CN214894116U - Slag discharging and sampling device for power plant - Google Patents

Abstract

The utility model discloses a power plant is with arranging sediment sampling device, concretely relates to detect sampling equipment technical field, power plant is with arranging sediment sampling device and including the lift transmission case, the first lift support frame and the second lift support frame of the both ends fixedly connected with symmetric distribution of lift transmission case, the inside of first lift support frame, second lift support frame and lift transmission case is provided with elevating system, the inside of first lift support frame and second lift support frame has first hollow lift screw slider and the hollow lift screw slider of second through guide rail sliding connection respectively. The utility model discloses extension sample range reduces artifical sample operation intensity of labour, reduces artifical sample operation amount of labour, and the equipment maintenance of being convenient for practices thrift the sample time, improves sample efficiency, and the equipment of being convenient for uses the popularization, realizes quick sample, reduces sample hybrid detection error rate, improves the sample precision, extension equipment life.

Description

Slag discharging and sampling device for power plant

Technical Field

The utility model relates to a detect sampling equipment technical field, more specifically say, the utility model relates to a power plant is with arranging sediment sampling device.

Background

Arrange sediment sampling device and be used for carrying out the device of taking a sample to the waste residue that the power plant discharged, can swiftly extract the waste residue that the electricity generation was discharged, the sample is convenient, through taking a sample to arranging sediment, then inspects the waste residue that discharges, can learn whether the waste residue that the power plant discharged reaches emission standard, has made things convenient for the inspection personnel to inspect.

But when in-service use, the sediment sampling device that has now adopts artifical manual operation more, and the amount of labour and intensity of labour are big, and the use of equipment of being not convenient for is promoted, and the sample scope is less with the sample depth, leads to the sample cost to increase, and the preparation working procedure is complicated, and traditional sampler leads to the sample to mix easily simultaneously, leads to sample detection precision and detection effect to reduce, and life shortens.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the utility model provides a power plant is with arranging sediment sampling device, through elevating system, extension sampling range, reduce manual sampling operation intensity of labour, reduce manual sampling operation amount of labour, the equipment maintenance of being convenient for, practice thrift the sample time, improve sampling efficiency, the equipment of being convenient for uses the popularization, set up adjustment mechanism simultaneously, realize quick sample, reduce sample mixed detection error rate, improve the sample precision, extension equipment life, with the problem of proposing in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a slag discharging and sampling device for a power plant comprises a lifting transmission case, wherein two ends of the lifting transmission case are fixedly connected with a first lifting support frame and a second lifting support frame which are symmetrically distributed, lifting mechanisms are arranged in the first lifting support frame, the second lifting support frame and the lifting transmission case, the interiors of the first lifting support frame and the second lifting support frame are respectively connected with a first hollow lifting threaded slider and a second hollow lifting threaded slider in a sliding manner through guide rails, one opposite sides of the first hollow lifting threaded slider and the second hollow lifting threaded slider are respectively fixedly connected with a first fixed block and a second fixed block, one end of the first fixed block, far away from the first hollow lifting threaded slider, is fixedly connected with a first adjusting support frame, and one end of the second fixed block, far away from the second hollow lifting threaded slider, is fixedly connected with a second adjusting support frame, the top fixedly connected with of first regulation support frame and second regulation support frame adjusts the transmission case, the inside of adjusting the transmission case is provided with adjustment mechanism, the inside of first regulation support frame and second regulation support frame has first hollow adjusting thread slider and the hollow adjusting thread slider of second through guide rail difference sliding connection, the regulation pole of fixedly connected with symmetry subsection is distinguished to the one side that first hollow adjusting thread slider and the hollow adjusting thread slider of second are relative, two the one end fixedly connected with sampling sleeve who keeps away from first hollow adjusting thread slider and the hollow adjusting thread slider of second of regulation pole, sampling sleeve's inside activity links up there is the sample head, the sample head stretches out sampling sleeve's one end and the bottom fixed connection who adjusts the transmission case.

