CN114636707A - Inside clean effect verifying attachment of chemical drum - Google Patents

Abstract

The invention discloses a device for testing the cleaning effect of the interior of a chemical bucket, which relates to the technical field of test analysis and comprises an installation top plate, wherein a bottom wall contact plate is fixedly connected with the lower end face of a fixed main shaft; according to the invention, by arranging the mounting top plate, the reaction cylinder, the sampling liquid pump, the main shaft telescopic cylinder, the mounting main shaft, the detection agent liquid pump, the optical measurement spring, the measurement slide block, the light sensor, the light source and the detection light channel, the invention can detect the more precise cleaning residual granular substances in the barrel, can detect the cleaning effects of various different chemical components by a circulating detection method of solution chemical reaction, has higher accuracy on the detection result of the cleaning effect in the chemical barrel, and greatly improves the use safety of the chemical barrel.

Description

Inside clean effect verifying attachment of chemical drum

Technical Field

The application relates to a test analysis field especially relates to an inside clean effect verifying attachment of chemical drum.

Background

The chemical barrel is mostly made of plastics and inert alloy, generally called as plastic chemical barrel and plastic chemical barrel, is developed and blow molded by scientific formula, has various colors and elegant appearance, achieves the packing performance index in the aspects of acid and alkali resistance, corrosion resistance, leakage resistance, no fading, no deformation and the like, is an ideal choice for long-distance transportation of the current chemical product packing material, and is the current most ideal corrosion-resistant storage and transportation equipment for chemical liquid; chemical engineering buckets are frequently required to be replaced by chemical engineering processes in the using process, so that the cleaning of the chemical engineering buckets is almost a necessary work, and the chemical engineering buckets also need to be cleaned when being recycled, but the problem of how to judge the cleaning effect is solved;

the invention with the publication number of CN202823371U discloses a novel chemical reaction kettle, which relates to the technical field of chemical machinery and comprises a reaction kettle body, a long feed inlet, a discharge outlet, a stirring shaft, stirring paddles, a kettle internal cleanliness detection device and a cleaning spraying device, wherein the cleaning spraying device is arranged on two sides above the reaction kettle body, the long feed inlet is arranged on the upper side of the cleaning spraying device on the left side, the kettle internal cleanliness detection device is arranged below the cleaning spraying device on the right side, the stirring shaft is arranged inside the reaction kettle body, the stirring paddles are arranged on two sides of the stirring shaft, and the discharge outlet is arranged at the bottom of the reaction kettle body. The automatic material distribution device is simple in structure and novel in design, is provided with the cleanliness detection device, firstly detects the cleanliness on the inner wall of the kettle, and then adopts the mechanical cleaning device for cleaning, so that the cleaning effect is good, the product quality is improved, the feeding distance is prolonged, and the material is dispersed more uniformly.

Disclosure of Invention

An object of this application is to provide an inside clean effect verifying attachment of chemical drum adopts following technical scheme:

a device for testing the cleaning effect in a chemical barrel comprises an installation top plate, wherein a main shaft air pump is fixedly connected to the lower end face of the installation top plate, a handle is fixedly connected to the upper end face of the installation top plate, a main shaft telescopic cylinder is dynamically connected to the lower end face of the main shaft air pump, an installation main shaft is fixedly connected to the lower end face of the main shaft telescopic cylinder, an installation main shaft bottom plate is fixedly connected to the lower end face of the installation main shaft, a fixed main shaft is fixedly connected to the lower end face of the installation main shaft bottom plate, a bottom wall contact plate is fixedly connected to the lower end face of the fixed main shaft, a circulating mechanism is arranged at the upper end of the installation top plate, an auxiliary mechanism is arranged at the lower end of the main shaft air pump, a barrel wall detection mechanism is arranged at the upper end of the installation main shaft bottom plate, a bottom wall detection mechanism is arranged at the upper end of the bottom wall contact plate, the circulating mechanism can assist in detecting the cleaning effect in the chemical barrel, the auxiliary mechanism can provide a detection medium and switch the detection position, the barrel wall detection mechanism can sample the barrel wall cleaning effect, and the bottom wall detection mechanism can detect the barrel bottom cleaning effect.

