CN215987328U - Automatic identification device for sample container label - Google Patents

Abstract

The utility model relates to the technical field of automatic identification of multiple sample labels, in particular to an automatic identification device for sample container labels, which has reasonable structure, simple and convenient operation and accurate identification, and is provided with a sample bracket, a sample bracket driving mechanism and a code scanning detection mechanism, the sample bracket is pushed by the sample bracket driving mechanism to pass through the detection position, the code scanning detection mechanism is positioned on the side surface of the detection position, it is characterized in that the device is also provided with a test tube angle adjusting mechanism, the test tube angle adjusting mechanism is arranged below the detection position and comprises a bracket, a rotary motor and an adjusting supporting plate, wherein the adjusting supporting plate is connected with an output shaft of a rotary motor through a connecting rod, the rotary motor is fixed on the bracket, an output shaft of the rotary motor is vertically arranged upwards, a convex embedded part shell is arranged on the upper surface of the adjusting supporting plate, and an electromagnet is arranged in the embedded part shell; the device has the remarkable advantages of compact structure, stable work, accurate and reliable detection and the like.

Description

Automatic identification device for sample container label

The technical field is as follows:

the utility model relates to the technical field of automatic identification of multiple sample labels, in particular to an automatic identification device for sample container labels, which is reasonable in structure, simple and convenient to operate and accurate in identification.

Background art:

in the clinical examination and diagnosis process, a large number of samples are respectively placed in different containers such as test tubes, in order to distinguish sample sources and contents, labels are attached to the outer sides of the test tubes, the label contents on the test tubes need to be read and recorded in the subsequent examination and treatment process, at the present stage, accurate reading of the labels can be realized by adopting a radio frequency wireless technology, however, the radio frequency labels are expensive, common bar code labels are adopted by most primary hospitals, and therefore reading failure will occur if the positions of the labels on the test tubes do not correspond to the positions of probes of a scanning mechanism.

In order to solve the problem, the prior art such as patent document CN210295161U has developed a test tube rotation code scanning mechanism, which is configured with a motor and a rotary rubber head above the test tube, and the test tube is abutted against the test tube upper cover at the detection position, and the test tube is rotated by using friction force.

The utility model content is as follows:

aiming at the defects in the prior art, the utility model provides the automatic identification device for the sample container label, which has the advantages of compact structure, small occupied space, simple and convenient operation and high identification accuracy.

The utility model is achieved by the following measures:

an automatic identification device for a sample container label is provided with a sample support, a sample support driving mechanism and a code scanning detection mechanism, wherein the sample support is pushed by the sample support driving mechanism to pass through a detection position; the sample support is provided with more than two test tube bearing positions side by side, the test tubes are arranged on the test tube bearing positions through clamping and supporting parts, the clamping and supporting parts are provided with bases, the bottom surfaces of the bases are provided with inner concave parts matched with the convex embedded parts on the adjusting supporting plates, and the inner concave parts are made of magnetic plates.

The base of the clamping and supporting component is provided with a cylindrical main body, an annular supporting boss is arranged on the outer side of the cylindrical main body, and an inner concave part matched with the embedded part on the adjusting supporting plate is arranged at the bottom of the cylindrical main body; still be equipped with two at least arm lock on the base, the arm lock has the bar main part that sets up along test tube length direction, and bar main part lower extreme links to each other with the base, and bar main part upper end is equipped with the arc elbow for centre gripping test tube outer wall.

The utility model is also provided with a control mechanism, wherein the control mechanism comprises a motor switch control circuit connected with the rotary motor and used for controlling the on/off state of the rotary motor, and an electromagnet switch control circuit connected with the electromagnet and used for controlling the working on/off state of the electromagnet.

The convex embedding part on the upper surface of the adjusting supporting plate has a strip-shaped or olive-shaped section, and correspondingly, the bottom of the base of the clamping and supporting part is provided with a concave part with the strip-shaped or olive-shaped section.

