CN116899515B - Coating constant temperature dispersion type reaction device - Google Patents

Abstract

The utility model relates to the technical field of paint reaction equipment, in particular to a paint constant-temperature dispersion type reaction device, which comprises: a housing; the shell is provided with a constant temperature reactor with a heating structure inside; a paint dispersing machine which is used for uniformly dispersing pigment is arranged on the shell; the isothermal reactor comprises: a semi-cylindrical fixing part is fixedly arranged on the shell; the movable part is arranged on the shell and can move up and down relatively; the top cover is provided with a circular top cover at the top end of the fixing part, and the movable part forms a closed cylinder chamber together with the fixing part and the top cover when being lifted. The constant temperature reactor adopts a separated structural design, a closed cylinder chamber is formed by the movable part, the fixed part and the top cover, and the interior of the chamber is heated by the heating ring, so that the coating is in a constant temperature environment in the reaction process, and the reaction stability is effectively improved.

Description

Coating constant temperature dispersion type reaction device

Technical Field

The utility model relates to the technical field of paint reaction equipment, in particular to a paint constant-temperature dispersion type reaction device.

Background

The paint is a liquid or solid material which can be coated on the surface of an object to form a film under certain conditions to play a role in protection, decoration or other special functions (insulation, rust prevention, mildew prevention, heat resistance and the like). The paint belongs to organic chemical polymer material, and the formed film belongs to polymer compound type. According to the classification of modern chemical products, the coating belongs to fine chemical products.

Pigment dispersion, as referred to in the production of coatings, generally refers to the stable, uniform dispersion of a pigment in a solid state in a particular medium. Pigment dispersion is a key step for preparing color paint, and the quality of pigment dispersion directly influences the quality and production efficiency of the paint.

The Chinese patent publication No. CN206897234U discloses a coating dispersing device, which comprises a base and a beam bracket formed on the base, wherein a driving device and a stirring dispersing device are arranged on the beam bracket, and the stirring dispersing device comprises a stirrer and a dispersing disc. Which is cooperated with the dispersing disc through the eccentrically arranged stirrer, can stir in the process of stirring, the stirring device with two eccentric structures can be utilized for disturbance, and mutual influence is generated, so that materials of the stirring container can move comprehensively.

Most of the existing paint reaction devices adopt dispersing equipment to open pigment aggregates and crush larger-particle pigments into fine particles required by a color-mixing paint process, but in the using process of the device, the paint reaction is affected by temperature, so that the quality of paint products is uneven, the consistency of finished products is poor, and the requirements of manufacturers cannot be met effectively, so that the constant-temperature paint dispersing reaction device is provided.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a coating constant-temperature dispersion type reaction device.

In order to achieve the above purpose, the utility model provides a coating constant temperature dispersion type reaction device, which comprises a shell, a constant temperature reactor and a coating dispersion machine, wherein the shell is a component mounting carrier, the constant temperature reactor and the coating dispersion machine are respectively arranged on the shell, a heating structure is arranged in the constant temperature reactor, and the constant temperature reactor comprises:

the fixing part is in a semicircular shape with a hollow inside and is fixedly arranged on the shell;

the movable part is in a semicircular shape with a hollow inside and is arranged on the shell, and the movable part can move up and down relative to the fixed part;

the top cover is arranged at the top end of the fixed part, and when the movable part is lifted, the movable part, the fixed part and the top cover form a closed cylinder chamber together;

and the heating ring is arranged on the lower side of the top cover.

Preferably, the paint dispenser includes:

the base is fixedly arranged on the shell;

the guide rod is vertically fixed on the base;

the movable plate is connected to the guide rod in a sliding manner and can axially move along the guide rod;

the two ends of the first elastic piece are respectively connected with the movable plate and the base;

the first motor is fixedly arranged on the movable plate;

the supporting rod is coaxially connected with the output shaft of the first motor and penetrates through the center of the top cover;

the dispersion plate is fixedly arranged at the bottom end of the supporting rod.

