CN219308802U - Test tube rack for excrement detection - Google Patents

Abstract

The utility model discloses a test tube rack for excrement detection, which comprises a barrel, wherein three supporting columns are arranged on the lower wall surface of the barrel, a first sliding door and a second sliding door are arranged on the upper wall surface of the barrel, the first sliding door and the second sliding door are hinged with the upper wall surface of the barrel, handles are arranged on the upper wall surfaces of the first sliding door and the second sliding door, the inside of the barrel is divided into a first space and a second space, test tube clamping devices are arranged in the first space and the second space, a gas heating device and a gas cooling device are arranged on the two side wall surfaces of the barrel, a gas impurity absorbing device is arranged on the inner side wall surfaces of the first space and the second space of the barrel, a test tube is inserted into a circular groove at the moment, a tube orifice is covered by a tube plug at the moment, and the loop-shaped block is fixed on the support rod by a fastening bolt, so that the problem that the test tube rack is inconvenient to seal and fix is solved.

Description

Test tube rack for excrement detection

Technical Field

The utility model relates to the technical field of excrement devices, in particular to a test tube rack for excrement detection.

Background

Along with the development of medical technology, the technology of detecting body conditions from human excreta is mature increasingly, the demand for storing excreta is also increasing increasingly, test tubes can be used for storing and placing during storing excreta, various test tube racks exist in the prior art, such as a test tube rack is disclosed in China utility model with the patent number of CN202022837827.1, the test tube rack comprises a test tube rack body, a plurality of test tube holes for accommodating test tubes are formed in the test tube rack body, the test tube rack body is a hollow rectangular frame, and the test tube rack body is divided into four areas by a partition plate.

1. The test tube rack is not provided with a temperature adjusting device, and when different temperatures are needed to be adjusted and stored, the test tube rack is not provided with a temperature control device, so that stored excrement cannot be stored at a controlled temperature, and the problem that the temperature of the test tube rack is inconvenient to control exists.

2. This kind of test-tube rack does not design test tube fixed sealing device, when needs are stored and removed in the use, this kind of test-tube rack does not design sealing fixing device to the condition that drops easily appears when meetting the collision in the storage and placing process, thereby this kind of test-tube rack exists the fixed problem of sealing of being inconvenient for.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the test tube rack for excrement detection, which solves the technical problems that the temperature control device is not designed for the test tube rack in the prior art 1, and when different temperatures are required to be adjusted and stored, the temperature control device is not designed for the test tube rack, so that the stored excrement cannot be stored in a temperature-controlled manner, and the temperature control is inconvenient for the test tube rack. 2. This kind of test-tube rack does not design test tube fixed sealing device, when needs are stored and removed in the use, this kind of test-tube rack does not design sealing fixing device to the condition that drops easily appears when meetting the collision in the storage and placing process, thereby this kind of test-tube rack has the fixed technical problem of sealing of being inconvenient for.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a test-tube rack for excrement detection, includes the barrel, three support column is installed to barrel lower wall, first sliding door and second sliding door and first sliding door and second sliding door all are articulated with barrel upper wall have been seted up to barrel upper wall, the handle is all installed to first sliding door and second sliding door upper wall, test tube clamping device is all installed to barrel internal portion for first space and second space and first space and second space, gas heating device and gas cooling device are installed to barrel both sides wall, gas impurity absorbing device is installed to the inside lateral wall of first space and second space of barrel.

Preferably, the test tube clamping device comprises an electric hydraulic cylinder, a motor case, a circular base, a circular groove, a motor, a test tube plug, a supporting rod, a return block and a fastening bolt, wherein the electric hydraulic cylinder is installed on the lower wall surface of the inside of a cylinder body, the motor case is installed on the upper wall surface of the telescopic end of the electric hydraulic cylinder, the motor is installed inside the motor case, the circular base is installed on the upper wall surface of a motor driving end, a plurality of the circular grooves are formed in the upper wall surface of the circular base, a plurality of the supporting rods are installed on one side, close to the circular groove, of the upper wall surface of the circular base, the return block is sleeved on the supporting rod and fixed through the fastening bolt, and the test tube plug is installed on the other side wall surface of the return block.