The test tube angle adjusting mechanism is connected with a lifting mechanism, the lifting mechanism comprises a lifting motor, a vertical plate, a vertical guide rail and a sliding block, wherein the lifting motor drives the sliding block to do linear reciprocating motion in the vertical direction along the vertical guide rail, the vertical guide rail is arranged on the vertical plate, and the sliding block is fixedly connected with a support in the test tube angle adjusting mechanism.

In the using process of the utility model, a plurality of test tube bearing positions are arranged on a sample support side by side, and a clamping part is arranged in the test tube bearing positions, so that each sample test tube can be stably clamped and fixed in the test tube bearing position, when the sample support is pushed to advance by a driving mechanism, the test tubes in the test tube bearing positions on the sample support sequentially pass through a detection position, a test tube angle adjusting mechanism below the detection position is driven by a lifting motor in a lifting mechanism to move upwards integrally, an embedded part at the upper side of an adjusting supporting plate is embedded and connected with an inner concave part at the bottom of the clamping part, at the moment, the adjusting supporting plate can be tightly connected with a base of the clamping part by utilizing an electromagnet, the base of the clamping part is driven to rotate by rotating the motor, a label attached to the outer wall of the test tube is captured by a code scanning detection mechanism at the side of the detection position, and after the label information on the current test tube is completely collected, the electro-magnet is closed, and elevating system drives test tube angle guiding mechanism and moves down, and the sample support is further driven and is advanced, and the test tube that finishes that detects moves away and detects the position, and the test tube immigration that waits next detects the position, and the collection of label information is accomplished to repeated angle adjustment.

Compared with the prior art, the angle adjusting mechanism is arranged below the detection position, so that the angle adjustment of the test tube to be detected is effectively ensured, the occupied arrangement space of a related mechanism for adding a reagent into the test tube is avoided, and the device has the remarkable advantages of compact structure, stable work, accurate and reliable detection and the like.

Description of the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the sample holder of the present invention being propelled along a track by a drive mechanism.

Fig. 3 is a schematic structural diagram of the lifting mechanism of the present invention.

Fig. 4 is a schematic view of a clip holding member according to the present invention.

FIG. 5 is a bottom schematic view of a clamping assembly of the present invention.

Reference numerals: sample support 1, sweep sign indicating number detection mechanism 2, test tube 3, sample support track 4, support 5, rotating electrical machines 6, adjustment layer board 7, gomphosis portion 8, riser 9, base 10, annular bearing boss 11, arm lock 12, elevator motor 13, vertical guide 14, interior concave part 15.

The specific implementation mode is as follows:

the utility model is further described below with reference to the accompanying drawings and examples.

The utility model provides an automatic identification device for a sample container label, which is provided with a sample support 1, a sample support driving mechanism and a code scanning detection mechanism 2, wherein the sample support 1 is pushed by the sample support driving mechanism 2 to pass through a detection position, the code scanning detection mechanism 2 is positioned on the side surface of the detection position, the automatic identification device is also provided with a test tube angle adjusting mechanism, the test tube angle adjusting mechanism is arranged below the detection position, the test tube angle adjusting mechanism comprises a support 5, a rotating motor 6 and an adjusting supporting plate 7, the adjusting supporting plate 7 is connected with an output shaft of the rotating motor 6 through a connecting rod, the rotating motor 6 is fixed on the support, the output shaft of the rotating motor 6 is vertically arranged upwards, the surface of the adjusting supporting plate 7 is provided with a convex embedded part 8 shell, and an electromagnet is arranged in the embedded part 8 shell; the sample support 1 is provided with more than two test tube bearing positions side by side, the test tubes are arranged on the test tube bearing positions through clamping and supporting parts, the clamping and supporting parts are provided with bases 10, the bottom surfaces of the bases 10 are provided with inner concave parts matched with the convex embedded parts on the adjusting supporting plate, and the inner concave parts are made of magnetic plates.