Preferably, the device further comprises a moving base for facilitating the whole movement of the device, the moving base is mounted at the bottom of the shell, and the moving base comprises:

the bottom plate is fixedly arranged at the bottom of the shell;

the casters are symmetrically arranged at four corners of the lower side of the bottom plate.

Preferably, the device further comprises a lifting mechanism for controlling the movable part of the constant temperature reactor to lift, and the lifting mechanism comprises:

the second motor is fixedly arranged on the shell;

the screw rod is coaxially connected with the output shaft of the second motor;

the sliding block is movably connected with the screw rod in a threaded fit mode, and moves along the axial direction when the screw rod rotates;

and two ends of the connecting rod are fixedly connected with the sliding block and the bottom of the movable part respectively.

Preferably, a lowering mechanism for controlling the dispersion disk to fall down is further included, the lowering mechanism includes:

the movable rod is symmetrically arranged on the movable plate through two horizontal guide grooves and is in sliding connection with the movable plate through the guide grooves;

the wing plates are symmetrically arranged at two ends of the movable rod, and inclined slots are formed in the corners of the wing plates;

the guide seat is fixedly arranged on the base;

the cross rod is rotatably arranged on the guide seat and is parallel to the movable rod.

Preferably, the descent mechanism further comprises:

the bracket is connected to the shell in a sliding way and can move up and down relative to the shell;

the inserting rod is arranged at the top end of the bracket and extends into the chute of the wing plate;

and the transverse plate is arranged at the bottom end of the bracket and horizontally extends to the upper part of the sliding block.

Preferably, there is also included a fixing mechanism for fixing a container put into a thermostatic reactor, the fixing mechanism including:

the U-shaped rod is arranged on the side face of the constant temperature reactor and can horizontally slide relative to the constant temperature reactor;

the cushion block is fixedly connected to the opening end of the U-shaped rod;

the guide rod is fixedly arranged on the side surface of the constant temperature reactor and is parallel to the axial direction of the constant temperature reactor;

the lifting frame is connected to the guide rod in a sliding manner, the lifting frame is positioned below the movable plate, a sliding groove matched with the U-shaped rod is formed in the lifting frame, and the lifting frame pushes the U-shaped rod to move inwards when being pressed down;

the second elastic piece is connected between the lifting frame and the guide rod.

Preferably, a protruding limiting block is arranged on the inner side of the movable part, and the limiting block and the cushion block are arranged oppositely.

Preferably, the device further comprises a feeding mechanism for adding auxiliary agents, and the feeding mechanism comprises:

the disc is of a double-layer structure and is arranged on the upper side of the top cover;

the feeding pipe penetrates through the disc and stretches into the thermostatic reactor, and at least two groups of feeding pipes are arranged;

the balloon is arranged in the middle section of the feeding pipe, the balloon is positioned between the discs of the double-layer structure, a one-way structure is arranged on the upper side of the balloon, and liquid in the feeding pipe can be driven to flow downwards when the balloon stretches out and draws back.

Preferably, the feeding mechanism further comprises:

the ring block is arranged on the outer edge of the disc and can rotate relative to the disc;

the convex blocks are fixedly arranged on the inner sides of the annular blocks, extend out in the radial direction and can squeeze the balloon when moving;

the gear ring is fixedly connected to the outer side of the ring block;

the third motor is fixedly arranged on the top cover, and the output shaft of the third motor is coaxially connected with a gear meshed with the gear ring.