Further, elevating system includes the lift transmission shaft, the both ends of lift transmission shaft are passed through the bearing frame and are rotated the inner wall of case, first lift support frame and second lift support frame with the lift and be connected, the top of lift transmission case is through mount pad fixed mounting have first motor, the fixed initiative lift bevel gear who has cup jointed the inside of locating the lift transmission case of output shaft of first motor, the fixed surface of lift transmission shaft has cup jointed driven lift bevel gear, driven lift bevel gear is connected with initiative lift bevel gear meshing.

Furthermore, the inside of the first lifting support frame is rotatably connected with a first lifting screw through a bearing seat, the surface of the first lifting screw is meshed with the inside of the first hollow lifting threaded slider, a first driven transmission lifting bevel gear is fixedly sleeved on the surface of the first lifting screw, a first driving transmission lifting bevel gear is fixedly sleeved on the surface of one end, extending into the inside of the first lifting support frame, of the lifting transmission shaft, and the first driving transmission lifting bevel gear is meshed with the first driven transmission lifting bevel gear.

Furthermore, the inside of the second lifting support frame is rotatably connected with a second lifting screw through a bearing seat, the surface of the second lifting screw is meshed and connected with the inside of a second hollow lifting threaded slider, a second driven transmission lifting bevel gear is fixedly sleeved on the surface of the second lifting screw, a second driving transmission lifting bevel gear is fixedly sleeved on the surface of one end, extending into the inside of the second lifting support frame, of the lifting transmission shaft, and the second driving transmission lifting bevel gear is meshed and connected with the second driven transmission lifting bevel gear.

Furthermore, adjustment mechanism is including adjusting the transmission shaft, the both ends of adjusting the transmission shaft are connected through the inner wall rotation of bearing frame with the regulation transmission case, the surface of adjusting the transmission case has the second motor through mount pad fixed mounting, the fixed cover of output shaft of second motor has connect the initiative adjustment bevel gear of locating inside the regulation transmission case, the fixed surface of adjusting the transmission shaft has cup jointed driven adjustment bevel gear, driven adjustment bevel gear is connected with the meshing of initiative adjustment bevel gear.

Furthermore, the inside of the first adjusting support frame is rotatably connected with a first adjusting screw rod penetrating through the inside of the adjusting transmission box through a bearing seat, the surface of the first adjusting screw rod is meshed with the inside of a first hollow adjusting threaded slider, a first driven transmission adjusting bevel gear is fixedly sleeved on the surface of one end, extending into the adjusting transmission box, of the first adjusting screw rod, a first driving transmission adjusting bevel gear and a second driving transmission adjusting bevel gear which are symmetrically distributed are fixedly sleeved on the surface of the adjusting transmission shaft, and the first driving transmission adjusting bevel gear is meshed with the first driven transmission adjusting bevel gear.

Furthermore, the inside of the second adjusting support frame is rotatably connected with a second adjusting screw rod penetrating through the inside of the adjusting transmission case through a bearing seat, the surface of the second adjusting screw rod is meshed with the inside of a second hollow adjusting threaded slider, a second driven transmission adjusting bevel gear is fixedly sleeved on the surface of one end, extending into the adjusting transmission case, of the second adjusting screw rod, and the second driven transmission adjusting bevel gear is meshed with a second driving transmission adjusting bevel gear.

The utility model discloses a technological effect and advantage:

1. by arranging the lifting mechanism, compared with the prior art, the sampling range is expanded, the labor intensity of manual sampling operation is reduced, the labor amount of manual sampling operation is reduced, the equipment is convenient to maintain, the sampling time is saved, the sampling efficiency is improved, and the equipment is convenient to use and popularize;

2. through setting up adjustment mechanism, compare with prior art, realize quick sample, reduce the sample and mix the detection error rate, improve the sample precision, extension equipment life.

Drawings

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

Fig. 2 is a schematic view of the lifting mechanism of the present invention.

Fig. 3 is a schematic view of the structure of the adjusting mechanism of the present invention.

