CN115073246B - Blow-drying device and method for emulsion explosive production line - Google Patents

Abstract

The invention discloses a blow-drying device for an emulsion explosive production line, which comprises a horizontally arranged mounting plate, wherein two bearing plates are fixedly connected to the front side of the mounting plate near the top, the two bearing plates are symmetrically arranged left and right, a driven gear is arranged near the front side of the top of the bearing plate positioned on the left, and a driving gear is arranged near the front side of the top of the bearing plate positioned on the right.

Description

Blow-drying device and method for emulsion explosive production line

Technical Field

The invention relates to the technical field of chemical production, in particular to a blow-drying device and method for an emulsion explosive production line.

Background

Emulsion explosives are a class of ammonium nitrate aqueous industrial explosives which are developed rapidly in recent years and are widely applied. The method takes supersaturated inorganic oxidant aqueous solution as a disperse phase and hydrocarbon oil which is not compatible with water as a continuous phase, and uniformly and densely disperses the oxidant aqueous solution in an oil phase continuous medium in the form of tiny liquid drops by means of an emulsifying technology to form a water-in-oil colloidal emulsion, so that the emulsion explosive has excellent explosion performance and water resistance, and the emulsion explosive has the advantages of wide raw material sources, simple process, high production and use safety and wide application in the civil explosion industry of China.

The production process of the emulsion explosive mainly comprises raw material preparation, emulsification, foaming, charging, cooling and packaging. After the preparation of the raw materials is completed, the oil phase, the water phase conveying pump and the emulsifier are started in sequence, so that the water phase and the oil phase materials are emulsified according to corresponding proportions. And (3) injecting a foaming agent into the prepared emulsion by using a foaming agent pump for mixing, conveying and charging by using a matrix conveying pump, cooling and packaging the cartridge.

However, the existing emulsion explosive production line is higher in automation degree, lower in integration degree, the emulsion explosive production line often occupies a large amount of sites, so that internal equipment of the production line is damaged or inconvenient to move, meanwhile, when raw materials are mixed and processed, the existing emulsion explosive production line cannot guarantee that the proportion of the raw materials is in a control range, the quality of finished products of the emulsion explosive is easily affected, meanwhile, the existing emulsion explosive production line lacks a function of detecting low temperature resistance of the finished products, and finally, the existing emulsion explosive production line needs to timely air-dry the emulsion explosive after washing and cooling in the production process, but due to large wind force, the emulsion explosive is easily dropped, and safety accidents are easily caused.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: a blow-drying device for producing emulsion explosive production line, including the mounting panel that the level set up, mounting panel front side is close to top department fixedly connected with two loading boards, and two the loading board is bilateral symmetry setting, is located left loading board top is close to front side department and is had driven gear, is located right loading board top is close to front side department and has driving gear, driven gear and driving gear are intermeshing setting, driven gear centre of a circle department runs through and is equipped with the transfer line to rather than fixed connection, driving gear centre of a circle department runs through and is equipped with first pivot, rather than fixed connection, first pivot outside is close to bottom department fixed sleeve joint first worm, mounting panel front side is close to central department fixed connection fixed plate, first pivot bottom grafting is in the bottom department of fixed plate, mounting panel right side is close to top department fixed connection T shaped plate, agitator motor is installed at T shaped plate top, agitator motor power take-off shaft fixed connection has first, just first and first worm are intermeshing setting, first worm wheel front side is equipped with the transfer line to be fixed connection, and rather than fixed connection, and be equipped with the pivot is close to the pivot and is fixed sleeve joint with first pivot, the pivot is close to the bottom side and is fixed sleeve joint with the pivot, the pivot is close to the pivot, the pivot is fixed to the pivot and is fixed sleeve joint to the pivot, the pivot is close to the pivot is fixed to the pivot and is located the pivot to the outside, the pivot is fixed point to the pivot is fixed to the pivot and is fixed to the pivot is connected with the pivot, the utility model discloses a stirring device for a concrete mixer, including mounting panel, fixed connection in mounting panel, the mounting panel is located to run through in the mounting panel inner chamber near front side, the fixed second worm that has cup jointed in fourth pivot outside, second worm wheel and second worm are intermeshing setting, the transfer line bottom has the agitator, there is the board of placing agitator left side, the opening has been seted up at the agitator top, transfer line bottom through opening to extend to the inner chamber of agitator, transfer line outside fixedly connected with a plurality of puddlers, and a plurality of the puddler is cross and arranges, first pump body is installed to agitator inner chamber bottom, the grafting of agitator bottom has row material pipe, the agitator bottom has packagine machine to construct, packagine machine constructs the top welding has the gusset plate, agitator bottom and gusset plate fixed connection.

Preferably, the mounting panel rear side is close to left side department and has power supply unit, power supply unit top fixedly connected with L shape connecting rod, L shape connecting rod front end fixed connection is on the mounting panel, the transfer line outside is close to middle-end department and has cup jointed the loading board, the transfer line outside is close to middle-end department and has fixedly cup jointed the annular plate, just the annular plate is located loading board bottom department, a plurality of through-holes have been seted up on the loading board, and a plurality of the through-hole uses loading board centre of a circle as the center, is annular array arrangement, a plurality of round holes have been seted up on the annular plate, and a plurality of the round hole uses the annular plate centre of a circle as the center, is annular array arrangement, loading board top has a plurality of material storage pipes, and a plurality of material storage pipe bottom all peg graft on adjacent through-hole, a plurality of material storage pipe bottom all is provided with the upset board, a plurality of the inner chamber of round hole all has the kicking block, and a plurality of kicking block top all is laminated with adjacent upset board, the kicking block bottom has the spacing bucket, spacing bucket inner chamber bottom fixedly connected with spring, the kicking block bottom extends to the bottom the spacing bucket, the bottom extends to the spacing bucket bottom the annular plate, and is located the L shape is connected with two and is located at the fixed connection of L shape bottom of the spacing ring, the L shape is kept away from the fixed connection of the spacing ring bottom.