Preferably, the auxiliary mechanism includes installation spindle base plate, installation spindle base plate up end fixedly connected with detection agent jar, detection agent liquid pump, bucket wall detection air pump and the flexible base of bucket wall, be equipped with the detection agent chamber in the detection agent jar, detection agent liquid pump left end fixedly connected with detection agent extraction tube, detect fixedly connected with in the end wall of agent chamber right side the detection agent extraction tube, the detection agent extraction tube runs through detection agent chamber right-hand member wall, detection agent liquid pump upper end fixedly connected with detection agent pipeline, bucket wall detection air pump right-hand member power is connected with the section of thick bamboo wall and detects flexible section of thick bamboo, slide on the flexible base of bucket wall and surely connect with the section of thick bamboo wall detects flexible section of thick bamboo, section of thick bamboo wall detects flexible section of thick bamboo right-hand member face fixedly connected with bucket wall and detects the workstation.

Preferably, section of thick bamboo wall detection mechanism includes bucket wall testing workbench, bucket wall testing workbench up end fixedly connected with bucket wall detects the jar, bucket wall detects jar right-hand member face sliding connection and has the seal cover, be equipped with the bucket wall in the bucket wall detection jar and detect the chamber, the bucket wall detects intracavity sliding connection and has the bucket wall to detect the sliding plate, bucket wall detects the sliding plate right-hand member face fixedly connected with bucket wall and detects the cushion collar, be equipped with the detection sample chamber in the bucket wall detects the cushion collar, fixedly connected with sampling output tube and bucket wall pressure pipe in the detection sample chamber left end wall.

Preferably, the barrel wall pressure pipe and the sampling output pipe penetrate through the left end wall of the detection sample cavity and the barrel wall detection sliding plate, the sampling output pipe and the barrel wall pressure pipe penetrate through the left end wall of the barrel wall detection cavity, a sliding plate pressure channel is arranged in the barrel wall pressure pipe, a barrel wall reagent pipe is slidably connected in the sliding plate pressure channel, the barrel wall reagent pipe penetrates and is communicated with the detection sample cavity, the sliding plate pressure channel is communicated with the barrel wall detection cavity, the left end of the barrel wall pressure pipe is fixedly connected with the barrel wall detection air pump through a pipeline, and the left end face of the barrel wall reagent pipe is fixedly connected with the detection agent pipeline through a pipeline.

Preferably, circulation mechanism includes the installation roof, the installation piece of two symmetric distributions of terminal surface fixedly connected with about the installation roof, installation roof up end fixed connection has reaction cylinder and sampling liquid pump, be equipped with the reaction chamber in the reaction cylinder, sampling liquid pump left end face fixedly connected with filling tube, fixedly connected with in the reaction chamber right-hand member wall the filling tube, the filling tube runs through the reaction chamber right-hand member wall, sampling liquid pump right-hand member face power is connected with the sampling pipeline, sampling pipeline fixedly connected with the sampling output tube, board and reaction chamber push pipe are peered to fixedly connected with in the reaction chamber upper end wall, the reaction chamber push pipe runs through the reaction chamber upper end wall.

Preferably, diapire detection mechanism includes fixed main shaft, fixed main shaft up end fixedly connected with installation main shaft bottom plate, terminal surface fixedly connected with diapire contact plate under the fixed main shaft, diapire contact plate up end fixedly connected with diapire detection air pump and diapire detection telescopic cylinder, diapire detection air pump right-hand member face power is connected with the flexible base of diapire, diapire detection telescopic cylinder upper end sliding connection has the flexible base of diapire, the flexible base right-hand member face fixedly connected with diapire detection jar of diapire.

Preferably, the fixed air pump seat of two front and back symmetries of terminal surface fixedly connected with of fixed main shaft is located the rear side fixed air pump seat rear end face fixedly connected with fixed bolster air pump is located the front side fixed air pump seat front end face fixedly connected with is the same fixed air pump seat is located the rear side fixed air pump seat rear end face fixedly connected with a fixed bolster air pump, fixed bolster air pump rear end face power is connected with fixed telescopic bracket, is located the front side fixed bolster air pump front end face power is connected with one equally fixed telescopic bracket, two front and back symmetries fixed telescopic bracket cooperatees with each other.

Preferably, a bottom wall detection air cavity is arranged in the bottom wall detection cylinder, a light measurement fixing sleeve is fixedly connected in the bottom wall detection air cavity, a measurement sliding block is slidably connected in the bottom wall detection air cavity and located on the lower side of the light measurement fixing sleeve, a light measurement spring is fixedly connected between the upper end face of the measurement sliding block and the lower end face of the light measurement fixing sleeve, a light measurement air pipe is fixedly connected in the upper end wall of the bottom wall detection air cavity, the upper end of the light measurement air pipe is fixedly connected with the bottom wall detection air pump through a pipeline, a light measurement installation cavity is arranged in the measurement sliding block, and a light sensor is fixedly connected to the lower end wall of the light measurement installation cavity.

