CN112275374A

CN112275374A - Processing equipment is used in production of thermal-insulated sound insulation coating

Info

Publication number: CN112275374A
Application number: CN202011135241.9A
Authority: CN
Inventors: 洪国浩
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2021-01-29

Abstract

The invention relates to the field of processing equipment for paint production, in particular to processing equipment for producing a heat-insulating and sound-insulating paint, which comprises a shell, a grinding structure, a screening structure, a shaking structure, a quantifying structure and a fixing structure, wherein the grinding structure is arranged on the shell; the grinding structure can also drive the screening structure in step and carry out work when grinding work, work through the screening structure, not only can sieve the edulcoration work with the raw materials after grinding, can also collect the not totally kibbling principle granule of screening out and handle again, thereby can avoid some raw materials granule to smash directly to get into the stirring mixing process not completely, thereby seriously influence the quality of coating preparation, the grinding structure is when carrying out raw materials grinding, can also drive the shake structure in step and carry out work, setting through the shake structure, can enough accelerate the unloading speed of raw materials, can also avoid the raw materials to take place to pile up the condition of jam, set up quantitative structure on the top of shake structure, can realize the quantitative unloading of multiple raw materials according to ratio.

Description

Processing equipment is used in production of thermal-insulated sound insulation coating

Technical Field

The invention relates to the field of processing equipment for coating production, in particular to processing equipment for producing a heat-insulating and sound-insulating coating.

Background

Coatings, traditionally known as paints. The coating is a continuous film which is coated on the surface of an object to be protected or decorated and can form firm adhesion with the object to be coated, and is a viscous liquid which is prepared by taking resin, oil or emulsion as a main material, adding or not adding pigments and fillers, adding corresponding auxiliaries and using an organic solvent or water. The paint belongs to organic chemical high molecular material, and the formed coating film belongs to high molecular compound type. According to the modern popular classification of chemical products, the coating belongs to fine chemical products. Modern coatings are gradually becoming a multifunctional engineering material, and are an important industry in chemical industry, and common thermal insulation and sound insulation coatings are produced by mixing various raw materials, and the raw materials are required to be proportioned, ground and mixed.

When carrying out the ratio to thermal-insulated soundproof coating, generally all carry out the ration splendid attire with the coating volume according to the ratio in advance, then pour into the inside of grinding the machine together and grind again, can not accomplish the batching when the feeding to reduced batching unloading and unloading efficiency, and some raw materialss still can pile up and cause the condition of ejection of compact jam at the discharge gate, seriously influence the unloading, and some not grind the inside that complete material also can be along with getting into the mixer together, thereby seriously influence stirring efficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides processing equipment for producing a heat-insulating and sound-insulating coating.

The technical scheme adopted by the invention for solving the technical problems is as follows: a processing device for producing a heat-insulating and sound-insulating coating comprises a shell, a grinding structure, a screening structure, a shaking structure, a quantitative structure and a fixing structure, wherein the grinding structure for crushing solid coating particles is arranged at one end of the shell which has the functions of supporting and protecting; the screening structure capable of screening the ground coating is arranged at one end of the shell, and the shaking structure for preventing the coating particles from being blocked during blanking is arranged at one end of the shell; the shaking structure is characterized in that a plurality of quantitative structures used for containing and quantitatively discharging different coating raw material particles are arranged at one end of the shaking structure, and one end of each quantitative structure is provided with a fixed structure capable of limiting and fixing a movable assembly inside the quantitative structure.

Specifically, the grinding structure comprises a first rotating shaft, a second rotating shaft, a first belt pulley, a motor, a second belt pulley, a first transmission belt, a first grinding roller, a second grinding roller, a first gear and a second gear, wherein one end of the shell is rotated with the first rotating shaft and the second rotating shaft which are arranged in parallel, the first rotating shaft and the second rotating shaft are respectively fixed outside the first rotating shaft and the second rotating shaft, the first belt pulley is fixed outside the first rotating shaft, the motor is fixed at one end outside the shell, the second belt pulley is fixed at one end of the motor, the first belt pulley and the second belt pulley are driven by the first transmission belt, the first gear and the second gear are rotatably connected inside the shell, and the first gear and the second gear are respectively fixed at the outer parts of the first rotating shaft and the second rotating shaft, and the first gear is meshed with the second gear.

