CN209871501U - Blood collection tube distribution lifting machine - Google Patents

Abstract

The utility model provides a heparin tube distribution lifting machine, including the vertical lifting machine that links up in control part, reason pipe machine and reason pipe machine upper portion, be equipped with the reason pipe device in the reason pipe machine, the reason pipe device promotes the test tube to the test tube bank in the reason pipe machine in, sweeps a yard rifle through sweeping and passes data back, and the deflector on control part control test tube bank next door leads the test tube to lifting machine or waste bin as required. The blood collection tube distribution and conveying system realizes qualified bar code lifting and conveying through a bar code identification and automatic control technology, unqualified bar code test tubes enter an abnormal box and are not lifted, the number of the qualified test tubes is counted, and finally the single test tube is lifted and conveyed to a certain height to enter a destination. High efficiency, no occupation of bottom space and convenient use.

Description

Blood collection tube distribution lifting machine

Technical Field

The invention relates to a test tube conveying device, in particular to a blood sampling tube distribution lifting machine.

Background

The hospital collects the test tube of patient's blood and concentrates on together, need send blood classification to the check out test set that can not detect according to the patient's demand of difference on, what the hospital adopted at present leans on artifical one root put the test tube and get into next station, and lean on the manual work to classify and put, not only inefficiency makes the people make mistakes easily, also can cause adult's intensity of labour to increase.

Disclosure of Invention

The invention provides a blood collection tube distribution lifting machine, which solves the problems in the prior art.

The technical scheme of the invention is realized as follows:

heparin tube distribution lifting machine, including the vertical lifting machine that links up in control part, reason pipe machine and reason pipe machine upper portion, be equipped with the reason pipe device in the reason pipe machine, the reason pipe device promotes the test tube to the test tube bank in the reason pipe machine in, sweeps a yard through sweeping a yard rifle and returns data, and the deflector on control part control test tube bank next door leads the test tube to lifting machine or waste bin as required.

As a preferable scheme of the invention, a hopper is arranged at the feeding side of the tube sorting machine, and an undetected test tube is placed in the hopper.

As the preferable scheme of the invention, a clockwise-rotating synchronous belt is arranged in the tube sorting device, a test tube spoon extends outwards from the synchronous belt, and the test tube spoon independently transfers the test tube in the hopper to a test tube groove.

As a preferable scheme of the invention, the waste bin is connected with an abnormal material outlet at the lower part; the test tube tank bottom surface is equipped with a plurality of drive test tube pivoted gyro wheels.

As a preferred scheme of the invention, the elevator comprises a support frame in the vertical direction, a circularly rotating transmission belt is sleeved outside the support frame, and the transmission belt is fixed with a hanging plate for containing test tubes in an array manner; the test tube lifting machine includes the face that promotes of one side and the decline face of opposite side, the test tube lifting machine still is equipped with outside casing, be equipped with the export of the entry of putting into the test tube and test tube output on the casing, the exit is equipped with linking structure.

As a preferable scheme of the invention, the back of the machine shell is fixedly provided with a motor, the motor is linked with a driving shaft at the lower part in the transmission belt, and a driven shaft which is practical and matched is arranged at the upper part in the transmission belt.

As a preferable scheme of the invention, guide frames are fixed on the support frames at the left side and the right side of the conveying belt.

As a preferable scheme of the present invention, the inlet is provided with a test tube posture sensor and a test tube position sensor, the inlet is arranged at a lower portion of the lifting surface, and the test tube posture sensor and the test tube position sensor are connected to a control portion of the test tube lifter.

As a preferable aspect of the present invention, the control unit includes a signal transceiver, a control circuit, a power supply circuit, an MCU, and an alarm device, which are connected to each other.

As the preferable scheme of the invention, the hanging plate is provided with a groove for holding the test tube by taking the lifting surface as the reference, and the outer side of the groove is provided with a first inclined plate which inclines upwards and outwards.

Advantageous effects

The invention provides a blood collection tube distribution elevator which comprises a control part, a tube arranging machine and an elevator vertically connected with the upper part of the tube arranging machine, wherein a tube arranging device is arranged in the tube arranging machine, test tubes are lifted into test tube grooves in the tube arranging machine by the tube arranging device, data are returned by scanning codes through a code scanning gun, and the control part controls a guide plate beside the test tube grooves to guide the test tubes to the elevator or a waste material box as required. The blood collection tube distribution and conveying system realizes qualified bar code lifting and conveying through a bar code identification and automatic control technology, unqualified bar code test tubes enter an abnormal box and are not lifted, the number of the qualified test tubes is counted, and finally the single test tube is lifted and conveyed to a certain height to enter a destination. High efficiency, no occupation of bottom space and convenient use.