The base 10 of the clamping and supporting component is provided with a cylindrical main body, the outer side of the cylindrical main body is provided with an annular supporting boss 11, and the bottom of the cylindrical main body is provided with an inner concave part 15 which is used for being matched with the embedded part 8 on the adjusting supporting plate 7; still be equipped with two at least arm lock 12 on the base 10, arm lock 12 has the bar main part that sets up along test tube length direction, and bar main part lower extreme links to each other with base 10, and bar main part upper end is equipped with the arc elbow for centre gripping test tube outer wall.

The utility model is also provided with a control mechanism, the control mechanism comprises a motor switch control circuit connected with the rotating motor 6 and used for controlling the on/off state of the rotating motor, and the control mechanism also comprises an electromagnet switch control circuit connected with the electromagnet and used for controlling the working on/off state of the electromagnet.

The convex embedding part 8 on the upper surface of the adjusting supporting plate has a strip-shaped or olive-shaped section, and correspondingly, the bottom of the base 10 of the clamping and supporting part is provided with a concave part with the strip-shaped or olive-shaped section.

The test tube angle adjusting mechanism is connected with a lifting mechanism, the lifting mechanism comprises a lifting motor 13, a vertical plate 9, a vertical guide rail 14 and a sliding block, wherein the lifting motor 13 drives the sliding block to do linear reciprocating motion in the vertical direction along the vertical guide rail 14, the vertical guide rail 14 is arranged on the vertical plate 9, and the sliding block is fixedly connected with a support 5 in the test tube angle adjusting mechanism.

Example 1:

the embodiment provides an automatic identification device for a sample container label, which is provided with a sample support 1, a sample support driving mechanism and a code scanning detection mechanism 2, wherein the sample support 1 is pushed by the sample support driving mechanism 2 to pass through a detection position, the code scanning detection mechanism 2 is positioned on the side surface of the detection position, the automatic identification device is also provided with a test tube angle adjusting mechanism, the test tube angle adjusting mechanism is arranged below the detection position, the test tube angle adjusting mechanism comprises a support 5, a rotating motor 6 and an adjusting supporting plate 7, wherein the adjusting supporting plate 7 is connected with an output shaft of the rotating motor 6 through a connecting rod, the rotating motor 6 is fixed on the support, the output shaft of the rotating motor 6 is vertically arranged upwards, the surface of the adjusting supporting plate 7 is provided with a convex embedded part 8 shell, and an electromagnet is arranged in the embedded part 8 shell; the sample support 1 is provided with more than two test tube bearing positions side by side, the test tubes are arranged on the test tube bearing positions through clamping and supporting parts, the clamping and supporting parts are provided with bases 10, the bottom surfaces of the bases 10 are provided with inner concave parts 15 matched with the convex embedding parts on the adjusting supporting plates, and the inner concave parts 15 are iron plates or magnet sheets;

the base 10 of the clamping and supporting component is provided with a cylindrical main body, the outer side of the cylindrical main body is provided with an annular supporting boss 11, and the bottom of the cylindrical main body is provided with an inner concave part 15 which is used for being matched with the embedded part 8 on the adjusting supporting plate 7; the base 10 is also provided with at least two clamping arms 12, each clamping arm 12 is provided with a strip-shaped main body arranged along the length direction of the test tube, the lower end of each strip-shaped main body is connected with the base 10, and the upper end of each strip-shaped main body is provided with an arc-shaped elbow used for clamping the outer wall of the test tube; the convex embedding part 8 on the upper surface of the adjusting supporting plate has a strip-shaped or olive-shaped section, and correspondingly, the bottom of the base 10 of the clamping and supporting part is provided with a concave part 15 with a strip-shaped or olive-shaped section;

the electric power steering device is further provided with a control mechanism, wherein the control mechanism comprises a motor switch control circuit connected with the rotating motor 6 and used for controlling the on/off state of the rotating motor, and an electromagnet switch control circuit connected with the electromagnet and used for controlling the working on/off state of the electromagnet;

the test tube angle adjusting mechanism is connected with a lifting mechanism, the lifting mechanism comprises a lifting motor 13, a vertical plate 9, a vertical guide rail 14 and a sliding block, wherein the lifting motor 13 drives the sliding block to do linear reciprocating motion in the vertical direction along the vertical guide rail 14, the vertical guide rail 14 is arranged on the vertical plate 9, and the sliding block is fixedly connected with a support 5 in the test tube angle adjusting mechanism.

