CN111337697A - Full-automatic test solution extraction and detection device - Google Patents

Abstract

The invention discloses a full-automatic test solution extraction and detection device, which comprises a rack, an oscillation trolley, a plurality of beakers, a liquid adding mechanism, a cover taking and placing mechanism, a cup taking and placing mechanism, a testing sensor cleaning and drying mechanism and a beaker delivering mechanism, wherein the oscillation trolley is arranged on the rack; the oscillating cart is positioned at the upper end of the frame; the beaker can be placed on the top surface of the oscillation cart; the liquid adding mechanism is arranged on the frame; the cover taking and placing mechanism is arranged on the rack; the cup taking and placing mechanism is arranged on the frame; the testing mechanism is arranged on the frame; the test sensor cleaning and drying mechanism is arranged on the rack; the beaker delivery mechanism is arranged on the rack and can control the beaker delivery mechanism to deliver the beaker subjected to liquid detection. The full-automatic test solution extraction and detection device provided by the invention adopts the structure, so that the test solution detection efficiency is improved.

Description

Full-automatic test solution extraction and detection device

Technical Field

The invention relates to textile test solution detection equipment, in particular to a full-automatic test solution extraction and detection device.

Background

The textile detection is to evaluate the product quality by applying scientific inspection technology and method, analyze and research the components, structures and properties of the product and the influence on the product quality from the use and use conditions of the product, determine the use value of the product, and determine whether the product meets the requirements of the specified standard, and has the following functions: 1. finding out unqualified products in time, ensuring the quality and maintaining the credit of enterprises; 2. the problem is found in time, and the quality information is fed back to prompt the seller to correct or improve the quality of the commodity; 3. maintaining legal rights and rights of countries in all aspects, coordinating contradictions and promoting normal operation of commodity exchange activities.

The detection of the textile comprises a plurality of aspects including pH value test, namely, the pH value of a textile solution is accurately measured, the existing detection equipment for the textile test solution can only detect the test solution which is already put into a cup, and does not comprise the steps of liquid adding and extraction, so that the equipment has single function and low detection efficiency.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a full-automatic test solution extraction and detection device which integrates the addition, extraction and detection of test solution and has high detection efficiency.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a full-automatic test solution extraction and detection device, wherein includes:

the device comprises a rack, wherein a control system is arranged on the rack;

the oscillating trolley is positioned at the upper end of the rack and can slide in and out of the rack;

a plurality of beakers capable of being placed on a top surface of the oscillation cart, and beaker covers configured at cup mouths of the beakers;

the liquid adding mechanism is arranged on the rack, and the control system can control the liquid adding mechanism to add liquid into the beaker;

the cover taking and placing mechanism is arranged on the rack, and the control system can control the cover taking and placing mechanism to clamp or release the beaker cover;

the control system can control the cup taking and placing mechanism to clamp or release the beaker;

the testing mechanism is arranged on the rack, and the control system can control the testing mechanism to detect the liquid in the beaker;

the test sensor cleaning and drying mechanism is arranged on the rack, and the control system can control the test sensor cleaning and drying mechanism to clean and dry the test sensor of the test mechanism;

the beaker delivery mechanism is arranged on the rack and can control the beaker delivery mechanism to deliver the beaker subjected to liquid detection.

Further, the liquid adding mechanism comprises:

the liquid feeding and cover taking moving frame is arranged on the left side of the rack, and the control system can control the liquid feeding and cover taking moving frame to move;

the cylinder is removed about the liquid feeding, the cylinder setting is removed about the liquid feeding is in the liquid feeding is got and is covered removing on the frame, just the cylinder is removed about the liquid feeding can drive the liquid feeding is got and is covered the liquid feeding mouth on removing the frame and carry out the switching of left and right position.

Still further, the cover taking and placing mechanism comprises:

the cap taking upper cylinder and the cap taking lower cylinder are arranged on the liquid adding cap taking moving frame;

the cover taking and clamping cylinder is arranged on the liquid adding and cover taking moving frame, is positioned on the front side of the liquid adding left-right moving cylinder and can be used for clamping the beaker cover;

get and cover and remove the actuating cylinder about, get and cover and remove actuating cylinder setting and be in on the liquid feeding is got and is covered and remove the frame, just get and cover and remove actuating cylinder and be located get the left side of covering upper and lower actuating cylinder, it can be right to get to cover and remove actuating cylinder about the lid beaker lid releases.

