CN111332580A - Cancer early gene detection kit - Google Patents

Abstract

The invention discloses a cancer early gene detection kit, which comprises a kit body, wherein the kit body comprises a first box body and a second box body which are bilaterally symmetrical, a first base plate is transversely arranged at the lower part in the first box body, the first base plate divides the first box body into a first cavity and a second cavity, a support plate is transversely arranged in the first cavity, an ELISA plate is placed on the support plate, a sliding positioning plate is arranged above the ELISA plate, a plurality of through holes are arranged on the sliding positioning plate, the through holes correspond to the holes on the ELISA plate in number and position one by one, the through holes are of a horn structure, the inner diameter of the upper end of each through hole is smaller than the inner diameter of the lower end, and the inner diameter of the lower end of the through hole is slightly smaller than that of the upper hole of the ELISA plate, rectangular grooves are formed in the inner walls of two opposite sides of the first cavity, first lifting mechanisms are arranged in the rectangular grooves respectively, and the sliding positioning plate is driven to move up and down through the first lifting mechanisms. The kit is convenient to use, and the accuracy of a detection result is effectively guaranteed.

Description

Cancer early gene detection kit

Technical Field

The invention relates to the technical field of gene detection, in particular to a cancer early gene detection kit.

Background

The gene detection is a technique for detecting DNA by blood, other body fluids or cells, and is a method for taking peripheral venous blood or other tissue cells of a detected person, amplifying the gene information, detecting DNA molecular information in the cells of the detected person by a specific device, and analyzing whether the gene type, the gene defect and the expression function contained in the DNA molecular information are normal or not, so that people can know the gene information of themselves, and the etiology is determined or the risk of a certain disease of the body is predicted.

At present, cancer is a problem which is difficult to solve in the gene field, experts often detect cancer genes, and a kit is often needed to detect related genes in the detection process so as to perform early screening on cancer diseases. However, most of the existing reagent kits for gene detection have simple structure and single function, and the operation of taking out and placing reagent tubes in the reagent kits is inconvenient; in the test process, reagents need to be dripped into a plurality of micropores on the ELISA plate, so that the reagents are easily dripped out of the micropores, and the adjacent pores are polluted; in addition, the temperature control in the existing reagent kit is not accurate, and the deviation of the detection result is easily caused.

Disclosure of Invention

In order to solve the problems in the background art, the present invention provides a kit for detecting early cancer genes, which is convenient to use and effectively ensures the accuracy of the detection result.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a cancer early gene detection kit, which comprises a kit body, wherein the kit body comprises a first box body and a second box body which are bilaterally symmetrical, a first base plate is transversely arranged at the lower part in the first box body, the first base plate divides the first box body into a first cavity and a second cavity, a support plate is transversely arranged in the first cavity, an enzyme label plate is placed on the support plate, a sliding positioning plate is arranged above the enzyme label plate, a plurality of through holes are arranged on the sliding positioning plate, the through holes correspond to the holes on the enzyme label plate in number and position one by one, the through holes are of a horn-shaped structure, the inner diameter of the upper end of each through hole is smaller than the inner diameter of the lower end of the through hole, the inner diameter of the lower end of each through hole is slightly smaller than the inner diameter of the hole on the enzyme label plate, rectangular grooves are respectively arranged on the inner walls at two opposite sides, the first lifting mechanism drives the sliding positioning plate to move up and down;

a second base plate is transversely arranged at the lower part in the second box body, the second base plate divides the second box body into a third chamber and a fourth chamber, a lower test tube rack is transversely arranged in the third chamber, two fixing plates are fixedly arranged on two sides of the top of the lower test tube rack, an upper test tube rack is fixedly arranged on the top of each fixing plate, placing holes are uniformly formed in the upper test tube rack, reagent tubes are arranged in the placing holes, and the two fixing plates move up and down under the action of a second lifting mechanism respectively;

a plurality of air holes are formed in the first base plate and the second base plate at equal intervals, and heating mechanisms are arranged in the second cavity and the fourth cavity.

The improvement is that the first lifting mechanism comprises a support column, a sleeve and a driving cylinder, the support column is vertically arranged in the rectangular groove, the sleeve is arranged on the outer side of the support column, the sleeve can slide up and down along the support column, two ends of the sliding positioning plate are respectively fixedly connected with the outer side of the sleeve, the outer surface of the support column is fixedly provided with a driving cylinder through a mounting seat, and the telescopic end of the driving cylinder is connected with the outer surface of the sleeve. Drive actuating cylinder and drive the sleeve and reciprocate along the support column direction, driven sliding positioning board and reciprocated, the convenience is adjusted the distance between sliding positioning board and the ELIAS plate, has guaranteed that the direct drippage of reagent is downthehole to the ELIAS plate.

