CN214409013U - Full-automatic urine iodine, blood iodine and iodine automatic sequencing device and full-automatic urine iodine, blood iodine and iodine detection machine - Google Patents

Abstract

The utility model discloses a full-automatic urine iodine blood iodine automatic sequencing device and full-automatic urine iodine blood iodine detecting machine, including hopper, guide way and friction conveyer, the middle part of hopper has the baffle to separate and form two holding chambeies, the bottom of each holding chamber is the slope form, and be provided with the guide way in the holding chamber lower, the guide way respectively with rifle head automatic shelving device and cell transmission device relative setting, friction conveyer sets up in two guide way both sides, and the wall board of hopper and the adjacent one side of friction conveyer is equipped with the opening, the conveying brush on the friction conveyer respectively with rifle head and cell frictional contact in the guide way, the utility model discloses color cup transmission device, rifle head automatic dismounting device, rifle head automatic shelving device and automatic sequencing device, combine the transfer device can realize rifle head, the automatic sequencing shelving and the dismantlement of cell, in the whole detection process, the automatic batch treatment is realized, the manual interference is not needed, the use is convenient and quick, and the efficiency is high.

Description

Full-automatic urine iodine, blood iodine and iodine automatic sequencing device and full-automatic urine iodine, blood iodine and iodine detection machine

Technical Field

The utility model relates to a urine iodine blood iodine check out test set technical field, more specifically relates to a full-automatic urine iodine blood iodine automatic sequencing device and full-automatic urine iodine blood iodine check out test set.

Background

In the field of hygiene and medicine, the detection of iodide ions is mainly the detection of urine iodine and water iodine. Urine iodine is an important index for iodine deficiency disease prevention and treatment monitoring and crowd iodine nutrition level evaluation, and is widely adopted at home and abroad. The iodine content in the urine of the crowd can reflect that the iodine intake of the crowd is iodine deficiency, iodine is suitable or iodine is excessive, and the monitoring of the iodine content in the urine of the crowd is an important basis for guiding the crowd to scientifically supplement iodine, so that the iodine content monitoring method has important public health significance. For pregnant women, iodine deficiency may lead to a decrease in maternal-fetal thyroid hormone synthesis, affecting fetal brain development, and leading to a decrease in intelligence. Urine iodine is a biochemical marker for controlling iodine deficiency of pregnant women, and has important significance for evaluating the iodine nutrition condition of the pregnant women. At present, in the existing arsenic-cerium catalytic timing determination method, a urine sample is digested by using a strong oxidant at normal temperature, according to the principle that iodine catalyzes arsenic-cerium redox reaction, an indicator is used for indicating a reaction end point, a stopwatch is used for recording reaction time, and urine iodine content is calculated according to the reaction time.

Urine analysis is one of the most common clinical test indexes, and not only provides reference for the diagnosis and the observation of curative effect of urinary system diseases, but also is very helpful for the diagnosis of other system diseases which can cause the change of blood biochemical components. In addition, urinalysis can also be used for safety medication detection and initial assessment of health status.

The content of iodine in urine is the focus of attention of people in routine detection, is an index for judging the iodine nutrition status of individuals or groups, and is also an epidemiological index for evaluating the degree of iodine deficiency. Iodine is an essential trace element of human body, iodine deficiency can cause abortion, stillbirth, congenital malformation, hypothyroidism, intellectual development disorder, physical development disorder, simple deafness and dumb, and excess iodine can also cause intellectual development disorder.

The general structure of current urine iodine check out test set is complicated and with high costs, and ordinary family, social well center or small-size clinic do not have the ability to be equipped with, because operating procedure is complicated, need the personnel that pass through professional training to detect moreover accurately, especially urine iodine blood iodine detects at every turn and need to change rifle head and cell, and this has brought huge work load for the testing personnel, and it seriously influences its detection efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic urine iodine blood iodine detects machine and automated inspection method thereof to it relies on artifical to solve present urine iodine blood iodine and detects the material loading, leads to its degree of automation low, and detection efficiency is not high and causes technical problem with high costs.

According to an aspect of the utility model, a full-automatic sequencing device of urine iodine blood iodine is provided for to the automatic sequencing of sample rifle head and cell, including hopper, guide way and friction conveyer, there is the baffle at the middle part of hopper to separate and form two holding chambeies, every the bottom in holding chamber is the slope form, and the holding chamber lower is provided with the guide way, the guide way respectively with the automatic device of putting on the shelf of rifle head with cell transmission sets up relatively, friction conveyer sets up two guide way both sides, just the guide way with be equipped with the opening on the adjacent side wallboard of friction conveyer, the last conveying brush of friction conveyer respectively with rifle head and cell frictional contact in the guide way.