The reference signs are:

1. a lifting transmission box; 2. a first lifting support frame; 3. a second lifting support frame; 4. a first hollow lifting threaded slider; 5. a second hollow lifting threaded slider; 6. a first fixed block; 7. a second fixed block; 8. a first adjusting support frame; 9. a second adjustable support; 10. adjusting the transmission case; 11. a first hollow adjusting threaded slider; 12. the second hollow adjusting screw thread slides; 13. adjusting a rod; 14. a sampling sleeve; 15. a sampling head; 16. a lifting transmission shaft; 17. a first motor; 18. a driving lifting bevel gear; 19. a driven lifting bevel gear; 20. a first lifting screw; 21. a first driven transmission lifting bevel gear; 22. a first drive transmission lifting bevel gear; 23. a second lifting screw; 24. a second driven transmission lifting bevel gear; 25. a second drive transmission lifting bevel gear; 26. adjusting the transmission shaft; 27. a second motor; 28. actively adjusting the bevel gear; 29. the driven adjusting bevel gear; 30. a first adjusting screw; 31. a first driven transmission adjusting bevel gear; 32. a first active drive adjustment bevel gear; 33. a second drive adjustment bevel gear; 34. a second adjusting screw; 35. and the second driven transmission adjusts the bevel gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the attached drawings 1-3, the embodiment of the utility model provides a slag-discharging and sampling device for power plants, which comprises a lifting transmission case 1, wherein the two ends of the lifting transmission case 1 are fixedly connected with a first lifting support frame 2 and a second lifting support frame 3 which are symmetrically distributed, the interiors of the first lifting support frame 2, the second lifting support frame 3 and the lifting transmission case 1 are provided with a lifting mechanism, the interiors of the first lifting support frame 2 and the second lifting support frame 3 are respectively connected with a first hollow lifting threaded slider 4 and a second hollow lifting threaded slider 5 in a sliding way through a guide rail, the opposite sides of the first hollow lifting threaded slider 4 and the second hollow lifting threaded slider 5 are respectively fixedly connected with a first fixed block 6 and a second fixed block 7, one end of the first fixed block 6, which is far away from the first hollow lifting threaded slider 4, is fixedly connected with a first adjusting support frame 8, the end, far away from the second hollow lifting threaded slider 5, of the second fixed block 7 is fixedly connected with a second adjusting support frame 9, the top portions of the first adjusting support frame 8 and the second adjusting support frame 9 are fixedly connected with an adjusting transmission case 10, an adjusting mechanism is arranged inside the adjusting transmission case 10, the interiors of the first adjusting support frame 8 and the second adjusting support frame 9 are respectively connected with a first hollow adjusting threaded slider 11 and a second hollow adjusting threaded slider 12 in a sliding mode through guide rails, one opposite sides of the first hollow adjusting threaded slider 11 and the second hollow adjusting threaded slider 12 are respectively fixedly connected with adjusting rods 13 of symmetrical subsections, one ends, far away from the first hollow adjusting threaded slider 11 and the second hollow adjusting threaded slider 12, of the two adjusting rods 13 are fixedly connected with sampling sleeves 14, the insides of the sampling sleeves 14 are movably connected with sampling heads 15, and one ends, extending out of the sampling sleeves 14, of the sampling heads 15 are fixedly connected with the bottoms of the adjusting transmission cases 10.

As shown in fig. 2, the lifting mechanism includes a lifting transmission shaft 16, two ends of the lifting transmission shaft 16 are connected with the lifting rotating box through bearing seats, inner walls of the first lifting support frame 2 and the second lifting support frame 3 are rotatably connected, a first motor 17 is fixedly installed at the top of the lifting transmission box 1 through a mounting seat, a driving lifting bevel gear 18 arranged inside the lifting transmission box 1 is fixedly sleeved on an output shaft of the first motor 17, a driven lifting bevel gear 19 is fixedly sleeved on the surface of the lifting transmission shaft 16, the driven lifting bevel gear 19 is meshed with the driving lifting bevel gear 18, so that the driving lifting bevel gear 18 is driven to rotate by controlling the first motor 17 to work, and further the driven lifting bevel gear 19 and the lifting transmission shaft 16 are driven to rotate.

