CN217041327U - Special recovery unit of antifouling sudden strain of a muscle coating thinner - Google Patents

Abstract

The application discloses special recovery unit of antifouling sudden strain of a muscle coating thinner relates to recovery unit technical field, and its technical scheme includes: the impurity removing assembly comprises a first box body, a liquid receiving tank, a liquid receiving pipeline and a filter screen plate, the liquid receiving pipeline is arranged in the first box body and is used for communicating the liquid receiving tank with the first box body, and the filter screen plate is detachably connected in the first box body; the processing assembly includes the second box, the evaporation storehouse, heater block and garbage collection box, the evaporation storehouse sets up inside the second box, the garbage collection box sets up and is used for accepting the waste material after handling in second bottom half, the heater block is used for evaporating the material in the evaporation storehouse, link to each other through the honeycomb duct between evaporation storehouse and the first box, honeycomb duct department is provided with first valve, the garbage collection box sets up in second bottom half, this application is when using, can improve the purity and the recovery efficiency of diluent waste recycling.

Description

Special recovery unit of antifouling sudden strain of a muscle coating thinner

Technical Field

The application relates to the technical field of recovery devices, in particular to a special recovery device for an anti-pollution flashover coating diluent.

Background

At present, in the coating production, in order to pursue excellent coating film quality, it is often necessary to repeatedly clean the spray gun during production. When the spraying color is changed, the cleaning is inevitable, and a large amount of paint thinner, commonly called thinner, named Tianna water, banana oil and the like is used in the process. After repeated cleaning, a large amount of impurities, such as: paint, grease, pigment, resin and the like, so that the thinner cannot be reused for cleaning, and resource waste is caused.

Current chinese patent application No. 202121860448.2 proposes a recovery unit for diluent, including electric heating oil stove, condenser, the right side of electric heating oil stove is equipped with the heater, the heater includes heating oil import, heating oil export, shell, throws material valve, heat exchanger, electric heating oil stove passes through heating oil pipe and heating oil import intercommunication, the heating oil import is located the outer wall left side of shell, and the below of heating oil import is equipped with the heating oil export, and the heating oil import runs through shell and heat exchanger intercommunication, the heat exchanger inlays and establishes at the shell middle part, the top of shell is equipped with feeding valve, and the bottom of shell is equipped with waste liquid discharge port, the right side upper end of shell is equipped with steam discharge port, steam discharge port passes through steam conduit and condenser intercommunication, the drain outlet department of condenser is equipped with the collection bucket, during the processing, and pouring the mixed liquid to be recovered into the device through a feeding valve, and discharging the residual waste liquid along a waste liquid discharge port after recovery.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the diluent waste may contain large particle impurities, and the diluent waste is directly poured into the device for recycling, which may affect the purity and recovery rate of subsequent material recycling.

SUMMERY OF THE UTILITY MODEL

In order to improve the purity and the recovery efficiency of retrieving diluent waste material, this application provides a special recovery unit of antifouling sudden strain of a muscle coating thinner.

The application provides a special recovery unit of antifouling sudden strain of a muscle coating diluent adopts following technical scheme:

a special recovery device for an anti-pollution flashover coating diluent comprises an impurity removing component, a processing component and a collecting component, wherein the impurity removing component comprises a first box body, a liquid receiving groove, a liquid receiving pipeline and a filter screen plate, the liquid receiving groove is formed in the upper end of the first box body, the liquid receiving pipeline is formed in the first box body and used for connecting the liquid receiving groove with the liquid receiving pipeline, and the filter screen plate is detachably connected in the first box body; the processing assembly comprises a second box body, an evaporation bin, a heating part and a waste collecting box, wherein the evaporation bin is arranged inside the second box body, the waste collecting box is arranged at the bottom of the second box body and is used for receiving waste materials after processing, the heating part is used for evaporating materials in the evaporation bin, the evaporation bin is connected with the first box body through a guide pipe, a first valve is arranged at the guide pipe, the waste collecting box is arranged at the bottom of the second box body, the waste collecting box is connected with the evaporation bin through a communicating pipe, a second valve is arranged on the communicating pipe, and the materials after the processing assembly is processed are collected by the collecting assembly.