Specifically, the screening structure comprises a fixed sleeve, a collecting box, a third rotating shaft, a convex block, a connecting block, a transverse plate, a third gear, a filter screen, a guide rod and a first spring, wherein the two ends of the shell are respectively fixed with one fixed sleeve, the inside of the fixed sleeve is respectively slid with one collecting box, the inside of the shell is rotated with the third rotating shaft, the outside of the third rotating shaft is fixed with the third gear, the third gear is meshed with the second gear, the outside of the third rotating shaft is also fixed with one convex block, the inside of the shell is slid with one filter screen in an arch bridge shape, the inner side wall of the shell is fixed with two guide rods, the filter screen and the two guide rods are slid, the first spring is clamped and fixed between the filter screen and the shell, the two ends of the filter screen are respectively fixed with one connecting block, two the connecting block with the shell slides, two the diaphragm is all fixed to the one end of connecting block.

Specifically, the shaking structure comprises a material receiving sleeve, a third belt pulley, a fourth rotating shaft, a fourth belt pulley, a second transmission belt, a cam, a shaking plate and a second spring, the top end of the shell is fixed with the receiving sleeve, the two ends of the outer part of the second rotating shaft are respectively fixed with a third belt pulley, two fourth rotating shafts which are in parallel relation are rotated at one end of the material receiving sleeve, the fourth belt pulleys are fixed outside the two fourth rotating shafts, and the two fourth belt pulleys are in transmission with the two third belt pulleys through the two second transmission belts, the cams are fixed outside the two fourth rotating shafts and rotate inside the material receiving sleeve, and the two shaking plates are rotated in the material receiving sleeve in a mirror image relationship, and the second spring is clamped and fixed between the two shaking plates and the material receiving sleeve.

Specifically, the ration structure includes discharging pipe, hopper, apron, transparent plate, scale mark, first baffle and second baffle connect the top of material cover to be a fixed a plurality ofly of parallel relation of each other the discharging pipe is a plurality of the top of discharging pipe is fixed one respectively the hopper the top of hopper is rotated the apron the one end of discharging pipe can be dismantled through the bolt and be connected with one the transparent plate the outside lateral wall of transparent plate is equipped with and is used for the measurement the scale mark the top of discharging pipe is slided first baffle the bottom of discharging pipe is slided the second baffle.

Specifically, fixed knot constructs including arm-tie, pull rod, fixed block, slot, stopper and third spring first baffle with the one end of second baffle is all fixed the arm-tie the inside of arm-tie slides the pull rod the outside of pull rod is fixed the stopper, just the stopper also with the arm-tie slides the stopper with the centre gripping is fixed between the arm-tie the third spring the one end of discharging pipe is fixed two the fixed block, two the one end of fixed block all is equipped with the confession the pull rod is male the slot.

The invention has the beneficial effects that:

(1) the processing equipment for producing the heat-insulating and sound-insulating coating can crush various coating raw material particles which need to be mixed and powdered by installing the grinding structure at one end of the shell, so that the subsequent stirring and mixing operation is convenient to perform, the grinding structure can synchronously drive the screening structure to work while grinding, the screened raw materials can be screened and decontaminated by the operation of the screening structure, screened principle particles which are not completely crushed can be collected and reprocessed, and the condition that some raw material particles are not completely crushed and directly enter the stirring and mixing process can be avoided, so that the quality of coating preparation is seriously influenced, namely, the shell is required to be installed on the equipment for mixing and stirring firstly when the raw materials are ground, the motor can work normally only by electrifying the motor and an external power supply, because the second belt pulley fixed at one end of the motor is in transmission with the first belt pulley fixed outside the first rotating shaft through the first transmission belt, when the motor works, the first rotating shaft can be driven to rotate on the shell, because the first gear fixed outside the first rotating shaft is meshed with the second gear fixed outside the second rotating shaft, when the first rotating shaft rotates, the second rotating shaft can be driven to rotate reversely on the shell, and because the first grinding roller and the second grinding roller are respectively fixed outside the first rotating shaft and the second rotating shaft, when the two rotating shafts rotate reversely, the two grinding rollers can be driven to rotate reversely, thereby the grinding effect of raw materials passing between the two grinding rollers can be achieved, the subsequent stirring and mixing are convenient, because the filter screen in an arch bridge shape slides through the two guide rods in the shell, the first spring is clamped and fixed between the filter screen and the shell, the ground raw materials can be fully filtered through the arrangement of the filter screen, so that some raw materials which are not completely ground can be intercepted, because the second gear is meshed with a third gear fixed on the outer part of a third rotating shaft, the third rotating shaft can be synchronously driven to rotate when the second rotating shaft grinds the raw materials, because a lug is fixed on the outer part of the third rotating shaft, the lug can be driven to rotate by the rotation of the third rotating shaft, two connecting blocks sliding in the shell are both connected with the filter screen and are connected through a transverse plate, when the lug rotates along with the third rotating shaft, the transverse plate can be pressed, and the continuous shaking of the filter screen can be realized through the restoring action of the first spring clamped and fixed between the filter screen and the shell, so that the falling rate of the filter screen can be accelerated, can also avoid the filter screen to take place the condition of jam, and the shake through the filter screen, can also shake off the raw materials that the not complete grinding on the filter screen from the both ends of filter screen, because fixed cover is fixed respectively at the both ends of shell, a collecting box all slides in the inside of two fixed covers, and the collecting box just in time is located the ejection of compact below of filter screen, just can collect the raw materials that shake off from the filter screen, thereby conveniently pour into again and grind, can effectively avoid the raw materials of complete grinding directly to drop into the inside of mixer, thereby seriously influence the quality that the stirring mixes.

