CN117258604B

CN117258604B - Coating decomposition and emulsification structure for paper

Info

Publication number: CN117258604B
Application number: CN202311550613.8A
Authority: CN
Inventors: 李成; 徐天平; 范萌; 王银磊; 闫继芳; 崔小龙; 林一鸣; 谷建河
Original assignee: Jinyinlian Tianjin New Materials Technology Co ltd
Current assignee: Jinyinlian Tianjin New Materials Technology Co ltd
Priority date: 2023-11-21
Filing date: 2023-11-21
Publication date: 2024-02-23
Anticipated expiration: 2043-11-21
Also published as: CN117258604A

Abstract

The invention relates to the technical field of paint decomposition and emulsification equipment, and discloses a paint decomposition and emulsification structure for paper. The limiting piece is folded, the limiting piece is connected with the stirring blade power, the turnover of the stirring blade drives the limiting piece to rotate, the rotation of the limiting piece drives the filtering piece to conduct linear reciprocating motion, the filtering piece can simulate shaking motion by shaking generated by the linear reciprocating motion, the blocking inside the filtering piece is eliminated, the stable operation of a hydraulic system of equipment is guaranteed, the operation stability of the equipment is improved, and the maintenance cost of the equipment is reduced.

Description

Coating decomposition and emulsification structure for paper

Technical Field

The invention relates to the technical field of paint decomposition and emulsification equipment, in particular to a paint decomposition and emulsification structure for paper.

Background

A disperser is broadly a type of stirrer. Because the high-speed stirrer is adopted, strong turbulence can be formed locally, and the material is generally decomposed and emulsified strongly. Such high speed agitators are also known as dispersers. In the production of paper paint, a dispersing machine used in the process of decomposing and emulsifying is important.

In the existing dispersing machine used for decomposing and emulsifying structures, as in the Chinese patent application CN109954425A, the emulsifying and dispersing precision of the device is higher by arranging three-stage rotors and a dispersing inner cavity with a lug; by arranging the filter screen, the device can not be doped with sundries during feeding, and is beneficial to protecting an emulsifying and dispersing machine; through structural improvement, the device has the advantages of high emulsification and dispersion precision, no impurity doping and the like, thereby effectively solving the problems and the defects existing in the prior device.

But there are also the following problems: the hydraulic system is supplied with oil by the hydraulic pump, a filter is arranged at the inlet of the pump, when the filter is blocked, the hydraulic pump cannot suck hydraulic oil to cause the non-pressure of the hydraulic system, so that the equipment cannot work normally, the cost generated by shutdown maintenance is high, and meanwhile, the working efficiency of the equipment is greatly reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a paint decomposition and emulsification structure for paper, which has the advantages of ensuring the stable operation of a hydraulic system of equipment, improving the operation stability of the equipment, reducing the maintenance cost of the equipment and the like, and solves the problems that when the hydraulic system is supplied with oil by a hydraulic pump and a filter is arranged at a pump inlet, the hydraulic pump cannot suck hydraulic oil to cause the hydraulic system to have no pressure, the equipment cannot work normally, the cost generated by shutdown maintenance is high, and the working efficiency of the equipment is greatly reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a paper is with coating decomposition emulsification structure, includes the chassis, sets up decomposition emulsification mechanism on the chassis, set up the complementary unit beside the chassis, decomposition emulsification mechanism includes treatment jar, stirring roller, stirring leaf, fixed mounting on the chassis the treatment jar, the activity is provided with a plurality of in the treatment jar the stirring roller, the activity is provided with a plurality of in the treatment jar the stirring leaf, the stirring roller is in middle part turnover motion and rotation in the treatment jar, the stirring leaf is in contact with the inner wall turnover motion of treatment jar;

the auxiliary mechanism comprises a limiting part, a hydraulic pump and a filtering part, wherein the limiting part is in running fit on the underframe, the limiting part is in power connection with the stirring blade, the hydraulic pump is fixedly arranged beside the underframe, the filtering part is arranged at the inlet end of the hydraulic pump, one end of the filtering part is communicated with an external hydraulic system, the other end of the filtering part is communicated with the hydraulic pump, the two ends of the filtering part are respectively provided with a telescopic structure, and the filtering part is in power connection with the limiting part;

when the power connection part between the limiting piece and the stirring blade is relieved, the rotation of the stirring blade cannot drive the limiting piece to rotate, when the power connection lock catch between the limiting piece and the stirring blade is used, the stirring She Daidong rotates the limiting piece, and the limiting piece drives the filtering piece to perform linear reciprocating motion.