By adopting the technical scheme, the arranged filter screen plate can be used for filtering large-particle impurities in the diluent waste liquid, and the filter screen plate is detachable and can be detached and cleaned after too many impurities are accumulated on the filter screen plate; the processing subassembly can be handled the waste liquid after filtering, collects the pure material of subassembly after will handling and retrieves, and the filter screen board that can dismantle the setting can improve recovery purity and the recovery efficiency to the diluent waste material.

Optionally, rectangular groove has been seted up to the side level of first box, the draw-in groove has been seted up to the both sides wall in rectangular groove, rectangular inslot is provided with the rectangular board, the one end fixed connection of rectangular board and filter plate, be provided with the joint part with rectangular board locking in the draw-in groove.

Through adopting above-mentioned technical scheme, rectangular board joint is at the surface of first box to rectangular board and the one end fixed connection who crosses filter plate can demolish very convenient and fast with the joint part when needs will cross filter plate and dismantle.

Optionally, the clamping part includes a clamping part and a reset part, the clamping part includes a fixture block, a sliding block and a spring, the sliding block is slidably connected in the clamping groove, the fixture block is connected on one side of the sliding block close to the strip groove, accommodating grooves for accommodating the fixture block are formed in two sides of the strip plate, the spring is connected between the sliding block and the inner wall of the clamping groove, when the spring is in an original state, the fixture block is clamped in the accommodating grooves, and the reset part is used for resetting the fixture block.

Through adopting above-mentioned technical scheme, when needs will filter the installation of otter board clean, can go into the rectangular groove with rectangular board card, under the elastic action of spring, make the slider drive the fixture block card and go into the locking with rectangular board in rectangular board's the holding tank, when needs will filter the otter board and dismantle, can withdraw from the holding tank with the fixture block through the piece that resets.

Optionally, the reset member includes a pull rod and a driving block, the pull rod is disposed at one end of the sliding block far away from the fixture block, the pull rod extends out of the outer side of the first box body, the driving block is disposed at one end of the pull rod far away from the sliding block, and the driving block abuts against the outer surface of the first box body.

Through adopting above-mentioned technical scheme, to the one side pulling drive block of keeping away from first box, the drive block drives the pull rod and slides, makes the pull rod drive the sliding block and slides in the draw-in groove and supports and press the spring, makes the fixture block withdraw from the holding tank of rectangular board simultaneously, removes the locking to the holding tank.

Optionally, the filter screen plate is horizontally connected to the lower end of the long slat.

Through adopting above-mentioned technical scheme, filter the lower extreme of otter board horizontal connection at rectangular board, can make and accept more impurity on filtering the otter board.

Optionally, the heater block includes heating furnace, steam pipe and heat conduction pipeline, the heating furnace sets up in the second box outside, heat conduction pipeline sets up the week side in the evaporation storehouse, the steam pipe transmits the steam of heating furnace for heat conduction pipeline, heat conduction pipeline keeps away from steam pipe one side and is linked together with the heating furnace.

Through adopting above-mentioned technical scheme, the heating furnace can produce the heat, and steam transmits for the heat conduction pipeline through the steam pipe, and the heat conduction pipeline retransmits the heat to the inside in evaporation storehouse, and the diluent meets high temperature and can volatilize, and under the high temperature effect, the high-purity diluent material is followed steam and is separated out from the waste material, separates the material and collects through collecting the subassembly, realizes cyclic utilization.

Optionally, collect the subassembly and include that third box, outlet pipe, condenser pipe, inlet pipe and material collect the storehouse, condenser pipe, inlet pipe and material are collected the storehouse and are all set up inside the third box, outlet pipe intercommunication condenser pipe and evaporation storehouse, outlet pipe department is provided with first valve, the one end that evaporation storehouse was kept away from to outlet pipe is linked together with the one end of condenser pipe, inlet pipe is linked together with the other end of condenser pipe, the one end that condenser pipe was kept away from to inlet pipe is collected the storehouse with the material and is linked together, inlet pipe department is provided with the third valve, outlet pipe department is provided with the fourth valve.

Through adopting above-mentioned technical scheme, open third valve, fourth valve, steam volatilizees to the export pipeline from the steam storehouse then gets into the condenser pipe, through the condensation after, reentrant inlet pipe, then let in the material collection storehouse, realize the recovery again of diluent waste material.

