CN217221433U - Printing ink resin production system - Google Patents

Abstract

The utility model discloses a printing ink resin production system aims at collecting all waste gases in the printing ink resin production process, the air quality in the guarantee workshop, its technical scheme: a printing ink resin production system comprises two reaction kettles, a liquid separation tank, an explosion-proof box, a steel belt conveying belt and a crusher, wherein the output ends of the two reaction kettles are in butt joint with the input end of the steel belt conveying belt, the output end of the steel belt conveying belt is in butt joint with the crusher, and a protective cover is arranged above the steel belt conveying belt; the top of the reaction kettle is provided with a safety valve, an air outlet and liquid inlets, the top of the liquid separation tank is provided with an input pipe, the bottom of the liquid separation tank is provided with an output pipe, the output pipe extends inwards to the upper part of the liquid separation tank, the air outlet is communicated with the input pipe through a cooling device, and the two liquid inlets are respectively communicated with the output pipe; belongs to the technical field of ink resin production.

Description

Printing ink resin production system

Technical Field

The utility model belongs to the technical field of printing ink resin production, more specifically say, relate to a printing ink resin production system.

Background

The ink resin is a carrier of pigment in the ink and is a core material of the ink, and the ink resin needs to be mixed and reacted in a reaction kettle in the production process, then cooled and formed, and finally crushed into particles for storage and transportation.

In the production process, harmful gases are generated in both the mixing process and the cooling process of the resin, and it is very necessary to collect and treat the waste gases.

To this situation, CN109954377A discloses a waste gas purification system for a resin production workshop, which includes a plurality of reaction kettles, gas collecting hoods, a deodorization processing device, and an incinerator, wherein the reaction kettles are provided with a plurality of gas collecting hoods in one-to-one correspondence, each gas collecting hood is connected with its corresponding gas collecting branch pipe, all the gas collecting branch pipes are connected with a gas collecting main pipe, the deodorization processing device includes a tank body, a gas distribution main pipe, gas distribution branch pipes, and a gas return hood, the tank body is divided into a liquid-gas exchange area and a waste gas collecting area, the gas distribution main pipe is provided at the bottom of the liquid-gas exchange area, the gas distribution branch pipes are provided with a plurality of gas return hoods, the gas return hoods are provided above each gas distribution branch pipe, the top of the tank body is provided with a waste gas outlet, and is connected with the incinerator through a pipeline, and the gas collecting main pipe is connected with the gas distribution main pipe.

Among the above-mentioned clean system, only carry out waste gas collection to reation kettle, and the waste gas in resin cooling process does not obtain the collection processing, can influence the air quality in the workshop certainly, and then harm workshop workman's physical and mental health.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a printing ink resin reation kettle solvent recovery system aims at collecting all waste gases in the printing ink resin production process, the air quality in the guarantee workshop.

According to the first aspect of the utility model, a printing ink resin production system is provided, which comprises two reaction kettles, a liquid separation tank, an explosion-proof box, a steel belt conveyer belt and a crusher, wherein the output ends of the two reaction kettles are butted with the input end of the steel belt conveyer belt, the output end of the steel belt conveyer belt is butted with the crusher, and a protective cover is arranged above the steel belt conveyer belt;

the top of the reaction kettle is provided with a safety valve, an air outlet and liquid inlets, the top of the liquid separation tank is provided with an input pipe, the bottom of the liquid separation tank is provided with an output pipe, the output pipe extends inwards to the upper part of the liquid separation tank, the air outlet is communicated with the input pipe through a cooling device, and the two liquid inlets are respectively communicated with the output pipe;

the output port of the safety valve is communicated with the explosion-proof tank through a pressure relief pipeline, the top of the explosion-proof tank is provided with an air outlet pipe, and the bottom of the explosion-proof tank is provided with a drain pipe;

the top of steel band conveyer belt is equipped with a trunk line with peripheral hardware exhaust-gas treatment equipment intercommunication, the top and the outlet duct of protection casing all communicate with the trunk line.