The improved structure is characterized in that the second lifting mechanism comprises a sliding groove, a sliding block and electric telescopic rods, the sliding groove is formed in the two opposite side walls in the third cavity along the vertical direction, one end of the sliding block is movably arranged in the sliding groove, the other end of the sliding block is connected with a fixing plate located on one side of the sliding block, two electric telescopic rods are fixedly arranged on two sides of the top of the second base plate, and the top of each electric telescopic rod is connected with the bottom of the lower test tube rack. Through the setting of electric telescopic handle, slider and spout, can adjust the height of the reagent pipe in the arrangement hole of last test-tube rack, make things convenient for the staff to take out, place the reagent pipe.

The improved structure is characterized in that the cross section of the sliding groove is of an inverted trapezoidal structure, clamping blocks are respectively and transversely arranged inwards on two sides of one end of the fixed plate close to the sliding groove, the sliding block comprises a movable end and a fixed end, the movable end is embedded in the sliding groove, and the fixed end is connected with the fixed plate located on one side of the fixed end. Through the trapezoidal structure of personally submitting the transversal inversion with the spout to transversely be provided with the fixture block inwards respectively in the bottom both sides of spout, make the cooperation of slider and spout laminate more, reagent pipe is more steady at the in-process that reciprocates.

The further improvement lies in that the heating mechanism comprises a heater and a heat conducting rod, the heater is respectively arranged at the inner bottom of the second cavity and the inner bottom of the fourth cavity, and the heat conducting rod is welded on one side of the heater. The temperature in the first chamber and the temperature in the third chamber can be well adjusted through the heater and the heat conducting rod, the gene detection process is ensured to be at a proper temperature, and the accuracy of the detection result is ensured.

The further improvement lies in that the inner wall of the placing hole is coated with a layer of rubber layer to stably support the reagent tube and has an anti-collision effect.

The further improvement is that the bottom of the ELISA plate and the bottom of the upper test tube rack are both provided with temperature sensors.

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

according to the invention, the kit body is divided into the first box body and the second box body, the first box body can provide a required operation environment for preparation of the detection probe, and the second box body provides a required operation environment for later detection, so that the structure design is reasonable, the use is convenient, and the test efficiency is higher; by arranging the sliding positioning plate, an operator can accurately drop the reagent into the hole in the ELISA plate through the through hole in the sliding positioning plate, and the distance between the sliding positioning plate and the ELISA plate can be adjusted through the first lifting mechanism, so that the accurate dropping of the reagent is further ensured; under the effect of second elevating system, can adjust the height of the reagent pipe in the arrangement hole of last test-tube rack, make things convenient for the staff to take out, place the reagent pipe.

Drawings

The invention is described in further detail below with reference to specific embodiments and with reference to the following drawings.

FIG. 1 is a structural diagram of a kit for detecting early cancer genes according to the present invention;

FIG. 2 is a view showing an internal structure of the first case of the present invention;

FIG. 3 is a structural view of a first elevating mechanism according to the present invention;

FIG. 4 is a view showing the construction of the slide positioning plate according to the present invention;

FIG. 5 is a view showing an internal structure of a second container in accordance with the present invention;

FIG. 6 is a transverse cross-sectional view of the present invention at the chute;

wherein, the specific reference numbers are: the kit body 1, a protective cover 2, a protective ring 3, a rubber plug base 4, a buckle 5, a first box body 6, a first cushion plate 7, a first cavity 8, a support plate 9, an ELISA plate 10, a sliding positioning plate 11, a through hole 12, a rectangular groove 13, a first lifting mechanism 14, a support column 15, a sleeve 16, a driving cylinder 17, a second cavity 18, a second box body 19, a second cushion plate 20, a third cavity 21, a lower test tube rack 22, a fixing plate 23, an upper test tube rack 24, a reagent tube 25, a fourth cavity 26, a sliding chute 28, a clamping block 29, a sliding block 30, a movable end 31, a fixed end 32, an electric telescopic rod 33, an air hole 34, a heater 35 and a heat conducting rod 36.

