CN116735831B - Automatic coal sample hydrocarbon analysis equipment based on tinfoil automatic filling - Google Patents

Abstract

The invention relates to an automatic carbon and hydrogen analysis technology of a coal sample, which is used for solving the problems that an analysis result is inaccurate due to insufficient combustion in a loose test process of the coal sample and equipment is easy to be polluted due to scattering of the coal sample, in particular to an automatic carbon and hydrogen analysis device of the coal sample based on automatic filling of tinfoil paper, and comprises a bottom frame, wherein a hydrocarbon instrument is arranged on one side of the upper surface of the bottom frame; according to the invention, the tin foil bowl which is placed on the forming groove table and is provided with the coal samples is screwed up and molded into a sphere through the forming adjusting frame, and in the screwing up operation process of the tin foil bowl, the redundant air between the coal samples at the inner side of the tin foil bowl is discharged, so that the coal samples are in a sphere shape, the accuracy of hydrocarbon analysis results is effectively improved, gaps between the coal samples are reduced, the spherical coal samples wrapped by the tin foil cannot cause pollution to analysis equipment in the hydrocarbon analysis process, and the influence of air pollutants and dust in the external environment is avoided.

Description

Automatic coal sample hydrocarbon analysis equipment based on tinfoil automatic filling

Technical Field

The invention relates to an automatic carbon and hydrogen analysis technology of coal samples, in particular to an automatic carbon and hydrogen analysis device of coal samples based on automatic filling of tinfoil paper.

Background

The hydrocarbon analyzer adopts a single-chip microcomputer technology, realizes the intellectualization and automation of carbon and hydrogen analysis, is used for measuring the content of organic, inorganic carbon and hydrogen elements in solid materials such as coal and the like, and is a coal quality analyzer suitable for actual conditions in China;

In the prior art, in the process of carrying out hydrocarbon analysis operation on coal samples, the coal samples are fine particles, the coal samples are piled up together and gaps among the coal samples are larger when the hydrocarbon analysis is carried out, more air exists in the gaps, and a loose sample structure has adverse effects on the hydrocarbon analysis result of the coal samples, so that the hydrocarbon analysis result is inaccurate, the scattered coal samples occupy larger space, and the pollution to the analysis equipment is easy to cause;

The application provides a solution to the technical problem.

Disclosure of Invention

The invention aims to screw and mould a tin foil bowl containing coal samples on a forming groove table through a forming adjusting frame, and in the screwing operation process of the tin foil bowl, redundant air between the coal samples at the inner side of the tin foil bowl is discharged, so that the coal samples are in a ball shape, the accuracy of hydrocarbon analysis results is effectively improved, gaps between the coal samples are reduced, the situation that the coal samples wrapped in the ball shape cause dirt on analysis equipment in the hydrocarbon analysis process is avoided, the influence of air pollutants and dust in the external environment is avoided, the problem that the inaccurate analysis results are caused due to insufficient combustion in the coal sample loosening test process, and the equipment dirt is easily caused due to scattering of the coal samples is solved, and the automatic hydrocarbon analysis equipment for the coal samples based on automatic filling of tin foil paper is provided.

The aim of the invention can be achieved by the following technical scheme:

The utility model provides an automatic hydrocarbon analytical equipment of coal sample based on tinfoil paper automatic filling, includes the underframe, the hydrocarbon appearance is installed to underframe upper surface one side, the underframe upper surface is close to hydrocarbon appearance position department is provided with shaping subassembly, the underframe upper surface is close to shaping subassembly rear is provided with the rolling subassembly, the underframe upper surface is close to one side of rolling subassembly is provided with the flattening subassembly, the underframe upper surface is close to one side of flattening subassembly is provided with tailors the subassembly, the underframe upper surface is close to tailors the place ahead of subassembly is provided with the punching press subassembly, the underframe upper surface is close to the place ahead of punching press subassembly is provided with the removal subassembly, four corner positions of underframe upper surface are provided with adjusting part, be provided with on the adjusting part and snatch the subassembly, the underframe upper surface is close to one side of removal subassembly is provided with places the subassembly.

As a preferred embodiment of the invention, the rolling assembly comprises an upper rolling frame, the upper surface of the bottom frame is provided with an upper rolling frame close to the rear of the forming assembly, the lower surface of the bottom frame is provided with a lower rolling frame corresponding to the position of the cutting assembly, and the outer side walls of the upper rolling frame and the lower rolling frame are respectively and rotatably connected with a rolling roller.