In foretell printing ink resin production system, explosion-proof box's inside is equipped with a baffle and separates into left cavity and right cavity with it, leave the clearance between the bottom surface of baffle and explosion-proof box's the bottom and make left cavity and right cavity intercommunication, all be equipped with the guide plate of downward sloping on the wall of right cavity and two adjacent baffle, two the pressure release pipeline all extends to explosion-proof box in and is located the top of two guide plates respectively, outlet duct and left cavity intercommunication, the upper portion of baffle is equipped with a plurality of bleeder vents.

In the above ink resin production system, the partition plate is vertically arranged, and the volume of the left chamber is smaller than that of the right chamber.

In the ink resin production system, the explosion-proof box is a cuboid, first rectangular frames are fixed on the edges of the top surface and the bottom surface of the explosion-proof box, a plurality of first reinforcing ribs are arranged between two opposite side edges of each first rectangular frame, and the first reinforcing ribs are attached to the explosion-proof box; a reinforcing plate is arranged at the included angle of the first rectangular frame;

a plurality of second reinforcing ribs are arranged between the corresponding side edges of the two first rectangular frames, and the second reinforcing ribs are attached to the side surfaces of the explosion-proof box;

the explosion-proof box is characterized by further comprising a second rectangular frame sleeved on the side face of the explosion-proof box, and the second rectangular frame is connected with a second reinforcing rib.

In the above ink resin production system, the cooling device includes a vertical condenser and a horizontal condenser which are butted in sequence, an input end of the vertical condenser is communicated with the gas outlet, and the horizontal condenser is located above the liquid separation tank and is downwardly inclined along a direction close to the liquid separation tank to be communicated with the input pipe.

In the ink resin production system, the steel belt conveyer belt is arranged on a frame, a plurality of hanger rails perpendicular to the conveying direction of the steel belt conveyer belt are arranged between an upper belt body and a lower belt body of the steel belt conveyer belt side by side, two ends of the hanger rails are respectively connected with the frame through two suspension devices, a water tank with an open top is arranged on the hanger rails, and a water pipe for spraying water towards the upper belt body of the steel belt conveyer belt is arranged in the water tank; and a first elastic rubber strip for being attached to the upper belt body of the steel belt conveying belt is arranged at the top of the water tank.

In the foretell printing ink resin production system, linkage is including fixing the fixed block in the frame, wearing to establish the first screw rod on the hanger rail, be equipped with the through-hole that supplies first screw rod to pass on the fixed block, threaded connection has two first nuts on the first screw rod, and one of them first nut is located the top of through-hole, and another first nut is located the below of through-hole, two first nut cooperation is carried the fixed block.

In the printing ink resin production system, the protective cover is detachably mounted on the rack, and a second elastic rubber strip for being attached to the upper belt body of the steel belt conveying belt is arranged at the bottom of the protective cover.

In the printing ink resin production system, a plurality of supporting blocks are arranged on the two sides of the protective cover along the conveying direction of the steel belt conveying belt, mounting blocks which correspond to the supporting blocks one to one are arranged on the rack, and positioning grooves for accommodating the supporting blocks are formed in the mounting blocks;

the second screw is fixed in the positioning groove, the support block is provided with a long waist hole for the second screw to pass through, and the support block is tightly pressed in the positioning groove by using a second nut in threaded connection with the second screw.

In the ink resin production system, the two sides of the positioning groove in the conveying direction perpendicular to the steel belt conveying belt are inclined planes, and the inclined planes are inclined upwards in the direction far away from the positioning groove.

The utility model discloses a technical scheme has following advantage or one of beneficial effect at least among the above-mentioned technical scheme:

the utility model is provided with a reaction kettle for mixing and reacting raw materials, then the raw materials are discharged to a steel belt conveyor belt for cooling and forming, and then the raw materials drop into a crusher to be crushed into particles, thereby forming a complete production line;

if the reaction kettle is exploded, the safety valve is opened, the gas-liquid mixture is discharged into the explosion-proof box, and the waste gas in the gas-liquid mixture is conveyed into the main pipeline through the gas outlet pipe; after the reacted ink resin in the reaction kettle is discharged to the steel belt conveying belt, waste gas is introduced into the main pipeline through the protective cover, the waste gas generated in the ink resin production system is completely conveyed to the main pipeline, the main pipeline is communicated with a waste gas treatment device to collect and treat the waste gas, and the air quality in a production workshop is guaranteed.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples;

fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of a reaction kettle of example 1 of the present invention;

fig. 3 is a partially enlarged view of a in fig. 2 according to embodiment 1 of the present invention;

fig. 4 is a schematic structural diagram of an explosion-proof box of embodiment 1 of the invention;

fig. 5 is a plan view of the explosion-proof tank of embodiment 1 of the present invention;

fig. 6 is a B-B sectional view of fig. 5 of embodiment 1 of the present invention;

fig. 7 is a schematic structural view of a steel belt conveyor according to embodiment 1 of the present invention;

fig. 8 is a partially enlarged view of C in fig. 7 according to embodiment 1 of the present invention;

fig. 9 is a partially enlarged view of D in fig. 7 according to embodiment 1 of the present invention;

fig. 10 is a cross-sectional view E-E of fig. 7 according to embodiment 1 of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following disclosure provides many different embodiments or examples for implementing different aspects of the invention.

Example 1

Referring to fig. 1 to 10, in an embodiment of the present invention, an ink resin production system includes two reaction kettles 1, a liquid separating tank 2, an explosion-proof box 3, a steel belt conveyer belt 4 and a pulverizer 5, wherein output ends of the two reaction kettles 1 are both butted with an input end of the steel belt conveyer belt 4, an output end of the steel belt conveyer belt 4 is butted with the pulverizer 5, and a protective cover 9 is arranged above the steel belt conveyer belt 4; the reaction kettle 1 is used for mixing and reacting raw materials, the ink resin after the mixing and reacting is discharged onto the steel belt conveyer belt 4 for cooling and forming, and then the ink resin falls into the crusher 5 and is crushed into particles, so that a complete production line is formed, and the production efficiency of the ink resin is improved;

in this embodiment, a stirring rod is arranged in the reaction kettle 1, the stirring rod is driven to rotate by a motor arranged at the top of the reaction kettle 1, of course, a feeding hole is arranged on the reaction kettle 1, and a discharging hole is also arranged at the bottom of the reaction kettle;

the top of the reaction kettle 1 is provided with a safety valve, an air outlet 11 and liquid inlets 12, the top of the liquid separation tank 2 is provided with an input pipe 21, the bottom of the liquid separation tank 2 is provided with an output pipe 22, the output pipe 22 extends inwards to the upper part of the liquid separation tank 2, the air outlet 11 is communicated with the input pipe 21 through a cooling device 6, and the two liquid inlets 12 are respectively communicated with the output pipe 22; the solvent formed by condensing the gas discharged from the reaction kettle 1 is conveyed into the liquid separating tank 2, and because the density of the solvent is less than that of water, the solvent is positioned in the upper layer, and after a certain amount of the solvent is stored, the solvent is discharged back into the reaction kettle 1 through the output pipe 22, so that the solvent is recycled, and the waste is reduced;

the output port of the safety valve is communicated with the explosion-proof box 3 through a pressure relief pipeline 13, the top of the explosion-proof box 3 is provided with an air outlet pipe 31, and the bottom of the explosion-proof box is provided with a drain pipe 32;

a main pipeline 10 communicated with external waste gas treatment equipment is arranged above the steel belt conveying belt 4, and the top of the protective cover 9 and the air outlet pipe 31 are both communicated with the main pipeline 10;

if the reaction kettle 1 is subjected to implosion, the safety valve is opened, the gas-liquid mixture is discharged into the explosion-proof box 3, and the waste gas in the gas-liquid mixture is conveyed into the main pipeline 10 through the gas outlet pipe 31; after the reacted ink resin in the reaction kettle 1 is discharged onto the steel belt conveying belt 4, waste gas is introduced into the main pipeline 10 through the protective cover 9, so that the waste gas generated in the ink resin production system is completely conveyed to the main pipeline 10, the main pipeline 10 is communicated with an external waste gas treatment device to collect and treat the waste gas, and the air quality in a production workshop is guaranteed.

