CN214173867U - Novel sampling device for resin reaction kettle - Google Patents

Abstract

The utility model discloses a novel resin reation kettle sampling device relates to sampling device technical field. The technical key points are as follows: the on-line screen storage device comprises a base, a plurality of support columns of base fixedly connected with, be equipped with the backup pad in addition, the equal fixed connection in backup pad of a plurality of support columns, the backup pad is inserted and is equipped with reation kettle, reation kettle is equipped with slewing mechanism, be equipped with first support and second support in addition, first support and second support all are equipped with elevating system, elevating system all is equipped with moving mechanism, the first motor of first support fixedly connected with, first motor output shaft cover is equipped with first gear, first motor output shaft rotates to be connected in the second support, second support fixedly connected with second motor, second motor output shaft cover is equipped with the lead screw, lead screw threaded connection has first slider, first slider is inserted and is equipped with the rack, rack and first gear engagement, rack fixedly connected with sampler. The utility model has the advantages of can take a sample to the reactant of co-altitude not in reation kettle, can enlarge the sample range simultaneously.

Description

Novel sampling device for resin reaction kettle

Technical Field

The utility model relates to a sampling device technical field specifically is a novel resin reation kettle sampling device.

Background

Sampling analysis is the indispensable detection process in the resin manufacturing enterprise process, mainly is in order to detect the reaction degree in the reation kettle, judges the reaction end.

The sampling method commonly used at present generally utilizes a sampler to sample, but most of the samplers are fixed, can not sample reactants with different heights in a reaction kettle, and simultaneously has a small sampling range and low working efficiency.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a novel resin reation kettle samples device, support column through setting up, a supporting plate, reation kettle, first support, the second support, first motor, the second motor, first gear, first slider, the lead screw, rack and sampler, first motor drives first gear revolve, first gear drives rack up-and-down motion, the second motor drives the lead screw and rotates, the lead screw drives first slider and slides on the lead screw, first slider drives rack motion, the rack drives the sampler motion, can sample the reactant of co-altitude not in the reation kettle, can enlarge the sample scope simultaneously, and work efficiency is improved.

The above object of the present invention can be achieved by the following technical solutions:

a novel resin reaction kettle sampling device comprises a base, wherein one side of the base, which is far away from the ground, is fixedly connected with a plurality of supporting columns, a supporting plate is additionally arranged, one side of the plurality of supporting columns, which is far away from the base, is fixedly connected with the supporting plate, one side of the supporting plate, which is far away from the ground, is penetrated, inserted and rotatably connected with a reaction kettle, one side of the reaction kettle, which is close to the base, is provided with a rotating mechanism, a first support and a second support are additionally arranged, one sides of the first support and the second support, which are close to the supporting plate, are respectively provided with a lifting mechanism, one side of the lifting mechanism, which is close to the supporting plate, is respectively provided with a moving mechanism, one side of the first support, which is close to the reaction kettle, is fixedly connected with a first motor, the axis of an output shaft of the first motor is horizontally arranged, a first gear is sleeved and fixedly connected with the output shaft of the first motor, one end, which is far away from the first support, is rotatably connected with the second support, a second motor is fixedly connected to one side of the second bracket, which is close to the first bracket, the axis of the output shaft of the second motor is parallel to the axis of the output shaft of the first motor, the output shaft of the second motor is fixedly connected with a screw rod, the axis of the screw rod is superposed with the axis of the output shaft of the second motor, one end of the screw rod, which is far away from the second bracket, is rotatably connected with the first bracket, the screw rod is in threaded connection with a first sliding block, the side, close to each other, of the first support and the second support is fixedly connected through a third support, a chute is arranged on the side, close to the reaction kettle, of the third support, the sliding direction of the sliding groove is parallel to the axial direction of the screw rod, the first sliding block is connected with the sliding groove in a sliding manner, the first sliding block is inserted in the vertical direction and is connected with a rack in a sliding mode, the rack is meshed with the first gear, and a sampler is fixedly connected to one side, close to the ground, of the rack.