The utility model relates to a coating constant-temperature dispersion type reaction device, which has the following technical effects:

1. the constant temperature reactor adopts a separated structural design, a closed cylinder cavity is formed by the movable part, the fixed part and the top cover, and the interior of the cavity is heated by the heating ring, so that the coating is in a constant temperature environment in the reaction process, the stability of the reaction is effectively improved, and the purpose of improving the consistency of the product quality is realized;

2. according to the utility model, through the cooperation of the lifting mechanism and the descending mechanism, the screw is driven to rotate by the second motor, the sliding block is driven to move in the vertical direction along the axial direction of the screw, the movable part is driven to lift upwards by the connecting rod, the transverse plate and the support are pushed to move upwards, the movable plate is driven to descend by the rotation of the wing plate, and the dispersing disc is controlled to fall and stretch into a container filled with paint while the movable part is electrically controlled to lift, so that the processing efficiency is improved;

3. according to the utility model, the side surface of the fixed part of the constant temperature reactor is provided with the slidable cushion block which is matched with the limiting block at the inner side of the movable part, so that the container placed in the constant temperature reactor can be clamped and fixed, and the effect of avoiding the container from shifting in the reaction process is achieved;

4. according to the utility model, the feeding mechanism is designed, so that when the auxiliary agent is required to be added into the coating, the third motor is controlled to drive the ring block to rotate, and the balls are intermittently extruded through the convex blocks on the inner side of the ring block, so that the balls stretch and retract to pump the auxiliary agent into the coating, the automatic addition of the auxiliary agent is realized, and the device can perform continuous processing better.

Drawings

Fig. 1 shows a schematic structure of the present utility model.

Fig. 2 shows a schematic structural view of the fixing portion and the top cover of the present utility model.

Fig. 3 shows a schematic structural view of the thermostatic reactor of the present utility model.

Fig. 4 shows a schematic structural view of the coating material dispenser of the present utility model.

Fig. 5 shows a schematic structural view of the mobile base of the present utility model.

Fig. 6 shows a schematic structural view of the lifting mechanism of the present utility model.

Fig. 7 shows a schematic view of the structure of the movable lever and the wing plate of the present utility model.

Fig. 8 shows a schematic structural view of the descent mechanism of the present utility model.

Fig. 9 shows a schematic structural view of the stent of the present utility model.

Fig. 10 shows a schematic view of the structure of the U-shaped bar and the lifting frame of the present utility model.

Fig. 11 shows a schematic structural view of the fixing mechanism of the present utility model.

Fig. 12 shows a schematic structural view of the stopper of the present utility model.

Fig. 13 shows a schematic structural view of the feeding mechanism of the present utility model.

Fig. 14 shows a schematic view of the internal structure of the ring block of the present utility model.

Fig. 15 shows a schematic structural view of the ring gear and the gear of the present utility model.

In the figures; 1. a housing; 2. a constant temperature reactor; 21. a fixing part; 22. a movable part; 23. a top cover; 24. a heating ring; 3. a coating material dispenser; 31. a base; 32. a guide rod; 33. a movable plate; 34. a first elastic member; 35. a first motor; 36. a support rod; 37. a dispersion plate; 4. a movable base; 41. a bottom plate; 42. casters; 5. a lifting mechanism; 51. a second motor; 52. a screw; 53. a slide block; 54. a connecting rod; 6. a descent mechanism; 61. a movable rod; 62. a guide groove; 63. a wing plate; 64. a chute; 65. a guide seat; 66. a cross bar; 67. a bracket; 68. a rod; 69. a cross plate; 7. a fixing mechanism; 71. a U-shaped rod; 72. a cushion block; 73. a guide rod; 74. a lifting frame; 75. a chute; 76. a second elastic member; 77. a limiting block; 8. a feed mechanism; 81. a disc; 82. a feed pipe; 83. a balloon; 84. a ring block; 85. a bump; 86. a gear ring; 87. a third motor; 88. a gear.

Detailed Description

The principles and features of the present utility model are described below with reference to fig. 1 through 15, the examples being provided for illustration only and not for limiting the scope of the utility model.

