CN217766469U - Hemolytic agent sample adding device capable of scanning codes and uniformly mixing - Google Patents

Abstract

The utility model relates to the technical field of detecting instruments, in particular to a hemolytic agent sampling device capable of scanning and mixing; can sweep hemolytic agent application of sample device of sign indicating number and mixing and include base bracket component, sweep sign indicating number subassembly and application of sample mixing subassembly, base bracket component includes the adjustment bottom plate, first adjustment tool, second adjustment tool, first adjustment baffle, second adjustment baffle, the guide rail mounting panel, first motor, first opto-coupler and second opto-coupler, on prior art's basis, an application of sample device is proposed, whether the detection of effective rotatory mixing is carried out to the test tube to the realization of code subassembly cooperation first opto-coupler and second opto-coupler is swept to the utilization, recycle first adjustment tool and second adjustment tool, make this device conveniently adjust the rotatory axle center of application of sample mixing subassembly to concentric with the test tube axis, thereby avoid the too big problem of vibration to appear when the mixing of application device.

Description

Hemolytic agent sample adding device capable of scanning codes and uniformly mixing

Technical Field

The utility model relates to a detecting instrument technical field especially relates to a hemolytic agent application of sample device that can sweep sign indicating number and mixing.

Background

When the sample is subjected to pre-treatment, the test tube is mostly manually scanned, the hemolytic agent is manually added, and then the sample test tube is transferred to other mixing devices for mixing; therefore, the workload of sample adding and code scanning is heavy, the sample adding and code scanning is transferred to other mixing devices to be mixed uniformly, the moving time is long, and the efficiency is not high on the whole;

the prior art provides the application of sample device, realizes the automatic application of sample of hemolytic agent, but discovery in the use, current application of sample device exists when the separation is established, and processing manufacturing error problem causes the axle center of going up a top and gland axial disalignment, and causes the device too big problem of vibration when the mixing.

Therefore, an urgent need exists for a sample adding device capable of automatically adding and uniformly mixing hemolytic agents, which can effectively reduce manual steps, improve the detection efficiency of the instrument and improve the continuity, and avoid the problem of overlarge vibration of the sample adding device during uniform mixing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hemolytic agent application of sample device that sign indicating number and mixing can sweep to solve the too big problem of vibration appears in the application of sample device that exists among the prior art when the mixing.

In order to achieve the purpose, the utility model provides a hemolytic agent sampling device capable of scanning and mixing codes, which comprises a base bracket component, a code scanning component and a sampling and mixing component, wherein the code scanning component and the sampling and mixing component are both arranged on the upper side of the base bracket component, the code scanning component is used for confirming whether a test tube exists or not, and the sampling and mixing component is matched with the test tube to rotate and mix;

the base bracket component comprises an adjusting bottom plate, a first adjusting jig, a second adjusting jig, a first adjusting baffle, a second adjusting baffle, a guide rail mounting plate, a first motor, a first optocoupler and a second optocoupler, wherein the guide rail mounting plate is arranged on the upper side of the adjusting bottom plate, the first adjusting jig is arranged on the rear side of the adjusting bottom plate, the first adjusting baffle is arranged on the rear side of the adjusting bottom plate, the second adjusting jig is arranged on the right side of the guide rail mounting plate, the second optocoupler is arranged on the upper end of the guide rail mounting plate, the first optocoupler is arranged on the lower end of the guide rail mounting plate, and the first motor is arranged on the right side of the guide rail mounting plate.

The base bracket component further comprises a driving synchronous belt wheel, a driven wheel shaft sleeve, an opening check ring, a lifting driven wheel, a lifting synchronous toothed belt, a tensioning wheel mounting seat, a tensioning wheel shaft, a tensioning wheel, a sampling needle mounting plate, a reagent sampling needle, a first stop jig, a second stop jig and a first spring suspension jig, wherein the first stop jig is arranged at the lower left side of the guide rail mounting plate, the second stop jig is arranged at the upper left side of the guide rail mounting plate, the sampling needle mounting plate is arranged at the upper side of the guide rail mounting plate, the reagent sampling needle is arranged at the upper side of the sampling needle mounting plate, the driving synchronous belt wheel is arranged at the shaft end of the first motor, the driven wheel shaft is arranged at the lower left side of the guide rail mounting plate, the driven wheel shaft sleeve is arranged at the inner side of the lifting driven wheel, the lifting driven wheel is arranged on the driven wheel shaft, the opening check ring is arranged at the shaft end of the driven wheel shaft, the lifting synchronous toothed belt is connected with the driving synchronous belt wheel and the lifting driven wheel, the tensioning wheel mounting seat is arranged at the left side of the guide rail mounting seat, and the tensioning wheel is arranged on the tensioning wheel mounting seat; the tensioning wheel is arranged on the tensioning wheel shaft; the tensioning wheel is used for tensioning the lifting synchronous toothed belt; the first spring suspension jig is arranged on the right side of the guide rail mounting plate.