Preferably, the gas heating device comprises a first connecting pipe, a second connecting pipe, a third connecting pipe, a first air inlet pipe, a first box body, a first air outlet pipe, a first exhaust fan, a first pipe body, an electric heating block, a first suction fan and a first filter screen, wherein the first box body is arranged on the side wall surface of the cylinder body, the inner part of the first box body is divided into a third space, a fourth space, a fifth space and a sixth space, the third space and the sixth space are respectively connected with the cylinder body through a second sliding door and the first air outlet pipe, the first filter screen is arranged in the third space, the first suction fan is arranged in the fourth space and is communicated with the first suction fan in the third space through the first connecting pipe, the first box body is arranged in the fifth space and is communicated with the first exhaust fan and the first suction fan through the second connecting pipe and the third connecting pipe, a plurality of electric heating blocks are arranged on two sides of the first pipe body, and the first exhaust fan is arranged in the sixth space.

Preferably, the gas cooling device comprises a fourth connecting pipe, a fifth connecting pipe, a sixth connecting pipe, a second air inlet pipe, a second box body, a second exhaust pipe, a second exhaust fan, an electric cooling plate, a second suction fan and a second filter screen, wherein the second box body is arranged on the side wall surface of the cylinder body, the interior of the second box body is divided into a seventh space, an eighth space, a ninth space and a tenth space, the seventh space and the tenth space are respectively connected with the cylinder body through the second air inlet pipe and the second exhaust pipe and are empty, the second filter screen is arranged in the seventh space, the second suction fan is arranged in the eighth space and is communicated with the second suction fan in the seventh space through the fourth connecting pipe, the electric cooling plate is arranged in the ninth space and is communicated with the second exhaust fan and the second suction fan through the fifth connecting pipe and the sixth connecting pipe, and the second exhaust fan is arranged in the tenth space.

Preferably, the gas impurity absorbing device comprises a pair of iron net grooves and activated carbon, wherein the iron net grooves are respectively arranged on the side wall surfaces of the first space and the second space in the cylinder body, and the activated carbon is respectively arranged in the iron net grooves.

Advantageous effects

The utility model provides a test tube rack for detecting excrement, which is characterized in that when the test tube rack is required to be fixedly clamped in the use process, an electric hydraulic cylinder in a cylinder body is started so as to drive a motor box to move through the up-and-down movement of a telescopic end of the electric hydraulic cylinder, at the moment, a motor in the motor box is started so as to drive a round base to rotate through the rotation of a driving end of the motor, thereby solving the problem that excrement is required to be stored in a shaking way, at the moment, a test tube is inserted into a round groove, at the moment, a return block on a support rod is moved, a tube orifice is covered by a test tube plug, and the return block is fixed on the support rod through a fastening bolt, so that the problem that the test tube rack is inconvenient to seal and fix is solved.

The utility model provides a test tube rack for detecting excrement, when the stored excrement sample needs to be stored at different temperatures in the using process, when the temperature needs to be increased in a low-temperature environment, a test tube is placed in a first space of a cylinder, a first suction fan in the first box body is started at the moment, so that gas in the cylinder is sucked into the first box body through an air inlet end of the first suction fan, the gas is filtered through a first filter screen, the filtered gas is discharged into the first cylinder body through an air outlet end of the first suction fan, an electric heating block is started at the moment, so that the gas is heated through one side of the first cylinder body where the electric heating block is located, then is sucked through an air inlet end of the first exhaust fan, so that the gas impurities in the first space are absorbed through Mars carbon through an air outlet end of the first exhaust pipe, thereby completing the gas heating in the first space, when the high-temperature condition needs to be cooled and stored, the test tube is placed in a second space, the second suction fan in the second box body is started at the moment, the filtered gas is discharged into the first cylinder body through an air outlet end of the first suction fan, the filtered gas is discharged into the first cylinder body through an air inlet end of the second cylinder body, the air inlet end of the first exhaust fan is started at the moment, the air inlet end of the first exhaust fan is cooled, the gas is discharged into the air inlet end of the first cylinder through the first exhaust fan through the air inlet end of the first exhaust fan, the air exhaust pipe is cooled, the gas is cooled through the air inlet end of the first cylinder, and the air inlet end of the first cylinder is cooled, and the air inlet end is cooled, and the gas inside the first cylinder is filled into the first cylinder, and the inside the air inlet is heated, thereby solving the problem that the temperature of the test tube rack is inconvenient to control.