Still further, the cup taking and placing mechanism comprises:

the bottle taking moving frame is arranged on the rack, is positioned on the right side of the liquid adding cover taking moving frame, and can be controlled to move by the control system;

the bottle taking left-right moving module is arranged on the bottle taking moving frame;

the bottle taking upper and lower air cylinders are arranged on the bottle taking moving frame and are positioned on the right side of the bottle taking moving frame;

get a bottle die clamping cylinder, get a bottle die clamping cylinder setting and be in get on the lower extreme of bottle upper and lower cylinder, it can be right to get a bottle die clamping cylinder the beaker is got.

Still further, the test mechanism further comprises:

the sensor downward probing cylinder is arranged on the rack and can drive the test sensor to descend;

the test platform is arranged on the right side of the upper end of the rack;

the test shaking platform is arranged at the upper end of the rack, and is positioned on the right side of the test platform.

Furthermore, the test sensor cleaning and drying mechanism comprises a sensor cleaning opening arranged at the upper end of the rack and a sensor wiping and drying module arranged at the upper end of the rack.

Furthermore, the beaker sending-out mechanism is a beaker sending-out cylinder which is arranged on the rack and is positioned on the inner side of the test platform.

Still further, still include beaker receiving tray, beaker receiving tray sets up in on the frame, and beaker receiving tray is located the outside of test platform.

Furthermore, the left side of the oscillation trolley is provided with an oscillation trolley control system which can enable the oscillation trolley to oscillate.

Furthermore, two pairs of oscillating cart caster wheels are arranged on the bottom of the oscillating cart.

(III) advantageous effects

The invention has the beneficial effects that: the invention integrates the addition, extraction and detection of the test solution, and can detect a plurality of bottles of test solution, thereby improving the detection efficiency of the invention on the test solution.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a top view of the present invention.

In the drawings: the device comprises a liquid feeding cap taking moving frame 1, a liquid feeding port 11, a liquid feeding left-right moving cylinder 2, a cap taking upper-lower cylinder 3, a cap taking left-right moving cylinder 4, a bottle taking moving frame 5, a bottle taking left-right moving module 6, a bottle taking upper-lower cylinder 7, a bottle taking clamping cylinder 8, a cap taking clamping cylinder 9, a rack 10, a vibration trolley positioning column 101, a vibration trolley positioning block 1022, a vibration trolley 20, a beaker 30, a beaker cap 40, a control system 50, a test sensor 60, a sensor lower probing cylinder 70, a sensor cleaning port 80, a sensor wiping drying module 90, a test platform 100, a test shaking platform 110, a beaker delivery cylinder 120, a beaker receiving tray 130, a vibration trolley control system 140 and vibration trolley casters 150.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention.

Referring to fig. 1 to 3, a full-automatic test solution extracting and detecting device as shown in fig. 1, 2 and 3 includes a frame 10, an oscillating cart 20, a plurality of beakers 30, a liquid adding mechanism, a lid taking and placing mechanism, a cup taking and placing mechanism, a testing mechanism, a test sensor cleaning and drying mechanism and a beaker discharging mechanism, wherein a control system 50 is arranged on the frame 10; the oscillating cart 20 is positioned at the upper end of the rack 10, and the oscillating cart 20 can slide in and out of the rack 10; the beaker 30 can be placed on the top surface of the oscillating cart 20, and a beaker cover 40 is arranged at the cup mouth of the beaker 30; the liquid adding mechanism is arranged on the rack 10, and the control system 50 can control the liquid adding mechanism to add liquid into the beaker 30; the cover taking and placing mechanism is arranged on the frame 10, and the control system 50 can control the cover taking and placing mechanism to clamp or release the beaker covers 40; the cup taking and placing mechanism is arranged on the rack 10, and the control system 50 can control the cup taking and placing mechanism to clamp or release the beaker 30; the testing mechanism is arranged on the rack 10, and the control system 50 can control the testing mechanism to detect the liquid in the beaker 30; the test sensor cleaning and drying mechanism is arranged on the rack 10, and the control system 50 can control the test sensor cleaning and drying mechanism to clean and dry the test sensor 60 of the test mechanism; the beaker delivery mechanism is arranged on the rack 10, and can control the beaker delivery mechanism to deliver the beaker 30 which is subjected to liquid detection.