Preferably, the decomposing and emulsifying mechanism further comprises a hydraulic telescopic rod, a plurality of hydraulic telescopic rods are fixedly installed on the bottom frame, the hydraulic telescopic rods are located at corners of the bottom frame, a top frame is arranged above the hydraulic telescopic rods, the top frame is fixedly connected with extension rods of the hydraulic telescopic rods, a plurality of hydraulic control valves are fixedly installed on the top frame, the hydraulic control valves are located right above the hydraulic telescopic rods, and the hydraulic control valves are communicated with the hydraulic telescopic rods to enable the hydraulic control valves to control the inlet and outlet of hydraulic oil in the hydraulic telescopic rods.

Preferably, the bottom of the treatment tank is fixedly provided with a water outlet, the water outlet is provided with a valve, the water outlet is used for controlling the discharge of objects in the treatment tank, the bottom end of the top frame is fixedly provided with a top cover, the top cover is positioned right above the treatment tank, and the top cover is matched with the tank opening of the treatment tank.

Preferably, the driving motor is fixedly arranged at the top end of the top frame, a center rod is rotatably matched with the top frame, the center rod penetrates through the top frame, the center rod is fixedly connected with the shaft of the driving motor, the center rod penetrates through the top cover, the center rod extends into the treatment tank, a linkage frame is fixedly arranged on the center rod, the linkage frame is positioned below the top cover, the linkage frame is adjacent to the top cover, planetary gears are rotatably matched with the two ends of the linkage frame, a first toothed ring is fixedly arranged in the top cover, the first toothed ring is meshed with the planetary gears in a homogeneous phase mode, stirring rollers are rotatably matched with the two ends of the linkage frame, and the stirring rollers are in power connection with the planetary gears.

Preferably, the bottom end of the central rod is fixedly provided with a driving gear, the bottom end inside the treatment tank is in running fit with an auxiliary gear, the auxiliary gear is meshed with the driving gear, the bottom end inside the treatment tank is in running fit with a second toothed ring, the driving gear and the auxiliary gear are both positioned in the second toothed ring, the auxiliary gear is meshed with the second toothed ring, a plurality of stirring blades are fixedly installed on the second toothed ring, the stirring She Duichen is arranged, the top end of the second toothed ring is fixedly provided with a separation protective cover, the central rod penetrates through the separation protective cover, and the driving gear and the auxiliary gear are both positioned below the separation protective cover.

Preferably, the auxiliary mechanism comprises a linkage gear, the linkage gear is rotationally matched with the treatment tank, the linkage gear is located below the second toothed ring, the linkage gear is meshed with the second toothed ring, the shaft of the linkage gear penetrates through the side wall of the treatment tank, a positioning piece is fixedly mounted on the shaft of the linkage gear, the positioning piece is located outside the treatment tank, a linkage shaft is rotationally matched with the underframe, the linkage shaft is opposite to the positioning piece, a plurality of limiting pieces are rotationally matched with the linkage shaft, the limiting pieces are uniformly distributed on the linkage shaft in a circular shape, the limiting pieces are adjacent to the positioning pieces, teeth are arranged on the shaft of the limiting pieces in a sliding fit mode, a plurality of racks are uniformly distributed in a circular shape, and are meshed with the teeth of the limiting pieces.

Preferably, a bearing is arranged on the rack, the inner ring of the bearing is fixedly connected with the rack, a control ring is fixedly arranged on the outer ring of the bearing, and the control ring is used for controlling the rack to move on the linkage shaft.