(2) The processing equipment for producing the heat-insulating and sound-insulating coating, provided by the invention, can synchronously drive the shaking structure to work while grinding raw materials, and can accelerate the blanking rate of the raw materials and avoid the situation of accumulation and blockage of the raw materials by arranging the shaking structure, namely, because the third belt pulleys are respectively fixed at the two ends of the outer part of the second rotating shaft and the two third belt pulleys are in transmission with the two fourth belt pulleys fixed at the outer parts of the two fourth rotating shafts through the two second transmission belts, the two fourth rotating shafts can be synchronously driven to rotate while the second rotating shaft rotates, and because the cams are respectively fixed at the outer parts of the two fourth rotating shafts and are in collision with the shaking plates rotating inside the material receiving sleeve, the shaking plates can be continuously shaken when the cams continuously rotate, and the elasticity effect of the second spring that the cooperation centre gripping was fixed in between shake board and the material receiving sleeve can ensure to shake the board and can also carry out normal the reseing after by cam jack-up to can ensure the shake effect of shaking the board, thereby can effectively avoid the raw materials granule to pile up the condition that takes place to block up on shaking the board, thereby can accelerate unloading efficiency greatly.

(3) The processing equipment for producing the heat-insulating and sound-insulating coating has the advantages that the quantitative structure is arranged at the top end of the shaking structure, so that the temporary storage function of various raw materials can be realized, the production stop condition caused by temporary shortage of materials can be avoided, the quantitative blanking of various raw materials according to the proportion can be realized, the feeding efficiency is greatly improved, in addition, the limit fixing of the shielding assembly in the quantitative structure can be realized by matching with the arrangement of the fixed structure, the automatic blanking condition of the materials can be prevented, namely, a plurality of discharging pipes are fixed at the top end of the material receiving sleeve, the hoppers are all fixed at the top ends of the discharging pipes, the materials can be temporarily stored through the arrangement of the hoppers, the production stop of the materials caused by temporary shortage can be avoided, and the first baffle plate slides at the top end of each discharging pipe, so that the insides of the hoppers and the discharging pipes can be separated, at the moment, the material can not enter the discharging pipe, because the transparent plate is installed at one end of the discharging pipe through the bolt, the scale marks are arranged outside the transparent plate, and through the independent separation effect of the first baffle and the second baffle sliding at the bottom end of the discharging pipe, when the proportioning of various raw materials is required, the first baffle is opened only by closing the second baffle first, and then the material can enter the discharging pipe, when the amount of the discharged material can be known in time through the scale marks on the transparent plate and the transparent plate, when the amount of the material in the discharging pipe reaches the proportioning requirement, the first baffle can be closed at the moment, and then the second baffle is opened, so that the proportioning amount of each material can be accurately controlled, the proportioning of various raw materials is not required to be manually and independently proportioned, the proportioning of various raw materials can be accurately controlled, the proportioning and discharging efficiency can be accelerated, because the pull plates are fixed at one ends of the, at the inside slip pull rod of arm-tie, at the outside fixed stopper of pull rod, the fixed third spring of centre gripping between stopper and arm-tie, through the elastic force effect of third spring, when being close to the fixed block with the arm-tie, mention the pull rod earlier, when the arm-tie is coincided with the fixed block, only need loosen the pull rod, the pull rod will insert the inside of slot this moment, can accomplish the spacing fixed of baffle this moment, avoid at the during operation, the condition of automatic roll-off appears in the baffle.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view showing the overall structure of a preferred embodiment of a processing apparatus for producing a thermal and acoustic insulation coating according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of the attachment of the housing and the abrasive structure of FIG. 1;

FIG. 5 is a schematic view of the connection of the housing and the screening structure shown in FIG. 1;

FIG. 6 is an enlarged view of section C of FIG. 4;

FIG. 7 is an enlarged view of the portion D shown in FIG. 4;

fig. 8 is a schematic structural view of the fixing structure shown in fig. 1.