As a preferred implementation mode of the invention, the flattening component comprises a flattening bottom plate, wherein the flattening bottom plate is arranged at the position of the upper surface of the bottom frame corresponding to the upper rolling frame, transverse sliding rails are arranged at two sides of the upper surface of the flattening bottom plate, sliding grooves are formed in the middle position of the upper surface of the flattening bottom plate, sliding blocks I are connected at the positions of the two sides of the upper surface of the flattening bottom plate corresponding to the transverse sliding rails in a sliding manner, a flattening moving block is arranged at the position of the lower surface of the sliding block corresponding to the sliding grooves, a driving motor II is arranged at the position of the lower surface of the flattening bottom plate corresponding to the flattening moving block, an adjusting screw I is arranged at the output end of the driving motor II, a flattening bracket is arranged at the upper surface of the sliding block I, a driving cylinder I is arranged at the middle position of the upper surface of the flattening bracket, a flattening adjusting plate is arranged at the output end of the driving cylinder I, and a flattening pressing block is arranged at the middle position of the lower surface of the flattening adjusting plate.

As a preferred implementation mode of the invention, the cutting assembly comprises a cutting support, a cutting support is arranged on the upper surface of the bottom frame corresponding to the position of the flattening bottom plate, a driving air cylinder II is arranged on the middle position of the upper surface of the cutting support, a cutting frame is arranged at the output end of the driving air cylinder II, a driving air cylinder III is arranged on the middle position of the upper surface inside the cutting frame, a cutting movable plate is arranged at the output end of the driving air cylinder III, and a cutting impact block is arranged at the middle position of the lower surface of the cutting movable plate.

As a preferred embodiment of the invention, the punching assembly comprises a punching support, wherein the punching support is arranged on the upper surface of the bottom frame and close to the front of the cutting support, a driving cylinder IV is arranged at the middle position of the upper surface of the punching support, a punching main plate is arranged at the output end of the driving cylinder IV, a punching auxiliary plate is arranged at the middle position of the lower surface of the punching main plate, and punching blocks are arranged at two sides of the lower surface of the punching auxiliary plate;

The movable assembly comprises a movable bottom plate, the movable bottom plate is arranged below the punching support corresponding to the upper surface of the bottom frame, a punching table is slidably connected to the middle position of the upper surface of the movable bottom plate, a driving motor III is arranged on one side of the upper surface of the movable bottom plate corresponding to the punching table, an adjusting screw rod II is arranged at the output end of the driving motor III, a cutting groove is formed in the position of the punching block corresponding to the upper surface of the punching table, and a tin foil bowl is arranged on the upper surface of the cutting groove.

As a preferred implementation mode of the invention, the placement component comprises a placement frame, wherein the placement frame is arranged on one side of the upper surface of the bottom frame, which is close to the movable bottom plate, a plurality of placement pulleys which are uniformly distributed are rotatably connected above the inner side wall of the placement frame, a placement table is slidingly connected at the position of the inner side of the placement frame, which corresponds to the placement pulleys, and a plurality of placement trays which are uniformly distributed are arranged on the upper surface of the placement table;

The forming assembly comprises a front bottom plate, the bottom plate is installed near the bottom frame upper surface to place frame one side, the front bottom plate upper surface is equipped with the first movable frame, the front bottom plate upper surface corresponds the movable frame one end is connected with drive gear through adjusting screw three rotations, the front bottom plate upper surface corresponds the movable frame one both sides are also installed horizontal slide rail, the first movable frame upper surface mounting has the shaping recess platform, the bottom plate upper surface corresponds the front bottom plate rear is installed to the bottom plate rear, the back bottom plate upper surface has the second movable frame through vertical slide rail sliding connection, the second front surface mounting of movable frame has three shaping regulating frame.

As a preferred embodiment of the invention, the adjusting assembly comprises a longitudinal sliding piece, wherein the four corners of the upper surface of the bottom frame are provided with the longitudinal sliding piece through a bracket, the upper surface of the longitudinal sliding piece is connected with a transverse sliding piece in a sliding way, the position of the upper surface of the bracket corresponding to the longitudinal sliding piece is rotationally connected with a transverse screw rod, one end of the upper surface of the longitudinal sliding piece corresponding to the transverse screw rod is provided with a driving motor IV, the position of the upper surface of the longitudinal sliding piece corresponding to the transverse sliding piece is rotationally connected with the longitudinal screw rod, one end of the upper surface of the longitudinal sliding piece corresponding to the longitudinal screw rod is provided with a driving motor V, and the position of the upper surface of the longitudinal sliding piece corresponding to the transverse sliding piece is provided with a drag chain;

The grabbing component comprises a grabbing frame, the outer side wall of the transverse sliding piece is connected with the grabbing frame in a sliding mode, an air suction support is arranged on one side of the lower surface of the grabbing frame, and grabbing clamps are arranged on one side, close to the air suction support, of the lower surface of the grabbing frame.