In a preferred embodiment, a first lifting screw 20 is rotatably connected to the inside of the first lifting support frame 2 through a bearing seat, the surface of the first lifting screw 20 is engaged with the inside of the first hollow lifting screw slider 4, a first driven lifting bevel gear 21 is fixedly sleeved on the surface of the first lifting screw 20, a first driving lifting bevel gear 22 is fixedly sleeved on the surface of one end of the lifting transmission shaft 16 extending into the inside of the first lifting support frame 2, and the first driving lifting bevel gear 22 is engaged with the first driven lifting bevel gear 21, so that when the lifting transmission shaft 16 rotates, the first driving lifting bevel gear 22 is driven to rotate, and then the first driven lifting bevel gear 21 and the first lifting screw 20 are driven to rotate, thereby moving the first hollow lifting screw slider 4 up and down.

In this embodiment, the interior of the second lifting support frame 3 is rotatably connected with a second lifting screw 23 through a bearing seat, the surface of the second lifting screw 23 is engaged with the interior of the second hollow lifting screw slider 5, the surface of the second lifting screw 23 is fixedly sleeved with a second driven transmission lifting bevel gear 24, the surface of one end of the lifting transmission shaft 16 extending into the interior of the second lifting support frame 3 is fixedly sleeved with a second driving transmission lifting bevel gear 25, the second driving transmission lifting bevel gear 25 is engaged with the second driven transmission lifting bevel gear 24, so that when the lifting transmission shaft 16 rotates, the second driving transmission lifting bevel gear 25 is driven to rotate, and further the second driven transmission lifting bevel gear 24 and the second lifting screw 23 are driven to rotate, thereby the second hollow lifting screw slider 5 moves up and down, the sampling range is expanded, and the labor intensity of manual sampling operation is reduced, the manual sampling operation amount of labour is reduced, the equipment maintenance of being convenient for practices thrift the sample time, improves sample efficiency, and the equipment use of being convenient for is promoted.

As shown in fig. 3, the adjusting mechanism includes an adjusting transmission shaft 26, two ends of the adjusting transmission shaft 26 are rotatably connected with the inner wall of the adjusting transmission case 10 through bearing seats, a second motor 27 is fixedly mounted on the surface of the adjusting transmission case 10 through a mounting seat, a driving adjusting bevel gear 28 arranged inside the adjusting transmission case 10 is fixedly sleeved on an output shaft of the second motor 27, a driven adjusting bevel gear 29 is sleeved on the surface of the adjusting transmission shaft 26, the driven adjusting bevel gear 29 is meshed with the driving adjusting bevel gear 28, so that the driving adjusting bevel gear 28 is driven to rotate by controlling the second motor 27 to work, and the driven adjusting bevel gear 29 and the adjusting transmission shaft 26 are driven to rotate.

In a preferred embodiment, a first adjusting screw 30 penetrating the inside of the adjusting transmission box 10 is rotatably connected inside the first adjusting support frame 8 through a bearing seat, the surface of the first adjusting screw 30 is engaged with the inside of the first hollow adjusting threaded slider 11, a first driven transmission adjusting bevel gear 31 is fixedly sleeved on the surface of one end of the first adjusting screw 30 extending into the adjusting transmission box 10, a first driving transmission adjusting bevel gear 32 and a second driving transmission adjusting bevel gear 33 which are symmetrically distributed are fixedly sleeved on the surface of the adjusting transmission shaft 26, the first driving transmission adjusting bevel gear 32 is engaged with the first driven transmission adjusting bevel gear 31, so that when the adjusting transmission shaft 26 rotates, the first driving transmission adjusting bevel gear 32 and the second driving transmission adjusting bevel gear 33 are driven to rotate, and further the first driven transmission adjusting bevel gear 31 and the first adjusting screw 30 are driven to rotate, thereby driving the first hollow adjusting threaded slider 11 to move up and down.

As shown in fig. 3, the inside of the second adjusting supporting frame 9 is rotatably connected with a second adjusting screw 34 penetrating through the inside of the adjusting transmission case 10 through a bearing seat, the surface of the second adjusting screw 34 is engaged with the inside of the second hollow adjusting threaded slider 12, one end surface of the second adjusting screw 34 extending into the adjusting transmission case 10 is fixedly sleeved with a second driven transmission adjusting bevel gear 35, the second driven transmission adjusting bevel gear 35 is engaged with the second driving transmission adjusting bevel gear 33, so that when the second driving transmission adjusting bevel gear 33 rotates, the second driven transmission adjusting bevel gear 35 and the second adjusting screw 34 are driven to rotate, and further the second hollow adjusting threaded slider 12 is driven to move up and down, thereby the sampling sleeve 14 slides on the surface of the sampling head 15, and by using the special structure of the sampling head 15, rapid sampling is realized, and the sample mixing detection error rate is reduced, improve the sampling precision and prolong the service life of the equipment.