Preferably, a partition plate 33 is arranged inside the explosion-proof box 3 to divide the explosion-proof box into a left cavity and a right cavity, a gap is reserved between the bottom surface of the partition plate 33 and the bottom of the explosion-proof box 3 to enable the left cavity and the right cavity to be communicated, two walls of the right cavity adjacent to the partition plate 33 are respectively provided with a guide plate 34 which inclines downwards, the two pressure relief pipelines 13 extend into the explosion-proof box 3 and are respectively positioned above the two guide plates 34, the air outlet pipe 31 is communicated with the left cavity, and the upper part of the partition plate 33 is provided with a plurality of air holes 331;

gas-liquid mixture discharges in the right cavity through pressure release pipeline 13, and then strikes guide plate 34, and liquid flows down along guide plate 34, and gas then rises, and enter into left cavity through bleeder vent 331 on baffle 33 in, rethread outlet duct 31 discharges, baffle 33 can effectually prevent that liquid from entering into outlet duct 31, and simultaneously, the clearance of baffle 33 below makes left cavity and right cavity intercommunication, can effectually utilize explosion-proof box 3's inner space storage liquid.

Preferably, the partition 33 is vertically arranged, so as to facilitate assembly; because the gas can be discharged in time, the volume of the left chamber does not need to be large, so that the volume of the left chamber is smaller than that of the right chamber, and more space is reserved for discharging the liquid; specifically, the volume of the left chamber is one third of the volume of the right chamber.

In order to cope with the high pressure of the gas-liquid mixture, the explosion-proof tank 3 needs to have a relatively good strength, in this embodiment, the explosion-proof tank 3 is a cuboid, the edges of the top surface and the bottom surface of the explosion-proof tank are both fixed with first rectangular frames 35, a plurality of first reinforcing ribs 36 are arranged between two opposite side edges of the first rectangular frames 35, the first reinforcing ribs 36 are attached to the explosion-proof tank 3, the first rectangular frames 35 can reinforce the strength of the corners, and then the strength of the top surface and the bottom surface of the explosion-proof tank 3 is reinforced through the first reinforcing ribs 36;

furthermore, the included angle of the first rectangular frame 35 is provided with a reinforcing plate 37, so that the strength of the first rectangular frame 35 can be enhanced;

further, a plurality of second reinforcing ribs 38 are arranged between the corresponding side edges of the two first rectangular frames 35, the second reinforcing ribs 38 are attached to the side surfaces of the explosion-proof box 3, and the strength of the side surfaces of the explosion-proof box 3 is enhanced through the second reinforcing ribs 38.

Further, the explosion-proof box comprises a second rectangular frame 39 sleeved on the side surface of the explosion-proof box 3, wherein the second rectangular frame 39 is connected with the second reinforcing rib 38, so that the second reinforcing rib 38 is connected to prevent the explosion-proof box 3 from expanding and deforming.

Generally, the explosion-proof box 3 is made of stainless steel, has sufficient strength and is corrosion-resistant, and the first rectangular frame 35, the first reinforcing rib 36, the reinforcing plate 37, the second reinforcing rib 38 and the second rectangular frame 39 can be fixed on the explosion-proof box 3 by welding.

In this embodiment, the cooling device 6 includes a vertical condenser 61 and a horizontal condenser 62 which are butted in sequence, an input end of the vertical condenser 61 is communicated with the gas outlet 11, and the horizontal condenser 62 is located above the liquid separation tank 2 and is inclined downwards along a direction close to the liquid separation tank 2 to be communicated with the input pipe 21; when the device is used, gas is discharged from the gas outlet 11 of the reaction kettle 1, the gas sequentially passes through the vertical condenser 61 and the horizontal condenser 62, the gas is cooled and condensed into liquid under the action of the condensers, and the liquid is discharged into the liquid separation tank 2 through the input pipe 21.

The vertical condenser 61 and the horizontal condenser 62 are both supplied with water circularly through an external water supply module.