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

the tin foil bowl which is placed on the forming groove table and is provided with the coal samples is tightly screwed and molded into a sphere through the forming adjusting frame, redundant air between the coal samples at the inner side of the tin foil bowl is discharged in the screwing operation process of the tin foil bowl, so that the coal samples are spherical, the accuracy of hydrocarbon analysis results is effectively improved, gaps between the coal samples are reduced, the spherical coal samples are wrapped by the tin foil, the pollution to analysis equipment is avoided in the hydrocarbon analysis process, and the influence of air pollutants and dust in the external environment is avoided.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a main block diagram of the present invention;

FIG. 2 is a rear view block diagram of FIG. 1 of the present invention;

FIG. 3 is a bottom view of the structure of FIG. 1 of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 2 according to the present invention;

FIG. 5 is a block diagram of a flattening floor of the present invention;

FIG. 6 is a diagram of a mobile chassis structure of the present invention;

FIG. 7 is a view of a cut frame structure of the present invention;

FIG. 8 is a block diagram of a placement table according to the present invention;

FIG. 9 is a diagram of a gripping frame structure of the present invention;

in the figure: 1. a bottom frame; 2. a molding assembly; 21. a front bottom plate; 22. a first moving frame; 23. a transmission gear; 24. a rear floor; 25. a second moving frame; 26. forming an adjusting frame; 27. forming a groove table; 28. driving a first motor; 3. a hydrocarbon instrument; 4. a winding assembly; 41. a winding frame is arranged; 42. a lower winding frame; 43. a wind-up roll; 5. a flattening assembly; 51. flattening the bottom plate; 52. a first sliding block; 53. a transverse slide rail; 54. flattening the adjusting plate; 55. driving a first cylinder; 56. flattening the support; 57. flattening and extruding the blocks; 58. a second driving motor; 59. flattening the moving block; 6. a grabbing component; 61. grabbing a frame; 62. an air suction bracket; 63. a grabbing clamp; 7. cutting the component; 71. cutting a bracket; 72. driving a second cylinder; 73. cutting the movable plate; 74. driving a third cylinder; 75. cutting a frame; 76. cutting an impact block; 8. an adjustment assembly; 81. a longitudinal slide; 82. a longitudinal screw; 83. a transverse screw; 84. a lateral slider; 85. a drag chain; 9. a punching assembly; 91. driving a cylinder IV; 92. stamping a bracket; 93. punching the main board; 94. stamping the auxiliary plate; 95. stamping blocks; 10. a moving assembly; 101. a movable bottom plate; 102. a third driving motor; 103. cutting grooves; 104. a stamping table; 11. a tin foil bowl; 12. placing the assembly; 121. placing a frame; 122. placing a pulley; 123. a placement table; 124. and placing a tray.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