Drawings

Fig. 1 is a schematic diagram of the front view structure of a test tube rack for detecting excrement.

Fig. 2 is a schematic diagram of the internal structure of a tube of the test tube rack for detecting excrement.

Fig. 3 is a schematic diagram of a motor structure of a test tube rack for detecting excrement.

In the figure: 1-a cylinder; 2-a first sliding door; 3-a second sliding door; 4-a first air inlet pipe; 5-a first box body; 6-a first exhaust pipe; 7-a first exhaust fan; 8-a first tube; 9-an electric heating block; 10-a first suction fan; 11-a first filter screen; 12-a second box; 13-a second air inlet pipe; 14-a second exhaust pipe; 15-a second exhaust fan; 16-an electric cooling plate; 17-a second suction fan; 18-a second filter screen; 19-supporting columns; 20-an electro-hydraulic cylinder; 21-a motor case; 22-a circular base; 23-circular grooves; 24-test tube plug; 25-supporting rod; 26-a loop-shaped block; 27-fastening bolts; 28-an electric motor; 29-iron net groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a test-tube rack for excrement detection, includes barrel 1, three support column 19 is installed to barrel 1 lower wall, barrel 1 upper wall has seted up first sliding door 2 and second sliding door 3 and first sliding door 2 and second sliding door 3 all articulated with barrel 1 upper wall, the handle is all installed to first sliding door 2 and second sliding door 3 upper wall, barrel 1 internal portion is first space and second space and first space and second space all install test tube clamping device, gas heating device and gas cooling device are installed to barrel 1 both sides wall, gas impurity absorbing device is installed to barrel 1's first space and the inside lateral wall in second space, and installation gas impurity absorbing device can absorb the inside impurity gas of barrel through the active carbon.

Further, the test tube clamping device comprises an electric hydraulic cylinder 20, a motor box 21, a circular base 22, circular grooves 23, a motor 28, test tube plugs 24, supporting rods 25, a return-type block 26 and fastening bolts 27, wherein the electric hydraulic cylinder 20 is installed on the lower wall surface of the inner portion of the cylinder body 1, the motor box 21 is installed on the upper wall surface of the telescopic end of the electric hydraulic cylinder 20, the motor 28 is installed inside the motor box 21, the circular base 22 is installed on the upper wall surface of the driving end of the motor 28, a plurality of the circular grooves 23 are formed in the upper wall surface of the circular base 22, a plurality of the supporting rods 25 are installed on one side, close to the circular grooves 23, of the upper wall surface of the circular base 22, a plurality of the return-type blocks 26 are sleeved on the supporting rods 25 and are fixed through the fastening bolts 27, the test tube plugs 24 are installed on the other side wall surface of the return-type block 26, and the test tube clamping device can fix a test tube to be fixed through the circular grooves.

Further, the gas heating device comprises a first connecting pipe, a second connecting pipe, a third connecting pipe, a first air inlet pipe 4, a first box 5, a first air outlet pipe 6, a first exhaust fan 7, a first pipe body 8, an electric heating block 9, a first suction fan 10 and a first filter screen 11, wherein the first box 5 is arranged on the side wall surface of the cylinder body 1, the interior of the first box 5 is divided into a third space, a fourth space, a fifth space and a sixth space, the third space and the sixth space are respectively connected with the cylinder body 1 through a second sliding door 3 and the first air outlet pipe 6, the first filter screen 11 is arranged in the interior of the third space, the first suction fan 10 is arranged in the interior of the fourth space and is communicated with the first suction fan 10 through the first connecting pipe, the first pipe body 8 is arranged in the interior of the fifth space and is communicated with the first exhaust fan 7 and the first suction fan 10 through the second connecting pipe and the third connecting pipe, a plurality of electric heating blocks 9 are arranged on the first pipe body 8, and the first suction fan 7 can be arranged in the two sides of the electric heating block 7 and can be internally heated by the air heating device through the first air outlet pipe.