Preferably, a light measurement auxiliary cavity is arranged in the right end wall of the bottom wall detection air cavity, an auxiliary light measurement fixing block is fixedly connected in the light measurement auxiliary cavity, a light measurement auxiliary sliding block is slidably connected in the light measurement auxiliary cavity, a light measurement auxiliary spring is fixedly connected between the right end surface of the light measurement auxiliary sliding block and the left end surface of the auxiliary light measurement fixing block, a light source is fixedly connected to the left end surface of the light measurement auxiliary sliding block, a detection light channel is fixedly connected in the right end wall of the light measurement installation cavity, and the detection light channel is fixedly connected to the right end surface of the light sensor.

Compared with the prior art, the invention provides a device for inspecting the internal cleaning effect of a chemical barrel, which has the following beneficial effects:

the invention can provide power to support the circulating detection of the cleaning effect in the multi-position chemical engineering barrel by arranging the mounting top plate, the reaction cylinder, the sampling liquid pump, the reaction cavity top pipe and the detection agent cylinder, can detect the cleaning residual condition of non-granular chemical substances in the barrel by arranging the main shaft air pump, the main shaft telescopic barrel, the mounting main shaft, the detection agent liquid pump, the barrel wall detection air pump, the barrel wall detection telescopic barrel, the barrel wall detection cylinder, the sealing sleeve, the barrel wall detection workbench, the barrel wall detection sliding plate, the barrel wall pressure pipe, the barrel wall reagent pipe, the sampling output pipe, the barrel wall detection buffer sleeve and the sealing sleeve, and can ensure the accuracy of the detection result at the same time by arranging the fixed telescopic bracket, the fixed main shaft, the fixed bracket air pump, the bottom wall contact plate, the bottom wall detection air pump, the bottom wall telescopic base, the bottom wall detection cylinder, the optical detection air pipe, the optical detection spring, the detection slide block, the optical sensor, The invention can detect the residual granular substances in the more precise barrel, can detect the cleaning effect of various chemical components by a circular detection method of solution chemical reaction, has higher accuracy on the detection result of the cleaning effect in the chemical barrel, does not pollute the environment in the barrel, is suitable for the detection of the cleaning effect in various barrels, and greatly improves the use safety of the chemical barrel.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of an inspection device for the cleaning effect inside a chemical bucket according to the present invention;

FIG. 2 is a schematic view of the overall structure of the device for inspecting the internal cleaning effect of the chemical bucket according to the present invention;

FIG. 3 is an enlarged partial schematic view of FIG. 2;

FIG. 4 is an enlarged partial schematic view of FIG. 3;

FIG. 5 is an enlarged partial schematic view of FIG. 2;

FIG. 6 is an enlarged partial schematic view of FIG. 5;

FIG. 7 is an enlarged partial schematic view of FIG. 2;

FIG. 8 is an enlarged partial schematic view of FIG. 2;

in the figure: 11. a circulating mechanism; 12. an auxiliary mechanism; 13. a cylinder wall detection mechanism; 14. a bottom wall detection mechanism; 15. installing a top plate; 16. mounting blocks; 17. a handle; 18. a reaction cylinder; 19. a reaction chamber; 20. an injection pipe; 21. a sampling liquid pump; 22. a sampling pipe; 23. a main shaft air pump; 24. a main shaft telescopic cylinder; 25. installing a main shaft; 26. a detector conduit; 27. the wall of the cylinder detects the telescopic cylinder; 28. a barrel wall detection cylinder; 29. sealing sleeves; 30. a bottom wall detection cylinder; 31. a barrel wall detection workbench; 32. a bottom wall detection telescopic cylinder; 33. a bottom wall telescopic base; 34. the bottom wall detects the air pump; 35. a barrel wall telescopic base; 36. a barrel wall detection air pump; 37. a bottom wall contact plate; 38. fixing the main shaft; 39. fixing a telescopic bracket; 40. installing a main shaft bottom plate; 41. a detector liquid pump; 42. a detection agent extraction tube; 43. a detection agent cylinder; 44. a detector chamber; 45. a barrel wall detection chamber; 46. a tub wall detection slide plate; 47. a barrel wall detection buffer sleeve; 48. a detection sample cavity; 49. a barrel wall pressure tube; 50. a cartridge wall reagent tube; 51. sampling and outputting a pipe; 52. a slide plate pressure channel; 53. a bottom wall detection air cavity; 54. a photometric fixing sleeve; 55. measuring a sliding block; 56. a photometric mounting cavity; 57. a light sensor; 58. an auxiliary optical measurement fixed block; 59. a light measuring spring; 60. a light-measuring trachea; 61. a light measurement auxiliary spring; 62. a light measurement auxiliary cavity; 63. an optical measurement auxiliary slide block; 64. a light source; 65. detecting a light channel; 66. jacking a reaction cavity; 67. a peep plate; 68. a fixed bracket air pump; 69. and fixing the air pump seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments;