In this embodiment, the output pipe 22 is respectively communicated with the two liquid inlets 12 through two connecting pipes, and the connecting pipes are provided with valves, so that one of the valves can be opened according to actual requirements to replenish the recovered solvent into one of the reaction kettles 1.

Preferably, the two reaction kettles 1 are both arranged on a platform 7, and the platform 7 can support the reaction kettles 1 and is convenient for workers to operate the liquid separation tank 2 and the condenser in a standing mode;

three supporting legs 23 are uniformly distributed on the outer wall of the liquid separating tank 2 in the circumferential direction, two supporting legs 23 are connected through a supporting plate 24, a supporting column 25 extending vertically downwards to the platform 7 is arranged on the supporting plate 24, the other supporting leg 23 extends vertically downwards to the platform 7 so as to support the liquid separating tank 2, a connecting rib 26 is arranged between each supporting leg 23 and the adjacent vertical condenser 61, the liquid separating tank 2 is further stabilized, and the stability of the whole framework is improved;

further, the supporting leg 23 comprises a horizontal plate 231 and a vertical column 232, the horizontal plate 231 is positioned on the outer wall of the upper part of the liquid separating tank 2, the supporting point is arranged above, when the liquid in the liquid separating tank 2 is more, the supporting leg can also support the liquid well, the vertical column 232 is fixedly connected with the bottom surface of the horizontal plate 231, and a reinforcing rib plate is arranged between the top surface of the horizontal plate 231 and the outer wall of the liquid separating tank 2;

in a specific embodiment, the support plate 24, the support pillar 25, the horizontal plate 231, the upright post 232, and other components are fixedly connected by welding; of course, other fixing methods such as bolts are also feasible, and the embodiment does not limit this.

In this embodiment, the supporting plate 24, the supporting pillar 25, the reinforcing plate 37, the connecting rib 26 and the upright 232 may be angle steel or square steel.

Furthermore, a liquid level observation window is arranged on the liquid separation tank 2, so that the liquid level in the liquid separation tank 2 can be observed conveniently.

Furthermore, the outer wall of the liquid separation tank 2 is provided with two flange plates for installing a liquid level meter, and the flange plates are provided with through holes communicated with the inside of the liquid separation tank 2.

In this embodiment, the steel belt conveyer 4 is arranged on a rack, generally, the steel belt conveyer 4 runs horizontally, when the ink resin in the reaction kettle 1 is discharged on the steel belt, the steel belt should be positioned on the upper side of the steel belt conveyer 4, that is, the upper belt of the steel belt conveyer 4, a plurality of hanger rails 41 perpendicular to the conveying direction of the steel belt conveyer 4 are arranged between the upper belt and the lower belt of the steel belt conveyer 4 side by side, two ends of the hanger rails 41 are respectively connected with the rack through two hanging devices 42, a water tank 8 with an open top is arranged on the hanger rail 41, the hanger rail 41 is arranged to facilitate installation of the water tank 8, and after the water tank 8 is arranged on the hanger rail 41, the hanger rail 41 is installed on the rack by using the hanging devices 42;

a water pipe 81 for spraying water towards the upper belt body of the steel belt conveying belt 4 is arranged in the water tank 8, so that the heat dissipation of the steel belt can be accelerated, the cooling speed of the ink resin on the steel belt is further accelerated, and meanwhile, the water tank 8 can recover the sprayed water, so that the waste is avoided;

it should be noted that, the number of the water tanks 8 may be multiple, two to three hanger rails 41 may support one water tank 8, the multiple water tanks 8 are sequentially arranged along the conveying direction of the steel belt conveyor belt 4, the water pipe 81 in each water tank 8 extends to the outside of the water tank 8 and is connected with a main water supply pipe to uniformly supply water, the bottom of the water tank 8 is provided with 32 water discharge pipes, the multiple water discharge pipes 32 are communicated to a main water return pipe, and a water pump is arranged between the main water supply pipe and the main water return pipe to form a circulation loop;

a first elastic rubber strip 82 for being attached to the upper belt body of the steel belt conveying belt 4 is arranged at the top of the water tank 8; the first elastic rubber strip 82 can prevent water from splashing and can scrape water drops on the upper belt body of the steel belt conveying belt 4, so that the water drops cannot drop on the lower belt body, the water drops on the lower belt body are prevented from flowing to the front of the lower belt body, and ink resin is prevented from being polluted after the lower belt body is circulated into the upper belt body.