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, and 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 front view of the present invention;

FIG. 2 is a schematic perspective view of the hoist;

FIG. 3 is a side sectional view of the hoist;

fig. 4 is a schematic structural diagram of the tube sorting machine.

The automatic tube sorting machine comprises a tube sorting machine 100, a hopper 101, a tube sorting device 102, a test tube spoon 103, a guide plate 104, a test tube groove 105, a code scanning gun 106, an abnormal material outlet 107, a lifting machine 200, a machine shell 1, a motor 2, a driving shaft 3, a driven shaft 4, a conveying belt 5, a guide frame 6, a hanging plate 7, a first inclined plate 71, a supporting plate 8, a second inclined plate 81, a test tube posture inductor 9, a test tube position inductor 10, a discharging box 11, a third inclined plate 12, a lifting surface 13 and a descending surface 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The blood collection tube distribution lifting machine shown in fig. 1-4 comprises a control part, a tube sorting machine 100 and a lifting machine 200 vertically connected with the upper part of the tube sorting machine 100, wherein a tube sorting device 102 is arranged in the tube sorting machine 100, a test tube is lifted into a test tube groove 105 in the tube sorting machine 100 by the tube sorting device 102, data is sent back by code scanning by a code scanning gun 106, and the control part controls a guide plate 104 beside the test tube groove 105 to guide the test tube to the lifting machine 200 or a waste box as required.

A hopper 101 is arranged on the feeding side of the tube sorting machine 100, and an undetected test tube is placed in the hopper 101.

Be equipped with clockwise rotation's hold-in range in the reason pipe device 102, the hold-in range extends the test tube spoon to the outside, and test tube spoon 103 independently transmits the test tube in the hopper 101 to test tube groove 105.

The waste bin is connected with an abnormal material outlet 107 at the lower part; the bottom surface of the test tube groove 105 is provided with a plurality of rollers for driving the test tube to rotate.

The lifting machine comprises a support frame in the vertical direction, a circularly rotating conveying belt 5 is sleeved outside the support frame, and test tube hanging plates 7 for containing test tubes are fixed on the conveying belt 5 in an array manner; the test tube lifting machine includes the face 13 that promotes of one side and the decline face 14 of opposite side, and the test tube lifting machine still is equipped with outside casing 1, is equipped with the export of the entry of putting into the test tube and test tube output on casing 1, and the exit is equipped with linking structure.

The motor 2 is fixed on the back of the machine shell, the motor is linked with the driving shaft 3 below the transmission belt 5, and the driven shaft 4 practical in matching is arranged above the transmission belt 5.

And guide frames 6 are fixed on the support frames at the left side and the right side of the transmission belt 5.

Test tube gesture inductor 9 and test tube position sensor 10 are installed to the entrance, and the entry is located and is promoted 13 lower parts, and test tube gesture inductor 9 and test tube position sensor 10 are connected with the control part of test tube lifting machine.

The control part comprises a signal receiving and transmitting device, a control circuit, a power supply circuit, an MCU and an alarm device which are connected with each other.

The hanging plate 7 is provided with a groove for holding the test tube by taking the lifting surface 13 as a reference, and the outer side of the groove is provided with a first inclined plate 71 which inclines upwards and outwards.

Example 2

The test tube hoister comprises a support frame in the vertical direction, a circularly rotating conveying belt 5 is sleeved outside the support frame, and test tube hanging plates 7 for containing the test tubes are fixed on the conveying belt 5 in an array manner; the test tube lifting machine includes the face 13 that promotes of one side and the decline face 14 of opposite side, and the test tube lifting machine still is equipped with outside casing 1, is equipped with the export of the entry of putting into the test tube and test tube output on casing 1, and the exit is equipped with linking structure.

The motor 2 is fixed on the back of the machine shell, the motor is linked with the driving shaft 3 below the transmission belt 5, and the driven shaft 4 practical in matching is arranged above the transmission belt 5.

And guide frames 6 are fixed on the support frames at the left side and the right side of the transmission belt 5.