in the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 8, the device for testing the cleaning effect inside a chemical drum according to the embodiment of the present invention includes a top mounting plate 15, a main shaft air pump 23 is fixedly connected to a lower end surface of the top mounting plate 15, a handle 17 is fixedly connected to an upper end surface of the top mounting plate 15, a main shaft telescopic cylinder 24 is dynamically connected to a lower end surface of the main shaft air pump 23, a main mounting shaft 25 is fixedly connected to a lower end surface of the main shaft telescopic cylinder 24, a main mounting shaft bottom plate 40 is fixedly connected to a lower end surface of the main mounting shaft 25, a main fixing shaft 38 is fixedly connected to a lower end surface of the main mounting shaft bottom plate 40, a bottom wall contact plate 37 is fixedly connected to a lower end surface of the main fixing shaft 38, a circulation mechanism 11 is disposed at an upper end of the top mounting plate 15, an auxiliary mechanism 12 is disposed at a lower end of the main shaft air pump 23, a drum wall detection mechanism 13 is disposed at an upper end of the main mounting shaft bottom plate 40, a bottom wall detection mechanism 14 is disposed at an upper end of the bottom wall contact plate 37, the circulation mechanism 11 can assist in detecting the cleaning effect in the chemical bucket, the auxiliary mechanism 12 can provide a detection medium and switch the detection position, the barrel wall detection mechanism 13 can sample the cleaning effect of the barrel wall, and the bottom wall detection mechanism 14 can detect the cleaning effect of the barrel bottom.

In an embodiment of the present invention, the auxiliary mechanism 12 includes the mounting spindle base plate 40, the upper end surface of the mounting main shaft bottom plate 40 is fixedly connected with a detection agent cylinder 43, a detection agent liquid pump 41, a barrel wall detection air pump 36 and a barrel wall telescopic base 35, a detection agent cavity 44 is arranged in the detection agent cylinder 43, the left end face of the detection agent liquid pump 41 is fixedly connected with a detection agent extraction pipe 42, the detection agent extracting pipe 42 is fixedly connected in the right end wall of the detection agent cavity 44, the detection agent extracting pipe 42 penetrates through the right end wall of the detection agent cavity 44, the upper end of the detection agent liquid pump 41 is fixedly connected with a detection agent pipeline 26, the right end of the barrel wall detection air pump 36 is dynamically connected with a barrel wall detection telescopic barrel 27, the barrel wall telescopic base 35 is fixedly connected with the barrel wall detection telescopic barrel 27 in a sliding mode, and the right end face of the barrel wall detection telescopic barrel 27 is fixedly connected with the barrel wall detection workbench 31.

In the embodiment of the present invention, the barrel wall detecting mechanism 13 includes the barrel wall detecting workbench 31, the upper end surface of the barrel wall detecting workbench 31 is fixedly connected with the barrel wall detecting cylinder 28, the right end surface of the barrel wall detecting cylinder 28 is slidably connected with the sealing sleeve 29, the barrel wall detecting cylinder 28 is internally provided with the barrel wall detecting cavity 45, the barrel wall detecting cavity 45 is slidably connected with the barrel wall detecting sliding plate 46, the right end surface of the barrel wall detecting sliding plate 46 is fixedly connected with the barrel wall detecting buffer sleeve 47, the barrel wall detecting buffer sleeve 47 is internally provided with the detecting sample cavity 48, and the left end wall of the detecting sample cavity 48 is fixedly connected with the sampling output tube 51 and the barrel wall pressure tube 49.

In the embodiment of the present invention, the barrel wall pressure pipe 49 and the sampling output pipe 51 penetrate through the left end wall of the detection sample cavity 48 and the barrel wall detection sliding plate 46, the sampling output pipe 51 and the barrel wall pressure pipe 49 penetrate through the left end wall of the barrel wall detection cavity 45, a sliding plate pressure channel 52 is arranged in the barrel wall pressure pipe 49, a barrel wall reagent pipe 50 is slidably connected in the sliding plate pressure channel 52, the barrel wall reagent pipe 50 penetrates through and is communicated with the detection sample cavity 48, the sliding plate pressure channel 52 is communicated with the barrel wall detection cavity 45, the left end of the barrel wall pressure pipe 49 is fixedly connected with the barrel wall detection air pump 36 through a pipeline, and the left end face of the barrel wall reagent pipe 50 is fixedly connected with the detection agent pipeline 26 through a pipeline.