Detailed Description

The embodiment of the invention discloses a cancer early gene detection kit, which comprises a kit body 1, wherein a protective cover 2 is arranged above the kit body 1, a protective ring 3 is arranged at the periphery, close to the edge, of the protective cover 2, a rubber plug base 4 is arranged at the bottom in the protective ring 3, one side of the protective cover 2 is hinged with the kit body 1, and a buckle 5 used for being clamped with the kit body 1 is arranged at the edge of the other side of the protective cover 2. The kit body 1 comprises a first box body 6 and a second box body 19 which are bilaterally symmetrical, a first base plate 7 is transversely arranged at the lower part in the first box body 6, the first base plate 7 divides the first box body 6 into a first cavity 8 and a second cavity 18, a support plate 9 is transversely arranged in the first cavity 8, an ELISA plate 10 is placed on the support plate 9, a sliding positioning plate 11 is arranged above the ELISA plate 10, a plurality of through holes 12 (shown in figure 4) are arranged on the sliding positioning plate 11, the through holes 12 correspond to the holes on the ELISA plate 10 in number and position one by one, the through holes 12 are in a horn-shaped structure, the inner diameter of the upper end of each through hole 12 is smaller than the inner diameter of the lower end, and the inner diameter of the lower end of the through hole 12 is slightly smaller than that of the upper hole of the ELISA plate 10, rectangular grooves 13 are formed in the inner walls of two opposite sides of the first chamber 8, first lifting mechanisms 14 are arranged in the rectangular grooves 13 respectively, and the sliding positioning plate 11 is driven to move up and down through the first lifting mechanisms 14. The lower part transversely is provided with second backing plate 20 in the second box body 19, second backing plate 20 divides second box body 19 into third chamber 21 and fourth chamber 26, transversely be provided with test-tube rack 22 down in the third chamber 21, the fixed two fixed plates 23 that are provided with in top both sides of test-tube rack 22 down, fixed test-tube rack 24 that is provided with in fixed plate 23 top, evenly be provided with the resettlement hole on the last test-tube rack 24, resettlement downthehole portion is provided with reagent pipe 25, resettlement downthehole wall cladding has one deck rubber layer, support reagent pipe 25 carries out stably, and the effect of anticollision has, two fixed plates 23 reciprocate under second elevating system's effect respectively. A plurality of air holes 34 are formed in the first base plate 7 and the second base plate 20 at equal intervals, and heating mechanisms are arranged in the second cavity 18 and the fourth cavity 26. Temperature sensors are arranged at the bottom of the ELISA plate 10 and the bottom of the upper test tube rack 24. Wherein, heating mechanism includes heater 35 and heat conduction stick 36, and heater 35 sets up respectively in second cavity 18 and fourth cavity 26 bottom, and heater 35 one side all welds and has heat conduction stick 36. The temperature in the first chamber 8 and the temperature in the third chamber 21 can be well adjusted through the heater 35 and the heat conducting rod 36, the gene detection process is ensured to be at a proper temperature, and the accuracy of the detection result is ensured.

As shown in fig. 3, the first lifting mechanism 14 includes a supporting column 15, a sleeve 16 and a driving cylinder 17, the supporting column 15 is vertically disposed in the rectangular groove 13, the sleeve 16 is sleeved outside the supporting column 15, the sleeve 16 can slide up and down along the supporting column 15, two ends of the sliding positioning plate 11 are respectively fixedly connected to the outside of the sleeve 16, the driving cylinder 17 is fixedly disposed on the outer surface of the supporting column 15 through a mounting seat, and the telescopic end of the driving cylinder 17 is connected to the outer surface of the sleeve 16. Drive actuating cylinder 17 and drive sleeve 16 and reciprocate along support column 15 direction, driven sliding location board 11 and reciprocated, conveniently adjust the distance between sliding location board 11 and the ELIAS plate 10, guaranteed that the direct drippage of reagent is downthehole to ELIAS plate 10.

As shown in fig. 6, the second lifting mechanism includes a sliding groove 28, a sliding block 30 and an electric telescopic rod 33, the sliding groove 28 is formed in the vertical direction on the two opposite side walls in the third chamber 21, one end of the sliding block 30 is movably arranged in the sliding groove 28, the other end of the sliding block 30 is connected with the fixing plate 23 located on one side of the sliding block, two electric telescopic rods 33 are fixedly arranged on two sides of the top of the second backing plate 20, and the top of each electric telescopic rod 33 is connected with the bottom of the lower test tube rack 22. Through the setting of electric telescopic handle 33, slider 30 and spout 28, can adjust the height of the reagent pipe 25 in the settling hole of last test-tube rack 24, make things convenient for the staff to take out, place reagent pipe 25. The cross section of the sliding chute 28 is of an inverted trapezoidal structure, the two sides of the sliding chute 28 close to one end of the fixing plate 23 are respectively and transversely provided with a clamping block 29 inwards, the sliding block 30 comprises a movable end 31 and a fixed end 32, the movable end 31 is embedded in the sliding chute 28, and the fixed end 32 is connected with the fixing plate 23 located on one side of the fixed end. The cross section of the sliding groove 28 is in an inverted trapezoidal structure, and the two sides of the bottom of the sliding groove 28 are respectively and transversely provided with the clamping blocks 29 inwards, so that the sliding block 30 is matched with the sliding groove 28 more closely, and the reagent tube 25 is more stable in the up-and-down moving process.