Through adopting the above technical scheme, support column through setting up, a supporting plate, reation kettle, first support, the second support, first motor, the second motor, first gear, first slider, the lead screw, rack and sampler, first motor drives first gear revolve, first gear drives rack up-and-down motion, the second motor drives the lead screw and rotates, the lead screw drives first slider and slides on the lead screw, first slider drives rack motion, the rack drives the sampler motion, can take a sample to the reactant of co-altitude not in the reation kettle, can enlarge the sample scope simultaneously, and the work efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the sampler includes the connecting rod, the vertical setting of connecting rod axis, the connecting rod is kept away from base one side fixed connection in the rack, the connecting rod is kept away from the first cylinder of rack one side fixedly connected with, first cylinder is kept away from connecting rod one side fixedly connected with piston, piston sliding connection has the sampler barrel, sampler barrel lateral wall fixedly connected with box, the box is kept away from base one side fixed connection in the connecting rod.

Through adopting above-mentioned technical scheme, through connecting rod, first cylinder, piston, sampling cylinder and the box that sets up, first cylinder promotes the piston and moves in the sampling cylinder, samples the reactant in the reation kettle, need not artificially sample, reduces operator's intensity of labour, improves work efficiency, and the box can have the guard action to first cylinder, prevents to influence normal work at the contact of first cylinder and reactant in the sampling process.

The present invention may be further configured in a preferred embodiment as: the rotating mechanism comprises a rotating shaft, the axis of the rotating shaft is vertically arranged, the rotating shaft is far away from one side of the base and fixedly connected with the reaction kettle, the rotating shaft is far away from one side of the reaction kettle and rotatably connected with the base, the rotating shaft is sleeved with a second gear which is fixedly connected with the second gear, a third gear is meshed with the second gear and is additionally provided with a third motor, the third motor output shaft is fixedly connected with the third gear, the axis of the third motor output shaft is coincided with the axis of the third gear, and the third motor is fixedly connected with the base.

Through adopting above-mentioned technical scheme, through pivot, second gear, third gear and the third motor that sets up, the third motor drives third gear revolve, and the third gear drives second gear revolve, and the second gear drives the pivot and rotates, and the pivot drives reation kettle and rotates, can make the reactant misce bene in the reaction kettle, improves the accuracy of sample.

The present invention may be further configured in a preferred embodiment as: the lifting mechanism comprises a plurality of telescopic rods, and one sides of the telescopic rods, far away from the base, are respectively and fixedly connected with the first support and the second support.

Through adopting above-mentioned technical scheme, through a plurality of telescopic links that set up, a plurality of telescopic links can go up and down first support and second support, and a plurality of telescopic links cooperation rack motion can further take a sample to the reactant of the different degree of depth, improve the suitability of device.

The present invention may be further configured in a preferred embodiment as: the moving mechanism comprises a second cylinder, the second cylinder is fixedly connected to the supporting plate, the axis of an output shaft of the second cylinder is horizontally arranged, a second slider is fixedly connected to the output shaft of the second cylinder, a plurality of telescopic rods are fixedly connected to the second slider on the side close to the supporting plate, the telescopic rods are fixedly connected to the second slider on the side close to the supporting plate, one side of the second slider close to the base is slidably connected to the supporting plate, supporting blocks parallel to each other are fixedly connected to the side close to the supporting plate, and one side of the supporting blocks close to the reaction kettle is fixedly connected to the supporting plate.

Through adopting above-mentioned technical scheme, through second cylinder, second slider and the supporting shoe that sets up, the second cylinder can promote the second slider and slide in one side that ground was kept away from to backup pad and supporting shoe, and the second slider drives elevating system, first support and second support and moves together, can remove the sampler assigned position, the subsequent detection work of being convenient for.