Preferably, the transmission rod outside is close to top department and has cup jointed the plectane, plectane bottom fixedly connected with a plurality of electro-magnets, and a plurality of the electro-magnet is the annular array with the plectane as the center and arranges, power supply unit front side is equipped with a plurality of cables, just power supply unit passes through a plurality of cables and adjacent electro-magnet electric connection, a plurality of the iron plate is all installed to stock pipe top.

Preferably, the frequency sensor is installed to agitator inner chamber front side, the agitator front side has the bin, the equal fixedly connected with mounting of bin left and right sides, the bin passes through two mounting fixed connection on the agitator, the bin rear side is pegged graft and is had horizontal pipe, horizontal pipe rear end runs through the agitator, just the bin inner chamber is provided with the second pump body, be equipped with the cable on the frequency sensor, frequency sensor passes through cable and second pump body electric connection.

Preferably, the agitator bottom is close to front side department and installs level sensor, agitator bottom has accommodate motor, accommodate motor left side fixedly connected with welded rod, welded rod left end fixed connection is on the reinforcing plate, accommodate motor left side fixedly connected with dismantles the board, accommodate motor passes through dismantles board and reinforcing plate fixed connection, accommodate motor power take off shaft fixedly connected with connecting plate, connecting plate left side fixedly connected with swing plate, swing plate left side fixedly connected with box, rectangular channel has all been seted up to both sides around the box, the box inner chamber has the upset piece, upset piece right side fixedly connected with sloping block, the chute has been seted up on the sloping block, just the inner chamber of chute is equipped with the even axle, both ends all run through adjacent rectangular channel around the even axle, the box outside has the fly leaf, both ends all run through the inside wall of fly leaf around the even axle, upset piece left side fixedly connected with linkage ring, the intra-annular chamber runs through and is equipped with receiving tube, just receiving tube is located box bottom, the left and right sides fixedly connected with sloping plate, the linkage is located the cylinder side fixedly connected with right side.

Preferably, the packagine machine construct the front side and be close to bottom department fixedly connected with guide block, just two arc of guide block front side fixedly connected with, and two the arc is bilateral symmetry setting, two the fluting has all been seted up at arc top, the guide block front side has cooling mechanism, the equal fixedly connected with L shape dead lever of cooling mechanism left and right sides, two the equal fixedly connected with of one end that cooling mechanism was kept away from to L shape dead lever is on adjacent arc, packagine machine constructs the left side and has the flitch, the discharge gate has been seted up on the flitch down, the flitch top has the swiveling wheel, the charge mouth has been seted up on the swiveling wheel, the swiveling wheel inner chamber runs through and is equipped with the bull stick to rather than fixed connection, the bull stick left end has rotating electrical machines, rotating electrical machines power output shaft and bull stick fixed connection, two stands have been cup jointed in the bull stick outside, and two the stand is bilateral symmetry setting, two the equal fixedly connected with in stand bottom is in flitch top department down.

Preferably, the agitator left side fixedly connected with is on placing the board, the mounting panel left side is close to bottom department fixedly connected with installed part, the left side fixedly connected with of installed part is in place board right side department, place and seted up the socket on the board, the socket inner chamber runs through and is equipped with the expansion plate, expansion plate right side fixedly connected with bottom plate, bottom plate top fixedly connected with roof, roof top fixedly connected with baffle, the roof top articulates there is the articulated piece, articulated piece right side fixedly connected with trigger lever, the last panel of controlling of installing of packagine machine constructs, the opening and shutting door is installed to packagine machine construct the rear side.

Preferably, the bottom of the inner cavity of the box body is conical, the bottom of the box body is fixedly connected with a freezer, the inner cavity of the freezer is provided with a container, the top of the freezer is provided with a feeding hole, the feeding hole and the box body are mutually communicated, a box door is arranged on the front side of the freezer, and the box door is made of transparent materials.

A blow-drying device for an emulsion explosive production line and a use method thereof comprise the following steps:

s1: firstly, staff pours latex matrix into the inner cavity of the stirring barrel, and starts the stirring motor through controlling the panel, the stirring motor can drive the first worm wheel to rotate through the power output shaft, the first worm wheel can drive the first worm to rotate, the first worm can drive the driving gear to rotate through the first rotating shaft, the driving gear can drive the driven gear to rotate, the driven gear can drive a plurality of stirring rods to rotate through the transmission rod, the latex matrix is stirred, then the expansion plate is pushed to the right side, the trigger rod moves to the right side, and the preparation work is completed.

S2: then, because annular plate and transfer line are fixed relation of cup jointing, can drive a plurality of kicking blocks and spacing bucket and carry out rotary motion when the annular plate is rotatory, when kicking block and trigger lever contact, can move downwards, and the upset board of depositing the material pipe bottom loses the top power of kicking block, then takes place the upset, and the nitrous acid solution of material pipe inner chamber flows downwards to the inner chamber of entering agitator mixes with the emulsion matrix.

S3: meanwhile, the stirring motor can drive the transmission plate to rotate through the power output shaft, the transmission plate can drive the rotating plate to slightly swing through the adjusting rod, the second worm wheel can be driven to reciprocate when the rotating plate swings, the second worm can be driven to lift and move when the second worm wheel reciprocates, the fourth rotating shaft can be driven to lift and move when the second worm moves, the moving track of the second worm can be limited through the fastening plate, the frequency sensor can be started when the frequency of triggering the frequency sensor through the fourth rotating shaft to reach the preset frequency, the frequency sensor can start the second pump body of the inner cavity of the storage box through the cable, and the accelerator of the inner cavity of the storage box enters the inner cavity of the stirring barrel through the transverse tube and is mixed with the nitrous acid solution and the emulsion matrix.

S4: when the mixing time reaches the preset requirement, the first pump body can be started through the control panel, the mixture in the inner cavity of the stirring barrel flows out through the discharge pipe and enters the inner cavity of the receiving pipe, the outflow amount of the mixture is closed along with the starting of the level sensor, then the starting cylinder moves leftwards, the cylinder can drive the inclined block to move leftwards through the movable plate, the inclined block can be driven to turn over ninety degrees when moving leftwards, the mixture in the inner cavity of the receiving pipe enters the inner cavity of the box body, the mixture can be prevented from overflowing through the inclined plate, and the mixture can enter the inner cavity of the freezing box through the feeding port and flows into the container.