The code scanning assembly comprises a code scanner fixing support, a code scanner switching metal plate and a code scanner, wherein the code scanner fixing support is arranged on the left upper side of the guide rail mounting plate; the code scanner switching metal plate is arranged below the code scanner fixing support; the code scanner is arranged on the lower left side of the code scanner switching metal plate.

Wherein, application of sample mixing subassembly includes that linear guide is vice, first slider, test tube mixing motor backup pad, hold-in range connect panel beating, hold-in range clamp plate and lift initial point opto-coupler light screen, linear guide is vice set up in the left side of guide rail mounting panel, test tube mixing motor backup pad fasten in linear guide is vice to be close to the adjustment bottom plate side on the first slider, hold-in range connect the panel beating set up in the rear side of test tube mixing motor backup pad, hold-in range clamp plate sets up the side of panel beating is connected to the hold-in range, lift initial point opto-coupler light screen set up in test tube mixing motor backup pad preceding.

Wherein, application of sample mixing subassembly still includes second slider, second motor, mixing initiative side belt pulley, belt, the driven side belt pulley of mixing, first deep groove ball bearing, washing cover slider mounting panel, test tube mixing ejector pin axle and mixing ejector pin cover, the second slider set up in linear guide is vice on, and with it connects to wash cover slider mounting panel, mixing initiative side belt pulley set up in the axle head of second motor, the belt cover is located the driven side belt pulley outside of mixing, the driven side belt pulley of mixing set up in the axle head of test tube mixing ejector pin axle, test tube mixing ejector pin axle set up in on the first deep groove ball bearing, the mixing ejector pin cover is located the axle head of test tube mixing ejector pin axle.

The sample adding and mixing assembly further comprises a sample test tube, a test tube pressing sleeve fixing plate, a second deep groove ball bearing, a test tube pressing sleeve, an outer snap spring, a third optical coupler, a cleaning sleeve mounting plate, a cleaning sleeve cover, a cleaning sleeve mounting pressing plate, a second spring hanging jig and a reset tension spring, the sample test tube moves under the action of the mixing ejector rod sleeve, the test tube pressing sleeve fixing plate is arranged below the cleaning sleeve sliding block mounting plate, the second deep groove ball bearing is arranged on the test tube pressing sleeve fixing plate, the test tube pressing sleeve is arranged on the second deep groove ball bearing, and the outer snap spring is arranged at the shaft end of the test tube pressing sleeve; the third optocoupler is arranged below the test tube pressing sleeve fixing plate, the cleaning sleeve mounting plate is arranged above the cleaning sleeve sliding block mounting plate, the cleaning sleeve is arranged on the cleaning sleeve mounting plate, the cleaning sleeve is covered on the cleaning sleeve, the cleaning sleeve mounting pressing plate is arranged on the front side of the cleaning sleeve mounting plate, and the second spring hanging jig is arranged on the right side of the cleaning sleeve sliding block mounting plate; and two ends of the reset tension spring are respectively connected with the second spring suspension jig and the first spring suspension jig.

The utility model discloses a can sweep hemolytic agent application of sample device of sign indicating number and mixing on prior art's basis, provide an application of sample device, utilize sweep a yard subassembly cooperation first opto-coupler with the second opto-coupler realizes carrying out the detection of effective rotatory mixing to the test tube, recycles first adjustment tool with second adjustment tool makes this device conveniently will the rotatory axle center of application of sample mixing subassembly adjust to with the test tube axis is concentric to avoid application of sample device to appear vibrating too big problem when the mixing.

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 description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only 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 schematic diagram of a forward structure of a hemolytic agent sample adding device capable of scanning and mixing.