In the embodiment of the present invention, the circulation mechanism 11 includes the installation top plate 15, two symmetrically distributed installation blocks 16 are fixedly connected to left and right end surfaces of the installation top plate 15, the upper end surface of the installation top plate 15 is fixedly connected to a reaction cylinder 18 and a sampling liquid pump 21, a reaction chamber 19 is arranged in the reaction cylinder 18, an injection pipe 20 is fixedly connected to a left end surface of the sampling liquid pump 21, the injection pipe 20 is fixedly connected to a right end wall of the reaction chamber 19, the injection pipe 20 penetrates through the right end wall of the reaction chamber 19, a sampling pipe 22 is dynamically connected to a right end surface of the sampling liquid pump 21, the sampling pipe 22 is fixedly connected to the sampling output pipe 51, an observation plate 67 and a reaction chamber top pipe 66 are fixedly connected to an upper end wall of the reaction chamber 19, and the reaction chamber top pipe 66 penetrates through the upper end wall of the reaction chamber 19.

In an embodiment of the present invention, the bottom wall detection mechanism 14 includes the fixed main shaft 38, the mounting main shaft bottom plate 40 is fixedly connected to an upper end surface of the fixed main shaft 38, a bottom wall contact plate 37 is fixedly connected to a lower end surface of the fixed main shaft 38, a bottom wall detection air pump 34 and a bottom wall detection telescopic cylinder 32 are fixedly connected to an upper end surface of the bottom wall contact plate 37, a bottom wall telescopic base 33 is dynamically connected to a right end surface of the bottom wall detection air pump 34, the bottom wall telescopic base 33 is slidably connected to an upper end of the bottom wall detection telescopic cylinder 32, and a bottom wall detection cylinder 30 is fixedly connected to a right end surface of the bottom wall telescopic base 33.

In the embodiment of the present invention, two fixed air pump seats 69 symmetrical in the front and back directions are fixedly connected to the front and back end surfaces of the fixed main shaft 38, a fixed bracket air pump 68 is fixedly connected to the back end surface of the fixed air pump seat 69 located on the back side, the same fixed air pump seat 69 is fixedly connected to the front end surface of the fixed air pump seat 69 located on the front side, a fixed bracket air pump 68 is fixedly connected to the back end surface of the fixed air pump seat 69 located on the back side, a fixed telescopic bracket 39 is dynamically connected to the back end surface of the fixed bracket air pump 68 located on the front side, the same fixed telescopic bracket 39 is dynamically connected to the front end surface of the fixed bracket air pump 68 located on the front side, and the two fixed telescopic brackets 39 symmetrical in the front and back directions are matched with each other.

In the embodiment of the present invention, a bottom wall detection air cavity 53 is arranged in the bottom wall detection cylinder 30, a photometric fixing sleeve 54 is fixedly connected in the bottom wall detection air cavity 53, a measurement slider 55 is slidably connected in the bottom wall detection air cavity 53, the measurement slider 55 is located at the lower side of the photometric fixing sleeve 54, a photometric spring 59 is fixedly connected between the upper end surface of the measurement slider 55 and the lower end surface of the photometric fixing sleeve 54, a photometric air pipe 60 is fixedly connected in the upper end wall of the bottom wall detection air cavity 53, the upper end of the photometric air pipe 60 is fixedly connected with the bottom wall detection air pump 34 through a pipeline, a photometric mounting cavity 56 is arranged in the measurement slider 55, and a light sensor 57 is fixedly connected to the lower end wall of the photometric mounting cavity 56.

In the embodiment of the present invention, an auxiliary optical measurement cavity 62 is disposed in the right end wall of the bottom wall detection air cavity 53, an auxiliary optical measurement fixed block 58 is fixedly connected in the auxiliary optical measurement cavity 62, an auxiliary optical measurement slider 63 is slidably connected in the auxiliary optical measurement cavity 62, an auxiliary optical measurement spring 61 is fixedly connected between the right end surface of the auxiliary optical measurement slider 63 and the left end surface of the auxiliary optical measurement fixed block 58, a light source 64 is fixedly connected to the left end surface of the auxiliary optical measurement slider 63, a detection light channel 65 is fixedly connected in the right end wall of the optical measurement installation cavity 56, and the detection light channel 65 is fixedly connected to the right end surface of the light sensor 57.