S5: after that, the agitator accessible arranges the material pipe and to topple over emulsion explosive mixture to packagine machine and construct, can pack the mixture through current packagine machine to the shaping, when emulsion packagine is accomplished, can roll out to the guide block, and between two arc, the arc can be spacing to emulsion explosive, can dispel the heat the emulsion explosive through heat dissipation mechanism simultaneously weathers, finally contact with the swiveling wheel, when the swiveling wheel is rotated in the rotating electrical machines drive, emulsion explosive can get into the charge mouth rotation position, and fall the discharge gate of flitch down.

S6: when the staff needs to change the stock pipe, the accessible controls the panel and starts power supply unit, and power supply unit can start adjacent electro-magnet through a plurality of cables, and the electro-magnet can adsorb corresponding iron plate, pulls out the stock pipe simultaneously.

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

1. according to the invention, through the mutual matching of the components such as the stirring motor, the transmission plate, the adjusting rod, the rotating plate, the second worm wheel, the second worm, the fastening plate, the first rotating shaft, the first pump body, the frequency sensor, the storage box, the cable, the fixing piece, the horizontal sensor and the like, when the emulsion explosive is used for mixing and processing raw materials, the proportion of the raw materials is controlled within a range, and the quality of a finished product of the emulsion explosive is improved.

2. According to the invention, the detection of the low temperature resistance of the emulsion explosive can be realized through the mutual matching of the components such as the box body, the inclined plate, the connecting plate, the air cylinder, the movable plate, the inclined block, the overturning block, the receiving pipe, the linkage ring, the adjusting motor, the freezer, the container and the like, so that the reliability of sensitization of the emulsion explosive at low temperature is ensured.

3. According to the invention, through the mutual matching of the guide blocks, the arc-shaped plates, the L-shaped fixing rods, the heat dissipation mechanism, the rotating wheels, the blanking plates, the rotating motor, the packaging mechanism and other parts, the position of the emulsion explosive can be fixed in the drying process, and the safety of the production process is improved.

4. The invention integrates a plurality of mechanisms, realizes integration, reduces the occupied area of the field, reduces the economic cost of small and medium enterprises, and is convenient to detach or move when the internal parts of the equipment are damaged.

Drawings

FIG. 1 is a front elevational view of the structure of the present invention;

FIG. 2 is a left side view of the structure of the present invention;

FIG. 3 is a rear elevational view of the structure of the present invention;

FIG. 4 is a schematic view of the structure of the stirring barrel of the component of the invention;

FIG. 5 is a fragmentary view of the annular plate of the component of the present invention;

FIG. 6 is an exploded view of the component housing of the present invention;

fig. 7 is an enlarged view at a in fig. 2.

Reference numerals in the drawings: 1. a mounting plate; 2. a drive gear; 3. a driven gear; 4. a power supply device; 5. a first worm wheel; 6. a first worm; 7. a drive plate; 8. an adjusting rod; 9. a second worm wheel; 10. a rotating plate; 11. a cable; 12. a circular plate; 13. a storage pipe; 14. placing a plate; 15. a fastening plate; 16. a stirring rod; 17. a mounting member; 18. a fixing member; 19. a second worm; 20. a frequency sensor; 21. a cable; 22. a storage box; 23. a connecting plate; 24. adjusting a motor; 25. a freezer; 26. a packaging mechanism; 27. a guide block; 28. a heat dissipation mechanism; 29. an L-shaped fixing rod; 30. an arc-shaped plate; 31. a rotating wheel; 32. a rotating electric machine; 33. a blanking plate; 34. a reinforcing plate; 35. an L-shaped connecting rod; 36. iron blocks; 37. a stirring motor; 38. a stirring barrel; 39. a level sensor; 40. an annular plate; 41. a loading plate; 42. an electromagnet; 43. a carrying plate; 44. a fixing plate; 45. inserting plate; 46. a T-shaped plate; 47. a movable plate; 48. a sloping plate; 49. a cylinder; 50. a swinging plate; 51. welding a connecting rod; 52. a control panel; 53. an opening/closing door; 54. a top block; 55. an L-shaped limit rod; 56. a connecting ring; 57. a limiting barrel; 58. a case; 59. a connecting shaft; 60. a sloping block; 61. a turnover block; 62. a receiving tube; 63. a linkage ring; 64. a door; 65. a telescoping plate; 66. a bottom plate; 67. a top plate; 68. a baffle; 69. a hinge block; 70. a trigger lever.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but 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.