In this embodiment, the oscillating cart 20 can be fixed on the frame 10 through an oscillating cart positioning column 101 and an oscillating cart positioning block 1022 located at the upper end of the frame 10, and the oscillating cart positioning block 1022 is located at the lower end of the oscillating cart positioning column 101.

In this embodiment, 36 beakers are placed on the top surface of the oscillating cart 20.

In this embodiment, two pairs of oscillating cart casters 150 are disposed on the bottom of the oscillating cart 20 to facilitate the oscillating cart 20 to slide in and out of the rack 10.

As shown in fig. 2, the left side of the oscillating cart 20 is provided with an oscillating cart control system 140, and the oscillating cart control system 140 can oscillate the oscillating cart 20.

As shown in fig. 1 and 2, the liquid adding mechanism comprises a liquid adding cover removing moving frame 1 and a liquid adding left-right moving cylinder 2, the liquid adding cover removing moving frame 1 is arranged on the left side of the rack 10, and the control system 50 can control the liquid adding cover removing frame 1 to move; the cylinder 2 is removed about the liquid feeding sets up on the lid removes frame 1 is got to the liquid feeding, just the cylinder 2 is removed about the liquid feeding can drive the liquid feeding mouth 11 that the lid removed on the frame 1 is got to the liquid feeding carries out the switching of left and right position.

As shown in fig. 1 and 2, the cap taking and placing mechanism comprises a cap taking upper and lower cylinder 3, a cap taking clamping cylinder 9 and a cap taking left and right moving cylinder 4, wherein the cap taking upper and lower cylinder 3 is arranged on the liquid adding cap taking moving frame 1; the cover taking clamping cylinder 9 is arranged on the liquid feeding cover taking moving frame 1, the cover taking clamping cylinder 9 is located on the front side of the liquid feeding left-right moving cylinder 2, and the cover taking clamping cylinder 9 can clamp the beaker cover 40; get and cover and move the cylinder 4 setting and be in on the liquid feeding is got the lid and is removed the frame 1, just get the lid and move the cylinder 4 and be located get the left side of covering upper and lower cylinder 3, it can right to get the lid and move the cylinder 4 and release beaker lid 40.

As shown in fig. 1, the cup taking and placing mechanism comprises a bottle taking moving frame 5, a bottle taking left-right moving module 6, a bottle taking upper-lower cylinder 7 and a bottle taking clamping cylinder 8, the bottle taking moving frame 5 is arranged on the rack 10, the bottle taking moving frame 5 is positioned on the right side of the liquid adding cap taking moving frame 1, and the control system 50 can control the bottle taking moving frame 5 to move; the bottle taking left-right moving module 6 is arranged on the bottle taking moving frame 5; the bottle taking upper and lower air cylinder 7 is arranged on the bottle taking moving frame 5, and the bottle taking upper and lower air cylinder 7 is positioned on the right side of the bottle taking moving frame 5; get bottle die clamping cylinder 8 and set up get on the lower end of bottle upper and lower cylinder 7, it can be right to get bottle die clamping cylinder 8 the beaker 30 is got.

As shown in fig. 1 and 3, the testing mechanism further includes a sensor sounding cylinder 70, a testing platform 100 and a testing shaking platform 110, the sensor sounding cylinder 70 is disposed on the frame 10, and the sensor sounding cylinder 70 can drive the testing sensor 60 to descend; the test platform 100 is arranged on the right side of the upper end of the rack 10; the test shaking platform 110 is arranged at the upper end of the frame 10, and the test shaking platform 110 is positioned at the right side of the test platform 100.

As shown in fig. 3, the test sensor cleaning and drying mechanism includes a sensor cleaning opening 80 disposed at the upper end of the frame 10 and a sensor wiping and drying module 90 disposed at the upper end of the frame 10.

As shown in fig. 3, the beaker discharging mechanism is a beaker discharging cylinder 120, the beaker discharging cylinder 120 is disposed on the rack 10, and the beaker discharging cylinder 120 is located inside the test platform 100.