On the basis of the scheme, the friction conveying device preferably comprises a friction belt, a first wheel and a second wheel, the friction belt is arranged between the first wheel and the second wheel, and the friction belt is provided with a transmission brush.

Preferably, on the basis of the above scheme, the hopper is further provided with a window, the window is arranged at the upper part of the opening, one side of the friction conveying device is provided with a support, the top of the support is provided with a push head, the push head is arranged on the window in a sliding manner, and the bottom of the support is arranged on the linear track in a sliding manner.

The utility model also provides a full-automatic urine iodine blood iodine detects machine, a serial communication port, include as above full-automatic urine iodine blood iodine automatic sequencing device.

On the basis of the scheme, the automatic test cuvette feeding device is preferred to be arranged on the test cuvette frame, and the automatic test cuvette feeding device is arranged on one side of the test cuvette transmission device; the output end of the guide groove is respectively connected with the cuvette transmission device and the automatic gun head loading device; and the transfer device is erected above the space between the automatic gun head loading device and the cuvette transmission device and can realize the movement in the directions of the Y axis and the Z axis.

On the basis of the scheme, preferably, guide side plates are respectively arranged at two sides of the output end of the guide groove, which are connected with the cuvette transmission device and the automatic lance head loading device

The utility model discloses a full-automatic urine iodine blood iodine automatic sequencing device and full-automatic urine iodine blood iodine detects machine utilizes cuvette transmission, the automatic dismounting device of rifle head, the automatic device of putting on the shelf of rifle head and automatic sequencing device, combines transfer device can realize the automatic sequencing of rifle head, cuvette put on the shelf and dismantle, and in the whole testing process, full automatization batch processing need not artifical interference, and convenient to use is swift, and is efficient.

Drawings

FIG. 1 is a perspective view of the fully automatic iodine-in-blood iodine detector of the present invention;

FIG. 2 is an enlarged view of a partial view of the fully automatic iodine-in-urine detector of the present invention;

FIG. 3 is a top view of the fully automatic iodine-in-urine machine of the present invention;

fig. 4 is a perspective view of the automatic sorting device of the present invention;

fig. 5 is another perspective view of the automatic sorting apparatus of the present invention;

fig. 6 is another perspective view of the automatic sorting device of the present invention;

fig. 7 is a perspective view of the automatic sample feeding device of the present invention;

fig. 8 is another perspective view of the automatic sample feeding device of the present invention;

fig. 9 is a perspective view of another embodiment of the automatic sample feeding device of the present invention;

fig. 10 is a perspective view of another embodiment of the automatic sample feeding device according to the present invention;

fig. 11 is a detection flow chart of the fully automatic urine iodine and blood iodine detector of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1, and referring to fig. 2 and 3, the utility model discloses a full-automatic urine iodine blood iodine detecting machine, which comprises a frame 10, which provides an installation basis for a cuvette transmission device 500, a gun head automatic dismounting device 600, a gun head automatic loading device 700, a test automatic loading device, an automatic sorting device 900 and a transfer device 920;

the cuvette transmission device 500 is used for realizing automatic transmission of cuvettes, the cuvettes are internally provided with reducing agents, phenanthroline solutions and oxidizing agents, and different reagents can be specifically configured according to a test;

the automatic gun head dismounting device 600 is used for automatically dismounting the used gun head, and can automatically dismount and recycle the used gun head, so that the disposable use of the gun head is realized, and the sampling and measuring accuracy is ensured;

the automatic gun head loading device 700 is used for automatically conveying gun heads and automatically loading sterile gun heads so as to realize one-time detection of new gun heads and avoid test confusion from influencing detection accuracy;

the automatic sample feeding device 800 is used for realizing automatic sample feeding and discharging, and conveying sample bottles to be detected to a specified position one by one to realize the purpose of automatic detection;

wherein, the cuvette transmission device 500, the automatic gun head dismounting device 600 and the automatic gun head shelving device 700 are arranged in parallel, the automatic gun head dismounting device 600 is arranged between the cuvette transmission device 500 and the automatic gun head shelving device 700, and the automatic sample feeding device 800 is arranged at one side of the cuvette transmission device 500;

the automatic sequencing device 900 is used for automatically sequencing the sampling gun heads and the cuvettes, two output ends of the automatic sequencing device are respectively arranged adjacent to the cuvette transmission device 500 and the automatic gun head shelving device 700, namely a large number of gun heads and cuvettes are respectively transmitted to the cuvette transmission device 500 and the automatic gun head shelving device 700 after being sequenced by the automatic sequencing device 900, and continuous new cuvettes and gun heads are provided for the cuvette transmission device 500 and the automatic gun head shelving device 700;

and a transfer device 920 which is arranged above the space between the automatic lance head mounting device 700 and the cuvette transmission device 500 and can move in the directions of the Y axis and the Z axis.