Preferably, the hydraulic pump is fixedly installed beside the chassis, the telescopic structure comprises a plurality of transmission telescopic rods, one end of each transmission telescopic rod is fixedly connected with the inlet end of the hydraulic pump, the other end of each transmission telescopic rod is communicated with an external hydraulic system, the filtering piece is arranged between the transmission telescopic rods at the two ends, the filtering piece is fixedly connected and communicated with the transmission telescopic rods at the two ends, a circular plate is fixedly installed on the connecting shaft, the circular plate is coaxially arranged with the connecting shaft, a piston rod is in running fit on the end face of the circular plate, one end of the piston rod is adjacent to the cambered surface end of the circular plate, and the other end of the piston rod is in running fit with the filtering piece.

Compared with the prior art, the invention provides a paint decomposition and emulsification structure for paper, which has the following beneficial effects:

1. this coating for paper breaks up emulsification structure, through foling the locating part, make the locating part link to each other with stirring leaf power to make the turnover of stirring leaf drive the locating part and rotate, the rotation of locating part drives the filter piece and carries out linear reciprocating motion, in order to make the filter piece utilize the produced action of rocking of linear reciprocating motion to simulate the action of rocking, with the inside jam of filter piece elimination, guarantee the hydraulic system steady operation of equipment, improve the stability of equipment operation, reduce the maintenance cost of equipment.

2. This coating for paper breaks down emulsification structure through the setting of separating the visor, cuts apart the visor and covers drive gear and auxiliary gear and linkage gear in the below to cooperation second ring gear formed "lid shape" protects drive gear and auxiliary gear and linkage gear in the below, avoids gear drive to receive the influence of the interior raw materials of treatment jar, ensures the stability of equipment operation.

3. This emulsion structure is decomposed to coating for paper is through setting up of locating part, setting element, bearing, rack, control ring for when equipment operation, the manual work can continue to operate the control ring and remove, and rotate by the rotation of locating part, setting element transmission and offset by the bearing, so that the manual work controls the control ring and can not produce the rotation, the workman of being convenient for controls, does not need equipment to shut down simultaneously and operates, can carry out the jam simultaneously and eliminate the processing when guaranteeing equipment work efficiency, improve the work efficiency of equipment, and further ensure the stability of equipment operation.

Drawings

FIG. 1 is a schematic diagram showing the distribution of the structure of the machine body of the present invention;

FIG. 2 is a schematic diagram of the structure of the decomposing emulsifying mechanism of the present invention;

FIG. 3 is a schematic view showing the distribution of the internal structure of the treatment tank according to the present invention;

FIG. 4 is a schematic view showing the distribution of the internal structure of the top cover of the present invention;

FIG. 5 is a schematic view showing the distribution of the structure of the driving gear of the present invention;

FIG. 6 is a schematic view of the auxiliary mechanism of the present invention;

FIG. 7 is a schematic view showing the distribution of the structure of the limiting member of the present invention;

FIG. 8 is a schematic view of the distribution of the bearing structure of the present invention;

FIG. 9 is a schematic view showing the distribution of the structures at the filter element according to the present invention;

FIG. 10 is a schematic diagram showing the overall structure of the coating decomposing and emulsifying structure of the present invention.

In the figure: 1. a chassis; 2. a decomposing and emulsifying mechanism; 21. a hydraulic telescopic rod; 22. a top frame; 23. a hydraulic control valve; 24. a treatment tank; 25. a water outlet; 26. a top cover; 27. a driving motor; 28. a central rod; 29. a linkage frame; 210. a planetary gear; 211. a first toothed ring; 212. a stirring roller; 213. a drive gear; 214. an auxiliary gear; 215. a second toothed ring; 216. stirring blades; 217. separating the protective covers; 3. an auxiliary mechanism; 31. a linkage gear; 32. a positioning piece; 33. a linkage shaft; 34. a limiting piece; 35. a rack; 36. a bearing; 37. a control loop; 38. a hydraulic pump; 39. a transmission telescopic rod; 310. a filter; 311. a circular plate; 312. a piston rod.

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.

As described in the background art, the prior art has shortcomings, and in order to solve the technical problems, the application provides a paint decomposition and emulsification structure for paper.