Referring to FIGS. 1-9, an automatic coal sample hydrocarbon analysis device based on automatic filling of tinfoil paper comprises a bottom frame 1, a hydrocarbon meter 3 is arranged on one side of the upper surface of the bottom frame 1, a forming assembly 2 is arranged on the upper surface of the bottom frame 1 near the hydrocarbon meter 3, the forming assembly 2 comprises a front bottom plate 21, the front bottom plate 21 is arranged on one side of the upper surface of the bottom frame 1 near a placing frame 121, a first movable frame 22 is arranged on the upper surface of the front bottom plate 21, one end of the upper surface of the first movable frame 22 is correspondingly connected with a transmission gear 23 through three rotations of an adjusting screw rod, the transmission gear 23 is in transmission connection with a driving gear on the output end of a first driving motor 28 through a transmission toothed belt, When the first driving motor 28 drives the adjusting screw rod III to rotate, the first moving frame 22 which is embedded on the adjusting screw rod III through threads moves along with the rotation of the adjusting screw rod III to carry out position movement on the adjusting screw rod III, the two sides of the upper surface of the front bottom plate 21 corresponding to the first moving frame 22 are also provided with transverse sliding rails 53, the first moving frame 22 is limited by the transverse sliding rails 53 which are arranged at the two sides of the front bottom plate 21 when carrying out position movement, the upper surface of the first moving frame 22 is provided with a forming groove table 27, the shape of a groove on the forming groove table 27 is hemispherical, the upper surface of the bottom frame 1 corresponding to the rear of the front bottom plate 21 is provided with a rear bottom plate 24, the rear part of the upper surface of the rear bottom plate 24 corresponding to the position of the second moving frame 25 is provided with a telescopic cylinder, The second movable frame 25 is limited by the positions of the longitudinal sliding rails at two sides of the rear bottom plate 24 when the rear bottom plate 24 moves in position through the telescopic air cylinder, the upper surface of the rear bottom plate 24 is connected with the second movable frame 25 in a sliding manner through the longitudinal sliding rails, the front surface of the second movable frame 25 is provided with three forming adjusting frames 26, the forming adjusting frames 26 can be combined with forming groove platforms 27 on the first movable frame 22 to squeeze the tin foil bowl 11 into balls after being pressed down, the upper surface of the bottom frame 1 is provided with a rolling assembly 4 close to the rear of the forming assembly 2, the rolling assembly 4 comprises an upper rolling frame 41, the upper rolling frame 41 is arranged close to the rear of the forming assembly 2 on the upper surface of the bottom frame 1, a lower rolling frame 42 is arranged on the lower surface of the bottom frame 1 corresponding to the position of the cutting assembly 7, rolling rollers 43 are rotatably connected to the outer side walls of the upper rolling frame 41 and the lower rolling frame 42, the upper rolling frame 41 and the lower rolling frame 42 unreels and roll the tinfoil paper, the upper rolling frame 41 unreels the complete tinfoil paper which is not cut, the lower rolling frame 42 winds the tinfoil paper which is cut, one side of the upper surface of the bottom frame 1, which is close to the rolling assembly 4, is provided with a flattening assembly 5, the flattening assembly 5 comprises a flattening bottom plate 51, the flattening bottom plate 51 is arranged on the upper surface of the bottom frame 1 corresponding to the position of the upper rolling frame 41, transverse sliding rails 53 are arranged on two sides of the upper surface of the flattening bottom plate 51, A chute is arranged in the middle of the upper surface of the flattening bottom plate 51, a first sliding block 52 is connected at the position of the two sides of the upper surface of the flattening bottom plate 51 corresponding to the transverse sliding rail 53 in a sliding way, a flattening moving block 59 is arranged at the position of the lower surface of the first sliding block 52 corresponding to the chute, a second driving motor 58 is arranged at the position of the lower surface of the flattening bottom plate 51 corresponding to the flattening moving block 59, an adjusting screw rod I is arranged at the output end of the second driving motor 58, a flattening bracket 56 is arranged on the upper surface of the first sliding block 52, the flattening bracket 56 moves in position through the rotation of the adjusting screw rod I connected with the second driving motor 58, and the position moving process is limited by the transverse sliding rail 53, A first driving cylinder 55 is arranged in the middle of the upper surface of the flattening bracket 56, a flattening adjusting plate 54 is arranged at the output end of the first driving cylinder 55, the first driving cylinder 55 can drive the position of the flattening adjusting plate 54 to move up and down, a flattening extrusion block 57 is arranged in the middle of the lower surface of the flattening adjusting plate 54, the flattening extrusion block 57 can extrude and flatten the unreeled tinfoil paper under the adjustment of the flattening adjusting plate 54, residual dirt on the surface of the tinfoil paper is cleaned through sponge below the flattening extrusion block 57, a cutting assembly 7 is arranged on one side of the upper surface of the bottom frame 1, which is close to the flattening assembly 