Optionally, the liquid receiving groove is arranged in an arc shape.

Through adopting above-mentioned technical scheme, connect the cistern to be the arc setting and play the effect of water conservancy diversion to the waste liquid.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the detachable filter screen plates which are obliquely arranged can filter the diluent waste, so that the recovery purity and the recovery efficiency of the diluent waste are improved;

2. the heating component can separate high-purity diluent materials from the waste materials along with steam under the action of high temperature, and the separated materials are collected by the collecting component to realize cyclic utilization;

3. the collection subassembly that sets up, steam volatilizees to the export pipeline from the steam storehouse and then gets into the condenser pipe, through the condensation after, reentrant inlet pipe, then let in the material collects the storehouse, realize the recovery again of diluent waste material.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the internal structure of a first box, a second box and a third box in the embodiment of the present application;

FIG. 3 is a schematic sectional view of the first casing in the embodiment of the present application;

fig. 4 is an enlarged schematic view of a portion a of fig. 3.

Reference numerals are as follows: 1. an impurity removal component; 11. a first case; 12. a liquid receiving tank; 13. a liquid receiving pipeline; 14. a filter screen plate; 2. a processing component; 21. a second case; 22. an evaporation bin; 23. a heating member; 231. a heating furnace; 232. a hot gas conduit; 233. a heat conducting pipe; 24. a waste collection box; 241. a flow guide pipe; 25. a first valve; 26. a communicating pipe; 27. a second valve; 3. a collection assembly; 31. a third box body; 32. an outlet conduit; 33. a condenser tube; 34. an inlet duct; 35. a material collecting bin; 36. a third valve; 37. a fourth valve; 4. a clip member; 40. a long groove; 41. a strip plate; 42. a card slot; 43. a clamping block; 44. a slider; 45. a spring; 46. a pull rod; 47. the block is driven.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses special recovery unit of antifouling sudden strain of a muscle coating diluent refers to fig. 1 and fig. 2, including edulcoration subassembly 1, treatment unit 2 and collection subassembly 3, filters the impurity in the diluent waste liquid through edulcoration subassembly 1, then handles the diluent waste liquid through treatment unit 2, makes the pure diluent after handling let in and collects subassembly 3, makes the diluent waste liquid can cyclic utilization after handling.

Referring to fig. 1 and 2, in the embodiment, the trash component 1, the processing component 2 and the collecting component 3, the trash component 1 includes a first box 11, a liquid receiving tank 12, a liquid receiving pipeline 13 and a filter screen plate 14, the liquid receiving tank 12 is disposed at an upper end of the first box 11, the liquid receiving pipeline 13 is disposed in the first box 11, the liquid receiving tank 12 is communicated with the first box 11 through the liquid receiving pipeline 13, and the filter screen plate 14 is detachably connected in the first box 11; the processing assembly 2 comprises a second box 21, an evaporation bin 22, a heating part 23 and a waste collecting box 24, the evaporation bin 22 is arranged inside the second box 21, the waste collecting box 24 is arranged at the bottom of the second box 21 and used for receiving processed waste, the heating part 23 is used for evaporating materials in the evaporation bin 22, the evaporation bin 22 is connected with the first box 11 through a guide pipe 241, the guide pipe 241 is provided with a first valve 25, the waste collecting box 24 is arranged at the bottom of the second box 21, the waste collecting box 24 is connected with the evaporation bin 22 through a communicating pipe 26, a second valve 27 is arranged on the communicating pipe 26, and the materials processed by the processing assembly 2 are collected by the collecting assembly 3.