In a typical embodiment of the present application, as shown in fig. 1-10, a paint decomposition and emulsification structure for paper comprises a chassis 1, a decomposition and emulsification mechanism 2 arranged on the chassis 1, and an auxiliary mechanism 3 arranged beside the chassis 1, wherein the decomposition and emulsification mechanism 2 comprises a treatment tank 24, stirring rollers 212 and stirring blades 216, the treatment tank 24 is fixedly arranged on the chassis 1, a plurality of stirring rollers 212 are movably arranged in the treatment tank 24, a plurality of stirring blades 216 are movably arranged in the treatment tank 24, the stirring rollers 212 perform turnover motion in the middle part in the treatment tank 24 and rotate, and the stirring blades 216 perform turnover motion against the inner wall of the treatment tank 24;

the auxiliary mechanism 3 comprises a limiting piece 34, a hydraulic pump 38 and a filtering piece 310, wherein the limiting piece 34 is in running fit on the underframe 1, the limiting piece 34 is in power connection with the stirring blade 216, the hydraulic pump 38 is fixedly arranged beside the underframe 1, the filtering piece 310 is arranged at the inlet end of the hydraulic pump 38, one end of the filtering piece 310 is communicated with an external hydraulic system, the other end of the filtering piece 310 is communicated with the hydraulic pump 38, the two ends of the filtering piece 310 are respectively provided with a telescopic structure, and the filtering piece 310 is in power connection with the limiting piece 34;

when the power connection between the limiting piece 34 and the stirring blade 216 is released, the rotation of the stirring blade 216 cannot drive the limiting piece 34 to rotate, and when the power connection between the limiting piece 34 and the stirring blade 216 is locked, the stirring blade 216 drives the limiting piece 34 to rotate, and the limiting piece 34 drives the filtering piece 310 to perform linear reciprocating motion.

When the invention is used:

putting raw materials into the treatment tank 24, starting the equipment, enabling the stirring roller 212 and the stirring blades 216 to perform turnover motion in the treatment tank 24, keeping the stirring roller 212 to rotate at a high speed in the treatment tank 24, enabling the stirring roller 212 and the stirring blades 216 to stir and disperse the raw materials in the treatment tank 24 so as to decompose and emulsify the raw materials, and when a hydraulic system of the equipment is low or no pressure, namely the filter 310 is blocked, hydraulic oil cannot be pumped by the hydraulic pump 38, at the moment, the limiting piece 34 is manually controlled, the limiting piece 34 is folded, the limiting piece 34 is in power connection with the stirring blades 216, so that the turnover of the stirring blades 216 drives the limiting piece 34 to rotate, and the rotation of the limiting piece 34 drives the filter 310 to perform linear reciprocating motion, so that the filter 310 can simulate shaking motions by shaking generated by the linear reciprocating motion, and thus blocking inside the filter 310 can be eliminated;

the limiting piece 34 is closed, so that the limiting piece 34 is in power connection with the stirring blade 216, the turnover of the stirring blade 216 drives the limiting piece 34 to rotate, the rotation of the limiting piece 34 drives the filter piece 310 to conduct linear reciprocating motion, the filter piece 310 can simulate shaking motion by shaking generated by the linear reciprocating motion, the blockage inside the filter piece 310 is eliminated, the stable operation of a hydraulic system of equipment is ensured, the operation stability of the equipment is improved, and the maintenance cost of the equipment is reduced.

Further, the decomposing and emulsifying mechanism 2 further comprises a hydraulic telescopic rod 21, a plurality of hydraulic telescopic rods 21 are fixedly arranged on the underframe 1, the hydraulic telescopic rods 21 are located at corners of the underframe 1, a top frame 22 is arranged above the hydraulic telescopic rods 21, the top frame 22 is fixedly connected with the extending rods of the hydraulic telescopic rods 21, a plurality of hydraulic control valves 23 are fixedly arranged on the top frame 22, the hydraulic control valves 23 are located right above the hydraulic telescopic rods 21, and the hydraulic control valves 23 are communicated with the hydraulic telescopic rods 21, so that the hydraulic control valves 23 control the inlet and outlet of hydraulic oil in the hydraulic telescopic rods 21.

The hydraulic control valve 23 is started, and the hydraulic control valve 23 controls the hydraulic oil flow direction and flow rate in the hydraulic system of the control device, so that the hydraulic telescopic rod 21 on the underframe 1 is controlled to stretch, and the stretching movement of the hydraulic telescopic rod 21 drives the top frame 22 to move up and down.