5, the cutting assembly 7 comprises a cutting bracket 71, a cutting bracket 71 is arranged on the upper surface of the bottom frame 1 corresponding to the position of the flattening bottom plate 51, a second driving cylinder 72 is arranged on the middle position of the upper surface of the cutting bracket 71, a cutting frame 75 is arranged at the output end of the second driving cylinder 72, the second driving cylinder 72 drives the cutting frame 75 to move in position, the lower surface of the cutting frame 75 is attached to tinfoil paper as much as possible, a cutting impact block 76 is convenient to cut, a third driving cylinder 74 is arranged on the middle position of the upper surface inside the cutting frame 75, the third driving cylinder 74 drives the cutting impact block 76 and completes the impact cutting operation, a cutting movable plate 73 is arranged at the output end of the third driving cylinder 74, A cutting impact block 76 is arranged at the middle position of the lower surface of the cutting movable plate 73, a punching component 9 is arranged at the front of the upper surface of the bottom frame 1 close to the cutting component 7, the punching component 9 comprises a punching bracket 92, the punching bracket 92 is arranged at the front of the upper surface of the bottom frame 1 close to the cutting bracket 71, a driving cylinder IV 91 is arranged at the middle position of the upper surface of the punching bracket 92, a punching main plate 93 is arranged at the output end of the driving cylinder IV 91, a punching auxiliary plate 94 is arranged at the middle position of the lower surface of the punching main plate 93, punching blocks 95 are arranged at two sides of the lower surface of the punching auxiliary plate 94, the driving cylinder IV 91 drives the punching main plate 93 to be quickly pressed down, The stamping block 95 is used for carrying out stamping forming operation on the cut tinfoil, the moving assembly 10 is arranged in front of the upper surface of the bottom frame 1 close to the stamping assembly 9, the moving assembly 10 comprises a moving bottom plate 101, the moving bottom plate 101 is arranged below the stamping support 92 corresponding to the upper surface of the bottom frame 1, a stamping table 104 is slidingly connected to the middle position of the upper surface of the moving bottom plate 101, a driving motor III 102 is used for driving an adjusting screw II to rotate so as to enable the stamping table 104 to move along the transverse sliding rail 53 on the moving bottom plate 101, a driving motor III 102 is arranged on one side of the upper surface of the moving bottom plate 101 corresponding to the stamping table 104, An adjusting screw rod II is arranged at the output end of the driving motor III 102, a cutting groove 103 is formed in the position, corresponding to the punching block 95, of the upper surface of the punching table 104, a tin foil bowl 11 is arranged on the upper surface of the cutting groove 103, adjusting components 8 are arranged at the four corner positions of the upper surface of the bottom frame 1, the adjusting components 8 comprise longitudinal sliding pieces 81, the longitudinal sliding pieces 81 are arranged at the four corner positions of the upper surface of the bottom frame 1 through brackets, the upper surfaces of the longitudinal sliding pieces 81 are connected with transverse sliding pieces 84 in a sliding manner, the transverse screw rods 83 are rotatably connected at the positions, corresponding to the positions of the longitudinal sliding pieces 81, of the upper surfaces of the longitudinal sliding pieces 81, one ends, corresponding to the transverse screw rods 83, of the driving motor IV are arranged, the driving motor four drives the transverse screw 83 to rotate, so that the longitudinal sliding part 81 can carry out position adjustment in the transverse direction, the longitudinal screw 82 is rotationally connected to the position of the upper surface of the longitudinal sliding part 81 corresponding to the transverse sliding part 84, the driving motor five is arranged at one end of the upper surface of the longitudinal sliding part 81 corresponding to the longitudinal screw 82, the driving motor five drives the longitudinal screw 82 to rotate, the transverse sliding part 84 carries out position movement on the longitudinal sliding part 81, the drag chain 85 is arranged at the position of the upper surface of the longitudinal sliding part 81 corresponding to the transverse sliding part 84, the grabbing component 6 is arranged on the adjusting component 8, the grabbing component 6 comprises a grabbing frame 61, The outer side wall of the transverse sliding piece 84 is connected with a grabbing frame 61 in a sliding way, one side of the lower surface of the grabbing frame 61 is provided with an air suction bracket 62, one side of the lower surface of the grabbing frame 61 close to the air suction bracket 62 is provided with a grabbing clamp 63, one side of the upper surface of the bottom frame 1 close to the moving assembly 10 is provided with a placing assembly 12, the placing assembly 12 comprises a placing frame 121, one side of the upper surface of the bottom frame 1 close to the moving bottom plate 101 is provided with a placing frame 121, a plurality of evenly distributed placing pulleys 122 are connected above the inner side wall of the placing frame 121 in a rotating way, the inner side of the placing frame 121 is connected with a placing table 123 in a sliding way at the position corresponding to the placing pulleys 122, A plurality of evenly distributed placing trays 124 are arranged on the upper surface of the placing table 123;