As shown in fig. 3, the full-automatic test solution extraction and detection apparatus further includes a beaker receiving tray 130, wherein the beaker receiving tray 130 is disposed on the rack 10, and the beaker receiving tray 130 is located outside the test platform 100.

The working principle of the full-automatic test solution extraction and detection device is as follows:

1. placing the beaker 30:

placing 36 beakers 30 at the upper end of the oscillation cart 20, placing a beaker cover 40 on the beakers 30, then pushing the oscillation cart 20 into a working area, and positioning the oscillation cart 20 in a matching way through an oscillation cart positioning column 101 and an oscillation cart positioning block 102;

2. adding liquid and capping:

the liquid feeding capping process is selected on the control system 50, the liquid feeding cap taking moving frame 1 is made to move, the liquid feeding port 11 is made to align with the cup opening of the beaker 30 to feed liquid, the air cylinder 2 is made to move left and right to switch left and right positions, after the liquid feeding is completed, the cover taking air cylinder 3 is taken to descend, the beaker cover 40 is clamped and taken out through the cover taking clamping air cylinder 9, the beaker cover 40 is moved to the upper part of the beaker 30 and released through the cover taking moving air cylinder 2, and the liquid feeding capping work of 36 beakers 30 is completed.

3. Oscillating:

the oscillation cart 20 is pulled out, the oscillation cart control system 140 controls the oscillation cart to oscillate, and the oscillation cart 20 is pushed into the device again after the oscillation is completed.

4. Taking the lid and moving the beaker 30:

a test program is selected on the control system 50, the liquid feeding cap taking moving frame 1 is made to move, the cap taking upper cylinder 3 and the cap taking lower cylinder 3 are made to descend, the cap taking clamping cylinder 9 is made to clamp and take out the beaker cap 40, after the cap taking is completed, the bottle taking moving frame 5 and the bottle taking left-right moving module 6 control the bottle taking upper cylinder 5 and the bottle taking lower cylinder 5 and the bottle taking clamping cylinder 6 to move to the upper part of the beaker 30, the bottle taking upper cylinder 5 and the bottle taking lower cylinder 5 descend, the bottle taking clamping cylinder 6 clamps and takes out the beaker 30, and the beaker 30 is moved to the test platform 100 through the bottle taking moving frame 5 and the bottle taking left-right moving module 6.

5. Cleaning and drying the test sensor 60:

the test sensor 60 is moved to the sensor cleaning port 21 and is cleaned through descending of the sensor downward probing cylinder 12, the test sensor 60 is lifted after cleaning is completed, and the test sensor 60 is moved to the sensor wiping and drying module 90 to be wiped and dried.

6. And (3) testing:

the test sensor 60 is moved to the upper side of the test platform 100 for downward detection, and during detection, the test shaking platform 110 is shaken to shake the liquid in the beaker 30, so that detection is completed.

7. The discharge beaker 30:

the test sensor 60 is moved above the sensor wiping and drying module 90, and the beaker delivery cylinder 120 pushes the beaker 30 to the beaker receiving tray 130.

8. And circulating the steps until all samples are detected.

It should be noted that the described embodiments of the invention are only preferred ways of implementing the invention, and that all obvious modifications, which are within the scope of the invention, are all included in the present general inventive concept.

Claims (10)

1. The utility model provides a full-automatic test solution extraction and detection device which characterized in that includes:

the device comprises a rack (10), wherein a control system (50) is arranged on the rack (10);

the oscillating trolley (20), the oscillating trolley (20) is positioned at the upper end of the rack (10), and the oscillating trolley (20) can slide in and out of the rack (10);

a plurality of beakers (30), wherein the beakers (30) can be placed on the top surface of the oscillating trolley (20), and the cup openings of the beakers (30) are provided with beaker covers (40);

the liquid adding mechanism is arranged on the rack (10), and the control system (50) can control the liquid adding mechanism to add liquid into the beaker (30);

the cover taking and placing mechanism is arranged on the rack (10), and the control system (50) can control the cover taking and placing mechanism to clamp or release the beaker covers (40);

the cup taking and placing mechanism is arranged on the rack (10), and the control system (50) can control the cup taking and placing mechanism to clamp or release the beaker (30);

the testing mechanism is arranged on the rack (10), and the control system (50) can control the testing mechanism to detect the liquid in the beaker (30);

the test sensor cleaning and drying mechanism is arranged on the rack (10), and the control system (50) can control the test sensor cleaning and drying mechanism to clean and dry a test sensor (60) of the test mechanism;

the beaker delivery mechanism is arranged on the rack (10) and can control the beaker delivery mechanism to deliver the beaker (30) which finishes liquid detection.