Further, a water outlet 25 is fixedly arranged at the bottom of the treatment tank 24, a valve is arranged on the water outlet 25, the water outlet 25 is used for controlling the discharge of objects in the treatment tank 24, a top cover 26 is fixedly arranged at the bottom end of the top frame 22, the top cover 26 is positioned right above the treatment tank 24, and the top cover 26 is matched with the tank opening of the treatment tank 24.

Wherein, along with the up-and-down movement of the top frame 22, the top frame 22 drives the top cover 26 to move, so that the top cover 26 can be closed with the treatment tank 24 to seal or open, and the water outlet 25 is opened after the treatment in the treatment tank 24 is completed, and the raw materials treated in the treatment tank 24 are discharged from the treatment tank 24 by using the water outlet 25.

Further, a driving motor 27 is fixedly installed at the top end of the top frame 22, a center rod 28 is rotatably matched with the top frame 22, the center rod 28 penetrates through the top frame 22, the center rod 28 is fixedly connected with a shaft of the driving motor 27, the center rod 28 penetrates through the top cover 26, the center rod 28 extends into the treatment tank 24, a linkage frame 29 is fixedly installed on the center rod 28, the linkage frame 29 is located below the top cover 26, the linkage frame 29 is adjacent to the top cover 26, planetary gears 210 are rotatably matched with two ends of the linkage frame 29, first toothed rings 211 are fixedly installed in the top cover 26, the first toothed rings 211 are meshed with the planetary gears 210, stirring rollers 212 are rotatably matched with two ends of the linkage frame 29, and the stirring rollers 212 are in power connection with the planetary gears 210.

Wherein, the driving motor 27 is started, the driving motor 27 drives the center rod 28 to rotate, the center rod 28 drives the linkage frame 29 to rotate, the linkage frame 29 drives the planetary gear 210 to turn around, the planetary gear 210 rotates under the cooperation with the first toothed ring 211, and the planetary gear 210 rotates to drive the stirring roller 212 to rotate, so that the stirring roller 212 rotates and turns around.

Further, the bottom end of the center rod 28 is fixedly provided with a driving gear 213, the bottom end inside the treatment tank 24 is rotatably matched with an auxiliary gear 214, the auxiliary gear 214 is meshed with the driving gear 213, the bottom end inside the treatment tank 24 is rotatably matched with a second toothed ring 215, the driving gear 213 and the auxiliary gear 214 are both positioned in the second toothed ring 215, the auxiliary gear 214 is meshed with the second toothed ring 215, a plurality of stirring blades 216 are fixedly arranged on the second toothed ring 215, the stirring blades 216 are symmetrically arranged, the top end of the second toothed ring 215 is fixedly provided with a separation protection cover 217, the center rod 28 penetrates through the separation protection cover 217, and the driving gear 213 and the auxiliary gear 214 are both positioned below the separation protection cover 217.

Along with the rotation of the center rod 28, the center rod 28 drives the driving gear 213 to rotate, the driving gear 213 drives the auxiliary gear 214 to rotate, the auxiliary gear 214 drives the second toothed ring 215 to rotate, and the second toothed ring 215 drives the stirring blade 216 to turn around in the treatment tank 24, so that the stirring roller 212 and the stirring blade 216 are utilized to decompose and emulsify the raw materials in the treatment tank 24.

Further, the auxiliary mechanism 3 includes a linkage gear 31, the linkage gear 31 is rotationally matched with the processing tank 24, the linkage gear 31 is located below the second toothed ring 215, the linkage gear 31 is meshed with the second toothed ring 215, the shaft of the linkage gear 31 penetrates through the side wall of the processing tank 24, a positioning piece 32 is fixedly installed on the shaft of the linkage gear 31, the positioning piece 32 is located outside the processing tank 24, a linkage shaft 33 is rotationally matched with the chassis 1, the linkage shaft 33 is opposite to the positioning piece 32, a plurality of limiting pieces 34 are rotationally matched with the linkage shaft 33, the limiting pieces 34 are uniformly distributed on the linkage shaft 33 in a circular shape, the limiting pieces 34 are adjacent to the positioning pieces 32, the limiting pieces 34 are matched with the positioning pieces 32, teeth are arranged on the shaft of the limiting pieces 34, a plurality of racks 35 are slidingly matched with the linkage shaft 33, the racks 35 are uniformly distributed in a circular shape, and the racks 35 are meshed with the teeth of the limiting pieces 34.