In the prior art, in the process of carrying out hydrocarbon analysis operation on coal samples, the coal samples are fine particles, the coal samples are piled up together and gaps among the coal samples are larger when the hydrocarbon analysis is carried out, more air exists in the gaps, and a loose sample structure has adverse effects on the hydrocarbon analysis result of the coal samples, so that the hydrocarbon analysis result is inaccurate, the scattered coal samples occupy larger space, and the pollution to the analysis equipment is easy to cause;

After the coal sample is weighed and placed on the stamping formed tin foil bowl 11, the tin foil bowl 11 is placed on a forming groove table 27 on the first moving frame 22 through grabbing of the grabbing component 6, the first moving frame 22 moves to a position corresponding to a forming adjusting frame 26 on the second moving frame 25 through adjusting a screw rod III under the action of a driving motor I28, the first moving frame 22 is close to the first moving frame 22 under the action of a telescopic cylinder in the moving process of the position, the first moving frame 22 and the second moving frame 25 reach the designated position, the forming adjusting frame 26 rotates and twists the tin foil bowl 11 placed on the forming groove table 27 under the control of control equipment to squeeze the plastic bowl 11, so that the tin foil 11 wraps the inner coal sample into balls in the plastic process, redundant air between the inner side of the tin foil bowl 11 is discharged in the ball forming process, the coal sample is enabled to be ball-shaped, the accuracy of the analysis result is effectively improved, gaps between the two moving frames 25 are enabled to be close to the first moving frame 22 under the action of a telescopic cylinder, and the air between the two moving frames are not polluted by the carbon and hydrogen and the carbon and hydrogen samples are not polluted in the environment in the analysis process.

When the invention is used, the wind-up roller 43 of the upper wind-up frame 41 in the wind-up component 4 carries out the wind-up operation, the other end of the wind-up roller 43 of the lower wind-up frame 42 is fixed at the outer side of the wind-up roller 43 of the lower wind-up frame 42 after being stretched out, the wind-up roller 43 of the lower wind-up frame 42 carries out the wind-up operation on the wind-up paper wound at the outer side, when the wind-up paper passes through the position of the flattening component 5, the first air cylinder 55 is driven under the control of the control equipment to push the flattening extrusion block 57 under the flattening regulating plate 54 to move downwards to the flattening bottom plate 51 to carry out the flattening operation on the wind-up paper, the sponge under the flattening extrusion block 57 can remove dust stains on the wind-up paper, the adverse effect of dust stains on hydrocarbon analysis results is reduced, the flattening bracket 56 can be driven by the second air cylinder 58 to regulate the movement of the position of the screw rod, the wind-up paper treated by the flattening component 5 is transmitted to the position of the cutting component 7 under the action of the wind-up action, the driving air cylinder II 72 on the cutting bracket 71 adjusts the height of the cutting frame 75 according to the height of the stamping table 104, the lower end of the cutting frame 75 is closely attached to the stamping table 104 to prevent the tinfoil paper from being polluted by pollutants in the external environment, in the height adjusting process of the cutting frame 75, the driving air cylinder II 72 drives the adjusting screw II to rotate to move the position of the stamping table 104, so that the stamping table 104 slides on the transverse sliding rail 53, the cutting groove 103 on the stamping table 104 is aligned with the position of the cutting impact block 76 on the cutting frame 75, after the alignment operation is completed, the driving air cylinder III 74 drives the cutting impact block 76 on the cutting movable plate 73 to quickly press down to cut the tinfoil paper, the cut tinfoil paper is left in the cutting groove 103, and after the one-time cutting operation of the stamping table 104 is completed, the stamping table 104 moves to one side of the stamping assembly 9 under the action of the driving motor III 102, the moving distance is equal to the distance between adjacent cutting grooves 103 on the stamping table 104, in the moving process of the stamping table 104, the cut tinfoil is wound under the action of the lower winding frame 42, and the tinfoil which is not cut moves to the lower part of the cutting impact block 76, so that the cutting impact block 76 can continue to cut the tinfoil after the position adjustment of the stamping table 104 is completed;