Further, the gas cooling device includes a fourth connecting pipe, a fifth connecting pipe, a sixth connecting pipe, a second air inlet pipe 13, a second box 12, a second air outlet pipe 14, a second exhaust fan 15, an electric cooling plate 16, a second suction fan 17 and a second filter screen 18, wherein the second box 12 is mounted on the side wall surface of the cylinder 1, the interior of the second box 12 is divided into a seventh space, an eighth space, a ninth space and a tenth space, the seventh space and the tenth space are respectively connected with the cylinder 1 through the second air inlet pipe 13 and the second air outlet pipe 14 and are empty, the second filter screen 18 is mounted in the seventh space, the second suction fan 17 is mounted in the eighth space and is communicated with the second suction fan 17 of the seventh space and the eighth space through the fourth connecting pipe, the electric cooling plate 16 is mounted in the ninth space and is communicated with the second exhaust fan 15 and the second suction fan 17 through the fifth connecting pipe and the sixth connecting pipe, the second exhaust fan 15 is mounted in the tenth space, and the gas cooling device is mounted in the seventh space and can control the temperature of the electric cooling plate.

Further, the gas impurity absorbing device comprises a pair of iron net grooves 29 and activated carbon, the iron net grooves 29 are respectively arranged on the side wall surfaces of the first space and the second space in the barrel 1, the activated carbon is respectively arranged in the iron net grooves 29, and the gas impurity absorbing device is arranged to absorb impurity gas in the barrel through the activated carbon.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Examples: when the clamping is needed, the electric hydraulic cylinder 20 in the cylinder body 1 is started to move through the up-and-down movement of the telescopic end of the electric hydraulic cylinder 20, the motor 28 in the motor box 21 is started at the moment, the round base 22 is driven to rotate through the rotation of the driving end of the motor 28, so that the problem that the excrement needs to be stored in a shaking mode is solved, the test tube is inserted into the round groove 23 at the moment, the loop-shaped block 26 on the support rod 25 is moved, the tube orifice is covered by the test tube plug 24, the loop-shaped block 26 is fixed on the support rod 25 through the fastening bolt 27, when the stored excrement samples need to be stored at different temperatures, when the temperature needs to be increased when the low-temperature environment is met, the test tube is placed in the first space of the cylinder body, the first suction fan 10 in the first box body 5 is started at the moment, so that the air in the cylinder 1 is sucked into the first box 5 through the air inlet end of the first suction fan 10, the air is filtered through the first filter screen 11, the filtered air is discharged into the first pipe 8 through the air outlet end of the first suction fan 10, the electric heating block 9 is started at the moment, the air is heated by heating one side of the first pipe 8 where the electric heating block 9 is positioned, the air is sucked through the air inlet end of the first exhaust fan 7, the air is discharged into the cylinder 1 through the air outlet end of the first exhaust fan 7, the air impurities in the first space of the cylinder 1 are absorbed through Mars carbon at the moment, the air in the first space is heated, when the cooling storage is needed under the high temperature condition, the test tube is put into the second space, the second suction fan 17 in the second box 12 is started at the moment, thereby inhale the inside second space inflator of barrel 1 inside second box 12 thereby filter through second filter screen 18, and the inside gas is discharged into the inside of ninth space of second box 12 through the exhaust end of second suction fan 17 this moment, thereby cool off the inside gas of ninth space this moment through starting electronic cooling plate 16, and this moment starts second exhaust fan 15, thereby inhale through second exhaust fan 15 air inlet end and is being discharged into the inside of the second space of barrel 1 through the exhaust end exhaust through second blast pipe 14, and this moment the inside impurity of second space is absorbed through the active carbon. It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (5)