The working process of the utility model is as follows:

when the slag discharging and sampling device for the power plant is used, the first motor 17 is controlled to work to drive the driving lifting bevel gear 18 to rotate, further drive the driven lifting bevel gear 19 and the lifting transmission shaft 16 to rotate, drive the first driving lifting bevel gear 22 to rotate, further drive the first driven lifting bevel gear 21 and the first lifting screw 20 to rotate, so that the first hollow lifting threaded slider 4 moves up and down, when the lifting transmission shaft 16 rotates, the second driving lifting bevel gear 25 is driven to rotate, further drive the second driven lifting bevel gear 24 and the second lifting screw 23 to rotate, so that the second hollow lifting threaded slider 5 moves up and down, the sampling range is expanded, the labor intensity of manual sampling operation is reduced, the labor amount of the manual sampling operation is reduced, the device maintenance is facilitated, the sampling time is saved, the sampling efficiency is improved, and the device is convenient to use and popularize, through controlling the second motor 27 to work, the driving adjustment bevel gear 28 is driven to rotate, thereby driving the driven adjustment bevel gear 29 and the adjustment transmission shaft 26 to rotate, driving the first driving adjustment bevel gear 32 and the second driving adjustment bevel gear 33 to rotate, further driving the first driven adjustment bevel gear 31 and the first adjustment screw 30 to rotate, thereby driving the first hollow adjustment threaded slider 11 to move up and down, when the second driving adjustment bevel gear 33 rotates, driving the second driven adjustment bevel gear 35 and the second adjustment screw 34 to rotate, further driving the second hollow adjustment threaded slider 12 to move up and down, thereby making the sampling sleeve 14 slide on the surface of the sampling head 15, by utilizing the special structure of the sampling head 15, realizing rapid sampling, reducing the sample mixing detection error rate, improving the sampling precision, and prolonging the service life of the device.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A slag-discharging sampling device for a power plant comprises a lifting transmission box (1) and is characterized in that two ends of the lifting transmission box (1) are fixedly connected with a first lifting support frame (2) and a second lifting support frame (3) which are symmetrically distributed, lifting mechanisms are arranged inside the first lifting support frame (2), the second lifting support frame (3) and the lifting transmission box (1), the interiors of the first lifting support frame (2) and the second lifting support frame (3) are respectively connected with a first hollow lifting threaded slider (4) and a second hollow lifting threaded slider (5) in a sliding manner through guide rails, one opposite sides of the first hollow lifting threaded slider (4) and the second hollow lifting threaded slider (5) are respectively and fixedly connected with a first fixed block (6) and a second fixed block (7), one end, far away from the first hollow lifting threaded slider (4), of the first fixed block (6) is fixedly connected with a first adjusting support frame (8), one end of the second fixing block (7) far away from the second hollow lifting threaded slider (5) is fixedly connected with a second adjusting support frame (9), the tops of the first adjusting support frame (8) and the second adjusting support frame (9) are fixedly connected with an adjusting transmission case (10), an adjusting mechanism is arranged inside the adjusting transmission case (10), the insides of the first adjusting support frame (8) and the second adjusting support frame (9) are respectively connected with a first hollow adjusting threaded slider (11) and a second hollow adjusting threaded slider (12) in a sliding manner through guide rails, one sides of the first hollow adjusting threaded slider (11) and the second hollow adjusting threaded slider (12) opposite to each other are respectively fixedly connected with adjusting rods (13) of symmetrical parts, and one ends of the two adjusting rods (13) far away from the first hollow adjusting threaded slider (11) and the second hollow adjusting threaded slider (12) are fixedly connected with sampling sleeves (14), the inside activity of sampling sleeve (14) links up sampling head (15), one end that sampling head (15) stretched out sampling sleeve (14) and the bottom fixed connection of adjusting transmission case (10).