Example 1

A coating constant temperature dispersion type reaction device, which comprises a shell 1, a constant temperature reactor 2 and a coating dispersion machine 3, and comprises: the shell 1, the shell 1 is a cuboid structure with hollow inside; a constant temperature reactor 2, wherein the shell 1 is provided with the constant temperature reactor 2 with a heating structure inside, and the constant temperature reactor 2 is used for providing a constant temperature environment for paint reaction; a paint dispersing machine 3, wherein the paint dispersing machine 3 for uniformly dispersing pigment is arranged on the shell 1, and the paint dispersing machine 3 has a variable frequency speed regulation function; the isothermal reactor 2 comprises: a fixing portion 21 to which a semi-cylindrical fixing portion 21 is fixedly attached to the housing 1 by bolts; the movable part 22 is arranged on the shell 1, the movable part 22 which can move up and down relatively is arranged on the top surface of the shell 1, an arc-shaped through groove for the movable part 22 to pass through is arranged on the top surface of the shell 1, and the size and shape of the movable part 22 are consistent with those of the fixed part 21; the top cover 23, the top end of the fixed part 21 is provided with a round top cover 23, the movable part 22, the fixed part 21 and the top cover 23 form a closed cylinder chamber together when being lifted, and a container filled with paint can be arranged at the center of the cylinder chamber; the heating ring 24, the heating ring 24 is fixedly installed on the lower side of the top cover 23 in a clamping manner, and annular electric heating wires are arranged in the heating ring 24.

The paint dispenser 3 includes: a base 31, the base 31 is fixedly mounted on the housing 1 by bolts; the guide rod 32, the base 31 is welded with a vertical guide rod 32; the movable plate 33, the movable plate 33 which can move along the axial direction of the guide rod 32 is connected on the guide rod 32 in a sliding way, and the movable plate 33 horizontally extends to the upper part of the constant temperature reactor 2; the first elastic piece 34 is connected between the movable plate 33 and the base 31, the first elastic piece 34 can be a stainless steel compression spring, and the movable plate 33 is kept at a certain height and a certain distance from the top cover 23 under the action of the first elastic piece 34; the first motor 35, install the first motor 35 through the bolt on the movable plate 33, the first motor 35 adopts the variable frequency speed regulating motor that can steplessly regulate speed, its speed can be adjusted arbitrarily between 0-1440 revolutions per minute; the support rod 36 is coaxially connected to the output shaft of the first motor 35, the support rod 36 penetrates through the movable plate 33 to extend downwards, and the lower part of the support rod 36 penetrates through the top cover 23 to extend into the thermostatic reactor 2; the dispersion plate 37, the dispersion plate 37 is installed to branch 36 bottom, and dispersion plate 37 adopts flat disc sawtooth type structure, and it can produce strong shearing and the collision to the material when rotating.

Still including being used for making things convenient for the device wholly to remove base 4, the removal base 4 is installed to casing 1 bottom, and removal base 4 includes: the bottom plate 41 is fixedly arranged at the bottom of the shell 1 through bolts, and the area of the bottom plate 41 is slightly smaller than the bottom surface of the shell 1; the casters 42 are symmetrically arranged at four corners of the lower side of the bottom plate 41, and the casters 42 are universal wheels with braking function.

When the device is used, paint is placed in a container and then placed in a constant-temperature reactor 2, the container is positioned under a top cover 23, then a movable part 22 is controlled to lift and form a closed cylinder cavity with the top cover 23 and a fixed part 21, a heating ring 24 is controlled to work so as to heat the interior of the container at constant temperature, the paint in the container is kept in a fixed temperature range, then a movable plate 33 is pulled down along a guide rod 32, a first elastic piece 34 is stressed and compressed until a dispersion disc 37 at the bottom of a support rod 36 stretches into the container to be contacted with the paint, a first motor 35 is driven to work, the support rod 36 drives the dispersion disc 37 to rotate at a high speed so as to stir the paint, the saw-tooth-shaped dispersion disc 37 rotates so as to strongly shear and impact the paint in the paint, and further, the paint is sufficiently crushed and dispersed, so that the paint is stably and uniformly distributed in the paint is more stable in a constant-temperature environment, the quality consistency of a paint product is improved, and in addition, the whole movement of the device can be easily and conveniently realized through the design of a caster 42 at the lower side of a bottom plate 41, so that the flexibility of the device is improved.