Fig. 2 is a schematic diagram of a reverse structure of a hemolytic agent sample adding device capable of scanning and mixing.

<xnotran> 1- , 2- , 3- , 101- , 102- , 103- , 104- , 105- , 106- , 107- , 108- , 109- , 110- , 111- , 112- , 113- , 114- , 115- , 116- , 117- , 118- , 119- , 120- , 121- , 122- , 123- , 124- , 125- , 126- , 127- , 128- , 129- , 130- , 131- , 132- , 133- , 134- , 135- , 136- , 137- , 138- , 139- , 140- , 141- , 142- , 143- , 144- , 145- , 146- , </xnotran> 147-cleaning sleeve 148 mounting plate, 148-cleaning sleeve, 149-cleaning sleeve cover, 150-cleaning sleeve mounting pressure plate, 151-second spring suspension jig, 152-reset tension spring and 153-second adjustment jig.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 2, the utility model provides a hemolytic agent sample adding device capable of scanning code and mixing uniformly, which comprises a base bracket component 1, a code scanning component 2 and a sample adding and mixing component 3, wherein the code scanning component 2 and the sample adding and mixing component 3 are both arranged on the upper side of the base bracket component 1, the code scanning component 2 is used for confirming whether a test tube exists or not, and the sample adding and mixing component 3 is matched with the test tube to rotate and mix uniformly;

the base bracket assembly 1 comprises an adjusting bottom plate 101, a first adjusting jig 104, a second adjusting jig 153, a first adjusting baffle 102, a second adjusting baffle 103, a guide rail mounting plate 105, a first motor 107, a first optical coupler 106 and a second optical coupler 117, wherein the guide rail mounting plate 105 is arranged on the upper side of the adjusting bottom plate 101, the first adjusting jig 104 is arranged on the rear side of the adjusting bottom plate 101, the first adjusting baffle 102 is arranged on the rear side of the adjusting bottom plate 101, the second adjusting jig 153 is arranged on the right side of the guide rail mounting plate 105, the second optical coupler 117 is arranged on the upper end of the guide rail mounting plate 105, the first optical coupler 106 is arranged on the lower end of the guide rail mounting plate 105, and the first motor 107 is arranged on the right side of the guide rail mounting plate 105;

the base bracket assembly 1 further includes a driving synchronous pulley 108, a driven pulley shaft 109, a driven pulley shaft sleeve 110, an open retainer ring 111, a lifting driven pulley 112, a lifting synchronous toothed belt 113, a tensioning pulley 116 mounting seat 114, a tensioning pulley shaft 115, a tensioning pulley 116, a loading needle mounting plate 118, a reagent loading needle 119, a first stop jig 120, a second stop jig 121 and a first spring suspension jig 122, wherein the first stop jig 120 is disposed on the lower left side of the guide rail mounting plate 105, the second stop jig 121 is disposed on the upper left side of the guide rail mounting plate 105, the loading needle mounting plate 118 is disposed on the upper side of the guide rail mounting plate 105, the reagent loading needle 119 is disposed on the upper side of the loading needle mounting plate 118, the driving synchronous pulley 108 is disposed at the shaft end of the first motor 107, the driven pulley shaft 109 is disposed on the lower left side of the guide rail mounting plate 105, the driven pulley shaft sleeve 110 is disposed on the inner side of the lifting driven pulley 112, the lifting driven pulley 112 is disposed on the driven pulley shaft 109, the open retainer ring 111 is disposed on the driven pulley shaft end of the lifting synchronous pulley 113, the driving synchronous pulley shaft end is connected with the lifting driven pulley 108 and the lifting driven pulley shaft 112, the tensioning pulley shaft 114 is disposed on the left side of the tensioning pulley mounting plate 105; the tension wheel 116 is disposed on the tension wheel shaft 115; the tension wheel 116 is used for tensioning the lifting synchronous toothed belt 113; the first spring hanging jig 122 is disposed on the right side of the rail mounting plate 105.