Further, a bearing 36 is arranged on the rack 35, an inner ring of the bearing 36 is fixedly connected with the rack 35, a control ring 37 is fixedly arranged on an outer ring of the bearing 36, and the control ring 37 is used for controlling the rack 35 to move on the linkage shaft 33.

When the filter 310 is blocked, the control ring 37 is manually controlled to move, the control ring 37 drives the bearing 36 to move, the bearing 36 drives the rack 35 to move, the rack 35 drives the limiting piece 34 to rotate, so that the limiting piece 34 is folded onto the positioning piece 32, and the limiting piece 34 is clamped with the positioning piece 32, meanwhile, the rotation of the second toothed ring 215 drives the linkage gear 31 to rotate, the linkage gear 31 drives the positioning piece 32 to rotate, and the positioning piece 32 drives the limiting piece 34 to rotate after being clamped with the limiting piece 34, and the limiting piece 34 drives the linkage shaft 33 to rotate.

Further, the hydraulic pump 38 is fixedly installed beside the chassis 1, the telescopic structure comprises a plurality of transmission telescopic rods 39, the transmission telescopic rod 39 at one end is fixedly connected with the inlet end of the hydraulic pump 38, the transmission telescopic rod 39 at one end is communicated with the inlet end of the hydraulic pump 38, the transmission telescopic rod 39 at the other end is communicated with an external hydraulic system, a filtering piece 310 is arranged between the transmission telescopic rods 39 at two ends, the filtering piece 310 is fixedly connected and communicated with the transmission telescopic rods 39 at two ends, a circular plate 311 is fixedly installed on the linkage shaft 33, the circular plate 311 is coaxially arranged with the linkage shaft 33, a piston rod 312 is rotatably matched on the end face of the circular plate 311, one end of the piston rod 312 is adjacent to the cambered surface end of the circular plate 311, and the other end of the piston rod 312 is rotatably matched with the filtering piece 310.

Wherein, along with the rotation of the linkage shaft 33, the linkage shaft 33 drives the circular plate 311 to rotate, the circular plate 311 drives one end of the piston rod 312 to turn around, so that the piston rod 312 drives the filter element 310 to reciprocate, the filter element 310 is limited by the transmission telescopic rod 39, and the filter element 310 is linearly reciprocated, so that the shaking motion is simulated by the linear reciprocation of the filter element 310 to eliminate the blockage formed in the filter element 310.

Working principle:

the hydraulic control valve 23 is started, the hydraulic control valve 23 controls the hydraulic oil in a hydraulic system of the control device to flow to and flow from, so that the hydraulic telescopic rod 21 on the underframe 1 stretches, the telescopic movement of the hydraulic telescopic rod 21 drives the top frame 22 to move up and down, the top frame 22 drives the top cover 26 to move up and down along with the top frame 22, so that the top cover 26 can be closed or opened with the treatment tank 24, the water outlet 25 is opened after the treatment tank 24 is finished, the water outlet 25 is utilized to discharge the raw materials treated in the treatment tank 24 from the treatment tank 24, the driving motor 27 is started, the driving motor 27 drives the center rod 28 to rotate, the center rod 28 drives the linkage frame 29 to rotate, the linkage frame 29 drives the planetary gear 210 to turn around, the planetary gear 210 rotates in cooperation with the first toothed ring 211, the planetary gear 210 drives the stirring roller 212 to rotate and turn around, the center rod 28 drives the driving gear 213 to rotate along with the rotation of the center rod 28, the driving gear 213 drives the auxiliary gear 214 to rotate, the auxiliary gear 214 drives the second toothed ring 215 to rotate, the second toothed ring 215 is driven by the stirring roller 215 to rotate, and the second toothed ring 215 drives the stirring roller 216 to decompose the raw materials treated in the treatment tank 24 and the stirring roller 216;