The present invention may be further configured in a preferred embodiment as: two the supporting shoe is close to one side each other and inserts and establish and sliding connection has a plurality of boards of placing, place board slip direction level set up and with the lead screw axial is perpendicular, a plurality of place the board and keep away from a plurality of dishes of placing of equal fixedly connected with in base one side.

Through adopting above-mentioned technical scheme, through a plurality of boards and a plurality of dishes of placing that set up, when moving mechanism removed the sampler and placed the dish top, the sample that the sampler will gather was put into and is placed the dish, and operating personnel will place the board and shift out from the supporting block, will place the dish and remove the assigned position and carry out detection achievement, and is nimble convenient.

The present invention may be further configured in a preferred embodiment as: the supporting blocks are mutually far away from one side and fixedly connected with a placing box, and a plurality of partition plates are inserted in the placing box and fixedly connected with the placing box.

Through adopting above-mentioned technical scheme, through placing case and a plurality of division board that set up, place the incasement and be used for placing the sample or detect required instrument, can accomodate the save to the instrument, prevent to lose, a plurality of division boards can divide into a plurality of layers with placing the case, can classify the save, are convenient for seek to the instrument.

To sum up, the utility model discloses a following at least one useful technological effect:

1. through the arranged supporting column, the supporting plate, the reaction kettle, the first support, the second support, the first motor, the second motor, the first gear, the first sliding block, the screw rod, the rack and the sampler, the first motor drives the first gear to rotate, the first gear drives the rack to move up and down, the second motor drives the screw rod to rotate, the screw rod drives the first sliding block to slide on the screw rod, the first sliding block drives the rack to move, and the rack drives the sampler to move, so that reactants with different heights in the reaction kettle can be sampled, meanwhile, the sampling range can be expanded, and the working efficiency is improved;

2. through the connecting rod, the first air cylinder, the piston, the sampling cylinder and the box body, the first air cylinder pushes the piston to move in the sampling cylinder to sample reactants in the reaction kettle, manual sampling is not needed, the labor intensity of an operator is reduced, the working efficiency is improved, the box body can protect the first air cylinder, and the situation that the normal work is influenced because the first air cylinder is not contacted with the reactants in the sampling process is prevented;

3. through the second cylinder, second slider and the supporting shoe that set up, the second cylinder can promote the second slider and keep away from the one side on ground at backup pad and supporting shoe and slide, and the second slider drives elevating system, first support and second support and moves together, can remove the sampler to the assigned position, the subsequent detection work of being convenient for.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a sampler configuration;

FIG. 3 is a schematic view of the internal structure of FIG. 2;

FIG. 4 is a rear view of FIG. 1;

fig. 5 is a side view of fig. 1.