1. The utility model provides a test-tube rack for excrement detection, includes barrel (1), its characterized in that, three support column (19) are installed to barrel (1) lower wall, first sliding door (2) and second sliding door (3) and first sliding door (2) and second sliding door (3) all articulate with barrel (1) upper wall, the handle is all installed to first sliding door (2) and second sliding door (3) upper wall, test tube clamping device is all installed to barrel (1) inside first space and second space and first space and second space, gas heating device and gas cooling device are installed to barrel (1) both sides wall, gas impurity absorbing device is installed to the inside lateral wall in first space and second space of barrel (1).

2. The test tube rack for excrement detection according to claim 1, wherein the test tube clamping device comprises an electric hydraulic cylinder (20), a motor box (21), a circular base (22), a circular groove (23), a motor (28), a test tube plug (24), a supporting rod (25), a return block (26) and a fastening bolt (27), the electric hydraulic cylinder (20) is mounted on the lower wall surface of the inner part of the cylinder body (1), the motor box (21) is mounted on the upper wall surface of the telescopic end of the electric hydraulic cylinder (20), the motor (28) is mounted in the motor box (21), the circular base (22) is mounted on the upper wall surface of the driving end of the motor (28), a plurality of the circular grooves (23) are formed in the upper wall surface of the circular base (22), a plurality of the return blocks (26) are mounted on one side, close to the circular groove (23), of the upper wall surface of the circular base (22), and are sleeved on the supporting rod (25) and are fixed through the fastening bolt (27), and the test tube plug (24) is mounted on the other return block (26).

3. The test tube rack for excrement detection according to claim 1, wherein the gas heating device comprises a first connecting pipe, a second connecting pipe, a third connecting pipe, a first gas inlet pipe (4), a first box body (5), a first gas outlet pipe (6), a first exhaust fan (7), a first pipe body (8), an electric heating block (9), a first suction fan (10) and a first filter screen (11), the first box body (5) is installed on the side wall surface of the barrel body (1), the inner part of the first box body (5) is a third space, a fourth space, a fifth space and a sixth space, the third space and the sixth space are respectively connected with the barrel body (1) through a second sliding door (3) and a first gas outlet pipe (6), the first filter screen (11) is installed inside the third space, the first suction fan (10) is installed inside the fourth space and is communicated with the first suction fan (10) in the fourth space through the first connecting pipe, the first box body (8) is installed inside the third space and the first exhaust fan (7) is installed inside the first exhaust fan (7) and the second suction fan (7).

4. The test tube rack for excrement detection according to claim 1, wherein the gas cooling device comprises a fourth connecting tube, a fifth connecting tube, a sixth connecting tube, a second gas inlet tube (13), a second box (12), a second gas outlet tube (14), a second exhaust fan (15), an electric cooling plate (16), a second suction fan (17) and a second filter screen (18), the second box (12) is mounted on the side wall surface of the cylinder (1), the inside of the second box (12) is divided into a seventh space, an eighth space, a ninth space and a tenth space, the seventh space and the tenth space are respectively connected with the cylinder (1) through a second gas inlet tube (13) and a second gas outlet tube (14), the second filter screen (18) is mounted inside the seventh space, the second suction fan (17) is mounted inside the eighth space and the second suction fan (17) of the seventh space is communicated with the second filter screen (18), the electric cooling plate (16) is mounted inside the seventh space and the tenth space is connected with the tenth space through the fifth connecting tube (13) and the second gas outlet tube (14).

5. The test tube rack for detecting excreta according to claim 1, wherein the gas impurity absorbing device comprises a pair of iron net grooves (29) and activated carbon, the pair of iron net grooves (29) are respectively installed on the side wall surfaces of the first space and the second space inside the cylinder (1), and the pair of activated carbon is respectively installed inside the pair of iron net grooves (29).

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