Example two

In addition to embodiment 1, the present utility model further includes a lifting mechanism 5 for controlling the lifting of the movable portion 22 of the isothermal reactor 2, wherein the lifting mechanism 5 includes: the second motor 51 is fixedly arranged on the shell 1 through bolts, and the second motor 51 adopts a direct-current gear motor; the screw rod 52 is coaxially connected to the output shaft of the second motor 51, the screw rod 52 vertically extends out to the inner side of the housing 1 through the top plate of the housing 1, and the screw rod 52 can rotate relative to the housing 1; the sliding block 53 is movably connected with the sliding block 53 in threaded fit on the screw rod 52, a threaded hole matched with the screw rod 52 is formed in the sliding block 53, the sliding block 53 moves upwards along the axial direction when the screw rod 52 rotates clockwise, and the sliding block 53 moves downwards when the screw rod 52 rotates anticlockwise; the connecting rods 54, the sliding blocks 53 are welded with the connecting rods 54 extending horizontally to the movable part 22, the other ends of the connecting rods 54 are fixedly connected with the movable part 22 through bolts, and the two connecting rods 54 are symmetrically arranged.

Also included is a descent mechanism 6 for controlling the dispersion disk 37 to descend, the descent mechanism 6 including: the movable rod 61, two horizontal guide grooves 62 are symmetrically formed in the movable plate 33, the guide grooves 62 are in a flat oval shape, the movable rod 61 penetrates through the guide grooves 62 to be connected with the movable plate 33 in a sliding mode, and rod heads with the size larger than the width of the guide grooves 62 are arranged at two ends of the movable rod 61; wing plates 63 are symmetrically arranged at two ends of the movable rod 61, the wing plates 63 are in an isosceles triangle shape, and inclined grooves 64 are formed in corners, close to the lower side, of the wing plates 63; the guide seat 65 is fixedly arranged on the base 31 through bolts, and the guide seat 65 is fixedly arranged on the base 31; the cross rod 66 is rotatably arranged on the guide seat 65, the cross rod 66 is parallel to the movable rod 61, the cross rod 66 can rotate together with the wing plates 63, and two ends of the movable rod 61 are fixedly connected with the wing plates 63 on two sides; the support 67 is connected with the shell 1 in a sliding manner, and the support 67 moves up and down relatively, and the supports 67 are symmetrically arranged on two sides of the base 31; the inserted link 68, the top of the bracket 67 has inserted link 68 that stretches into the chute 64 of the wing plate 63, the inserted link 68 stretches out vertically; the cross plate 69, the cross plate 69 that extends to the slider 53 top through the screw is installed to the support 67 bottom, and the cross plate 69 is the T style of calligraphy as a whole, and slider 53 rises to the certain height back and contacts with the cross plate 69.

After the container with paint is placed under the top cover 23, the second motor 51 can be driven to make the screw rod 52 perform rotary motion, the sliding block 53 moves upwards along the axial direction of the screw rod 52 when the screw thread rotates clockwise, and then the movable part 22 is driven to lift up together through the connection effect of the connecting rod 54 until the movable plate 33 is pushed to be above the shell 1 and is flush with the fixed part 21, the sliding block 53 contacts with the transverse plate 69 above the sliding block 53 in the upward moving process, and pushes the transverse plate 69 to lift up, so that the bracket 67 moves up, the inserting rod 68 at the top end of the bracket 67 slides along the chute 64 on the wing plate 63, the wing plate 63 is extruded and moves anticlockwise along with the transverse rod 66, the movable rod 61 connected with the top end of the wing plate 63 moves towards the side of the constant temperature reactor 2 along the guide groove 62, the movable plate 33 is forced to move downwards, and the first elastic piece 34 is forced to compress, so that the dispersion disc 37 at the bottom end of the supporting rod 36 can be lifted down into the container with paint along with the sliding block 53, complicated steps of manual operation are omitted, and paint processing efficiency is effectively improved.