In the figure: 1. a housing, 2, a grinding structure, 21, a first rotating shaft, 22, a second rotating shaft, 23, a first belt pulley, 24, a motor, 25, a second belt pulley, 26, a first transmission belt, 27, a first grinding roller, 28, a second grinding roller, 29, a first gear, 29a, a second gear, 3, a screening structure, 31, a fixing sleeve, 32, a collecting box, 33, a third rotating shaft, 34, a bump, 35, a connecting block, 36, a transverse plate, 37, a third gear, 38, a filter screen, 39, a guide rod, 39a, a first spring, 4, a shaking structure, 41, a material receiving sleeve, 42, a third belt pulley, 43, a fourth rotating shaft, 44, a fourth belt pulley, 45, a second transmission belt, 46, a cam, 47, a shaking plate, 48, a second spring, 5, a quantifying structure, 51, a material discharging pipe, 52, a hopper, 53, a cover plate, 54, a transparent plate, 55, a scale mark, 56, a first baffle, 57. the second baffle, 6, fixed knot construct, 61, arm-tie, 62, pull rod, 63, fixed block, 64, slot, 65, stopper, 66, third spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the processing equipment for producing a thermal insulation and sound insulation coating comprises a housing 1, a grinding structure 2, a screening structure 3, a shaking structure 4, a quantifying structure 5 and a fixing structure 6, wherein the grinding structure 2 for crushing solid coating particles is installed at one end of the housing 1 for supporting and protecting; the screening structure 3 capable of screening the ground coating is arranged at one end of the shell 1, and the shaking structure 4 for preventing coating particles from being blocked during blanking is arranged at one end of the shell 1; the shaking structure 4 is provided with a plurality of quantitative structures 5 for containing and quantitatively discharging different coating raw material particles, and one end of each quantitative structure 5 is provided with a fixed structure 6 capable of limiting and fixing a movable assembly in the quantitative structure 5.

Specifically, the grinding structure 2 includes a first rotating shaft 21, a second rotating shaft 22, a first belt pulley 23, a motor 24, a second belt pulley 25, a first driving belt 26, a first grinding roller 27, a second grinding roller 28, a first gear 29 and a second gear 29a, one end of the housing 1 rotates the first rotating shaft 21 and the second rotating shaft 22, the first rotating shaft 21 and the second rotating shaft 22 are arranged in parallel, the first rotating shaft 21 and the second rotating shaft 22 are externally and respectively fixed with the first grinding roller 27 and the second grinding roller 28, the first belt pulley 23 is externally fixed with the first rotating shaft 21, the motor 24 is fixed at one end of the housing 1, the second belt pulley 25 is fixed at one end of the motor 24, and the first belt pulley 23 and the second belt pulley 25 are driven by the first driving belt 26, the inside of shell 1 rotates to be connected first gear 29 with second gear 29a, just first gear 29 with second gear 29a is fixed in respectively first pivot 21 with the outside of second pivot 22, first gear 29 with the meshing of second gear 29a, when using, need earlier shell 1 installs on the equipment of mixing stirring, when carrying out the raw materials grinding, only need with motor 24 makes with external power circular telegram motor 24 can normal work can, owing to be fixed in motor 24 one end second belt pulley 25 passes through first driving belt 26 with be fixed in first pivot 21 is outside first belt pulley 23 transmission, consequently, motor 24 during operation can drive first pivot 21 is in 1 rotates on the shell, owing to be fixed in first pivot 21 is outside first gear 29 with be fixed in second gear 29a is outside second pivot 22 The meshing, consequently, work as first pivot 21 rotates, can drive simultaneously second pivot 22 is in reverse rotation carries out on the shell 1, owing again first pivot 21 with the outside of second pivot 22 is fixed respectively first grinding roller 27 with second grinding roller 28, consequently, when two pivot counterrotations, can drive two grinding roller counterrotations to can play the grinding effect to the raw materials that passes between two grinding rollers, thereby make things convenient for subsequent stirring to mix.