In the present embodiment, the rail mounting plate 105 is provided on the upper surface of the adjustment base plate 101; the first adjusting jig 104 is arranged behind the adjusting bottom plate 101; the first adjusting baffle plate 102 is arranged behind the adjusting bottom plate 101; the second adjusting jig 153 is disposed on the right side of the guide rail mounting plate 105; the second adjusting baffle 103 is arranged on the right side of the adjusting bottom plate 101; the second optical coupler 117 is arranged above the left side of the guide rail mounting plate 105, and the second optical coupler 117 is arranged below the right side of the guide rail mounting plate 105; the first stopper jig 120 is disposed at the lower left of the rail mounting plate 105; the second stopping jig 121 is disposed above and to the left of the guide rail mounting plate 105; the sample adding needle mounting plate 118 is arranged on the upper part of the guide rail mounting plate 105; the reagent loading needle 119 is arranged on the upper part of the loading needle mounting plate 118; the first motor 107 is arranged on the right side of the guide rail mounting plate 105; the driving synchronous pulley 108 is arranged at the shaft end of the first motor 107; the driven wheel shaft 109 is arranged on the left lower side of the guide rail mounting plate 105; the driven wheel shaft sleeve 110 is arranged at two ends of the lifting driven wheel 112, and the lifting driven wheel 112 is arranged on the driven wheel shaft 109; the split retainer ring 111 is arranged at the end of the driven wheel shaft 109; the tensioning wheel mounting base 114 is arranged on the left side of the guide rail mounting plate 105; the tension wheel 116 is disposed on the tension wheel shaft 115; the tensioning wheel shaft 115 is arranged on the tensioning wheel mounting seat 114; the first spring hanging jig 122 is disposed on the right side of the rail mounting plate 105.

Further, the code scanning assembly 2 comprises a code scanner fixing bracket 123, a code scanner switching metal plate 124 and a code scanner 125, wherein the code scanner fixing bracket 123 is arranged on the upper left side of the guide rail mounting plate 105; the code scanner switching metal plate 124 is arranged below the code scanner fixing support 123; the scanner 125 is disposed at the lower left side of the scanner switching metal plate 124.

In the present embodiment, the scanner fixing bracket 123 is provided on the upper left side of the rail mounting plate 105; the code scanner switching metal plate 124 is arranged below the code scanner fixing support 123; the scanner 125 is disposed at the lower left side of the scanner switching metal plate 124.

Further, the sample adding and mixing assembly 3 comprises a linear guide rail pair 126, a first slider 127, a test tube mixing motor support plate 129, a synchronous belt connecting metal plate 130, a synchronous belt pressing plate 131 and a lifting origin opto-coupling light shielding plate 132, wherein the linear guide rail pair 126 is arranged on the left side of the guide rail mounting plate 105, the test tube mixing motor support plate 129 is fastened on the first slider 127 on the side of the linear guide rail pair 126 close to the adjustment bottom plate 101, the synchronous belt connecting metal plate 130 is arranged on the rear side of the test tube mixing motor support plate 129, the synchronous belt pressing plate 131 is arranged on the side surface of the synchronous belt connecting metal plate 130, and the lifting origin opto-coupling light shielding plate 132 is arranged in front of the test tube mixing motor support plate 129;

the sample adding and mixing assembly 3 further comprises a second slider 128, a second motor 133, a mixing driving side belt pulley 134, a belt 135, a mixing driven side belt pulley 136, a first deep groove ball bearing 137, a cleaning sleeve slider mounting plate 141, a test tube mixing ejector rod shaft 138 and a mixing ejector rod sleeve 139, wherein the second slider 128 is arranged on the linear guide rail pair 126 and connected with the cleaning sleeve slider mounting plate 141, the mixing driving side belt pulley 134 is arranged at the shaft end of the second motor 133, the belt 135 is sleeved outside the mixing driven side belt pulley 136, the mixing driven side belt pulley 136 is arranged at the shaft end of the test tube mixing ejector rod shaft 138, the test tube mixing ejector rod shaft 138 is arranged on the first deep groove ball bearing 137, and the mixing ejector rod sleeve 139 is arranged at the shaft end of the test tube mixing ejector rod shaft 138;