As shown in fig. 3, the cuvette driving device 500 of the present invention includes a conveying ring 501, a driving wheel 502 and a driven wheel 503, the conveying ring 501 is sleeved between the driving wheel 502 and the driven wheel 503, and the conveying ring 501 is evenly provided with cards 504 with U-shaped grooves at intervals. After the cuvettes on the automatic sorting device 900 are automatically sorted and output, the cuvettes are hung on the conveying ring 501 through the U-shaped groove on the card 504, and the conveying ring 501 is used for conveying the cuvettes on the driving wheel 502 and the driven wheel 503, wherein the conveying ring 501 can be a conveying chain or a conveying belt.

The utility model discloses an automatic device 700 of putting on shelf of rifle head and the principle of the automatic dismounting device 600 of rifle head are similar with cell transmission 500's structure, consequently, no longer describe herein.

Please refer to fig. 5, fig. 4 and fig. 6, the utility model discloses an automatic sequencing device 900 includes hopper 901, guide way 904 and friction conveyer 910, there are two holding chamber 903 of baffle partition formation in the middle part of hopper 901, the bottom of every holding chamber 903 is the slope form, and be provided with guide way 904 in the lowest of holding chamber 903, guide way 904 sets up with rifle head automatic putting on shelf device 700 and cuvette transmission 500 respectively relatively, friction conveyer 910 sets up in two guide way 904 both sides, and be equipped with opening 905 on the adjacent side wallboard of guide way 904 and friction conveyer 910, the conveying brush 911 on the friction conveyer 910 respectively with rifle head and the cuvette frictional contact in the guide way 904.

During the use, place aseptic cuvette and rifle head in two holding chambeies 903 according to the classification, utilize the slope column structure of holding chamber 903 bottom, combine the action of gravity of cuvette and rifle head, get into the guide way 904, cuvette and rifle head are under the effect of friction conveyer 910, with cuvette and rifle head transmission output to on cuvette transmission 500 and the automatic device 700 of putting on the shelf of rifle head.

In the use, in order to prevent that bridgehead and cuvette from piling up in guide way 904, influencing its transmission, the utility model discloses still be equipped with a window 915 on hopper 901, window 915 sets up in the upper portion of opening 905 to install a support 916 in friction conveyer 910 one side, the top of support 916 has been installed and has been pushed head 918, and push head 918 slidingtype is installed on window 915, and support 916 bottom slidingtype is installed on linear rails 917, and linear guide 917 installs on frame 10.

When the friction conveyer 910 is started, the screw rod electric cylinder or air cylinder can be used to drive the support 916 to move on the linear guide 917 in advance, so as to realize the left-right movement of the support 916 along the window 915, so that the tip or cuvette stacked on the guide groove 904 can be removed by using the push head 918, and the tip or cuvette output by the guide groove 904 can be ensured to be output in a single direction.

Wherein, the utility model discloses a hopper 901 encloses by curb plate and bottom plate and establishes and form, and the bottom plate can select for use the transport link joint to constitute, the curb plate setting is in the both sides of carrying the link joint, carry the link joint by drive sprocket and driven sprocket drive, be equipped with the baffle on carrying the link joint, each check are carried the link joint and are formed a cavity with baffle and curb plate, rifle head or cell hold in the cavity, when the motor drives drive sprocket and rotates, cell or rifle head in the cavity, continuous transport is to the guide way 904 in to realize its automatic conveying.

Of course, the utility model discloses can also set up vibrating motor in the bottom of hopper 901 to improve its automatic sequencing's speed.

It is worth explaining that, the friction conveyer 910 of the present invention includes a friction belt 912, a first wheel 913 and a second wheel 914, the friction belt 912 is installed between the first wheel 913 and the second wheel 914, and the friction belt 912 is provided with a plurality of driving brushes, which are uniformly installed on the friction belt 912 at intervals. It is noted that the friction belt 912 may be implemented by other structures such as a transmission chain.