The invention discloses a device for testing the cleaning effect of the interior of a chemical barrel, which comprises the following working procedures:

in the initial state, the light measurement auxiliary spring 61 is in a relaxed state, and drives the light measurement auxiliary slider 63 and the light source 64 to be located at the positions to be worked, at this time, the light source 64 is located in the bottom wall detection air cavity 53, the light measurement spring 59 is in a contracted state, and drives the measurement slider 55, the light sensor 57 and the detection light channel 65 to be located in the bottom wall detection air cavity 53 to be stationary, at this time, the measurement slider 55 is located at the upper side position of the light measurement auxiliary cavity 62, the barrel wall detection buffer sleeve 47 and the barrel wall detection sliding plate 46 are located at the leftmost standby position in the barrel wall detection cavity 45, at this time, the barrel wall detection sliding plate 46 is attached to the left end wall of the barrel wall detection cavity 45, the seal sleeve 29 seals the detection sample cavity 48 to be protected from contamination, at this time, the fixed bracket air pump 68 and the bottom wall detection air pump 34, the barrel wall detection air pump 36, the detection agent liquid pump 41, the spindle air pump 23, and the sampling liquid pump 21 are all not activated, and the light source 64 and the light sensor 57 are not energized.

When the detection action is prepared, firstly, the sealing sleeve 29 is taken down from the right end of the barrel wall detection cylinder 28, then the whole device is quickly placed into the barrel to prevent the detection result from being inaccurate due to the pollution of the external environment, then the mounting block 16 is mounted and fixed at the position of the barrel opening, then the main shaft air pump 23 is started to drive the main shaft telescopic barrel 24 to extend, and the mounting main shaft 25, the mounting main shaft bottom plate 40, the fixed main shaft 38 and the bottom wall contact plate 37 are driven to integrally move towards the barrel bottom wall.

In the process that the bottom wall contact plate 37 is driven to move downwards, the bottom wall detection air pump 34 is started to drive the bottom wall telescopic base 33 to extend, the bottom wall detection cylinder 30 is driven to move to a proper position in the direction of the barrel side wall, the main shaft air pump 23 is closed after the bottom wall contact plate 37 moves to the barrel bottom, then the two front-back symmetrical fixed support air pumps 68 are started to drive the two front-back symmetrical fixed telescopic supports 39 to extend respectively, and after the fixed telescopic supports 39 contact the barrel wall, the fixed support air pumps 68 are closed and the position is kept, so that the preparatory installation alignment adjustment work is completed.

When the detection of the bottom wall of the barrel is started, firstly, the light source 64 is electrified to emit detection light, then, the light sensor 57 is electrified to be standby, then, the bottom wall detection air pump 34 is started to drive the compressed air to enter the bottom wall detection air cavity 53 through the light detection air pipe 60, so as to drive the detection slide block 55 to move downwards, when the detection slide block 55 moves downwards to the maximum descending distance of the lower end wall bottom surface of the bottom wall detection air cavity 53, the air pressure in the bottom wall detection air cavity 53 is kept stable, the detection light emitted by the light source 64 is transmitted through the detection light channel 65 and is detected by the light sensor 57, if residual particulate matters exist in the bottom wall of the barrel, the unclean particulate matters can cause the detection slide block 55 not to be attached to the lower end surface flush position of the bottom wall detection air cavity 53, so that the detection light emitted by the light source 64 does not pass through the detection light channel 65, and therefore, the light sensor 57 cannot detect light signals, thereby giving an alarm indicating that the bottom wall of the tub still has particles unclean.

When the side wall of the barrel is detected, firstly, the barrel wall detection air pump 36 is started to make compressed air enter the barrel wall detection cavity 45 through the corresponding pipeline through the pressure channel 52 of the sliding plate, the barrel wall detection sliding plate 46 and the barrel wall detection buffer sleeve 47 are driven to move to the right, when the barrel wall detection buffer sleeve 47 is tightly pressed on the side wall of the barrel to achieve a sealing state, then the detection agent liquid pump 41 is started to pump the detection sample solution in the detection agent cavity 44 through the detection agent pumping pipe 42 and pump the detection sample solution into the barrel wall reagent pipe 50 through the detection agent pipeline 26, then the sampling liquid pump 21 is started to pump the detection solution which is filled in the detection sample cavity 48 by the barrel wall reagent pipe 50 and contacts with the side wall of the barrel through the sampling pipeline 22 and the sampling output pipe 51, and then the detection solution is pumped into the reaction cavity 19 through the injection pipe 20 and mixed with the matching detection solution, at this time, if the side wall of the barrel is not clean and has residual chemical substances, the matching detection solution in the reaction chamber 19 will produce a predetermined reaction after mixing, and the detection result can be observed by looking at the plate 67.