when the filter element 310 is blocked, the control ring 37 is manually controlled to move, the control ring 37 drives the bearing 36 to move, the bearing 36 drives the rack 35 to move, the rack 35 drives the limiting element 34 to rotate, the limiting element 34 is folded towards the positioning element 32, so that the limiting element 34 is clamped with the positioning element 32, meanwhile, the rotation of the second toothed ring 215 drives the linkage gear 31 to rotate, the linkage gear 31 drives the positioning element 32 to rotate, the positioning element 32 drives the limiting element 34 to rotate after being clamped with the limiting element 34, the limiting element 34 drives the linkage shaft 33 to rotate, the linkage shaft 33 drives the circular plate 311 to rotate along with the rotation of the linkage shaft 33, the circular plate 311 drives one end of the piston rod 312 to turn round, the piston rod 312 drives the filter element 310 to reciprocate, and the filter element 310 is limited by the transmission telescopic rod 39, so that the filter element 310 performs linear reciprocating motion to simulate shaking motion by using the linear reciprocating motion of the filter element 310, so that the blocking formed in the filter element 310 is eliminated.

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

1. The utility model provides a coating decomposes emulsification device for paper, includes chassis (1), sets up decompose emulsification mechanism (2) on chassis (1), set up auxiliary mechanism (3) by chassis (1), its characterized in that:

the decomposing and emulsifying mechanism (2) comprises a treatment tank (24), stirring rollers (212) and stirring blades (216), wherein the treatment tank (24) is fixedly installed on the underframe (1), a plurality of stirring rollers (212) are movably arranged in the treatment tank (24), a plurality of stirring blades (216) are movably arranged in the treatment tank (24), the stirring rollers (212) perform turnover motion in the middle part in the treatment tank (24) and rotate, and the stirring blades (216) are abutted against the inner wall of the treatment tank (24) to perform turnover motion;

a driving motor (27) is fixedly arranged at the top end of the top frame (22), and a center rod (28) is rotatably matched with the top frame (22);

the auxiliary mechanism (3) comprises a limiting part (34), a hydraulic pump (38) and a filtering part (310), wherein the limiting part (34) is in running fit on the underframe (1), the limiting part (34) is in power connection with the stirring blade (216), the hydraulic pump (38) is fixedly arranged beside the underframe (1), the filtering part (310) is arranged at the inlet end of the hydraulic pump (38), one end of the filtering part (310) is communicated with an external hydraulic system, the other end of the filtering part (310) is communicated with the hydraulic pump (38), two ends of the filtering part (310) are respectively provided with a telescopic structure, and the filtering part (310) is in power connection with the limiting part (34);

when the power connection part between the limiting piece (34) and the stirring blade (216) is released, the rotation of the stirring blade (216) cannot drive the limiting piece (34) to rotate, and when the power connection lock catch between the limiting piece (34) and the stirring blade (216) is connected, the stirring blade (216) drives the limiting piece (34) to rotate, and the limiting piece (34) drives the filtering piece (310) to perform linear reciprocating motion;

the bottom end of the center rod (28) is fixedly provided with a driving gear (213), the bottom end of the inside of the treatment tank (24) is rotatably matched with an auxiliary gear (214), the auxiliary gear (214) is meshed with the driving gear (213), the bottom end of the inside of the treatment tank (24) is rotatably matched with a second toothed ring (215), the driving gear (213) and the auxiliary gear (214) are both positioned in the second toothed ring (215), the auxiliary gear (214) is meshed with the second toothed ring (215), a plurality of stirring blades (216) are fixedly arranged on the second toothed ring (215), the stirring blades (216) are symmetrically arranged, a separation protective cover (217) is fixedly arranged at the top end of the second toothed ring (215), the center rod (28) penetrates through the separation protective cover (217), and the driving gear (213) and the auxiliary gear (214) are both positioned below the separation protective cover (217);