Reference numerals: 1. a base; 2. a support pillar; 3. a second cylinder; 4. a support plate; 5. a second slider; 6. a moving mechanism; 7. a telescopic rod; 8. a lifting mechanism; 9. a second bracket; 10. a second motor; 11. a rack; 12. a first slider; 13. a screw rod; 14. a first gear; 15. a first motor; 16. a first bracket; 17. a box body; 18. placing a box; 19. a reaction kettle; 20. a second gear; 21. a rotating shaft; 22. a third gear; 23. a third motor; 24. a rotating mechanism; 25. a connecting rod; 26. a partition plate; 27. a support block; 28. placing a dish; 29. placing the plate; 30. a sampler; 31. a sampling tube; 32. a first cylinder; 33. a piston; 34. a third support; 35. a chute.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figure 1, for the novel resin reaction kettle sampling device disclosed by the utility model, the novel resin reaction kettle sampling device comprises a base 1, one side of the base 1, which is far away from the ground, is fixedly connected with eight support columns 2, a support plate 4 is additionally arranged, one side of the eight support columns 2, which is far away from the base 1, is fixedly connected with the support plate 4, the support plate 2 fixes the support plate 4, one side of the support plate 4, which is far away from the ground, is inserted and rotatably connected with a reaction kettle 19, the outer side wall of the reaction kettle 19 is provided with an embedded groove, the support plate 4 supports the reaction kettle 19 through the embedded groove, meanwhile, the reaction kettle 19 can rotate around the axis of the support plate 4, one side of the reaction kettle 19, which is close to the base 1, is provided with a rotating mechanism 24, a first support 16 and a second support 9 are additionally arranged, one sides of the first support 16 and the second support 9, which are close to the support plate 4, are both provided with a lifting mechanism 8, one side of the lifting mechanism 8, which is close to the support plate 4, is provided with a moving mechanism 6, a first motor 15 is fixedly connected to one side of a first support 16 close to a reaction kettle 19, the first support 16 fixes the first motor 15, the axis of the output shaft of the first motor 15 is horizontally arranged, the output shaft of the first motor 15 is sleeved and fixedly connected with a first gear 14, the output shaft of the first motor 15 can drive the first gear 14 to rotate, one end of the output shaft of the first motor 15, far away from the first support 16, is rotatably connected to a second support 9, one end of the output shaft of the first motor 15, far away from the first support 16, can rotate around the second support 9, one side of the second support 9, close to the first support 16, is fixedly connected with a second motor 10, the second support 9 fixes the second motor 10, the axis of the output shaft of the second motor 10 is parallel to the axis of the output shaft of the first motor 15, the output shaft of the second motor 10 is fixedly connected with a screw rod 13, the screw rod 13 can rotate along with the rotation of the output shaft of the second motor 10, the axis of the screw rod 13 coincides with the axis of the output shaft of the second motor 10, one end of the screw rod 13, far away from the second bracket 9, is rotatably connected to the first bracket 16, one end of the screw rod 13, far away from the second bracket 9, can rotate around the first bracket 16, the screw rod 13 is in threaded connection with a first slider 12, the first slider 12 can slide on the screw rod 13 along with the rotation of the screw rod 13, as shown in fig. 5, one side, close to each other, of the first bracket 16 and the second bracket 9 is fixedly connected through a third bracket 34, one side, close to the reaction kettle 19, of the third bracket 34 is provided with a chute 35, the sliding direction of the chute 35 is axially parallel to the screw rod 13, the first slider 12 is slidably connected to the chute 35, the first slider 12 can slide in the chute 35, the first slider 12 is inserted and slidably connected to a rack 11 along the vertical direction, the rack 11 can move along with the movement of the first slider 12, the rack 11 is engaged with the first gear 14, the rack 11 can move along with the rotation of the first gear 14, the sampler 30 is fixedly connected to the side, close to the ground, of the rack 11, and the sampler 30 can move along with the movement of the rack 11. Through the support column 2 that sets up, backup pad 4, reation kettle 19, first support 16, second support 9, first motor 15, second motor 10, first gear 14, first slider 12, lead screw 13, rack 11 and sampler 30, first motor 15 drives first gear 14 and rotates, first gear 14 drives rack 11 up-and-down motion, second motor 10 drives lead screw 13 and rotates, lead screw 13 drives first slider 12 and slides on lead screw 13, the slider drives rack 11 and moves, rack 11 drives sampler 30 and moves, can take a sample to the reactant of co-altitude not in reation kettle 19, can enlarge the sample scope simultaneously, improve work efficiency.