Specifically, the suspension device 42 includes a fixed block 421 fixed on the frame and a first screw 422 passing through the hanger rail 41, the fixed block 421 is provided with a through hole for the first screw 422 to pass through, the first screw 422 is in threaded connection with two first nuts 423, one of the first nuts 423 is located above the through hole, the other first nut 423 is located below the through hole, and the two first nuts 423 cooperate to clamp the fixed block 421;

the two first nuts 423 can prevent looseness, the first screw 422 is prevented from falling, when adjustment is needed, the two first nuts 423 are unscrewed to perform corresponding adjustment, and the height of the hanger rail 41 can be adjusted to adapt to the water tank 8, so that the water pipe can be ensured to spray water onto the upper belt body of the steel belt conveying belt 4.

Preferably, protection casing 9 is installed in the frame with the detachable mode, and its bottom is equipped with the second elastic adhesive tape 91 that is used for laminating mutually with the upper band body of steel band conveyer belt 4 to this realizes sealedly, prevents that the foreign matter from flying to the upper band body of steel band conveyer belt 4 and polluting printing ink resin, inhales the waste gas that printing ink resin took out from reation kettle 1 through peripheral hardware exhaust-gas treatment equipment simultaneously, avoids polluting the inside air in workshop.

In a specific embodiment, the protective cover 9 may be a plurality of protective covers arranged in sequence along the conveying direction of the steel belt conveying belt 4, and a plurality of protective covers 9 are spliced to cover the steel belt conveying belt 4.

In this embodiment, the water pipe 81 only sprays water to the back surface of the upper belt body of the steel belt conveying belt 4, and the second elastic rubber strip 91 is attached to the front surface of the upper belt body of the steel belt conveying belt 4, which are not interfered with each other.

Preferably, a plurality of supporting blocks 92 are arranged on both sides of the protective cover 9 along the conveying direction of the steel belt conveying belt 4, mounting blocks 93 corresponding to the supporting blocks 92 one to one are arranged on the rack, and positioning grooves 931 used for accommodating the supporting blocks 92 are arranged on the mounting blocks 93;

the second screw 94 is fixed in the positioning groove 931, a long waist hole for the second screw 94 to pass through is formed in the support block 92, when the device is used, the long waist hole is aligned with the second screw 94, the support block 92 is slowly lowered to be embedded into the positioning groove 931, then the second screw 95 is in threaded connection with the second screw 94, the support block 92 is pressed in the positioning groove 931 along with the downward movement of the second screw 95, and at this time, the bottom of the protective cover 9 does not directly contact with the upper belt body of the steel belt conveying belt 4, but slightly presses the second elastic rubber strip 91, and the second elastic rubber strip is pressed on the upper belt body of the steel belt conveying belt 4.

Preferably, both sides of the positioning groove 931 in the direction perpendicular to the conveying direction of the steel belt conveying belt 4 are inclined planes, the inclined planes are inclined upwards in the direction away from the positioning groove 931, and the inclined planes have a guiding function to facilitate the entry of the supporting block 92.

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

Claims (10)

1. The printing ink resin production system is characterized by comprising two reaction kettles, a liquid separation tank, an explosion-proof box, a steel belt conveying belt and a crusher, wherein the output ends of the two reaction kettles are butted with the input end of the steel belt conveying belt, the output end of the steel belt conveying belt is butted with the crusher, and a protective cover is arranged above the steel belt conveying belt;

the top of the reaction kettle is provided with a safety valve, an air outlet and liquid inlets, the top of the liquid separation tank is provided with an input pipe, the bottom of the liquid separation tank is provided with an output pipe, the output pipe extends inwards to the upper part of the liquid separation tank, the air outlet is communicated with the input pipe through a cooling device, and the two liquid inlets are respectively communicated with the output pipe;

the output port of the safety valve is communicated with the explosion-proof box through a pressure relief pipeline, the top of the explosion-proof box is provided with an air outlet pipe, and the bottom of the explosion-proof box is provided with a drain pipe;

the top of steel band conveyer belt is equipped with a trunk line with peripheral hardware exhaust-gas treatment equipment intercommunication, the top and the outlet duct of protection casing all communicate with the trunk line.