Referring to fig. 1-4, the present invention provides a technical solution: a blow-drying device for producing emulsion explosive production lines comprises a horizontally arranged mounting plate 1, wherein the front side of the mounting plate 1 is close to the top and fixedly connected with two bearing plates 43, the two bearing plates 43 are symmetrically arranged left and right, a driven gear 3 is arranged at the position, close to the front, of the top of the bearing plate 43 positioned on the right, a driving gear 2 is arranged at the position, close to the front, of the top of the bearing plate 43 positioned on the right, the driven gear 3 and the driving gear 2 are mutually meshed, a transmission rod is arranged at the center of the driven gear 3 in a penetrating way, and fixedly connected with the driven gear, a first rotating shaft is arranged at the center of the driving gear 2 in a penetrating way, and fixedly connected with the driving gear, a first worm 6 is fixedly sleeved at the position, close to the bottom, of the outer side of the first rotating shaft, a fixed plate 44 is fixedly connected at the position, close to the center, of the front side of the mounting plate 1, the bottom of the first rotating shaft is spliced at the bottom of the fixed plate 44, the right side of the mounting plate 1 is fixedly connected with a T-shaped plate 46 near the top, the top of the T-shaped plate 46 is provided with a stirring motor 37, the power output shaft of the stirring motor 37 is fixedly connected with a first worm wheel 5, the first worm wheel 5 and a first worm 6 are mutually meshed, the circle center of the front side of the first worm wheel 5 is fixedly connected with a second rotating shaft, the second rotating shaft and the power output shaft of the stirring motor 37 are concentrically arranged, the outer side of the second rotating shaft is fixedly sleeved with a transmission plate 7 near the front end, the front side of the transmission plate 7 is hinged with an adjusting rod 8, the rear side of the adjusting rod 8 is hinged with a rotating plate 10 near the bottom, the inner cavity of the rotating plate 10 is penetrated and provided with a third rotating shaft which is fixedly connected with the third rotating shaft, the outer side of the third rotating shaft is fixedly sleeved with a second worm wheel 9 near the front end, the outer side of the third rotating shaft is sleeved with a plugboard 45, the plugboard 45 is fixedly connected to the mounting plate 1, the outer side of the transmission rod is sleeved with a fastening plate 15 near the center, the rear side of the fastening plate 15 is fixedly connected to the mounting plate 1, a fourth rotating shaft is penetrated and arranged at the position, close to the front side, of the inner cavity of the fastening plate 15, a second worm 19 is fixedly sleeved on the outer side of the fourth rotating shaft, the second worm wheel 9 and the second worm 19 are mutually meshed, a stirring barrel 38 is arranged at the bottom end of a transmission rod, a placing plate 14 is arranged at the left side of the stirring barrel 38, an opening is arranged at the top of the stirring barrel 38, the bottom end of the transmission rod penetrates through the opening and extends to the inner cavity of the stirring barrel 38, a plurality of stirring rods 16 are fixedly connected to the outer side of the transmission rod, the stirring rods 16 are in cross arrangement, a first pump body is mounted at the bottom of the inner cavity of the stirring barrel 38, a discharging pipe is inserted at the bottom of the stirring barrel 38, a packaging mechanism 26 is arranged at the bottom of the stirring barrel 38, a reinforcing plate 34 is welded at the top of the packaging mechanism 26, a power supply device 4 is arranged at the position, close to the left side of the rear side of the mounting plate 1, the top of the power supply device 4 is fixedly connected with an L-shaped connecting rod 35, the front end of the L-shaped connecting rod 35 is fixedly connected to the mounting plate 1, a loading plate 41 is sleeved at the position, close to the middle end, of the outer side of the transmission rod, an annular plate 40 is fixedly sleeved at the position, close to the middle end, of the transmission rod, the annular plate 40 is positioned at the bottom of the loading plate 41, a plurality of through holes are formed in the loading plate 41, the through holes are arranged in an annular array with the center of the loading plate 41, a plurality of round holes are formed in the annular plate 40, the round holes are arranged in an annular array with the center of the annular plate 40, a plurality of storage pipes 13 are arranged at the top of the loading plate 41, the bottom ends of the storage pipes 13 are spliced on the adjacent through holes, a turnover plate is arranged at the bottom of the storage pipes 13, the inner cavities of the round holes are provided with ejector blocks 54, the tops of the ejector blocks 54 are jointed with the adjacent turnover plate, a limiting barrel 57 is arranged at the bottom of the ejector blocks 54, the inner cavity of the limiting barrel 57 is fixedly connected with a spring, the ejector block 54 bottom extends to the inner chamber of spacing bucket 57, ejector block 54 bottom and laminating of spring top, spacing bucket 57 outside fixedly cup joints go-between 56, the L-shaped gag lever post 55 that two bilateral symmetry set up of go-between 56 outside fixedly connected with, and the one end fixed connection that spacing bucket 57 was kept away from to two L-shaped gag lever posts 55 is in loading plate 41 bottom department, the transmission pole outside is close to top department cup joints plectane 12, plectane 12 bottom fixedly connected with a plurality of electro-magnet 42, and a plurality of electro-magnet 42 are in annular array arrangement with plectane 12 as the center, power supply unit 4 front side is equipped with a plurality of cables 11, and power supply unit 4 is through a plurality of cables 11 and adjacent electro-magnet 42 electric connection, iron plate 36 is all installed on a plurality of material 13 tops, through the mutual cooperation between the above parts, can realize when emulsion explosive carries out the mixed processing to raw and other materials, the ratio control of raw and other materials is within a scope, improve the finished product quality of emulsion explosive, retrieve material 13 simultaneously.

The front side of the inner cavity of the stirring barrel 38 is provided with the frequency sensor 20, the front side of the stirring barrel 38 is provided with the storage box 22, the left side and the right side of the storage box 22 are fixedly connected with the fixing pieces 18, the storage box 22 is fixedly connected with the stirring barrel 38 through the two fixing pieces 18, the rear side of the storage box 22 is inserted with a transverse pipe, the rear end of the transverse pipe penetrates through the stirring barrel 38, the inner cavity of the storage box 22 is provided with the second pump body, the frequency sensor 20 is provided with the cable 21, the frequency sensor 20 is electrically connected with the second pump body through the cable 21, the bottom of the stirring barrel 38 is provided with the horizontal sensor 39 near the front side, the bottom of the stirring barrel 38 is provided with the regulating motor 24, the left side of the regulating motor 24 is fixedly connected with the welding rod 51, the left end of the welding rod 51 is fixedly connected with the reinforcing plate 34, the left side of the regulating motor 24 is fixedly connected with the connecting plate 23 through the dismounting plate and the reinforcing plate 34, the power output shaft of the regulating motor 24 is fixedly connected with the connecting plate 23, the left side of the connecting plate 23 is fixedly connected with a swinging plate 50, the left side of the swinging plate 50 is fixedly connected with a box body 58, the front side and the rear side of the box body 58 are both provided with rectangular grooves, the inner cavity of the box body 58 is provided with a turnover block 61, the right side of the turnover block 61 is fixedly connected with an inclined block 60, the inclined block 60 is provided with a chute, the inner cavity of the chute is provided with a connecting shaft 59, the front end and the rear end of the connecting shaft 59 penetrate through the adjacent rectangular grooves, the outer side of the box body 58 is provided with a movable plate 47, the front end and the rear end of the connecting shaft 59 penetrate through the inner side wall of the movable plate 47, the left side of the turnover block 61 is fixedly connected with a linkage ring 63, the inner cavity of the linkage ring 63 is penetrated with a receiving tube 62, the receiving tube 62 is positioned at the bottom end of a discharge tube, the right side of the box body 58 is fixedly connected with an inclined plate 48, the right side of the movable plate 47 is provided with a cylinder 49, the right end of the cylinder 49 is fixedly connected with the left side of the connecting plate 23, the bottom of the inner cavity of the box body 58 is in a conical shape, the bottom of the box body 58 is fixedly connected with a freezing box 25, the inner chamber of freezer 25 is provided with the container, and the pan feeding mouth has been seted up at freezer 25 top, and the pan feeding mouth is for link up each other with box 58 setting, and chamber door 64 is installed to freezer 25 front side, and chamber door 64 material is transparent material, through the mutual cooperation between above parts, can realize detecting emulsion explosive low temperature resistance to ensure emulsion explosive sensitization's reliability under the low temperature.