the sample adding and mixing assembly 3 further comprises a sample test tube 140, a test tube pressing sleeve fixing plate 142, a second deep groove ball bearing 143, a test tube pressing sleeve 144, an outer clamp spring 145, a third optical coupler 146, a cleaning sleeve mounting plate 147, a cleaning sleeve 148, a cleaning sleeve cover 149, a cleaning sleeve mounting pressing plate 150, a second spring hanging jig 151 and a reset tension spring 152, wherein the sample test tube 140 moves under the action of the mixing ejector rod sleeve 139, the test tube pressing sleeve fixing plate 142 is arranged below the cleaning sleeve sliding block mounting plate 141, the second deep groove ball bearing 143 is arranged on the test tube pressing sleeve fixing plate 142, the test tube pressing sleeve 144 is arranged on the second deep groove ball bearing 143, and the outer clamp spring 145 is arranged at the shaft end of the test tube pressing sleeve 144; the third optical coupler 146 is arranged below the test tube pressing sleeve fixing plate 142, the cleaning sleeve mounting plate 147 is arranged above the cleaning sleeve slider mounting plate 141, the cleaning sleeve 148 is arranged on the cleaning sleeve mounting plate 147, the cleaning sleeve cover 149 is arranged on the cleaning sleeve 148, the cleaning sleeve mounting pressing plate 150 is arranged on the front side of the cleaning sleeve mounting plate 147, and the second spring hanging jig 151 is arranged on the right side of the cleaning sleeve slider mounting plate 141; two ends of the return tension spring 152 are respectively connected to the second spring hanging jig 151 and the first spring hanging jig 122.

In the present embodiment, the linear guide pair 126 is provided on the left side of the guide mounting plate 105; the test tube mixing motor supporting plate 129 is arranged on the first sliding block 127 of the linear guide rail pair 126 close to the adjusting bottom plate 101; the second motor 133 is arranged on the test tube blending motor support plate 129; the blending driving side belt pulley 134 is arranged at the shaft end of the second motor 133; the first deep groove ball bearing 137 is arranged on the test tube mixing motor supporting plate 129; the test tube homogenizing top rod shaft 138 is arranged on the first deep groove ball bearing 137; the blending driven side belt pulley 136 is arranged at the shaft end of the test tube blending jack shaft 138; the mixing ejector sleeve 139 is arranged at the shaft end of the test tube mixing ejector shaft 138; the synchronous belt connecting metal plate 130 is arranged behind the test tube blending motor supporting plate 129; the synchronous belt pressing plate 131 is arranged on the side surface of the synchronous belt connecting metal plate 130; the lifting origin optical coupling shading plate 132 is arranged in front of the test tube blending motor supporting plate 129; the cleaning sleeve mounting plate 147 is arranged on the second slide block 128 on the linear guide rail pair 126; the test tube pressing sleeve fixing plate 142 is arranged below the cleaning sleeve sliding block mounting plate 141; the second deep groove ball bearing 143 is arranged on the test tube pressing sleeve fixing plate 142; the test tube pressing sleeve 144 is arranged on the second deep groove ball bearing 143; the outer clamp spring 145 is arranged at the shaft end of the test tube pressing sleeve 144; the third optical coupler 146 is arranged below the test tube pressing sleeve fixing plate 142; the cleaning sleeve mounting plate 147 is arranged above the cleaning sleeve slider mounting plate 141; the cleaning sleeve 148 is arranged on the cleaning sleeve mounting plate 147; the cleaning sleeve cover 149 is arranged on the cleaning sleeve 148; the cleaning sleeve mounting pressure plate 150 is arranged in front of the cleaning sleeve mounting plate 147; the second spring hanging jig 151 is arranged on the right side of the cleaning sleeve slider mounting plate 141; one end of the return tension spring 152 is disposed on the second spring hanging fixture 151, and the other end thereof is hung on the first spring hanging fixture 122.

The detailed movement process is as follows: when the sample test tube 140 rotates to a hemolytic agent sample adding and mixing position, the first motor 107 drives and lifts the lifting synchronous toothed belt 113 to drive the sample adding and mixing assembly 3 to move upwards, the mixing ejector rod sleeve 139 contacts the sample test tube 140 and moves upwards together until the sample test tube 140 contacts the test tube pressing sleeve 144 and continues to move upwards, the system detects whether a scannable code and a mixed sample test tube 140 exist at the current position by detecting whether the test tube pressing sleeve 144 is in a set upward displacement, whether the second optical coupler 117 is triggered, if the second optical coupler 117 is triggered, the current position has the sample test tube 140, the second motor 133 starts to drive the sample test tube 140 to rotate at a low speed, the test tube pressing sleeve 144 starts to correct the posture of the sample test tube 140, the system starts to scan the code at the same time, if the system does not have no scan code feedback in the set number, the second motor 133 continues to drive the low-speed rotation and scan the code, if no scan code feedback information is received, the system continues to alarm information to prompt whether a worker processes the barcode or continues to reset the current sample test tube 140 after the barcode is processed; if the system confirms that the code scanning is finished, the control system drives the liquid path system to sample the hemolytic agent into the sample test tube 140 through the reagent sampling needle 119;