the auxiliary mechanism (3) comprises a linkage gear (31), the linkage gear (31) is rotationally matched with the treatment tank (24), the linkage gear (31) is positioned below the second toothed ring (215), the linkage gear (31) is meshed with the second toothed ring (215), a shaft of the linkage gear (31) penetrates through the side wall of the treatment tank (24), a positioning piece (32) is fixedly arranged on the shaft of the linkage gear (31), the positioning piece (32) is positioned outside the treatment tank (24), a linkage shaft (33) is rotationally matched with the positioning piece (32) on the underframe (1), a plurality of limiting pieces (34) are rotationally matched with the linkage shaft (33), the limiting pieces (34) are uniformly distributed on the linkage shaft (33) in a circular shape, the limiting pieces (34) are adjacent to the positioning piece (32), the limiting pieces (34) are uniformly distributed on the rack (35) in a circular shape, and the plurality of racks (35) are uniformly matched with the positioning pieces (34;

the gear rack (35) is provided with a bearing (36), the inner ring of the bearing (36) is fixedly connected with the gear rack (35), the outer ring of the bearing (36) is fixedly provided with a control ring (37), and the control ring (37) is used for controlling the gear rack (35) to move on the linkage shaft (33);

the hydraulic pump is characterized in that the hydraulic pump (38) is fixedly arranged beside the chassis (1), the telescopic structure comprises a plurality of transmission telescopic rods (39), one end of each transmission telescopic rod (39) is fixedly connected with the inlet end of the hydraulic pump (38), one end of each transmission telescopic rod (39) is communicated with the inlet end of the hydraulic pump (38), the other end of each transmission telescopic rod (39) is communicated with an external hydraulic system, a filtering piece (310) is arranged between the transmission telescopic rods (39) at two ends, the filtering piece (310) is fixedly connected and communicated with the transmission telescopic rods (39) at two ends, a circular plate (311) is fixedly arranged on the connecting shaft (33), a piston rod (312) is coaxially arranged on the end face of the circular plate (311) in a rotating fit mode, one end of the piston rod (312) is adjacent to the cambered surface end of the circular plate (311), and the other end of the piston rod (312) is matched with the filtering piece (310) in a rotating mode.

2. The paint-decomposing emulsifying device for paper according to claim 1, wherein:

the decomposing and emulsifying mechanism (2) further comprises a hydraulic telescopic rod (21), a plurality of hydraulic telescopic rods (21) are fixedly installed on the bottom frame (1), the hydraulic telescopic rods (21) are all located at the corners of the bottom frame (1), a top frame (22) is arranged above the hydraulic telescopic rods (21), the top frame (22) is fixedly connected with the extending rods of the hydraulic telescopic rods (21), a plurality of hydraulic control valves (23) are fixedly installed on the top frame (22), the hydraulic control valves (23) are all located right above the hydraulic telescopic rods (21), and the hydraulic control valves (23) are communicated with the hydraulic telescopic rods (21) to enable the hydraulic control valves (23) to control the inlet and outlet of hydraulic oil in the hydraulic telescopic rods (21).

3. A paint-decomposing emulsifying device for paper according to claim 2, characterized in that:

the utility model discloses a treatment tank, including handle jar (24), handle jar (24) bottom fixed mounting has outlet (25), be equipped with the valve on outlet (25), outlet (25) are used for control handle the emission of the interior object of jar (24), roof-mounted (26) are installed to roof-rack (22) bottom fixed mounting, roof-panel (26) are located directly over the jar (24) of handling, roof-panel (26) with the jar mouth looks adaptation of jar (24) of handling.

4. A paint-decomposing emulsifying device for paper according to claim 3, characterized in that:

the utility model provides a stirring roller stirring device, including roof frame (22), center pole (28) with the axle fixed connection of driving motor (27), center pole (28) run through roof frame (26), center pole (28) extend to in handling jar (24), fixed mounting has link frame (29) on center pole (28), link frame (29) are located roof frame (26) below, link frame (29) with roof frame (26) are adjacent, all normal running fit has planetary gear (210) on the both ends of link frame (29), fixed mounting has first ring gear (211) in roof frame (26), first ring gear (211) with planetary gear (210) homogeneous phase meshing, the both ends of link frame (29) all rotate the fit and have stirring roller (212), stirring roller (212) all with planetary gear (210) power connection.