Wherein, the utility model discloses a transfer device 920 includes support 921, guided way 922 and drive head 923, support 921 erects at the automatic both ends of putting on shelf device 700 of rifle head and cell transmission 500, guided way 922 is installed between two supports 921, the length of guided way 922 is greater than the automatic interval of putting on shelf device 700 of rifle head and cell transmission 500, and drive head 923 slides and installs on guided way 922 and with install on support 921 drive body 924 and link to each other, the drive head 923 facial make-up is equipped with the driving cylinder, the telescopic link of driving cylinder is connected with the dop, it is shown specifically as construction drawing 2.

During the use, driving body 924 orders about transmission head 923 and moves on guided way 922, realizes the transfer of transmission head 923 between rifle head automatic dismounting device 600, cell transmission device 500, the automatic device 700 of putting on shelf of rifle head to utilize the driving cylinder to drive the dop up-and-down motion, thereby realize putting on shelf the action of rifle head, dismantlement and cell.

The utility model discloses a driving body 924 can be driving chain or drive belt, drives the wheel body motion through the motor to order about driving chain or drive belt motion, and be connected transmission head 923 and driving chain or drive belt, in order to realize the motion of transmission head 923 on guided way 922.

As shown in fig. 7, fig. 8 and fig. 9, the automatic sample feeding device 800 of the present invention includes a rack 100, a conveyer 200, a feeding mechanism 300 and a discharging mechanism 400 disposed on the rack 100, and the present invention provides two guiding holes 101 disposed at two intervals on the left end of the rack 100 and two guiding holes 101 disposed at two intervals on the right end of the rack 100.

And the utility model discloses a feed mechanism 300 and unloading mechanism 400 all include shift fork 310 and driving motor 311, driving motor 311's output links to each other with shift fork 310, and the guiding hole 101 is passed at the top of shift fork 310, and shift fork 310 can remove in guiding hole 101, wherein, feed mechanism 300 sets up the right-hand member at rack 100, and unloading mechanism 400 sets up the left end at rack 100, feed mechanism 300's shift fork 310 is worn to establish in the guiding hole 101 on rack 100's right side, and unloading mechanism 400's shift fork 310 is worn to establish in rack 100's left guiding hole 101. The utility model discloses a conveyer 200 sets up on being close to feed mechanism 300 one side rack 100, and conveyer 200 transmits the sample frame to unloading mechanism 400 one side from feed mechanism 300 one side.

As shown in fig. 9 and 10, the transferring device 200 of the present invention includes a transferring ring 201 and a driving device 202, the driving device 202 drives the transferring ring 201 to move, a driving lever 203 is disposed on the transferring ring 201, and the driving lever 203 is adapted to the hole on the sample holder. When the automatic feeding device is used, the driving device 202 such as a motor drives the conveying ring 201 to perform annular reciprocating motion between the feeding mechanism 300 and the discharging mechanism 400, and the driving rod 203 is driven to penetrate through a sample rack, so that the sample rack is transmitted to one side of the discharging mechanism 400 from one side of the feeding mechanism 300.

The utility model discloses a transfer ring 201 can be the drive belt, like V-arrangement area 316, toothed belt etc. also can be chain isotructure, driving lever 203 sets up with transfer ring 201's terminal surface is perpendicular, because shift fork 310 effect on feed mechanism 300 promotes the sample frame to conveyer 200 one side when the sample frame, and driving lever 203 inserts to the sample frame, and the sample frame drives it to unloading mechanism 400 one side under transfer ring 201's motion to accomplish its automatic transmission.

It should be noted that, in the present invention, the rack 100 is provided with the conveying groove 204, one side of the conveying groove 204 is started from the shifting fork 310 of the feeding mechanism 300, the other side of the conveying groove 204 is stopped at the shifting fork 310 of the discharging mechanism 400, and the conveying groove 204 is adjacent to and parallel to the conveying device 200. The guide movement of the sample holder can be realized by the action of the transfer slot 204.

As another preferred embodiment of the present invention, the conveying device 200 of the present invention includes a transmission motor 205, a screw rod 206, a nut 207 and a push rod 208 in an L shape, the output end of the transmission motor 205 is connected to the screw rod 206, the nut 207 is installed on the screw rod 206, the push rod 208 is connected to the nut 207, and the output end of the push rod 208 passes through the conveying groove 204 extending upward.

When the screw rod 206 is rotated by the driving motor 205, the nut 207 moves on the screw rod 206 to drive the push rod 208 to push the sample rack in the transfer slot 204 to move from the loading mechanism 300 side to the unloading mechanism 400 side.