after the sample adding of the related hemolytic agent is finished, the second motor 133 is driven to uniformly mix at a uniform mixing rotating speed, the system simultaneously detects the feedback signal of the third optocoupler 146, and detects whether the feedback signal of the third optocoupler 146 exceeds a set number of times within a set time, so as to confirm that the sample test tube 140 effectively rotates and uniformly mixes; after the blending is finished, the first motor 107 drives the sample adding and blending assembly 3 to descend and reset, and the sample test tube 140 falls back to a test tube tray in the process; the sample adding and uniformly mixing component 3 continues to move downwards until the starting position is reached; the test tube pressing sleeve 144 is reset under the action of gravity and the reset tension spring 152 until being stopped by the first stopping jig 120, the control system drives the liquid path system to enable cleaning liquid to pass through the upper tube openings of the reagent sampling needle 119 and the cleaning sleeve 148 to clean the inner wall and the outer wall of the reagent sampling needle 119, and the cleaning waste liquid is sucked away through the lower tube opening of the cleaning sleeve 148, so that the reagent sampling needle 119 is cleaned to prepare other types of hemolytic agent sampling; thereby realized that sample test tube 140 sweep sign indicating number, test tube have or not to judge, hemolytic agent application of sample and judge whether effective mixing operation is carried out to sample test tube 140.

The utility model discloses a can sweep hemolytic agent application of sample device of sign indicating number and mixing on prior art's basis, provide an application of sample device, utilize sweep a sign indicating number subassembly 2 cooperation first opto-coupler 106 with second opto-coupler 117 realizes carrying out the detection of effective rotatory mixing to the test tube, recycles first adjustment tool 104 with second adjustment tool 153 makes this device conveniently will application of sample mixing subassembly 3's rotation axis adjust to with sample test tube 140 axis is concentric to avoid the application of sample device to appear vibrating too big problem when the mixing.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (6)

1. A hemolytic agent sample adding device capable of scanning and uniformly mixing, which is characterized in that,

the hemolytic agent sample adding device capable of scanning and uniformly mixing comprises a base bracket component, a code scanning component and a sample adding and uniformly mixing component, wherein the code scanning component and the sample adding and uniformly mixing component are both arranged on the upper side of the base bracket component, the code scanning component is used for confirming whether a test tube exists or not, and the sample adding and uniformly mixing component is matched with the test tube to rotate and uniformly mix;

the base bracket component comprises an adjusting bottom plate, a first adjusting jig, a second adjusting jig, a first adjusting baffle, a second adjusting baffle, a guide rail mounting plate, a first motor, a first optocoupler and a second optocoupler, wherein the guide rail mounting plate is arranged on the upper side of the adjusting bottom plate, the first adjusting jig is arranged on the rear side of the adjusting bottom plate, the first adjusting baffle is arranged on the rear side of the adjusting bottom plate, the second adjusting jig is arranged on the right side of the guide rail mounting plate, the second optocoupler is arranged on the upper end of the guide rail mounting plate, the first optocoupler is arranged on the lower end of the guide rail mounting plate, and the first motor is arranged on the right side of the guide rail mounting plate.