When the detection result is obtained, cleaning action is required, cleaning agent is added into the detection agent cavity 44 through a pipeline, detection work is continuously carried out on the side wall of the same barrel, the cleaning agent circulates to the barrel side wall of a cleaning detection point in the detection sample cavity 48 under the detection work action, is pumped into the reaction cavity 19 through the sampling output pipe 51 by the sampling liquid pump 21, is discharged through the reaction cavity top pipe 66, accordingly, the detection work of the integral cleaning effect in the barrel is completed, and all parts are restored to the initial state.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The utility model provides an inside clean effect verifying attachment of chemical drum, includes installation roof (15), its characterized in that: the device comprises a mounting top plate (15), a main shaft air pump (23) is fixedly connected to the lower end face of the mounting top plate (15), a handle (17) is fixedly connected to the upper end face of the mounting top plate (15), a main shaft telescopic cylinder (24) is dynamically connected to the lower end face of the main shaft air pump (23), a mounting main shaft (25) is fixedly connected to the lower end face of the main shaft telescopic cylinder (24), a mounting main shaft bottom plate (40) is fixedly connected to the lower end face of the mounting main shaft bottom plate (40), a fixing main shaft (38) is fixedly connected to the lower end face of the fixing main shaft (38), a bottom wall contact plate (37) is fixedly connected to the lower end face of the fixing main shaft (38), a circulating mechanism (11) is arranged at the upper end of the mounting top plate (15), an auxiliary mechanism (12) is arranged at the lower end of the main shaft air pump (23), a cylinder wall detection mechanism (13) is arranged at the upper end of the mounting main shaft bottom plate (40), and a bottom wall detection mechanism (14) is arranged at the upper end of the bottom wall contact plate (37), the circulation mechanism (11) can assist in detecting the cleaning effect in the chemical bucket, the auxiliary mechanism (12) can provide a detection medium and switch the detection position, the barrel wall detection mechanism (13) can sample the barrel wall cleaning effect, and the bottom wall detection mechanism (14) can detect the barrel bottom cleaning effect.

2. The chemical bucket interior cleaning effect testing device of claim 1, wherein: the auxiliary mechanism (12) comprises the mounting spindle base plate (40), a detection agent cylinder (43), a detection agent liquid pump (41), a barrel wall detection air pump (36) and a barrel wall telescopic base (35) are fixedly connected to the upper end face of the mounting spindle base plate (40), a detection agent cavity (44) is arranged in the detection agent cylinder (43), a detection agent extraction pipe (42) is fixedly connected to the left end face of the detection agent liquid pump (41), the detection agent extraction pipe (42) is fixedly connected to the right end wall of the detection agent cavity (44), the detection agent extraction pipe (42) penetrates through the right end wall of the detection agent cavity (44), a detection agent pipeline (26) is fixedly connected to the upper end of the detection agent liquid pump (41), the right end of the barrel wall detection air pump (36) is dynamically connected with a barrel wall detection telescopic barrel (27), and the barrel wall telescopic base (35) is fixedly connected with the barrel wall detection telescopic barrel (27), the right end face of the cylinder wall detection telescopic cylinder (27) is fixedly connected with a cylinder wall detection workbench (31).

3. The chemical bucket interior cleaning effect testing device as claimed in claim 2, wherein: the section of thick bamboo wall detection mechanism (13) include bucket wall testing workbench (31), bucket wall testing workbench (31) up end fixedly connected with bucket wall detects jar (28), bucket wall testing jar (28) right-hand member face sliding connection has seal cover (29), it detects chamber (45) to be equipped with the bucket wall in bucket wall testing jar (28), sliding connection has bucket wall to detect sliding plate (46) in bucket wall testing chamber (45), bucket wall detects sliding plate (46) right-hand member face fixedly connected with bucket wall and detects cushion collar (47), be equipped with in bucket wall detection cushion collar (47) and detect sample chamber (48), fixedly connected with sampling output tube (51) and bucket wall pressure pipe (49) in detection sample chamber (48) left end wall.

4. The chemical bucket interior cleaning effect testing device of claim 3, wherein: barrel wall pressure pipe (49) with sampling output tube (51) run through detect sample chamber (48) left end wall with barrel wall detects sliding plate (46), sampling output tube (51) with barrel wall pressure pipe (49) runs through barrel wall detects chamber (45) left end wall, be equipped with sliding plate pressure passageway (52) in barrel wall pressure pipe (49), sliding plate pressure passageway (52) sliding connection has section of thick bamboo wall reagent pipe (50), section of thick bamboo wall reagent pipe (50) run through the UNICOM detect sample chamber (48), sliding plate pressure passageway (52) UNICOM bucket wall detects chamber (45), section of thick bamboo wall pressure pipe (49) left end is through pipeline fixedly connected with barrel wall detects air pump (36), section of thick bamboo wall reagent pipe (50) left end face is through pipeline fixedly connected with detect agent pipeline (26).