Specifically, the screening structure 3 includes a fixing sleeve 31, a collecting box 32, a third rotating shaft 33, a projection 34, a connecting block 35, a transverse plate 36, a third gear 37, a filter screen 38, a guide rod 39 and a first spring 39a, wherein two ends of the housing 1 are respectively fixed with one fixing sleeve 31, one collecting box 32 slides in the fixing sleeve 31, the third rotating shaft 33 rotates in the housing 1, the third gear 37 is fixed outside the third rotating shaft 33, the third gear 37 is engaged with the second gear 29a, one projection 34 is fixed outside the third rotating shaft 33, one arch bridge-shaped filter screen 38 slides in the housing 1, two guide rods 39 are fixed on the inner side wall of the housing 1, and the filter screen 38 slides with the two guide rods 39, the first spring 39a is clamped and fixed between the filter screen 38 and the housing 1, the two ends of the filter screen 38 are respectively fixed with one of the connecting blocks 35, the two connecting blocks 35 slide with the housing 1, the transverse plate 36 is fixed at one end of the two connecting blocks 35, because the two guide rods 39 slide in the housing 1 to form the arch bridge-shaped filter screen 38, and the first spring 39a is also clamped and fixed between the filter screen 38 and the housing 1, the ground raw material can be fully filtered through the arrangement of the filter screen 38, so that some raw materials which are not completely ground can be intercepted, because the second gear 29a is meshed with the third gear 37 fixed outside the third rotating shaft 33, when the second rotating shaft 22 is used for grinding raw materials, the third rotating shaft 33 can be synchronously driven to rotate, because the protruding block 34 is fixed outside the third rotating shaft 33, the third rotating shaft 33 can drive the protruding block 34 to rotate, two connecting blocks 35 sliding inside the housing 1 are both connected with the filter screen 38, and the two connecting blocks 35 are connected through the transverse plate 36, when the protruding block 34 rotates along with the third rotating shaft 33, the transverse plate 36 is pressed, and the filter screen 38 and the housing 1 are clamped and fixed through the return action of the first spring 39a, the filter screen 38 can continuously shake, the falling rate of the filter screen 38 can be increased, the situation that the filter screen 38 is blocked can be avoided, and the incompletely ground raw materials on the filter screen 38 can be shaken from the two ends of the filter screen 38 through the shaking of the filter screen 38, because fixed one respectively at the both ends of shell 1 fixed cover 31, two the inside of fixed cover 31 all slides one collecting box 32, just the collecting box 32 just in time is located the ejection of compact below of filter screen 38, just can will follow the raw materials that filter screen 38 shaken off are collected to conveniently pour into once more and grind, can effectively avoid the raw materials of not complete grinding directly to drop into the inside of mixer, thereby seriously influence the quality that the stirring was mixed.

Specifically, the shaking structure 4 includes a material receiving sleeve 41, a third belt pulley 42, a fourth rotating shaft 43, a fourth belt pulley 44, a second transmission belt 45, a cam 46, a shaking plate 47 and a second spring 48, the material receiving sleeve 41 is fixed at the top end of the housing 1, one third belt pulley 42 is fixed at each of the two ends of the outside of the second rotating shaft 22, two fourth rotating shafts 43 in parallel are rotated at one end of the material receiving sleeve 41, the fourth belt pulleys 44 are fixed at the outside of the two fourth rotating shafts 43, the two fourth belt pulleys 44 are driven by the two second transmission belts 45 and the two third belt pulleys 42, the cam 46 is further fixed at the outside of the two fourth rotating shafts 43, the cam 46 is rotated inside the material receiving sleeve 41, the two shaking plates 47 are rotated inside the material receiving sleeve 41 in a mirror image relationship, the second spring 48 is clamped and fixed between the two shaking plates 47 and the material receiving sleeve 41, because the third belt pulleys 42 are respectively fixed at two ends of the outside of the second rotating shaft 22, and the two third belt pulleys 42 are in transmission with the two fourth belt pulleys 44 fixed at the outside of the two fourth rotating shafts 43 through the two second transmission belts 45, the two fourth rotating shafts 43 can be synchronously driven to rotate while the second rotating shaft 22 rotates, and because one cam 46 is respectively fixed at the outside of the two fourth rotating shafts 44, and the cam 46 is in contact with the shaking plate 47 rotating inside the material receiving sleeve 41, when the cam 46 continuously rotates, the shaking plate 47 can be continuously contacted and shaken, and the elastic force of the second spring 48 clamped and fixed between the shaking plate 47 and the material receiving sleeve 41 is matched, the shaking plate 47 can be enabled to be normally reset after being jacked up by the cam 46, so that the shaking effect of the shaking plate 47 can be ensured, the situation that raw material particles are accumulated on the shaking plate 47 and are blocked can be effectively avoided, and the blanking efficiency can be greatly accelerated.