As shown in fig. 2 and fig. 3, the sampler 30 includes a connecting rod 25, the axis of the connecting rod 25 is vertically disposed, the connecting rod 25 is far away from one side of the base 1 and is fixedly connected to the rack 11, the connecting rod 25 can move along with the movement of the rack 11, the connecting rod 25 is far away from one side of the rack 11 and is fixedly connected to a first cylinder 32, the connecting rod 25 fixes the first cylinder 32, the first cylinder 32 is far away from one side of the connecting rod 25 and is fixedly connected to a piston 33, the piston 33 is slidably connected to a sampling cylinder 31, the first cylinder 32 can push the piston 33 to slide in the sampling cylinder 31, when sampling, the piston 33 is located at the bottom of the sampling cylinder 31, the outer side wall of the sampling cylinder 31 is fixedly connected to a box 17, the first cylinder 32 is located in the box 17, the box 17 is far away from one side of the base 1 and is fixedly connected to the connecting rod 25, and the sampling cylinder 31 and the box 17 all satisfy certain high temperature and corrosion resistance. Through the connecting rod 25, first cylinder 32, piston 33, sampling tube 31 and the box 17 that set up, first cylinder 32 promotes piston 33 and moves in sampling tube 31, samples the reactant in reation kettle 19, need not artificially sample, reduces operator's intensity of labour, improves work efficiency, and box 17 can have the guard action to first cylinder 32, prevents to influence normal work at sampling in-process first cylinder 32 and reactant contact.

As shown in fig. 1, the rotating mechanism 24 includes a rotating shaft 21, the axis of the rotating shaft 21 is vertically arranged, the rotating shaft 21 is far away from one side of the base 1 and is fixedly connected to the reaction kettle 19, the rotating shaft 21 can drive the reaction kettle 19 to rotate, the rotating shaft 21 is far away from one side of the reaction kettle 19 and is rotatably connected to the base 1, the rotating shaft 21 is sleeved with the fixedly connected second gear 20, the second gear 20 can drive the rotating shaft 21 to rotate, the second gear 20 is meshed with the third gear 22, the third gear 22 can drive the second gear 20 to rotate, the third motor 23 is additionally arranged, the output shaft of the third motor 23 is fixedly connected to the third gear 22, the axis of the output shaft of the third motor 23 coincides with the axis of the third gear 22, the output shaft of the third motor 23 can drive the third gear 22 to rotate, the third motor 23 is fixedly connected to the base 1, and the third motor 23 is fixed to the base 1. Through pivot 21, second gear 20, third gear 22 and the third motor 23 that sets up, third motor 23 drives third gear 22 and rotates, and third gear 22 drives second gear 20 and rotates, and second gear 20 drives pivot 21 and rotates, and pivot 21 drives reation kettle 19 and rotates, can make the reactant misce bene in the cauldron of answering, improves the accuracy of sample. The lifting mechanism 8 comprises eight telescopic rods 7, the eight telescopic rods 7 are electric telescopic rods, one sides, far away from the base 1, of the eight telescopic rods 7 are fixedly connected to the first support 16 and the second support 9 respectively, and the first support 16 and the second support 9 can move along with the movement of the telescopic rods 7. Through the telescopic link 7 that sets up, telescopic link 7 can go up and down to first support 16 and second support 9, and telescopic link 7 cooperation rack 11 motion can further take a sample to the reactant of the different degree of depth, improves the suitability of device.