The packaging mechanism 26 front side is close to bottom department fixedly connected with guide block 27, and two arc 30 of guide block 27 front side fixed connection, and two arc 30 are bilateral symmetry setting, the fluting has all been seted up at two arc 30 tops, guide block 27 front side has cooling mechanism 28, cooling mechanism 28 both sides all fixedly connected with L shape dead lever 29, the one end that cooling mechanism 28 was kept away from to two L shape dead levers 29 is all fixed connection on adjacent arc 30, there is blanking plate 33 in packaging mechanism 26 left side, the discharge gate has been seted up on the blanking plate 33, there is swiveling wheel 31 blanking plate 33 top, the charging hole has been seted up on the swiveling wheel 31, swiveling wheel 31 inner chamber runs through and is equipped with the bull stick, and rather than fixed connection, swiveling motor 32 is located to the bull stick left end, swiveling motor 32 power output shaft and bull stick fixed connection, the bull stick outside has cup jointed two stands, and two stand are bilateral symmetry setting, two stand bottom all fixed connection are in blanking plate 33 top department, through the mutual cooperation between the above parts, can realize the fixed position to the emulsion in the process of blowing, the improvement of the safety in the production process.

The agitator 38 left side fixed connection is on placing board 14, mounting panel 1 left side is close to bottom department fixedly connected with installed part 17, installed part 17 left side fixed connection is in place board 14 right side department, the socket has been seted up on placing board 14, the socket inner chamber runs through and is equipped with expansion plate 65, expansion plate 65 right side fixedly connected with bottom plate 66, bottom plate 66 top fixedly connected with roof 67, roof 67 top fixedly connected with baffle 68, the articulated piece 69 is articulated at roof 67 top, articulated piece 69 right side fixedly connected with trigger lever 70, install on the packagine machine constructs 26 and control panel 52, the door 53 that opens and shuts is installed to packagine machine constructs 26 rear side.

A blow-drying device for an emulsion explosive production line and a use method thereof comprise the following steps:

s1: firstly, staff pours latex matrix into the inner cavity of the stirring barrel 38, and starts the stirring motor 37 through the control panel 52, the stirring motor 37 can drive the first worm wheel 5 to rotate through the power output shaft, the first worm wheel 5 can drive the first worm 6 to rotate, the first worm 6 can drive the driving gear 2 to rotate through the first rotating shaft, the driving gear 2 can drive the driven gear 3 to rotate, the driven gear 3 can drive a plurality of stirring rods 16 to rotate through the transmission rod, the latex matrix is stirred, then the expansion plate 65 is pushed to the right side, the trigger rod 70 moves to the right side, and the preparation work is completed.

S2: then, as the annular plate 40 and the transmission rod are in a fixed sleeving relationship, the annular plate 40 can drive the plurality of top blocks 54 and the limiting barrel 57 to rotate when rotating, when the top blocks 54 are contacted with the trigger rod 70, the top blocks can move downwards, the overturning plate at the bottom end of the storage tube 13 loses the top force of the top blocks 54, overturning occurs, and the nitrous acid solution in the inner cavity of the storage tube 13 flows downwards and enters the inner cavity of the stirring barrel 38 to be mixed with the emulsion matrix.

S3: meanwhile, the stirring motor 37 can drive the transmission plate 7 to rotate through the power output shaft, the transmission plate 7 can drive the rotary plate 10 to slightly swing through the adjusting rod 8, the rotary plate 10 can drive the second worm wheel 9 to reciprocally rotate when in swinging, the second worm wheel 9 can drive the second worm 19 to lift and move when in reciprocal rotation, the second worm 19 can drive the fourth rotating shaft to lift and move when in movement, the moving track of the second worm 19 can be limited through the fastening plate 15, the frequency sensor 20 can be started when the number of times of triggering the frequency sensor 20 through the fourth rotating shaft to reach the preset number of times, the frequency sensor 20 can start the second pump body of the inner cavity of the storage box 22 through the cable 21, so that the accelerator of the inner cavity of the storage box 22 enters the inner cavity of the stirring barrel 38 through the transverse tube to be mixed with the nitrous acid solution and the emulsion matrix.

S4: when the mixing time reaches the preset requirement, the first pump body can be started through the control panel 52, the mixture in the inner cavity of the stirring barrel 38 flows out through the discharge pipe and enters the inner cavity of the receiving pipe 62, the amount of the mixture flowing out is closed along with the starting of the level sensor 39, then the starting cylinder 49 moves leftwards, the cylinder 49 can drive the inclined block 60 to move leftwards through the movable plate 47, the inclined block 60 can drive the inclined block 61 to carry out ninety-degree overturning when moving leftwards, the mixture in the inner cavity of the receiving pipe 62 enters the inner cavity of the box 58, the mixture can be prevented from overflowing through the inclined plate 48, and due to the conical arrangement at the bottom of the inner cavity of the box 58, the mixture can enter the inner cavity of the freezing box 25 through the feed inlet and flows into the container, when the freezing box 25 is started, the staff can detect the low-temperature performance of the emulsion explosive, when the detection of the emulsion explosive is not needed, the adjusting motor 24 can be started through the control panel 52, the adjusting motor 24 can drive the connecting plate 23 to rotate leftwards through the power output shaft, the connecting plate 23 can drive the box 58 to rotate, and the receiving pipe 62 is far away from the discharge pipe.