Also included is a fixing mechanism 7 for fixing the container placed in the thermostatic reactor 2, the fixing mechanism 7 comprising: a U-shaped rod 71, wherein the side surface of the constant temperature reactor 2 is provided with a horizontally sliding U-shaped rod 71, and the opening of the U-shaped rod 71 faces the inner side of the fixed part 21; the opening end of the U-shaped rod 71 is fixedly connected with an arc-shaped cushion block 72 in a manner of strong glue adhesion, and the arc of the arc surface on the inner side of the cushion block 72 is matched with a container for containing paint; a guide rod 73, wherein the guide rod 73 is arranged on the side surface of the shell 1 through a connecting sheet and is axially parallel to the side surface of the shell 1; the lifting frame 74 is formed by connecting a vertical plate part with two symmetrical sides and a connecting part for connecting the vertical plate in the middle, the lifting frame 74 is positioned below the movable plate 33, the movable plate 33 moves downwards to push the lifting frame 74 to slide downwards along the guide rod 73, a sliding groove 75 matched with the U-shaped rod 71 is formed in the lifting frame 74, the sliding groove 75 is obliquely arranged, and the U-shaped rod 71 is pushed to move inwards when the lifting frame 74 is pressed downwards; the second elastic member 76 is connected between the lifting frame 74 and the guide rod 32, and the second elastic member 76 can be a stainless steel compression spring; the limiting block 77, the inner side of the movable part 22 is provided with a protruding limiting block 77, the limiting block 77 is in a right trapezoid shape, the top surface of the limiting block 77 is a wedge-shaped inclined surface, and the limiting block 77 and the cushion block 72 are oppositely arranged.

In the falling process of the movable plate 33, the bottom surface of the movable plate 33 is contacted with the top surface of the lifting frame 74, the lifting frame 74 is pushed to vertically move downwards along the guide rod 73 in the further downward moving process, the second elastic piece 76 is compressed under force, the inner side of the sliding groove 75 of the lifting frame 74 extrudes the U-shaped rod 71 when the lifting frame 74 moves downwards, the U-shaped rod 71 is pushed to drive the cushion block 72 to horizontally move towards one side of the movable part 22 relative to the fixed part 21, the inner side of the arc-shaped cushion block 72 is gradually attached to the outer surface of a container, and the container is clamped and fixed between the arc-shaped cushion block 72 and the fixed block 77 on the inner side of the movable part 22 lifted by the other side, so that the container is kept at the middle position and the container is prevented from shifting in the reaction process.

Still including the feed mechanism 8 that is used for adding the auxiliary agent, feed mechanism 8 includes: the disc 81, the upper side of the top cover 23 is welded with a disc 81 with a double-layer structure, and a through hole is arranged in the center of the disc 81; the feeding pipes 82, the feeding pipes 82 penetrating through the feeding pipes 82 and extending into the thermostatic reactor 2, the feeding pipes 82 are provided with four groups, the feeding pipes 82 are distributed at equal intervals, and the top ends of the feeding pipes 82 penetrate through the feeding pipes 81 and extend out; the middle section of the feeding pipe 82 is provided with a balloon 83 made of elastic materials, the balloon 83 is positioned between the disks 81 with the double-layer structure, the upper side of the balloon 83 is provided with a one-way valve, liquid can only flow from the upper side to the lower side, and the balloon 83 can drive the liquid in the feeding pipe 82 to flow downwards when being stretched; the ring block 84 is arranged on the outer edge of the disc 81, and the ring block 84 can rotate relative to the disc 81; the convex block 85, the inner side of the ring block 84 is provided with a convex block 85 extending along the radial direction, the convex block 85 is semi-elliptic, and the convex block 85 can squeeze the balloon 83; the gear ring 86 is fixedly connected with the gear ring 86 outside the ring block 84 in a welding mode, and the tooth mouth of the gear ring 86 faces to the outside; the third motor 87 is arranged on the top cover 23 through bolts, the third motor 87 adopts a direct current gear motor, a gear 88 meshed with the gear ring 86 is coaxially connected to an output shaft of the third motor 87, and the ring block 84 can be driven to rotate by the third motor 87.