In the using process of the utility model, a plurality of test tube bearing positions are arranged on a sample support side by side, and a clamping part is arranged in the test tube bearing positions, so that each sample test tube can be stably clamped and fixed in the test tube bearing position, when the sample support is pushed to advance by a driving mechanism, the test tubes in the test tube bearing positions on the sample support sequentially pass through a detection position, a test tube angle adjusting mechanism below the detection position is driven by a lifting motor in a lifting mechanism to move upwards integrally, an embedded part at the upper side of an adjusting supporting plate is embedded and connected with an inner concave part at the bottom of the clamping part, at the moment, the adjusting supporting plate can be tightly connected with a base of the clamping part by utilizing an electromagnet, the base of the clamping part is driven to rotate by rotating the motor, a label attached to the outer wall of the test tube is captured by a code scanning detection mechanism at the side of the detection position, and after the label information on the current test tube is completely collected, the electro-magnet is closed, and elevating system drives test tube angle guiding mechanism and moves down, and the sample support is further driven and is advanced, and the test tube that finishes that detects moves away and detects the position, and the test tube immigration that waits next detects the position, and the collection of label information is accomplished to repeated angle adjustment.

Compared with the prior art, the angle adjusting mechanism is arranged below the detection position, so that the angle adjustment of the test tube to be detected is effectively ensured, the occupied arrangement space of a related mechanism for adding a reagent into the test tube is avoided, and the device has the remarkable advantages of compact structure, stable work, accurate and reliable detection and the like.

Claims (5)

1. An automatic identification device for a sample container label is provided with a sample support, a sample support driving mechanism and a code scanning detection mechanism, wherein the sample support is pushed by the sample support driving mechanism to pass through a detection position; the sample support is provided with more than two test tube bearing positions side by side, the test tubes are arranged on the test tube bearing positions through clamping and supporting parts, the clamping and supporting parts are provided with bases, the bottom surfaces of the bases are provided with inner concave parts matched with the convex embedded parts on the adjusting supporting plates, and the inner concave parts are made of magnetic plates.

2. The automatic identification device for the label of the sample container as claimed in claim 1, wherein the base of the clamping and supporting member has a cylindrical main body, an annular supporting boss is provided on the outer side of the cylindrical main body, and an inner concave portion for matching with the engaging portion on the adjusting support plate is provided on the bottom of the cylindrical main body; still be equipped with two at least arm lock on the base, the arm lock has the bar main part that sets up along test tube length direction, and bar main part lower extreme links to each other with the base, and bar main part upper end is equipped with the arc elbow for centre gripping test tube outer wall.

3. The apparatus of claim 1, further comprising a control mechanism, wherein the control mechanism comprises a motor switch control circuit connected to the rotary motor for controlling the on/off state of the rotary motor, and an electromagnet switch control circuit connected to the electromagnet for controlling the on/off state of the electromagnet.

4. The automatic identification device for specimen container labels as claimed in claim 1, wherein the convex engaging portion of the upper surface of the adjustment tray has a bar-shaped or olive-shaped cross section, and correspondingly, the bottom of the base of the holder member is provided with a concave portion having a bar-shaped or olive-shaped cross section.

5. The automatic identification device for the label of the sample container according to claim 1, wherein the test tube angle adjustment mechanism is connected to a lifting mechanism, the lifting mechanism comprises a lifting motor, a vertical plate, a vertical guide rail and a slide block, wherein the lifting motor drives the slide block to reciprocate linearly in the vertical direction along the vertical guide rail, the vertical guide rail is arranged on the vertical plate, and the slide block is fixedly connected to the support in the test tube angle adjustment mechanism.

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