Specifically, the quantitative structure 5 includes a discharge pipe 51, a hopper 52, a cover plate 53, a transparent plate 54, a scale mark 55, a first baffle 56 and a second baffle 57, wherein a plurality of discharge pipes 51 are fixed on the top end of the material receiving sleeve 41 in a parallel relationship, one hopper 52 is fixed on each of the top ends of the plurality of discharge pipes 51, the cover plate 53 is rotated on the top end of the hopper 52, one transparent plate 54 is detachably connected to one end of the discharge pipe 51 through a bolt, the scale mark 55 for metering is provided on the outer side wall of the transparent plate 54, the first baffle 56 is slid on the top end of the discharge pipe 51, the second baffle 57 is slid on the bottom end of the discharge pipe 51, the plurality of discharge pipes 51 are fixed on the top end of the material receiving sleeve 41, the hopper 52 is fixed on the top ends of the plurality of the discharge pipes 51, and the hopper 52 is arranged, the material can be temporarily stored, production stop caused by temporary shortage of the material can be avoided, the first baffle plate 56 slides on the top end of each discharge pipe 51, the hopper 52 and the discharge pipe 51 can be separated, the material can not enter the discharge pipe 51, the transparent plate 54 is installed at one end of each discharge pipe 51 through bolts, the scale marks 55 are arranged outside the transparent plate 54, the first baffle plate 56 and the second baffle plate 57 sliding on the bottom end of the discharge pipe 51 can be separated independently, when proportioning of various raw materials is needed, the second baffle plate 57 is closed first, the first baffle plate 56 is opened, the material can enter the discharge pipe 51, and when the blanking amount can be known in time through the transparent plate 54 and the scale marks 55 on the transparent plate 54, when the material volume inside the discharging pipe 51 reaches the ratio requirement, the first baffle 56 can be closed at this moment, and then the second baffle 57 can be opened, so that the ratio of each material can be accurately controlled, and manual separate ratio is not needed, so that the ratio of various raw materials can be accurately controlled, and the proportioning and discharging efficiency can be accelerated.

Specifically, the fixing structure 6 includes a pulling plate 61, a pulling rod 62, fixing blocks 63, slots 64, a limiting block 65 and a third spring 66, the pulling plate 61 is fixed to one end of the first baffle plate and the second baffle plate 56, the pulling rod 62 slides inside the pulling plate 61, the limiting block 65 is fixed to the outside of the pulling rod 62, the limiting block 65 also slides with the pulling plate 61, the third spring 66 is clamped and fixed between the limiting block 65 and the pulling plate 61, two fixing blocks 63 are fixed to one end of the discharging pipe 51, the slots 64 for inserting the pulling rod 62 are arranged at one end of each of the two fixing blocks 63, the pulling plate 61 is fixed to one end of the first baffle plate 56 and the second baffle plate 57, the pulling rod 62 slides inside the pulling plate 61, the limiting block 65 is fixed to the outside of the pulling rod 62, the third spring 66 is clamped and fixed between the limiting block 65 and the pull plate 61, and under the action of the elastic force of the third spring 66, when the pull plate 61 is close to the fixed block 63, the pull rod 62 is firstly lifted, when the pull plate 61 is inosculated with the fixed block 63, the pull rod 62 is only required to be loosened, at the moment, the pull rod 62 is inserted into the slot 64, at the moment, the limiting fixation of the baffle 61 can be completed, and the situation that the baffle 61 automatically slides out when working is avoided.