When additives such as dispersing agents or surfactants are required to be added into the paint in the reaction, the corresponding additives can be respectively connected into different feeding pipes 82 according to different addition amounts, then the third motor 87 is controlled to work, the rotation of the output shaft of the third motor is matched with the transmission of the gear 88 and the gear ring 86, the ring block 84 rotates relative to the disc 81, the bulge 85 rotates along with the ring block 84 and passes through the balloon 83, the balloon 83 is extruded to be stressed and contracted, after the bulge 85 is separated from the balloon 83, the balloon 83 is re-expanded under the self elastic action, and then the bulge can be intermittently caused to each balloon 83 when the ring block 84 rotates, so that the balloon 83 continuously stretches and contracts to pump the additives connected with the feeding pipes 82 into a container, and the automatic addition of the additives is completed.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. The utility model provides a coating constant temperature dispersion reaction unit, includes casing (1), constant temperature reactor (2), coating dispenser (3), casing (1) is spare part installation carrier, constant temperature reactor (2) and coating dispenser (3) install respectively in on casing (1), the inside heating structure that is equipped with of constant temperature reactor (2), its characterized in that, constant temperature reactor (2) include:

a fixing part (21), wherein the fixing part (21) is in a semicircular shape with a hollow inside and is fixedly arranged on the shell (1);

a movable part (22), wherein the movable part (22) is in a semicircular shape with a hollow inside and is arranged on the shell (1), and the movable part (22) can move up and down relative to the fixed part (21);

the top cover (23) is arranged at the top end of the fixed part (21), and the movable part (22) and the fixed part (21) and the top cover (23) form a closed cylinder chamber together when being lifted;

the heating ring (24) is arranged on the lower side of the top cover (23);

the paint dispenser (3) includes:

a base (31), the base (31) being fixedly mounted on the housing (1);

a guide rod (32), wherein the guide rod (32) is vertically fixed on the base (31);

a movable plate (33), wherein the movable plate (33) is slidably connected to the guide rod (32), and the movable plate (33) can move axially along the guide rod (32);

the two ends of the first elastic piece (34) are respectively connected with the movable plate (33) and the base (31);

a first motor (35), wherein the first motor (35) is fixedly arranged on the movable plate (33);

the supporting rod (36) is coaxially connected with the output shaft of the first motor (35), and the supporting rod (36) penetrates through the center of the top cover (23);

the dispersing disc (37), the dispersing disc (37) is fixedly installed at the bottom end of the supporting rod (36);

the device also comprises a lifting mechanism (5) for controlling the movable part (22) of the constant temperature reactor (2) to lift, wherein the lifting mechanism (5) comprises:

a second motor (51), the second motor (51) being fixedly mounted on the housing (1);

the screw rod (52), the said screw rod (52) is connected with the output shaft of the said second electrical machinery (51) coaxially;

the sliding block (53) is movably connected with the screw rod (52) in a threaded fit mode, and the sliding block (53) moves along the axial direction when the screw rod (52) rotates;

the two ends of the connecting rod (54) are fixedly connected with the sliding block (53) and the bottom of the movable part (22) respectively;

also comprises a descending mechanism (6) for controlling the dispersion disk (37) to fall down, wherein the descending mechanism (6) comprises:

the movable rod (61) is symmetrically provided with two horizontal guide grooves (62) on the movable plate (33), and the movable rod (61) passes through the guide grooves (62) to be in sliding connection with the movable plate (33);