After the cutting groove 103 on the punching platform 104 is driven by the adjusting screw rod II to move to a position right below the punching block 95, the driving cylinder IV 91 on the punching support 92 can drive the punching block 95 on the punching auxiliary plate 94 to punch and shape the tin foil paper cut inside the cutting groove 103 into a bowl-shaped structure under the punching and shaping operation, the position of the grabbing frame 61 can be moved on the transverse sliding piece 84 and the position of the transverse sliding piece 84 can be adjusted through the longitudinal screw rod 82, the air suction support 62 on the grabbing frame 61 can be aligned to the position of the punched tin foil bowl 11, the air suction support 62 can suck the tin foil bowl 11 to be placed on the placing tray 124 on the placing platform 123, the coal sample weighing equipment accurately places the weighed coal sample inside the tin foil bowl 11 on the placing tray 124, after the sample is placed inside the coal sample bowl 11, the position of the grabbing frame 61 is regulated through the transverse screw 83 and the longitudinal screw 82, so that the grabbing clamp 63 below the grabbing frame 61 can stably grab the tinfoil bowl 11 containing the coal sample onto the forming groove table 27 on the first movable frame 22, the first rear movable frame 22 moves to the position corresponding to the forming regulating frame 26 on the second movable frame 25 through the movement of the regulating screw three under the action of the first driving motor 28, the second movable frame 25 approaches to the first movable frame 22 under the action of the telescopic cylinder in the moving process of the first movable frame 22, after the first movable frame 22 and the second movable frame 25 reach the designated position, the forming regulating frame 26 performs rotary screwing extrusion molding operation on the tinfoil bowl 11 containing the coal sample on the forming groove table 27 under the control of the control equipment, the tin foil bowl 11 wraps the internal coal sample into balls in the molding process, and then the position of the grabbing frame 61 is adjusted through the transverse screw 83 and the longitudinal screw 82, so that the grabbing clamp 63 can throw the spherical tin foil balls into the inner side of the hydrocarbon meter 3 for detection operation.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. The utility model provides a coal sample automatic hydrocarbon analysis equipment based on tinfoil paper automatic filling, includes underframe frame (1), its characterized in that, hydrocarbon appearance (3) are installed to underframe frame (1) upper surface one side, underframe frame (1) upper surface is close to hydrocarbon appearance (3) position department is provided with shaping subassembly (2), underframe frame (1) upper surface is close to shaping subassembly (2) rear is provided with rolling subassembly (4), underframe frame (1) upper surface is close to one side of rolling subassembly (4) is provided with shakeout subassembly (5), underframe frame (1) upper surface is close to one side of shakeout subassembly (5) is provided with tailors subassembly (7), underframe frame (1) upper surface is close to the place ahead of tailors subassembly (7) is provided with punching press subassembly (9), underframe frame (1) upper surface is close to the place ahead of punching subassembly (9) is provided with moving subassembly (10), underframe frame (1) upper surface four corner positions department is provided with adjusting subassembly (8), adjusting subassembly (8) are provided with on adjusting subassembly (6), and one side is provided with on grabbing subassembly (12);

The rolling assembly (4) comprises an upper rolling frame (41), the upper surface of the bottom frame (1) is close to the rear of the forming assembly (2), the upper rolling frame (41) is installed at the position, corresponding to the cutting assembly (7), of the lower surface of the bottom frame (1), a lower rolling frame (42) is installed at the position, and rolling rollers (43) are rotatably connected to the outer side walls of the upper rolling frame (41) and the lower rolling frame (42);

The flattening assembly (5) comprises a flattening bottom plate (51), wherein the flattening bottom plate (51) is installed at the position, corresponding to the upper rolling frame (41), of the upper surface of the bottom frame (1), transverse sliding rails (53) are installed at the two sides of the upper surface of the flattening bottom plate (51), sliding grooves are formed in the middle position of the upper surface of the flattening bottom plate (51), sliding blocks I (52) are slidably connected at the positions, corresponding to the transverse sliding rails (53), of the two sides of the upper surface of the flattening bottom plate (51), flattening moving blocks (59) are installed at the positions, corresponding to the sliding grooves, of the lower surface of the sliding blocks I (52), driving motors II (58) are installed at the positions, corresponding to the positions, of the flattening moving blocks (59), adjusting screws I are installed at the output ends of the driving motors II (58), flattening brackets (56) are installed on the upper surfaces of the sliding blocks I (52), driving cylinders I (55) are installed at the middle positions, pressing blocks (54) are installed at the output ends of the driving cylinders I (55), and pressing blocks (54) are installed at the middle positions;