As shown in fig. 1 and 4, the moving mechanism 6 includes a second cylinder 3, the second cylinder 3 is fixedly connected to a support plate 4, the axis of the output shaft of the second cylinder 3 is horizontally disposed, the output shaft of the second cylinder 3 is fixedly connected with a second slider 5, the second cylinder 3 can push the second slider 5 to move, one sides of eight telescopic rods 7 close to the support plate 4 are fixedly connected to the second slider 5, the telescopic rods 7 can move along with the movement of the second slider 5, one side of the second slider 5 close to the base 1 is slidably connected to the support plate 4, the second slider 5 can slide on the support plate 4, one side of the base 1 close to the support plate 4 is fixedly connected with mutually parallel support blocks 27, the plane of the support blocks 27 far from the base 1 and the plane of the support plate 4 far from the base 1 are in the same plane, and the second slider 5 can slide on the sides of the support column 2 and the support plate 4 far from the ground, the supporting block 27 is fixedly connected to the supporting plate 4 at one side close to the reaction kettle 19. Through the second cylinder 3, the second slider 5 and the supporting block 27 that set up, the second cylinder 3 can promote the second slider 5 and slide in the backup pad 4 and the one side that the supporting block 27 kept away from ground, and the second slider 5 drives elevating system 8, first support 16 and second support 9 and moves together, can remove sampler 30 to the assigned position, the subsequent work of detection of being convenient for. Two supporting blocks 27 are close to each other one side and insert and establish and sliding connection has three and place board 29, places board 29 slip direction level setting and with lead screw 13 axial vertical, places board 29 and can slide between supporting block 27, three place board 29 keep away from the equal fixedly connected with five dishes 28 of placing of base 1 one side, place dish 28 and be used for collecting the sample that sampler 30 gathered. Through the placing plate 29 and the placing dishes 28, when the moving mechanism 6 moves the sampler 30 to the position above the placing dishes 28, the sampler 30 places the collected sample into the placing dishes 28, the placing plate 29 is moved out from the supporting block 27 by an operator, and the placing dishes 28 are moved to the specified position for detection, so that the detection is flexible and convenient. The equal fixedly connected with in one side of keeping away from each other of supporting shoe 27 places case 18, places all to insert in case 18 and establishes and four division boards 26 of fixedly connected with, and four division boards 26 will place case 18 and divide into five spaces. Through the case 18 and the division board 26 of placing that set up, place and be used for placing the sample or detect required instrument in the case 18, can accomodate the saving to the instrument, prevent to lose, four division boards 26 can divide into five layers with placing case 18, can classify the saving to the instrument, are convenient for seek.

The implementation principle of the embodiment is as follows: when the device is used, the device is assembled, the first motor 15 is started, the output shaft of the first motor 15 drives the first gear 14 to rotate, the first gear 14 drives the rack 11 to slide up and down in the sliding block, the rack 11 drives the sampler 30 to move up and down, the sampler 30 is lifted to a specified height in the reaction kettle 19 according to actual conditions, the first air cylinder 32 is started, the first air cylinder 32 drives the piston 33 to slide in the sampling cylinder 31, reactants in the reaction kettle 19 are extracted into the sampling cylinder 31, the second motor 10 is started, the output shaft of the second motor 10 drives the screw rod 13 to rotate, the screw rod 13 drives the first sliding block 12 to slide on the screw rod 13, the first sliding block 12 drives the rack 11 to move, the rack 11 drives the sampler 30 to move, the sampler 30 can sample at different positions of the same plane in the reaction kettle 19, can sample reactants with different heights, and can expand the sampling range, improve work efficiency, after the sample, utilize telescopic link 7 to rise first support 16 and second support 9, start second cylinder 3, second cylinder 3 promotes second slider 5 and slides on backup pad 4 and supporting shoe 27, when sampler 30 moves to placing dish 28 top, start first cylinder 32, first cylinder 32 extrudees the sample in the sampling cylinder 31 to placing dish 28, will place board 29 and shift out the assigned position from supporting shoe 27, carry out detection work on next step, after work, clean the device, pack up can.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a novel resin reation kettle sampling device, includes base (1), its characterized in that, a plurality of support columns of fixedly connected with (2) in ground one side are kept away from in base (1), are equipped with backup pad (4) in addition, and are a plurality of support column (2) are kept away from equal fixed connection in base (1) one side in backup pad (4), backup pad (4) are kept away from ground one side and are run through to insert and establish and rotate and be connected with reation kettle (19), reation kettle (19) are close to base (1) one side is equipped with slewing mechanism (24), are equipped with first support (16) and second support (9) in addition, first support (16) with second support (9) are close to backup pad (4) one side all is equipped with elevating system (8), elevating system (8) are close to backup pad (4) one side all is equipped with moving mechanism (6), first support (16) are close to reation kettle (19) one side fixedly connected with first motor (15) The axis of the output shaft of the first motor (15) is horizontally arranged, the output shaft of the first motor (15) is sleeved and fixedly connected with a first gear (14), one end, far away from the first support (16), of the output shaft of the first motor (15) is rotatably connected to the second support (9), one side, close to the first support (16), of the second support (9) is fixedly connected with a second motor (10), the axis of the output shaft of the second motor (10) is parallel to the axis of the output shaft of the first motor (15), the output shaft of the second motor (10) is fixedly connected with a lead screw (13), the axis of the lead screw (13) is superposed with the axis of the output shaft of the second motor (10), one end, far away from the second support (9), of the lead screw (13) is rotatably connected to the first support (16), and the lead screw (13) is in threaded connection with a first sliding block (12), first support (16) with second support (9) are close to one side each other and pass through third support (34) fixed connection, third support (34) are close to reation kettle (19) one side has seted up spout (35), spout (35) slip direction with lead screw (13) axial direction parallel, first slider (12) sliding connection in spout (35), first slider (12) insert along vertical direction and establish and sliding connection has rack (11), rack (11) with first gear (14) meshing, rack (11) are close to ground one side fixedly connected with sampler (30).