Test tube gesture inductor 9 and test tube position sensor 10 are installed to the entrance, and the entry is located and is promoted 13 lower parts, and test tube gesture inductor 9 and test tube position sensor 10 are connected with the control part of test tube lifting machine.

The control part comprises a signal receiving and transmitting device, a control circuit, a power supply circuit, an MCU and an alarm device which are connected with each other.

The hanging plate 7 is provided with a groove for holding the test tube by taking the lifting surface 13 as a reference, and the outer side of the groove is provided with a first inclined plate 71 which inclines upwards and outwards.

The transmission band 5 below the hanging plate 7 is correspondingly provided with a supporting plate 8, the supporting plate 8 comprises a second inclined plate 81 which inclines towards the inner lower part by taking the lifting surface 13 as a reference, the second inclined plate 81 and the first inclined plate 71 are on the same plane, and the second inclined plate 81 and the first inclined plate 71 form a connecting group.

The outlet is arranged at the upper part of the descending surface 14, a discharging box 11 is fixed at the outlet, and a first inclined plate 12 is arranged at the lower part of the discharging box 11.

When the test tube moves to the descending surface 14, the hanging plate 7 and the supporting plate 8 of the test tube, and the adjacent connecting group and the third inclined plate jointly form a connecting structure for sliding the test tube out of the discharging box 11.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. Heparin tube distribution lifting machine, including lifting machine (200) of the vertical linking in control part, reason pipe machine (100) and reason pipe machine (100) upper portion, its characterized in that, be equipped with reason pipe device (102) in reason pipe machine (100), in reason pipe device (102) promoted the test tube to the test tube groove (105) in reason pipe machine (100), swept yard rifle (106) through and swept the sign indicating number and returned data, deflector (104) on control part control test tube groove (105) next door are with the test tube as required direction to lifting machine (200) or waste bin.

2. A blood collection tube distribution lifting machine as claimed in claim 1, wherein a hopper (101) is arranged on the feeding side of the tube arranging machine (100), and the undetected test tubes are placed in the hopper (101).

3. A blood collection tube distribution lifting machine as claimed in claim 2, wherein a clockwise synchronous belt is arranged in the tube arranging device (102), a test tube spoon extends outwards from the synchronous belt, and the test tube spoon (103) independently transfers test tubes in the hopper (101) to the test tube groove (105).

4. A blood collection tube distribution lifter according to claim 3, wherein the waste bin is connected to a lower abnormal material outlet (107); the bottom surface of the test tube groove (105) is provided with a plurality of rollers for driving the test tube to rotate.

5. The blood collection tube distribution lifting machine of claim 1, wherein the lifting machine comprises a vertically-oriented support frame, a circularly-rotating conveyor belt (5) is sleeved outside the support frame, and the conveyor belt (5) is fixedly provided with test tube hanging plates (7) in an array manner; the lifting machine comprises a lifting surface (13) on one side and a descending surface (14) on the other side, the lifting machine is further provided with an external shell (1), an inlet for placing a test tube and an outlet for outputting the test tube are formed in the shell (1), and a linking structure is arranged at the outlet.

6. A blood collection tube distribution lifting machine as claimed in claim 5, wherein a motor (2) is fixed to the back of the casing, the motor is linked with a driving shaft (3) at the lower part in the transmission belt (5), and a driven shaft (4) which is practical in cooperation is arranged at the upper part in the transmission belt (5).

7. A blood collection tube distribution lifter according to claim 5, wherein guide frames (6) are fixed to the support frames on the left and right sides of the conveyor (5).

8. A blood collection tube distribution lifting machine as claimed in claim 5, wherein a test tube posture sensor (9) and a test tube position sensor (10) are mounted at the inlet, the inlet is arranged at the lower part of the lifting surface (13), and the test tube posture sensor (9) and the test tube position sensor (10) are connected with a control part of the test tube lifting machine.

9. The blood collection tube distribution lifting machine according to claim 8, wherein the control unit includes a signal transceiver, a control circuit, a power supply circuit, an MCU, and an alarm device, which are connected to each other.

10. A blood collection tube distribution lifter according to claim 5, wherein the hanging plate (7) is provided with a groove for holding a test tube with reference to the lifting surface (13), and the outside of the groove is provided with a first inclined plate (71) inclined outward and upward.