2. The fully automatic sample liquid extraction and detection device according to claim 1, wherein the liquid adding mechanism comprises:

the liquid feeding cover taking moving frame (1) is arranged on the left side of the rack (10), and the control system (50) can control the liquid feeding cover taking moving frame (1) to move;

air cylinder (2) is removed about the liquid feeding, air cylinder (2) setting is removed about the liquid feeding is in the liquid feeding is got on lid removal frame (1), just air cylinder (2) can drive is removed about the liquid feeding liquid is got lid and is removed liquid feeding mouth (11) on frame (1) and carry out the switching of left and right position.

3. The apparatus as claimed in claim 2, wherein the cover picking and placing mechanism comprises:

the cap taking upper and lower cylinders (3) are arranged on the liquid adding cap taking moving frame (1);

the cover taking and clamping cylinder (9) is arranged on the liquid feeding cover taking moving frame (1), the cover taking and clamping cylinder (9) is located on the front side of the liquid feeding left-right moving cylinder (2), and the cover taking and clamping cylinder (9) can clamp the beaker cover (40);

the cover taking and moving cylinder (4) is arranged on the liquid feeding cover taking moving frame (1), the cover taking and moving cylinder (4) is located on the left side of the cover taking upper and lower cylinders (3), and the cover taking and moving cylinder (4) can release the beaker cover (40).

4. The apparatus of claim 3, wherein the cup pick-and-place mechanism comprises:

the bottle taking moving frame (5) is arranged on the rack (10), the bottle taking moving frame (5) is positioned on the right side of the liquid adding cover taking moving frame (1), and the control system (50) can control the bottle taking moving frame (5) to move;

the bottle taking left-right moving module (6), and the bottle taking left-right moving module (6) is arranged on the bottle taking moving frame (5);

the bottle taking upper and lower air cylinder (7), the bottle taking upper and lower air cylinder (7) is arranged on the bottle taking moving frame (5), and the bottle taking upper and lower air cylinder (7) is positioned on the right side of the bottle taking moving frame (5);

get bottle die clamping cylinder (8), get bottle die clamping cylinder (8) and set up get on the lower extreme of bottle upper and lower cylinder (7), it can be right to get bottle die clamping cylinder (8) beaker (30) are got.

5. The fully automatic test solution extraction and detection device of claim 4, wherein the testing mechanism further comprises:

the sensor downward-probing cylinder (70), the sensor downward-probing cylinder (70) is arranged on the rack (10), and the sensor downward-probing cylinder (70) can drive the test sensor (60) to descend;

a test platform (100), wherein the test platform (100) is arranged on the right side of the upper end of the rack (10);

the test shaking platform (110) is arranged at the upper end of the rack (10), and the test shaking platform (110) is positioned on the right side of the test platform (100).

6. The fully automatic test solution extraction and detection device according to claim 5, wherein the test sensor cleaning and drying mechanism comprises a sensor cleaning opening (80) disposed at the upper end of the frame (10) and a sensor wiping and drying module (90) disposed at the upper end of the frame (10).

7. The fully automatic test solution extraction and detection device according to claim 6, wherein the beaker feeding mechanism is a beaker feeding cylinder (120), the beaker feeding cylinder (120) is disposed on the rack (10), and the beaker feeding cylinder (120) is located inside the test platform (100).

8. The fully automatic test solution extraction and detection device according to claim 7, further comprising a beaker receiving tray (130), wherein the beaker receiving tray (130) is disposed on the rack (10), and the beaker receiving tray (130) is located outside the test platform (100).

9. The fully automatic test solution extraction and detection device according to claim 8, wherein an oscillation cart control system (140) is provided on the left side of the oscillation cart (20), and the oscillation cart control system (140) can oscillate the oscillation cart (20).

10. The apparatus of claim 9, wherein two pairs of wheels (150) are disposed on the bottom of the oscillating cart (20).

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