When the invention is used, a plurality of discharging pipes 51 are fixed at the top end of the receiving sleeve 41, the hoppers 52 are fixed at the top ends of the discharging pipes 51, materials can be temporarily stored through the arrangement of the hoppers 52, the production stop caused by temporary shortage of the materials is avoided, the insides of the hoppers 52 and the discharging pipes 51 can be separated because one first baffle plate 56 slides at the top end of each discharging pipe 51, the materials can not enter the inside of the discharging pipes 51 at the moment, because the transparent plate 54 is arranged at one end of each discharging pipe 51 through bolts, the scale mark 55 is arranged at the outside of the transparent plate 54, and through the independent separation effect of the first baffle plate 56 and the second baffle plate 57 sliding at the bottom end of each discharging pipe 51, when the proportioning of various raw materials is required, the second baffle plate 57 is closed firstly, the first baffle 56 is opened, materials enter the discharging pipe 51, the discharging amount can be known in time through the transparent plate 54 and the scale marks 55 on the transparent plate 54, when the material amount inside the discharging pipe 51 meets the matching requirement, the first baffle 56 can be closed, and then the second baffle 57 can be opened, so that the matching amount of each material can be accurately controlled, manual matching is not needed, matching of various raw materials can be accurately controlled, the matching and discharging efficiency can be improved, because the pull plate 61 is fixed at one end of the first baffle 56 and one end of the second baffle 57, the pull rod 62 is slid inside the pull plate 61, the limit block 65 is fixed outside the pull rod 62, and the third spring 66 is clamped and fixed between the limit block 65 and the pull plate 61, through the elastic force of the third spring 66, when the pull plate 61 is close to the fixed block 63, the pull rod 62 is firstly lifted, when the pull plate 61 is fitted with the fixed block 63, the pull rod 62 is only required to be loosened, and then the pull rod 62 is inserted into the slot 64, so that the limiting and fixing of the baffle plate 61 can be completed, and the situation that the baffle plate 61 automatically slides out during operation is avoided; the housing 1 needs to be installed on a mixing and stirring device, when raw materials are ground, the motor 24 and an external power supply are powered on to enable the motor 24 to work normally, the second belt pulley 25 fixed at one end of the motor 24 is in transmission with the first belt pulley 23 fixed outside the first rotating shaft 21 through the first transmission belt 26, so that the motor 24 can drive the first rotating shaft 21 to rotate on the housing 1 when working, and the first gear 29 fixed outside the first rotating shaft 21 is engaged with the second gear 29a fixed outside the second rotating shaft 22, so that when the first rotating shaft 21 rotates, the second rotating shaft 22 can be driven to rotate reversely on the housing 1, and the first grinding roller 27 and the second grinding roller 28 are fixed outside the first rotating shaft 21 and the second rotating shaft 22 respectively, therefore, when the two rotating shafts rotate reversely, the two grinding rollers can be driven to rotate reversely, so that the grinding effect of the raw material passing through between the two grinding rollers can be achieved, and the subsequent stirring and mixing are convenient, because the two guide rods 39 slide the filter screen 38 in the housing 1 in an arch bridge shape, and the first spring 39a is clamped and fixed between the filter screen 38 and the housing 1, the ground raw material can be fully filtered through the arrangement of the filter screen 38, so that some raw material which is not completely ground can be intercepted, and because the second gear 29a is meshed with the third gear 37 fixed on the outer part of the third rotating shaft 33, the third rotating shaft 33 can be synchronously driven to rotate when the second rotating shaft 22 grinds the raw material, because the bump 34 is fixed outside the third rotating shaft 33, the third rotating shaft 33 can rotate to drive the bump 34 to rotate, the two connecting blocks 35 sliding inside the housing 1 are both connected with the filter screen 38, and the two connecting blocks 35 are connected through the transverse plate 36, when the bump 34 rotates along with the third rotating shaft 33, the transverse plate 36 is pressed, and the filter screen 38 can continuously shake through the restoring action of the first spring 39a clamped and fixed between the filter screen 38 and the housing 1, so that the falling rate of the filter screen 38 can be increased, the situation that the filter screen 38 is blocked can be avoided, and the raw materials which are not completely ground on the filter screen 38 can be shaken off from the two ends of the filter screen 38 through the shaking of the filter screen 38, because the two ends of the shell 1 are respectively fixed with one fixing sleeve 31, one collecting box 32 slides in the two fixing sleeves 31, and the collecting box 32 is just positioned below the discharge of the filter screen 38, the raw materials shaken off from the filter screen 38 can be collected, so that the raw materials can be conveniently poured into the mixer again for grinding, and the raw materials which are not completely ground can be effectively prevented from directly falling into the mixer, so that the quality of mixing and stirring is seriously influenced; since the third pulleys 42 are respectively fixed to both ends of the outside of the second rotating shaft 22, and the two third pulleys 42 are driven by the two second driving belts 45 to the two fourth pulleys 44 fixed to the outside of the two fourth rotating shafts 43, the two fourth rotating shafts 43 can be synchronously driven to rotate while the second rotating shaft 22 rotates, and since one cam 46 is respectively fixed to the outside of the two fourth rotating shafts 44 and the cam 46 abuts against the shaking plate 47 rotating inside the material receiving sleeve 41, the shaking plate 47 can be continuously abutted against and shaken when the cam 46 continuously rotates, and the shaking plate 47 can be normally returned after being jacked up by the cam 46 in cooperation with the elastic force of the second spring 48 clamped and fixed between the shaking plate 47 and the material receiving sleeve 41, therefore, the shaking effect of the shaking plate 47 can be ensured, the situation that raw material particles are accumulated on the shaking plate 47 and blocked can be effectively avoided, and the blanking efficiency can be greatly accelerated.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a processing equipment is used in production of thermal-insulated sound insulation coating which characterized in that: the paint grinding machine comprises a shell (1), a grinding structure (2), a screening structure (3), a shaking structure (4), a quantifying structure (5) and a fixing structure (6), wherein the grinding structure (2) for crushing paint solid particles is installed at one end of the shell (1) with the functions of supporting and protecting; the screening structure (3) capable of screening the ground coating is arranged at one end of the shell (1), and the shaking structure (4) for preventing the coating particles from being blocked during blanking is arranged at one end of the shell (1); the shaking device is characterized in that one end of the shaking structure (4) is provided with a plurality of quantitative structures (5) used for containing and quantitatively discharging different coating raw material particles, and one end of each quantitative structure (5) is provided with a fixed structure (6) capable of limiting and fixing a movable assembly inside the quantitative structure (5).