The adjusting component (8) comprises a longitudinal sliding part (81), the four corners of the upper surface of the bottom frame (1) are provided with the longitudinal sliding part (81) through brackets, the upper surface of the longitudinal sliding part (81) is connected with a transverse sliding part (84) in a sliding manner, the position of the upper surface of the brackets corresponding to the position of the longitudinal sliding part (81) is rotationally connected with a transverse screw (83), one end of the upper surface of the longitudinal sliding part (81) corresponding to the transverse screw (83) is provided with a driving motor IV, the position of the upper surface of the longitudinal sliding part (81) corresponding to the position of the transverse sliding part (84) is rotationally connected with a longitudinal screw (82), one end of the upper surface of the longitudinal sliding part (81) corresponding to the longitudinal screw (82) is provided with a driving motor V, and the position of the upper surface of the longitudinal sliding part (81) corresponding to the transverse sliding part (84) is provided with a drag chain (85);

The grabbing component (6) comprises a grabbing frame (61), the outer side wall of the transverse sliding piece (84) is connected with the grabbing frame (61) in a sliding mode, an air suction support (62) is arranged on one side of the lower surface of the grabbing frame (61), and grabbing clamps (63) are arranged on one side, close to the air suction support (62), of the lower surface of the grabbing frame (61).

2. The automatic coal sample hydrocarbon analysis device based on automatic tinfoil filling according to claim 1, wherein the cutting assembly (7) comprises a cutting support (71), the cutting support (71) is installed at the position of the upper surface of the bottom frame (1) corresponding to the flattening bottom plate (51), a driving cylinder II (72) is installed at the middle position of the upper surface of the cutting support (71), a cutting frame (75) is installed at the output end of the driving cylinder II (72), a driving cylinder III (74) is installed at the middle position of the upper surface inside the cutting frame (75), a cutting movable plate (73) is installed at the output end of the driving cylinder III (74), and a cutting impact block (76) is installed at the middle position of the lower surface of the cutting movable plate (73).

3. The automatic coal sample hydrocarbon analysis device based on automatic tinfoil filling according to claim 2, wherein the stamping assembly (9) comprises a stamping support (92), the stamping support (92) is installed on the upper surface of the bottom frame (1) close to the front of the cutting support (71), a driving cylinder IV (91) is installed at the middle position of the upper surface of the stamping support (92), a stamping main plate (93) is installed at the output end of the driving cylinder IV (91), a stamping auxiliary plate (94) is installed at the middle position of the lower surface of the stamping main plate (93), and stamping blocks (95) are installed on two sides of the lower surface of the stamping auxiliary plate (94);

The movable assembly (10) comprises a movable bottom plate (101), the movable bottom plate (101) is installed below the punching support (92) corresponding to the upper surface of the bottom frame (1), a punching table (104) is slidably connected to the middle position of the upper surface of the movable bottom plate (101), a driving motor III (102) is installed on one side of the punching table (104) corresponding to the upper surface of the movable bottom plate (101), an adjusting screw II is installed at the output end of the driving motor III (102), a cutting groove (103) is formed in the position of the punching block (95) corresponding to the upper surface of the punching table (104), and a tin foil bowl (11) is arranged on the upper surface of the cutting groove (103).

4. The automatic coal sample hydrocarbon analysis device based on automatic tinfoil filling according to claim 3, wherein the placement component (12) comprises a placement frame (121), the placement frame (121) is installed on one side, close to the movable bottom plate (101), of the upper surface of the bottom frame (1), a plurality of placement pulleys (122) which are uniformly distributed are rotationally connected above the inner side wall of the placement frame (121), a placement table (123) is slidingly connected at the position, corresponding to the placement pulleys (122), of the inner side of the placement frame (121), and a plurality of placement trays (124) which are uniformly distributed are installed on the upper surface of the placement table (123);

The forming assembly (2) comprises a front bottom plate (21), the upper surface of the bottom frame (1) is close to one side of the placing frame (121) and is provided with a front bottom plate (21), the upper surface of the front bottom plate (21) is provided with a first movable frame (22), one end of the first movable frame (22) is connected with a transmission gear (23) through three rotation of an adjusting screw rod, the upper surface of the front bottom plate (21) is provided with transverse sliding rails (53) corresponding to two sides of the first movable frame (22), the upper surface of the first movable frame (22) is provided with a forming groove table (27), the upper surface of the bottom frame (1) is provided with a rear bottom plate (24) corresponding to the rear of the front bottom plate (21), the upper surface of the rear bottom plate (24) is provided with a second movable frame (25) through a longitudinal sliding rail, and the front surface of the second movable frame (25) is provided with three forming adjusting frames (26).