2. The slag-discharging and sampling device for the power plant according to claim 1, wherein the lifting mechanism comprises a lifting transmission shaft (16), two ends of the lifting transmission shaft (16) are rotatably connected with inner walls of the lifting rotating box, the first lifting support frame (2) and the second lifting support frame (3) through bearing seats, a first motor (17) is fixedly mounted at the top of the lifting transmission box (1) through a mounting seat, a driving lifting bevel gear (18) arranged inside the lifting transmission box (1) is fixedly sleeved on an output shaft of the first motor (17), a driven lifting bevel gear (19) is sleeved on the surface of the lifting transmission shaft (16), and the driven lifting bevel gear (19) is meshed with the driving lifting bevel gear (18).

3. The slag tapping and sampling device for power plants according to claim 2, wherein a first lifting screw (20) is rotatably connected inside the first lifting support frame (2) through a bearing seat, the surface of the first lifting screw (20) is engaged with the inside of the first hollow lifting threaded slider (4), a first driven transmission lifting bevel gear (21) is fixedly sleeved on the surface of the first lifting screw (20), a first driving transmission lifting bevel gear (22) is fixedly sleeved on the surface of one end of the lifting transmission shaft (16) extending into the inside of the first lifting support frame (2), and the first driving transmission lifting bevel gear (22) is engaged with the first driven transmission lifting bevel gear (21).

4. The slag tapping and sampling device for the power plant according to claim 3, wherein a second lifting screw (23) is rotatably connected to the inside of the second lifting support frame (3) through a bearing seat, the surface of the second lifting screw (23) is engaged with the inside of the second hollow lifting threaded slider (5), a second driven transmission lifting bevel gear (24) is fixedly sleeved on the surface of the second lifting screw (23), a second driving transmission lifting bevel gear (25) is fixedly sleeved on the surface of one end of the lifting transmission shaft (16) extending into the inside of the second lifting support frame (3), and the second driving transmission lifting bevel gear (25) is engaged with the second driven transmission lifting bevel gear (24).

5. The slag-discharging and sampling device for the power plant according to claim 4, wherein the adjusting mechanism comprises an adjusting transmission shaft (26), two ends of the adjusting transmission shaft (26) are rotatably connected with the inner wall of the adjusting transmission box (10) through bearing seats, a second motor (27) is fixedly installed on the surface of the adjusting transmission box (10) through a mounting seat, a driving adjusting bevel gear (28) arranged inside the adjusting transmission box (10) is fixedly sleeved on an output shaft of the second motor (27), a driven adjusting bevel gear (29) is sleeved on the surface of the adjusting transmission shaft (26), and the driven adjusting bevel gear (29) is meshed with the driving adjusting bevel gear (28).

6. The slag tapping and sampling device for power plants according to claim 5, wherein a first adjusting screw (30) penetrating through the inside of the adjusting transmission box (10) is rotatably connected to the inside of the first adjusting support frame (8) through a bearing seat, the surface of the first adjusting screw (30) is engaged with the inside of the first hollow adjusting threaded slider (11), a first driven transmission adjusting bevel gear (31) is fixedly sleeved on the surface of one end of the first adjusting screw (30) extending into the inside of the adjusting transmission box (10), a first driving transmission adjusting bevel gear (32) and a second driving transmission adjusting bevel gear (33) which are symmetrically distributed are fixedly sleeved on the surface of the adjusting transmission shaft (26), and the first driving transmission adjusting bevel gear (32) is engaged with the first driven transmission adjusting bevel gear (31).

7. The slag tapping and sampling device for the power plant according to claim 6, wherein a second adjusting screw (34) penetrating through the inside of the adjusting transmission box (10) is rotatably connected to the inside of the second adjusting support frame (9) through a bearing seat, the surface of the second adjusting screw (34) is engaged and connected with the inside of the second hollow adjusting threaded slider (12), a second driven transmission adjusting bevel gear (35) is fixedly sleeved on the surface of one end, extending into the adjusting transmission box (10), of the second adjusting screw (34), and the second driven transmission adjusting bevel gear (35) is engaged and connected with the second driving transmission adjusting bevel gear (33).

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