S5: afterwards, the stirring barrel 38 can pour the emulsion explosive mixture to the packaging mechanism 26 through the discharge pipe, the mixture can be packaged and molded through the existing packaging mechanism 26, when the emulsion packaging is completed, the emulsion explosive can roll out of the guide block 27 and slide between the two arc plates 30, the arc plates 30 can limit the emulsion explosive, meanwhile, the emulsion explosive can be cooled and dried through the cooling mechanism 28, finally, the emulsion explosive can be contacted with the rotating wheel 31, and when the rotating motor 32 drives the rotating wheel 31 to rotate, the emulsion explosive can enter the rotating position of the charging port and fall into the discharging port of the discharging plate 33.

S6: when the worker needs to replace the stock tube 13, the power supply device 4 can be started through the control panel 52, the power supply device 4 can start the adjacent electromagnets 42 through the cables 11, the electromagnets 42 can absorb the corresponding iron blocks 36, and meanwhile the stock tube 13 is pulled out.

Working principle: firstly, staff pours emulsion matrix into the inner cavity of a stirring barrel 38, and starts a stirring motor 37 through a control panel 52, the stirring motor 37 can drive a first worm wheel 5 to rotate through a power output shaft, the first worm wheel 5 can drive a first worm 6 to rotate, the first worm 6 can drive a driving gear 2 to rotate through a first rotating shaft, the driving gear 2 can drive a driven gear 3 to rotate, the driven gear 3 can drive a plurality of stirring rods 16 to rotate through a transmission rod, the emulsion matrix is stirred, then a telescopic plate 65 is pushed to the right side, a trigger rod 70 is moved to the right side, at the moment, the preparation work is completed, then, as an annular plate 40 and the transmission rod are in a fixed sleeving relation, the annular plate 40 can drive a plurality of jacking blocks 54 and a limiting barrel 57 to rotate when rotating, when the jacking blocks 54 are contacted with the trigger rod 70, the jacking blocks 54 can move downwards, and the overturning plate at the bottom end of a storage tube 13 loses the jacking force of the jacking blocks 54, the nitrous acid solution in the inner cavity of the material storage tube 13 flows downwards and enters the inner cavity of the stirring barrel 38 to be mixed with the emulsion matrix, meanwhile, the stirring motor 37 can drive the transmission plate 7 to rotate through the power output shaft, the transmission plate 7 can drive the rotation plate 10 to slightly swing through the adjusting rod 8, the rotation plate 10 can drive the second worm wheel 9 to reciprocally rotate when swinging, the second worm 19 can be driven to lift and move when the second worm wheel 9 reciprocally rotates, the fourth rotating shaft can be driven to lift and move when the second worm 19 moves, the moving track of the second worm 19 can be limited through the fastening plate 15, the frequency sensor 20 can be started when the number of times of the fourth rotating shaft reciprocally moving the triggering frequency sensor 20 reaches the preset number, the frequency sensor 20 can start the second pump body in the inner cavity of the storage box 22 through the cable 21, the accelerator in the inner cavity of the storage tank 22 is made to enter the inner cavity of the stirring tank 38 through the transverse pipe and be mixed with the nitrous acid solution and the emulsion matrix, when the mixing time reaches the preset requirement, the first pump body can be started through the control panel 52, the mixture in the inner cavity of the stirring tank 38 flows out through the discharge pipe and enters the inner cavity of the receiving pipe 62, the outflow amount of the mixture is closed along with the starting of the level sensor 39, then the starting cylinder 49 moves leftwards, the cylinder 49 can drive the inclined block 60 to move leftwards through the movable plate 47, the inclined block 60 can drive the overturning block 61 to carry out ninety degrees of overturning when the inclined block 60 moves leftwards, the mixture in the inner cavity of the receiving pipe 62 enters the inner cavity of the tank 58, the mixture is prevented from overflowing through the inclined plate 48, the mixture can enter the inner cavity of the freezing tank 25 through the feed inlet and flow into the container due to the conical arrangement at the bottom of the inner cavity of the tank 58, when the freezer 25 is started, a worker can detect the low temperature performance of the emulsion explosive, when the detection of the emulsion explosive is not needed, the adjusting motor 24 can be started through the control panel 52, the adjusting motor 24 can drive the connecting plate 23 to rotate through the power output shaft, the connecting plate 23 can drive the box 58 to rotate through the swinging plate 50, the receiving pipe 62 is far away from the discharging pipe, then the stirring barrel 38 can pour the emulsion explosive mixture to the packaging mechanism 26 through the discharging pipe, the mixture can be packaged and molded through the existing packaging mechanism 26, when the emulsion packaging is finished, the mixture can roll out of the guide block 27 and slide between the two arc plates 30, the arc plates 30 can limit the emulsion explosive, meanwhile, the emulsion explosive can be radiated and dried through the radiating mechanism 28, finally, the emulsion explosive is contacted with the rotating wheel 31, when the rotating motor 32 drives the rotating wheel 31 to rotate, emulsion explosive can enter the rotary position of the charging hole and fall into the discharging hole of the blanking plate 33, when a worker needs to replace the stock pipe 13, the power supply device 4 can be started through the control panel 52, the power supply device 4 can start the adjacent electromagnets 42 through the plurality of cables 11, the electromagnets 42 can adsorb the corresponding iron blocks 36, and meanwhile, the stock pipe 13 is pulled out.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. A weather device for producing emulsion explosive production line, including mounting panel (1) that the level set up, its characterized in that: the utility model discloses a stirring device, including a motor, a first power-driven plate (37) and a second power-driven plate (37), wherein the front side of mounting panel (1) is close to top fixedly connected with two loading plates (43), and two loading plates (43) are bilateral symmetry setting, are located left loading plate (43) top is close to front side department and has driven gear (3), are located right loading plate (43) top is close to front side department and has driving gear (2), driven gear (3) and driving gear (2) are intermeshing setting, driven gear (3) centre of a circle department runs through and is equipped with the transfer line to be fixedly connected with it, driving gear (2) centre of a circle department runs through and is equipped with first pivot, and is fixedly connected with it, first pivot outside is close to bottom department fixedly cup jointed first worm (6), mounting panel (1) front side is close to center department fixedly connected with fixed plate (44), first pivot bottom grafting is in the bottom of fixed plate (44), mounting panel (1) right side is close to top fixedly connected with T shaped plate (46), stirring motor (37) are installed at stirring motor (37) top, worm wheel (37) centre of a power-driven shaft (5) is fixedly connected with first power-driven shaft (5) centre of a circle (5), and the transmission plate (7) is fixedly sleeved at the position, close to the front end, of the outer side of the second rotating shaft, the front side of the transmission plate (7) is hinged with the adjusting rod (8), the position, close to the bottom, of the rear side of the adjusting rod (8) is hinged with the rotating plate (10), the inner cavity of the rotating plate (10) is penetrated and provided with a third rotating shaft which is fixedly connected with the third rotating shaft, the position, close to the front end, of the outer side of the third rotating shaft is fixedly sleeved with the second worm wheel (9), the position, close to the rear end, of the third rotating shaft is fixedly sleeved with the second worm wheel (38), the position, close to the rear end, of the outer side of the third rotating shaft is sleeved with the inserting plate (45), the