2. The ink resin production system according to claim 1, wherein a partition plate is provided inside the explosion-proof tank to divide the explosion-proof tank into a left chamber and a right chamber, a gap is provided between a bottom surface of the partition plate and a bottom of the explosion-proof tank to communicate the left chamber and the right chamber, a downwardly inclined flow guide plate is provided on each of two walls of the right chamber adjacent to the partition plate, two pressure release pipes extend into the explosion-proof tank and are respectively located above the two flow guide plates, the air outlet pipe is communicated with the left chamber, and a plurality of air holes are provided on an upper portion of the partition plate.

3. The ink resin production system of claim 2, wherein the partition is vertically arranged, and the volume of the left chamber is smaller than the volume of the right chamber.

4. The ink resin production system according to claim 1, wherein the explosion-proof box is a rectangular parallelepiped, a first rectangular frame is fixed on the edges of the top surface and the bottom surface of the explosion-proof box, a plurality of first reinforcing ribs are arranged between two opposite side edges of the first rectangular frame, and the first reinforcing ribs are attached to the explosion-proof box; a reinforcing plate is arranged at the included angle of the first rectangular frame;

a plurality of second reinforcing ribs are arranged between the corresponding side edges of the two first rectangular frames, and the second reinforcing ribs are attached to the side surfaces of the explosion-proof box;

the explosion-proof box is characterized by further comprising a second rectangular frame sleeved on the side face of the explosion-proof box, and the second rectangular frame is connected with a second reinforcing rib.

5. The ink resin production system according to claim 1, wherein the cooling device includes a vertical condenser and a horizontal condenser which are butted in sequence, an input end of the vertical condenser is communicated with the air outlet, and the horizontal condenser is located above the liquid separation tank and is inclined downward in a direction close to the liquid separation tank to be communicated with the input pipe.

6. The ink resin production system according to claim 1, wherein the steel belt conveyor is arranged on a frame, a plurality of hanger rails perpendicular to a conveying direction of the steel belt conveyor are arranged side by side between an upper belt body and a lower belt body of the steel belt conveyor, both ends of the hanger rails are respectively connected with the frame through two hanging devices, a water tank with an open top is arranged on the hanger rails, and a water pipe for spraying water towards the upper belt body of the steel belt conveyor is arranged in the water tank; and a first elastic rubber strip for being attached to the upper belt body of the steel belt conveying belt is arranged at the top of the water tank.

7. The printing ink resin production system according to claim 6, wherein the suspension device comprises a fixed block fixed on the frame, and a first screw rod arranged on the hanger rail in a penetrating manner, the fixed block is provided with a through hole for the first screw rod to pass through, the first screw rod is in threaded connection with two first nuts, one of the first nuts is positioned above the through hole, the other first nut is positioned below the through hole, and the two first nuts are matched to clamp the fixed block.

8. The ink resin production system according to claim 6, wherein the protective cover is detachably attached to the frame, and a second elastic rubber strip for engaging with the upper belt body of the steel belt conveyor is provided at the bottom thereof.

9. The ink resin production system according to claim 8, wherein a plurality of support blocks are provided on both sides of the guard cover in the conveying direction of the steel belt conveyor, and mounting blocks corresponding to the support blocks one to one are provided on the frame, and positioning grooves for receiving the support blocks are provided on the mounting blocks;

the second screw is fixed in the positioning groove, the support block is provided with a long waist hole for the second screw to pass through, and the support block is tightly pressed in the positioning groove by using a second nut in threaded connection with the second screw.

10. The ink resin production system according to claim 9, wherein both sides of the positioning groove in a direction perpendicular to a conveying direction of the steel belt conveying belt are inclined surfaces, and the inclined surfaces are inclined upward in a direction away from the positioning groove.

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