main frame (1);

the slot flushing assembly (5) comprises:

a side shaft coupling frame (51);

the injection pipes (53) are vertically and uniformly arranged, and each injection pipe (53) corresponds to the pore of the ELISA plate one by one;

the fine adjustment telescopic rod (52) is vertically connected to the side shaft connecting frame (51), and the output end of the fine adjustment telescopic rod (52) is communicated with the injection pipe (53);

the liquid supply cylinder (54) is communicated with each injection pipe (53) through a connecting pipe, and a drainage cavity (55) is arranged on one side, far away from the liquid supply cylinder (54), of the interior of the machine body main frame (1); and

an adjustment kit (8) provided at the discharge end of each of the injection tubes (53);

the adjustment kit (8) comprises:

an outer fixed tube (81);

a positioning tube (82) coaxially disposed within the outer stationary tube (81);

the inner supporting piece (84) is arranged in the positioning pipe (82) in a sliding mode, a plurality of side guide plates (83) are hinged to the circumference of one end, extending out of the outer fixing pipe (81), of the inner supporting piece (84), and the side guide plates (83) are mutually attached in a laminated structure;

an elastic shaft body embedded between the side guides (83); and

expanding springs (85) connected between the opposite side guides (83);

the positioning and transmission assembly (3) comprises:

a sliding drive seat (31);

the central shaft (32) is vertically arranged in the sliding drive seat (31) in a relatively rotating way and is driven by a driving wheel arranged on the sliding drive seat (31) through a connecting belt in a rotating way;

a bearing seat (33) coaxially fixed at the upper end of the central shaft (32);

the mounting guide sleeves (34) are arranged in a circumferential array, each mounting guide sleeve (34) is embedded and fixed on the bearing seat (33), and an inner link rod is coaxially and rotatably arranged in each mounting guide sleeve (34);

the driving motor (36) is arranged at the upper side of the inner part of the bearing seat (33), and the output end of the driving motor (36) is connected with each inner connecting rod through the meshing action of bevel gears for transmission; and

the clamping seat (35) is transversely fixed at one end of each inner link rod;

inner clamping plates (72) are symmetrically arranged in the clamping seat (35) from left to right, and a plurality of fastening springs (73) are transversely connected on the inner clamping plates (72); and the lower part of the clamping seat (35) is rotatably sleeved with an outer frame body (7), and a plurality of supporting springs (71) are connected between the outer frame body (7) and the clamping seat (35).

2. The full-automatic enzyme-labeled board washing machine as claimed in claim 1, characterized in that: the ultrasonic vibration cleaning assembly (4) comprises:

the upper connecting rail (41) is transversely fixed above the machine body main frame (1), and a fixed seat (42) is arranged on the upper connecting rail (41) in a sliding manner;

the mounting bracket (43) is transversely arranged below the fixed seat (42), and telescopic guide rods are symmetrically and vertically connected between the mounting bracket (43) and the fixed seat (42);

the sealing cover seat (44) is arranged below the mounting bracket (43), and the sealing cover seat (44) can be in relatively sliding engagement fit with the clamping seat (35);

the liquid supply pipe (45) vertically penetrates and is fixed in the sealing cover seat (44), and one end of the liquid supply pipe (45) is communicated with an external liquid pump;

the ultrasonic transducers (46) are vertically and uniformly arranged, and each ultrasonic transducer (46) is embedded and fixed on the sealing cover seat (44); and

and the drain pipe (47) is transversely connected to one side of the sealing cover seat (44).

3. The full automatic enzyme label plate washing machine according to claim 2, characterized in that: the ultrasonic vibration cleaning assembly (4) further comprises:

the inner springs are vertically and symmetrically connected between the mounting bracket (43) and the sealing cover seat (44);

the first rotating shaft (48) and the second rotating shaft are arranged at two sides of the mounting bracket (43) in a relatively rotatable manner, and the first rotating shaft (48) and the second rotating shaft can perform independent rotating motion or synchronous matched rotation; and

and the top position plates are arranged at the two sides of the seal cover seat (44) and are positioned below the first rotating shaft (48) and the second rotating shaft.

4. The full automatic enzyme label plate washing machine according to claim 3, characterized in that: the rotating outer diameter of the first rotating shaft (48) is larger than that of the second rotating shaft.

5. The full-automatic enzyme-labeled board washing machine as claimed in claim 1, characterized in that: the cross section of the port of the outer fixing pipe (81) is of a trapezoidal structure.

6. Use of a fully automatic enzyme label plate washer according to any of claims 1-5, characterized in that: which comprises the following steps:

s1, embedding and installing an enzyme label plate; the inner clamping plate in the clamping seat (35) positions and clamps two sides of the ELISA plate through the elastic force of a fastening spring (73), and at the moment, the hole of the main body of the ELISA plate is upward;

s2, ultrasonic cleaning; the sliding driving seat (31) is transversely driven by a transfer belt to move along the guide rod, so that one clamping seat (35) corresponds to the ultrasonic vibration cleaning assembly (4), the sealing cover seat (44) is driven by the telescopic guide rod to vertically slide and is in sealing fit with the clamping seat (35), at the moment, a cleaning solution is conveyed inwards by the liquid supply pipe (45), the ultrasonic transducer (46) starts to work and quickly forms micro bubbles during cleaning, and the micro bubbles are cavitated to peel off stains on the enzyme label plate main body;

s3, vibration cleaning is carried out, the first rotating shaft (48) and the second rotating shaft independently rotate or synchronously rotate in a matched mode according to the adhesion degree of stains on the main bodies of the ELISA plates, and therefore the ELISA plates can vibrate in a frequency-amplitude mode relative to the clamping seats (35);

s4, discharging liquid and standing, and partially discharging the cleaned sewage through a liquid discharge pipe (47), wherein clean foam still remains in pores of the enzyme label plate main body;

s5, reversing and washing, namely, transversely driving the sliding driving seat (31) to move to the position of the slot washing assembly (5) by the transfer belt, and at the moment, rotationally driving the driving motor (36) to enable each clamping seat (35) to deflect and adjust for 180 degrees so as to reverse the ELISA plate, and washing the main body hole of each ELISA plate at high pressure by the jet pipe (53);

s6, adjusting the flow expansion; in the process of flushing, the inner support piece (84) initially completely extends out of the positioning pipe (82), so that the side guide plate (83) is externally supported through the expanding spring (85), and is matched with the trapezoidal port of the outer fixing pipe (81) to perform dispersed flow injection, so that cleaning water can be injected to the inner wall of a hole, at the moment, the fine adjustment telescopic rod (52) performs vertical fine adjustment to control the whole injection pipe (53) to extend into the hole, after the bottom of the inner wall of the hole is flushed, the vertical sliding of the inner support piece (84) enables the side guide plate (83) to be gradually retracted into the positioning pipe (82), so that cleaning water linear jet flushing is realized, and the hole cleaning effect is improved;

s7, centrifugal drying; the enzyme label plate main body is centrifugally dried by the primary circumferential rotation of the central shaft (32) and the rotation action of the inner link rod;

s8, air-drying treatment; and the air drying device (6) is used for air-drying the enzyme label plate main body.

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