inserting plate (45) is fixedly connected with the mounting plate (1), the outer side, close to the center, of the transmission rod is sleeved with the fastening plate (15), the rear side of the fastening plate (15) is fixedly connected with the mounting plate (1), the inner cavity, close to the front side of the fastening plate (15) is penetrated and provided with the fourth rotating shaft, the inner cavity, the fourth rotating shaft is fixedly sleeved with the second worm (19), the outer side of the second worm wheel (9) is meshed with the second worm wheel (38), the inner cavity, the second worm wheel (38) is meshed with the inner cavity, the inner cavity (38) is meshed with the inner cavity of the stirring rod, the stirring rod is arranged in a plurality of the inner cavity (16) which extends to the inner cavity (16), and extends to the inner cavity (38), and is fixedly arranged at the bottom of the stirring rod (16), the utility model discloses a material discharging pipe is inserted at the bottom of a stirring barrel (38), a packaging mechanism (26) is arranged at the bottom of the stirring barrel (38), a reinforcing plate (34) is welded at the top of the packaging mechanism (26), a power supply device (4) is arranged at the bottom of the stirring barrel (38) and the reinforcing plate (34) at the rear side of a mounting plate (1) near the left side, an L-shaped connecting rod (35) is fixedly connected at the top of the power supply device (4), a loading plate (41) is sleeved at the position of the outer side of the transmission rod near the middle end, an annular plate (40) is fixedly sleeved at the outer side of the transmission rod near the middle end, the annular plate (40) is positioned at the bottom of the loading plate (41), a plurality of through holes are formed in the loading plate (41) and are arrayed in an annular array with the center of the circle of the loading plate (41), a plurality of round holes are formed in the annular plate (40) and are arrayed in an annular shape with the center of the circle of the annular plate (40), a plurality of top-down tubes (13) are arranged at the bottom end of the loading plate (13) and are connected with the top tube (54) in an array, the top tube (13) is provided with a plurality of adjacent top tube overturning holes, the bottom of the top block (54) is provided with a limiting barrel (57), the bottom of the inner cavity of the limiting barrel (57) is fixedly connected with a spring, the bottom of the top block (54) extends to the inner cavity of the limiting barrel (57), the bottom of the top block (54) is attached to the top of the spring, a connecting ring (56) is fixedly sleeved on the outer side of the limiting barrel (57), two L-shaped limiting rods (55) which are symmetrically arranged left and right are fixedly connected on the outer side of the connecting ring (56), one ends, far away from the limiting barrel (57), of the two L-shaped limiting rods (55) are fixedly connected to the bottom of the loading plate (41), a circular plate (12) is sleeved on the outer side of the driving rod, close to the top end, the bottom of the circular plate (12) is fixedly connected with a plurality of electromagnets (42), the electromagnets (42) are arrayed in an annular array with the circular plate (12) as the center, a plurality of cables (11) are arranged on the front side of the power supply device (4), the power supply device (4) is electrically connected with the adjacent electromagnets (42) through the plurality of cables (11), the top ends of the storage tubes (13) are respectively provided with an iron block (36), the front side of the inner cavity of the stirring barrel (38) is provided with a frequency sensor (20), the front side of the stirring barrel (38) is provided with a storage box (22), the left side and the right side of the storage box (22) are respectively fixedly connected with a fixing piece (18), the utility model discloses a turnover box, including box (58), tilting block (58), box (58), tilting block (50), box (58) are connected with the box, box (22) are connected with stirring (38) through two mounting (18) fixed connection, box (22) rear side grafting has the violently pipe, violently manage rear end and run through stirring (38), just box (22) inner chamber is provided with the second pump body, be equipped with cable (21) on frequency sensor (20), frequency sensor (20) pass through cable (21) and second pump body electric connection, stirring (38) bottom is close to front side department and is installed level sensor (39), stirring (38) bottom has accommodate motor (24), accommodate motor (24) left side fixedly connected with welded rod (51), welded rod (51) left end fixed connection is on reinforcing plate (34), accommodate motor (24) left side fixedly connected with dismantles the board, accommodate motor (24) are through dismantling board and reinforcing plate (34) fixed connection, accommodate motor (24) power take off fixedly connected with connecting plate (23), connecting plate (23) bottom is close to front side department, tilting block (58) are connected with box (58) both sides fixed connection, box (58) are connected with the box (60), the utility model discloses a heat dissipation device, including a box (58), a connecting plate (23), a connecting rod (28) and a heat dissipation mechanism, wherein the inclined block (60) is provided with a chute, and the inner chamber of chute is equipped with connecting shaft (59), both ends all run through adjacent rectangle groove around connecting shaft (59), there is fly leaf (47) box (58) outside, both ends all run through the inside wall of fly leaf (47) around connecting shaft (59), upset piece (61) left side fixedly connected with link ring (63), link ring (63) inner chamber runs through and is equipped with receiver tube (62), just receiver tube (62) are located row material pipe bottom department, box (58) right side fixedly connected with swash plate (48), cylinder (49) are installed on fly leaf (47) right side, cylinder (49) right-hand member fixed connection is in connecting plate (23) left side department, packagine mechanism (26) front side is close to bottom department fixedly connected with guide block (27), just guide block (27) front side fixedly connect two arc plates (30), and two arc plates (30) are bilateral symmetry setting, two arc plates (30) are located two arc plates (30) and are all connected with fixed connection arc plates (28) in the shape, two side (28) are all fixed connection of arc plates (28) are located on both sides of the front of connecting plate (28), the utility model discloses a packaging mechanism, including packing mechanism (26), there is blanking plate (33) left side, the discharge gate has been seted up on blanking plate (33), there is swiveling wheel (31) blanking plate (33) top, there is the charge port on swiveling wheel (31), swiveling wheel (31) inner chamber runs through and is equipped with the bull stick to rather than fixed connection, there is rotating electrical machines (32) bull stick left end, rotating electrical machines (32) power take off shaft and bull stick fixed connection, two stands have been cup jointed in the bull stick outside, and two the stand is bilateral symmetry setting, two stand bottom equal fixed connection is in blanking plate (33) top department, agitator (38) left side fixed connection is on place board (14), the mounting board (1) left side is close to bottom department fixed connection installed part (17), install socket on (17) left side fixed connection is place board (14), socket is equipped with expansion plate (65) in the inner chamber run through, expansion plate (65) right side expansion plate (66) bottom plate (66), top (67) fixed connection has roof (67) top fixed connection (67), roof (67) fixed connection (67), the utility model discloses a refrigerator, including packing mechanism (26), refrigerator door (64), box (58) inner chamber bottom, control panel (52) are installed on packing mechanism (26), open and shut door (53) are installed to packing mechanism (26) rear side, box (58) inner chamber bottom is the toper setting, box (58) bottom fixedly connected with refrigerator (25), refrigerator (25) inner chamber is provided with the container, the pan feeding mouth has been seted up at refrigerator (25) top, just the pan feeding mouth is link up each other with box (58) and is set up, refrigerator door (64) are installed to refrigerator (25) front side, just refrigerator door (64) material is transparent material.