2. The sample adding device for hemolytic agent capable of code scanning and mixing according to claim 1,

the base bracket assembly further comprises a driving synchronous belt pulley, a driven wheel shaft sleeve, an open retainer ring, a lifting driven wheel, a lifting synchronous toothed belt, a tensioning wheel mounting seat, a tensioning wheel shaft, a tensioning wheel, a sampling needle mounting plate, a reagent sampling needle, a first stop jig, a second stop jig and a first spring suspension jig, wherein the first stop jig is arranged below the left side of the guide rail mounting plate, the second stop jig is arranged above the left side of the guide rail mounting plate, the sampling needle mounting plate is arranged on the upper side of the guide rail mounting plate, the reagent sampling needle is arranged on the upper side of the sampling needle mounting plate, the driving synchronous belt pulley is arranged at the shaft end of the first motor, the driven wheel shaft is arranged on the lower left side of the guide rail mounting plate, the driven wheel shaft sleeve is arranged on the inner side of the lifting driven wheel, the lifting driven wheel is arranged on the driven wheel shaft, the open retainer ring is arranged on the shaft end of the driven wheel shaft, the lifting synchronous toothed belt is connected with the driving synchronous belt pulley and the lifting driven wheel, the tensioning wheel mounting seat is arranged on the left side of the guide rail mounting seat, and the tensioning wheel shaft is arranged on the tensioning wheel mounting seat; the tensioning wheel is arranged on the tensioning wheel shaft; the tensioning wheel is used for tensioning the lifting synchronous toothed belt; the first spring suspension jig is arranged on the right side of the guide rail mounting plate.

3. The sample adding device for hemolytic agent capable of code scanning and mixing according to claim 2,

the code scanning assembly comprises a code scanning device fixing support, a code scanning device switching metal plate and a code scanning device, and the code scanning device fixing support is arranged on the upper left side of the guide rail mounting plate; the code scanner switching metal plate is arranged below the code scanner fixing support; the code scanner is arranged on the lower left side of the code scanner switching metal plate.

4. A hemolytic agent sample application device capable of performing code scanning and mixing according to claim 3,

sample adding mixing subassembly includes that linear guide is vice, first slider, test tube mixing motor backup pad, hold-in range connect panel beating, hold-in range clamp plate and lift initial point opto-coupler light screen, linear guide is vice set up in the left side of guide rail mounting panel, test tube mixing motor backup pad fasten in linear guide is vice to be close to adjust the bottom plate side on the first slider, hold-in range connect the panel beating set up in the rear side of test tube mixing motor backup pad, hold-in range clamp plate sets up the side of panel beating is connected to the hold-in range, lift initial point opto-coupler light screen set up in test tube mixing motor backup pad's is preceding.

5. The sample adding device for hemolytic agent capable of code scanning and mixing according to claim 4,

the application of sample mixing subassembly still includes second slider, second motor, mixing initiative side belt pulley, belt, the driven side belt pulley of mixing, first deep groove ball bearing, washing cover slider mounting panel, test tube mixing ejector pin axle and mixing ejector pin cover, the second slider set up in linear guide is vice on, and with it connects to wash cover slider mounting panel, mixing initiative side belt pulley set up in the axle head of second motor, the belt cover is located the mixing is located the driven side belt pulley outside, the mixing driven side belt pulley set up in the axle head of test tube mixing ejector pin axle, test tube mixing ejector pin axle set up in on the first deep groove ball bearing, the mixing ejector pin cover is located the axle head of test tube mixing ejector pin axle.

6. A hemolytic agent loading device capable of code scanning and mixing according to claim 5,

the sample adding and mixing assembly further comprises a sample test tube, a test tube pressing sleeve fixing plate, a second deep groove ball bearing, a test tube pressing sleeve, an outer snap spring, a third optical coupler, a cleaning sleeve mounting plate, a cleaning sleeve cover, a cleaning sleeve mounting pressing plate, a second spring hanging jig and a reset tension spring, the sample test tube moves under the action of the mixing ejector rod sleeve, the test tube pressing sleeve fixing plate is arranged below the cleaning sleeve sliding block mounting plate, the second deep groove ball bearing is arranged on the test tube pressing sleeve fixing plate, the test tube pressing sleeve is arranged on the second deep groove ball bearing, and the outer snap spring is arranged at the shaft end of the test tube pressing sleeve; the third optocoupler is arranged below the test tube pressing sleeve fixing plate, the cleaning sleeve mounting plate is arranged above the cleaning sleeve sliding block mounting plate, the cleaning sleeve is arranged on the cleaning sleeve mounting plate, the cleaning sleeve is covered on the cleaning sleeve, the cleaning sleeve mounting pressing plate is arranged on the front side of the cleaning sleeve mounting plate, and the second spring hanging jig is arranged on the right side of the cleaning sleeve sliding block mounting plate; and two ends of the reset tension spring are respectively connected with the second spring suspension jig and the first spring suspension jig.

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