Please continue to refer to fig. 1, the utility model discloses be two respectively with the guiding hole 101 that feed mechanism 300 and unloading mechanism 400 drunk relatively, the shift fork 310 is the setting of the Y style of calligraphy, and two corresponding guiding holes 101 both sides of feed mechanism 300 and unloading mechanism 400 are equipped with striker plate 102, through striker plate 102's effect, can prevent that the sample frame from rocking in the transverse direction, influences its conveying accuracy.

The utility model discloses a feed mechanism 300 includes V-arrangement area 316, action wheel 311 and follower 312, and V-arrangement area 316 encircles between action wheel 311 and follower 312, and shift fork 310 bottom is through slide 313 slidingtype install on linear guide 314, and slide 313 passes through connecting plate 315 and V-arrangement area 316 and links to each other.

The connecting plate 315 is U-shaped on the side connected to the V-shaped belt 316, and the inner side of the U-shaped is provided with a latch adapted to the V-shaped belt 316.

When the sample rack shifting device is used, the driving body 924 is used for driving the driving wheel 311 to move, the connecting plate 315 is driven to move under the action of the V-shaped belt 316, the connecting plate 315 is pulled to drive the sliding base 313 to convey on the linear guide rail 314, the rotary motion is converted into the linear motion, and the shifting fork 310 on the sliding base 313 shifts the sample rack.

Referring to fig. 11, the automatic urine iodine and blood iodine detecting method of the present invention includes the following steps,

step S1, the automatic sequencing device 900 automatically sequences the cuvettes and the tips and then respectively transmits the sequences to the cuvette transmission device 500 and the tip automatic shelving device 700;

step S2, the automatic sample feeding device 800 automatically sorts the sample racks to one side of the cuvette driving device 500;

step S3, moving the transfer device 920 to the automatic gun head loading device 700 to obtain the gun heads, moving the gun heads to one side of the cuvette transmission device 500, sucking the samples to be detected from the sample cups on the sample racks, and transferring the samples to be detected to the cuvettes;

in step S4, the transfer device 920 moves the automatic lance tip dismounting device 600, and after the used lance tip is dismounted by the automatic lance tip dismounting device 600, the transfer device 920 moves to the automatic lance tip mounting device 700 and enters the next cycle.

Finally, the method of the present application is only a preferred embodiment and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The full-automatic urinary iodine blood iodine automatic sequencing device is used for automatically sequencing sampling gun heads and cuvettes and is characterized by comprising a hopper, guide grooves and a friction conveying device, wherein a partition plate is arranged in the middle of the hopper to separate the sampling gun heads and the cuvettes to form two containing cavities, the bottom of each containing cavity is inclined, the guide grooves are arranged at the lowest positions of the containing cavities, the guide grooves are respectively opposite to the automatic gun head shelving device and the cuvette transmission device, the friction conveying device is arranged on two sides of the two guide grooves, an opening is formed in a wall plate on one side, adjacent to the friction conveying device, of the hopper, and a conveying brush on the friction conveying device is in friction contact with the gun heads and the cuvettes in the guide grooves respectively.

2. The automatic urinary iodine blood iodine sorting device as claimed in claim 1, wherein said friction conveyer includes a friction belt, a first wheel and a second wheel, said friction belt is installed between said first wheel and said second wheel, and said friction belt is installed with a driving brush.

3. The automatic sorting device for iodine in urine according to claim 1, wherein said hopper further comprises a window, said window is disposed on the upper portion of said opening, a support is disposed on one side of said friction transmission device, a pushing head is disposed on the top of said support, said pushing head is slidably disposed on said window, and said support is slidably disposed on the linear track at the bottom.

4. A fully automatic urine iodine blood iodine detecting machine, characterized by comprising the fully automatic urine iodine blood iodine automatic sequencing device according to claim 1.

5. The fully automatic urine iodine blood iodine detecting machine according to claim 4, further comprising a frame, a cuvette driving device, an automatic tip removing device and an automatic sample feeding device, wherein the cuvette driving device is arranged in parallel with the automatic tip removing device and the automatic tip loading device, the automatic tip removing device is arranged between the cuvette driving device and the automatic tip loading device, and the automatic sample feeding device is arranged on one side of the cuvette driving device; the output end of the guide groove is respectively connected with the cuvette transmission device and the automatic gun head loading device; and the transfer device is erected above the space between the automatic gun head loading device and the cuvette transmission device and can realize the movement in the directions of the Y axis and the Z axis.

6. The automatic urine iodine blood iodine tester as claimed in claim 4, wherein said output end of said guide groove is provided with guide side plates on both sides of said cuvette driving means and said automatic tip mounting means.

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