According to the invention, the kit body 1 is divided into the first box body 6 and the second box body 19, the first box body 6 can provide a required operation environment for preparation of the detection probe, and the second box body 19 provides a required operation environment for later detection, so that the structural design is reasonable, the use is convenient, and the test efficiency is higher; by arranging the sliding positioning plate 11, an operator can accurately drop the reagent into the hole on the ELISA plate 10 through the through hole 12 on the sliding positioning plate 11, and the distance between the sliding positioning plate 11 and the ELISA plate 10 can be adjusted through the first lifting mechanism 14, so that the accurate dropping of the reagent is further ensured; under the effect of second elevating system, can adjust the height of reagent pipe 25 in the mounting hole of last test-tube rack 24, make things convenient for the staff to take out, place reagent pipe 25.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (7)

1. A kit for detecting early genes of cancers is characterized by comprising a kit body, wherein the kit body comprises a first box body and a second box body which are bilaterally symmetrical, a first base plate is transversely arranged at the lower part in the first box body, the first base plate divides the first box body into a first cavity and a second cavity, a supporting plate is transversely arranged in the first cavity, an ELISA plate is placed on the supporting plate, a sliding positioning plate is arranged above the ELISA plate, a plurality of through holes are formed in the sliding positioning plate, the through holes correspond to the holes in the ELISA plate in number and position one by one, the through holes are of horn-shaped structures, the inner diameter of the upper end of each through hole is smaller than the inner diameter of the lower end of each through hole, the inner diameter of the lower end of each through hole is slightly smaller than the inner diameter of the corresponding hole in the ELISA plate, rectangular grooves are formed in the inner, the rectangular grooves are respectively provided with a first lifting mechanism, and the sliding positioning plate is driven to move up and down through the first lifting mechanisms;

a second base plate is transversely arranged at the lower part in the second box body, the second base plate divides the second box body into a third chamber and a fourth chamber, a lower test tube rack is transversely arranged in the third chamber, two fixing plates are fixedly arranged on two sides of the top of the lower test tube rack, an upper test tube rack is fixedly arranged on the top of each fixing plate, a placing hole is formed in the upper test tube rack, a reagent tube is arranged in each placing hole, and the two fixing plates move up and down under the action of a second lifting mechanism respectively;

a plurality of air holes are formed in the first base plate and the second base plate at equal intervals, and heating mechanisms are arranged in the second cavity and the fourth cavity.

2. The kit for detecting early genes of cancer according to claim 1, wherein the first elevating mechanism comprises a supporting column, a sleeve and a driving cylinder, the supporting column is vertically disposed in the rectangular groove, the sleeve is sleeved outside the supporting column, the sleeve can slide up and down along the supporting column, two ends of the sliding positioning plate are respectively fixedly connected with the outside of the sleeve, the driving cylinder is fixedly disposed on the outer surface of the supporting column through a mounting seat, and the telescopic end of the driving cylinder is connected with the outer surface of the sleeve.

3. The kit for detecting early genes in cancers according to claim 1 or 2, wherein the second lifting mechanism comprises a sliding groove, a sliding block and an electric telescopic rod, the sliding groove is formed in the third chamber along the vertical direction on the two opposite side walls, one end of the sliding block is movably arranged in the sliding groove, the other end of the sliding block is connected with the fixing plate on one side of the sliding block, two electric telescopic rods are fixedly arranged on two sides of the top of the second backing plate, and the top of each electric telescopic rod is connected with the bottom of the lower test tube rack.

4. The kit for detecting genes at an early stage of cancer as claimed in claim 3, wherein the cross section of the slide groove is inverted trapezoid, and two sides of the slide groove near one end of the fixing plate are respectively provided with a block inwards and transversely, the block comprises a movable end and a fixed end, the movable end is embedded in the slide groove, and the fixed end is connected with the fixing plate at one side thereof.

5. The kit for detecting early genes in cancer according to claim 1, wherein the heating mechanism comprises a heater and a heat conducting rod, the heater is respectively disposed at the bottom of the second chamber and the fourth chamber, and the heat conducting rod is welded to one side of the heater.

6. The kit for detecting early cancer genes according to claim 1, wherein the inner wall of the mounting hole is covered with a rubber layer.

7. The kit for detecting early cancer genes as claimed in claim 1, wherein the bottom of the elisa plate and the bottom of the upper test tube rack are both provided with temperature sensors.

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