2. The processing equipment for producing the heat and sound insulation coating according to claim 1, wherein: the grinding structure (2) comprises a first rotating shaft (21), a second rotating shaft (22), a first belt pulley (23), a motor (24), a second belt pulley (25), a first transmission belt (26), a first grinding roller (27), a second grinding roller (28), a first gear (29) and a second gear (29 a), one end of the shell (1) rotates the first rotating shaft (21) and the second rotating shaft (22), the first rotating shaft (21) and the second rotating shaft (22) are arranged in parallel, the first grinding roller (27) and the second grinding roller (28) are respectively fixed outside the first rotating shaft (21) and the second rotating shaft (22), the first belt pulley (23) is fixed outside the first rotating shaft (21), the motor (24) is fixed at one end of the shell (1), and the second belt pulley (25) is fixed at one end of the motor (24), and the first belt pulley (23) and the second belt pulley (25) are driven by the first transmission belt (26), the first gear (29) and the second gear (29 a) are rotatably connected inside the shell (1), the first gear (29) and the second gear (29 a) are respectively fixed on the outer parts of the first rotating shaft (21) and the second rotating shaft (22), and the first gear (29) and the second gear (29 a) are meshed.

3. The processing equipment for producing the heat and sound insulation coating according to claim 2, wherein: the screening structure (3) comprises a fixed sleeve (31), a collection box (32), a third rotating shaft (33), a convex block (34), a connecting block (35), a transverse plate (36), a third gear (37), a filter screen (38), a guide rod (39) and a first spring (39 a), wherein the two ends of the shell (1) are respectively fixed with one of the fixed sleeve (31), the interior of the fixed sleeve (31) is respectively slid with one of the collection box (32), the interior of the shell (1) is rotated with the third rotating shaft (33), the exterior of the third rotating shaft (33) is fixed with the third gear (37), the third gear (37) is meshed with the second gear (29 a), the exterior of the third rotating shaft (33) is also fixed with one of the convex block (34), the interior of the shell (1) is slid with one of the filter screen (38) in an arch shape, fix two on the inside lateral wall of shell (1) guide bar (39), filter screen (38) and two guide bar (39) slide filter screen (38) with the centre gripping is fixed between shell (1) first spring (39 a) the both ends of filter screen (38) are fixed one respectively connecting block (35), two connecting block (35) with shell (1) slides, two the one end of connecting block (35) is all fixed diaphragm (36).

4. The processing equipment for producing the heat and sound insulation coating according to claim 2, wherein: the shaking structure (4) comprises a material receiving sleeve (41), a third belt pulley (42), a fourth rotating shaft (43), a fourth belt pulley (44), a second transmission belt (45), a cam (46), a shaking plate (47) and a second spring (48), wherein the top end of the shell (1) is fixed with the material receiving sleeve (41), two ends of the outside of the second rotating shaft (22) are respectively fixed with one third belt pulley (42), one end of the material receiving sleeve (41) is rotated with two fourth rotating shafts (43) which are in parallel relation, the outside of the two fourth rotating shafts (43) is fixed with the fourth belt pulley (44), the two fourth belt pulleys (44) are transmitted with the two third belt pulleys (42) through the two second transmission belts (45), and the cam (46) is further fixed on the outside of the four rotating shafts (43), and the cam (46) rotates in the material receiving sleeve (41), the two shaking plates (47) rotate in the material receiving sleeve (41) in a mirror image relationship, and the second springs (48) are clamped and fixed between the two shaking plates (47) and the material receiving sleeve (41).

5. The processing equipment for producing the heat and sound insulation coating according to claim 4, wherein: quantitative structure (5) are fixed a plurality ofly including discharging pipe (51), hopper (52), apron (53), transparent plate (54), scale mark (55), first baffle (56) and second baffle (57) connect the top of material cover (41) to be parallel relation of each other discharging pipe (51) are a plurality of the top of discharging pipe (51) is fixed one respectively hopper (52) the top of hopper (52) is rotated apron (53) the one end of discharging pipe (51) is passed through the bolt and can be dismantled and be connected with one transparent plate (54) the outside lateral wall of transparent plate (54) is equipped with and is used for the measurement scale mark (55) the top of discharging pipe (51) is slided first baffle (56) the bottom of discharging pipe (51) is slided second baffle (57).

6. The processing equipment for producing the heat and sound insulation coating according to claim 5, wherein: fixed knot constructs (6) and includes arm-tie (61), pull rod (62), fixed block (63), slot (64), stopper (65) and third spring (66) first baffle and (56) the one end of second baffle (57) is all fixed arm-tie (61) the inside slip of arm-tie (61) pull rod (62) the external fixation of pull rod (62) stopper (65), just stopper (65) also with pull plate (61) slip stopper (65) with the centre gripping is fixed between arm-tie (61) third spring (66) the one end of discharging pipe (51) is fixed two fixed block (63) two the one end of fixed block (63) all is equipped with the confession pull rod (62) male slot (64).