5. The chemical bucket interior cleaning effect testing device of claim 3, wherein: circulation mechanism (11) includes installation roof (15), installation piece (16) of two symmetric distributions of terminal surface fixedly connected with are controlled to installation roof (15), installation roof (15) up end fixed connection has reaction jar (18) and sampling liquid pump (21), be equipped with reaction chamber (19) in reaction jar (18), sampling liquid pump (21) left end face fixedly connected with injection tube (20), fixedly connected with in reaction chamber (19) right side wall injection tube (20), injection tube (20) run through reaction chamber (19) right side wall, sampling liquid pump (21) right end face power is connected with sampling pipeline (22), sampling pipeline (22) fixedly connected with sampling output tube (51), fixedly connected with peeps board (67) and reaction chamber push pipe (66) in reaction chamber (19) upper end wall, the reaction cavity top pipe (66) penetrates through the upper end wall of the reaction cavity (19).

6. The chemical bucket interior cleaning effect testing device of claim 1, wherein: diapire detection mechanism (14) include fixed main shaft (38), fixed main shaft (38) up end fixedly connected with installation main shaft bottom plate (40), terminal surface fixedly connected with diapire contact plate (37) under fixed main shaft (38), diapire contact plate (37) up end fixedly connected with diapire detection air pump (34) and diapire detection telescopic cylinder (32), diapire detection air pump (34) right-hand member face power is connected with diapire telescopic base (33), diapire detection telescopic cylinder (32) upper end sliding connection has diapire telescopic base (33), diapire telescopic base (33) right-hand member face fixedly connected with diapire detection jar (30).

7. The chemical bucket interior cleaning effect testing device of claim 6, wherein: fixed air pump seat (69) of two longitudinal symmetries of terminal surface fixedly connected with around fixed main shaft (38) is located the rear side fixed air pump seat (69) rear end face fixedly connected with fixed bolster air pump (68) is located the front side fixed air pump seat (69) front end face fixedly connected with is one the same fixed air pump seat (69) is located the rear side fixed bolster air pump (68) of fixed air pump seat (69) rear end face fixedly connected with, fixed bolster air pump (68) rear end face power is connected with fixed telescopic bracket (39), is located the front side terminal surface power is connected with one equally before fixed bolster air pump (68) fixed telescopic bracket (39), two longitudinal symmetries fixed telescopic bracket (39) cooperate mutually.

8. The chemical bucket interior cleaning effect testing device of claim 6, wherein: the device is characterized in that a bottom wall detection air cavity (53) is arranged in the bottom wall detection cylinder (30), a light measurement fixing sleeve (54) is fixedly connected in the bottom wall detection air cavity (53), a measurement sliding block (55) is connected in the bottom wall detection air cavity (53) in a sliding manner, the measurement sliding block (55) is located on the lower side of the light measurement fixing sleeve (54), a light measurement spring (59) is fixedly connected between the upper end surface of the measurement sliding block (55) and the lower end surface of the light measurement fixing sleeve (54), a light measurement air pipe (60) is fixedly connected in the upper end wall of the bottom wall detection air cavity (53), the upper end of the light measurement air pipe (60) is fixedly connected with the bottom wall detection air pump (34) through a pipeline, a light measurement mounting cavity (56) is arranged in the measurement sliding block (55), and a light sensor (57) is fixedly connected to the lower end wall of the light measurement mounting cavity (56).

9. The chemical bucket interior cleaning effect testing device of claim 8, wherein: an optical measurement auxiliary cavity (62) is arranged in the right end wall of the bottom wall detection air cavity (53), an auxiliary optical measurement fixing block (58) is fixedly connected in the optical measurement auxiliary cavity (62), an optical measurement auxiliary sliding block (63) is slidably connected in the optical measurement auxiliary cavity (62), an optical measurement auxiliary spring (61) is fixedly connected between the right end face of the optical measurement auxiliary sliding block (63) and the left end face of the auxiliary optical measurement fixing block (58), a light source (64) is fixedly connected to the left end face of the optical measurement auxiliary sliding block (63), a detection light channel (65) is fixedly connected in the right end wall of the optical measurement installation cavity (56), and the detection light channel (65) is fixedly connected to the right end face of the light sensor (57).

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