2. A method of using a blow-drying apparatus for use in an emulsion explosive production line according to claim 1, comprising the steps of:

s1: firstly, a worker pours emulsion matrixes into an inner cavity of a stirring barrel (38), a stirring motor (37) is started through a control panel (52), the stirring motor (37) can drive a first worm wheel (5) to rotate through a power output shaft, the first worm wheel (5) can drive a first worm (6) to rotate, the first worm (6) can drive a driving gear (2) to rotate through a first rotating shaft, the driving gear (2) can drive a driven gear (3) to rotate, the driven gear (3) can drive a plurality of stirring rods (16) to rotate through a transmission rod, the emulsion matrixes are stirred, then a telescopic plate (65) is pushed to the right side, and a trigger rod (70) is moved to the right side, so that preparation work is completed;

s2: then, as the annular plate (40) and the transmission rod are in a fixed sleeving relationship, the annular plate (40) can drive a plurality of top blocks (54) and a limiting barrel (57) to rotate when rotating, when the top blocks (54) are in contact with a trigger rod (70), the top blocks can move downwards, and a turnover plate at the bottom end of the storage pipe (13) loses the top force of the top blocks (54) and turns over, nitrous acid solution in the inner cavity of the storage pipe (13) flows downwards and enters the inner cavity of the stirring barrel (38) to be mixed with emulsion matrix;

S3: meanwhile, the stirring motor (37) can drive the transmission plate (7) to rotate through the power output shaft, the transmission plate (7) can drive the rotary plate (10) to swing slightly through the adjusting rod (8), the rotary plate (10) can drive the second worm wheel (9) to reciprocate when swinging, the second worm wheel (9) can drive the second worm (19) to move up and down when reciprocating, the second worm (19) can drive the fourth rotating shaft to move up and down when moving, the moving track of the second worm (19) can be limited through the fastening plate (15), when the frequency of the fourth rotating shaft reciprocating motion triggering the frequency sensor (20) reaches the preset times, the frequency sensor (20) can be started up through the cable (21), the second pump body of the inner cavity of the storage box (22) can be started, and the accelerator of the inner cavity of the storage box (22) can enter the inner cavity of the stirring barrel (38) through the transverse pipe to be mixed with the nitrous acid solution and the emulsion matrix;

s4: when the mixing time reaches the preset requirement, the first pump body can be started through the control panel (52), when the mixture in the inner cavity of the stirring barrel (38) flows out through the discharge pipe and enters the inner cavity of the receiving pipe (62), the outflow amount of the mixture is closed along with the starting of the level sensor (39), then the starting cylinder (49) moves leftwards, the cylinder (49) can drive the inclined block (60) to move leftwards through the movable plate (47), the inclined block (60) can drive the overturning block (61) to carry out ninety-degree overturning, when the mixture in the inner cavity of the receiving pipe (62) enters the inner cavity of the box (58), the mixture can be prevented from overflowing through the inclined plate (48), and because the bottom of the inner cavity of the box (58) is in a conical shape, the mixture can enter the inner cavity of the freezing box (25) through the feed inlet, and flows into the container, when the freezing box (25) is started, a worker can detect the low-temperature performance of emulsion explosive, when the emulsion explosive does not need to be detected, the control panel (52) can drive the regulating motor (24) to carry out ninety-degree overturning, and when the regulating motor (24) can drive the rotating plate (23) to drive the connecting plate (23) to rotate, the connecting plate (23) to be driven to rotate, and the connecting plate (58) to be far away from the connecting plate (50);

S5: then, the stirring barrel (38) can pour the emulsion explosive mixture to the packaging mechanism (26) through the discharge pipe, the mixture can be packaged and molded through the existing packaging mechanism (26), when the emulsion packaging is finished, the emulsion explosive can roll out of the guide block (27) and slide between the two arc plates (30), the arc plates (30) can limit the emulsion explosive, meanwhile, the emulsion explosive can be subjected to heat dissipation and blow-drying through the heat dissipation mechanism (28), finally, the emulsion explosive is contacted with the rotating wheel (31), and when the rotating motor (32) drives the rotating wheel (31) to rotate, the emulsion explosive can enter the rotating position of the charging port and fall into the discharging port of the discharging plate (33);

s6: when the worker needs to replace the storage pipe (13), the power supply device (4) can be started through the control panel (52), the power supply device (4) can start the adjacent electromagnets (42) through the cables (11), the electromagnets (42) can absorb the corresponding iron blocks (36), and meanwhile the storage pipe (13) is pulled out.