2. The novel resin reaction kettle sampling device according to claim 1, characterized in that the sampler (30) comprises a connecting rod (25), the axis of the connecting rod (25) is vertically arranged, one side of the connecting rod (25) away from the base (1) is fixedly connected to the rack (11), one side of the connecting rod (25) away from the rack (11) is fixedly connected with a first cylinder (32), one side of the first cylinder (32) away from the connecting rod (25) is fixedly connected with a piston (33), the piston (33) is slidably connected with a sampling cylinder (31), the outer side wall of the sampling cylinder (31) is fixedly connected with a box body (17), and one side of the box body (17) away from the base (1) is fixedly connected to the connecting rod (25).

3. The novel resin reaction kettle sampling device as recited in claim 1, the rotating mechanism (24) comprises a rotating shaft (21), the axis of the rotating shaft (21) is vertically arranged, one side of the rotating shaft (21) far away from the base (1) is fixedly connected with the reaction kettle (19), one side of the rotating shaft (21) far away from the reaction kettle (19) is rotatably connected with the base (1), the rotating shaft (21) is sleeved and fixedly connected with a second gear (20), the second gear (20) is engaged with a third gear (22) and is additionally provided with a third motor (23), the output shaft of the third motor (23) is fixedly connected with the third gear (22), the axis of the output shaft of the third motor (23) is superposed with the axis of the third gear (22), and the third motor (23) is fixedly connected to the base (1).

4. The novel resin reaction kettle sampling device as claimed in claim 1, wherein the lifting mechanism (8) comprises a plurality of telescopic rods (7), and one side of the plurality of telescopic rods (7) far away from the base (1) is fixedly connected to the first support (16) and the second support (9) respectively.

5. The novel resin reaction kettle sampling device as recited in claim 4, the moving mechanism (6) comprises a second cylinder (3), the second cylinder (3) is fixedly connected with the supporting plate (4), the axis of the output shaft of the second cylinder (3) is horizontally arranged, the output shaft of the second cylinder (3) is fixedly connected with a second sliding block (5), one sides of the plurality of telescopic rods (7) close to the supporting plate (4) are fixedly connected with the second sliding block (5), one side of the second sliding block (5) close to the base (1) is connected with the supporting plate (4) in a sliding way, one side of the base (1) close to the supporting plate (4) is fixedly connected with supporting blocks (27) which are parallel to each other, one side of the supporting block (27) close to the reaction kettle (19) is fixedly connected with the supporting plate (4).

6. The novel resin reaction kettle sampling device as claimed in claim 5, wherein two support blocks (27) are inserted and slidably connected with a plurality of placing plates (29) close to one side, the sliding direction of the placing plates (29) is horizontally arranged and axially perpendicular to the screw rod (13), and a plurality of placing plates (28) are fixedly connected with one side of each placing plate (29) far away from the base (1).

7. A novel resin reactor sampling device as claimed in claim 6, characterized in that the sides of the supporting blocks (27) away from each other are fixedly connected with a placing box (18), and a plurality of partition plates (26) are inserted and fixedly connected in the placing box (18).

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