the wing plates (63) are symmetrically arranged at two ends of the movable rod (61), and inclined grooves (64) are formed in the corners of the wing plates (63);

the guide seat (65), the said guide seat (65) is fixedly mounted on said base (31);

the cross rod (66) is rotatably arranged on the guide seat (65), and the cross rod (66) is parallel to the movable rod (61);

the descent mechanism (6) further comprises:

the bracket (67) is connected to the shell (1) in a sliding way, and the bracket (67) can move up and down relative to the shell (1);

the inserting rod (68) is arranged at the top end of the bracket (67) and extends into the chute (64) of the wing plate (63);

and the transverse plate (69) is arranged at the bottom end of the bracket (67) and horizontally extends to the upper part of the sliding block (53).

2. The coating material constant temperature dispersion type reaction device according to claim 1, further comprising a moving base (4) for facilitating the movement of the whole device, wherein the moving base (4) is mounted on the bottom of the housing (1), and the moving base (4) comprises:

the bottom plate (41) is fixedly arranged at the bottom of the shell (1);

casters (42), wherein the casters (42) are symmetrically arranged at four corners of the lower side of the bottom plate (41).

3. The coating material thermostatic dispersion type reaction device according to claim 1, further comprising a fixing mechanism (7) for fixing a container put into the thermostatic reactor (2), the fixing mechanism (7) comprising:

the U-shaped rod (71) is arranged on the side surface of the constant temperature reactor (2), and the U-shaped rod (71) can horizontally slide relative to the constant temperature reactor (2);

the cushion block (72) is fixedly connected to the opening end of the U-shaped rod (71);

the guide rod (73) is fixedly arranged on the side surface of the constant temperature reactor (2), and the guide rod (73) is parallel to the axial direction of the constant temperature reactor (2);

the lifting frame (74) is connected to the guide rod (73) in a sliding manner, the lifting frame (74) is located below the movable plate (33), a sliding groove (75) matched with the U-shaped rod (71) is formed in the lifting frame (74), and the lifting frame (74) pushes the U-shaped rod (71) to move inwards when being pressed down;

and a second elastic member (76), wherein the second elastic member (76) is connected between the lifting frame (74) and the guide rod (32).

4. A coating material thermostatic dispersion type reaction apparatus according to claim 3, wherein a protruding stopper (77) is provided inside the movable portion (22), and the stopper (77) and the pad (72) are disposed opposite to each other.

5. The coating material thermostatic dispersion type reaction device according to claim 4, further comprising a feeding mechanism (8) for adding an auxiliary agent, wherein the feeding mechanism (8) comprises:

the disc (81) is arranged on the upper side of the top cover (23) by adopting the disc (81) with a double-layer structure;

the feeding pipe (82) penetrates through the disc (81) and stretches into the thermostatic reactor (2), and at least two groups of feeding pipes (82) are arranged;

the balloon (83), sacculus (83) install in inlet pipe (82) middle section, sacculus (83) are located between bilayer structure's disc (81), sacculus (83) upside is equipped with one-way structure, can drive the liquid in inlet pipe (82) downwardly flowing when sacculus (83) are flexible.

6. The coating material thermostatically-dispersed reaction device as claimed in claim 5, wherein the feeding mechanism (8) further comprises:

the ring block (84) is arranged on the outer edge of the disc (81), and the ring block (84) can rotate relative to the disc (81);

the convex blocks (85) are fixedly arranged on the inner sides of the annular blocks (84), the convex blocks (85) extend out in the radial direction, and the convex blocks (85) can squeeze the balloon (83) when moving;

a gear ring (86), wherein the gear ring (86) is fixedly connected to the outer side of the ring block (84);

the third motor (87), third motor (87) fixed mounting is on top cap (23), on the output shaft of third motor (87) coaxial coupling with gear (88) of ring gear (86) meshing.