Fig. 3 and 4, the clamping part 4 includes a clamping part and a reset part, the clamping part includes a fixture block 43, a sliding block 44 and a spring 45, the sliding block 44 is slidably connected in the clamping groove 42, the fixture block 43 is connected to one side of the sliding block 44 close to the strip groove 40, two sides of the strip plate 41 are provided with accommodating grooves for accommodating the fixture block 43, the spring 45 is connected between the sliding block 44 and the inner wall of the clamping groove 42, and when the spring 45 is in an original state, the fixture block 43 is clamped in the accommodating grooves to lock the strip plate 41; the reset piece comprises a pull rod 46 and a driving block 47, the pull rod 46 is arranged at one end, away from the fixture block 43, of the sliding block 44, the pull rod 46 extends out of the outer side of the first box body 11, the driving block 47 is arranged at one end, away from the sliding block 44, of the pull rod 46, the driving block 47 abuts against the outer surface of the first box body 11, when the filter screen plate 14 needs to be disassembled, the two driving blocks 47 can be pulled towards one side, away from the first box body 11, the sliding block 44 abuts against the spring 45, the fixture block 43 is driven by the sliding block 44 to withdraw from the accommodating groove, locking of the long strip plate 41 is released, and in addition, a handle is arranged at one side, away from the filter screen plate 14, of the long strip plate 41.

Referring to fig. 1 and 2, the processing assembly 2 includes a second box 21, an evaporation bin 22, a heating member 23, and a waste collection box 24, the evaporation bin 22 is installed inside the second box 21, the bottom of the evaporation bin 22 is connected to the first box 11 through a guide pipe 241, a first valve 25 is disposed at the guide pipe 241, the waste collection box 24 is disposed at the bottom of the second box 21, the waste collection box 24 is connected to the evaporation bin 22 through a communication pipe 26, and a second valve 27 is disposed on the communication pipe 26; the heating part 23 can be with the material evaporation in the evaporation storehouse 22, the heating part 23 includes heating furnace 231, hot gas pipe 232 and heat conduction pipeline 233, heating furnace 231 sets up in the second box 21 outside, heat conduction pipeline 233 hugs closely in the week side setting of evaporation storehouse 22, the one end intercommunication heat conduction pipeline 233 of hot gas pipe 232, other end intercommunication heating furnace 231, the heat that utilizes heating furnace 231 to produce, hot gas passes through hot gas pipe 232 and transmits heat conduction pipeline 233, heat conduction pipeline 233 retransmits the heat to the inside of evaporation storehouse 22, the diluent meets high temperature and is volatile, the diluent after collecting assembly 3 will handling is collected, the waste material after the processing can let in the garbage collection box 24 of second box 21 bottom.

In fig. 1 and 2, the collecting assembly 3 comprises a third tank 31, an outlet duct 32, a condensation duct 33, an inlet duct 34 and a material collecting bin 35; the condenser pipe 33, the inlet pipeline 34 and the material collecting bin 35 are all arranged inside the third box body 31, the inlet pipeline 34 is communicated with one end of the condenser pipe 33, one end, away from the condenser pipe 33, of the inlet pipeline 34 is communicated with the material collecting bin 35, and a third valve 36 is arranged at the inlet pipeline 34; the outlet pipe 32 is disposed between the second tank 21 and the third tank 31, the outlet pipe 32 connects the condensation pipe 33 in the third tank 31 with the evaporation bin 22 in the second tank 21, and the outlet pipe 32 is provided with a fourth valve 37.

The implementation principle of the special recovery unit of antifouling sudden strain of a muscle coating thinner of this application embodiment is: in actual operation, an operator firstly installs the clean filter screen plate 14 and the long strip plate 41 on the surface of the first box body 11 through the clamping component 4, then opens the first valve 25, pours the diluent waste into the liquid receiving tank 12, the diluent waste liquid flows into the liquid receiving pipeline 13 through the liquid receiving tank 12, filters the waste liquid flowing out from the filter screen plate 14 through the filter screen plate 14, the filtered liquid flows into the bottom of the first box body 11 and flows into the evaporation bin 22 along the guide pipe 241, then utilizes the heat generated by the heating furnace 231, the hot gas is transmitted to the heat conducting pipeline 233 through the hot gas guide pipe 232, the heat conducting pipeline 233 transmits the heat to the inside of the evaporation bin 22 again, the diluent volatilizes when meeting high temperature, under the action of high temperature, the high-purity diluent material is separated from the waste material along with the steam, the third valve 36 and the fourth valve 37 are opened, the steam enters the condensation pipe 33 from the outlet pipeline 32, after condensation, the diluent enters an inlet pipeline 34 and then is introduced into a material collecting bin 35, so that the diluent waste is recycled.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a special recovery unit of antifouling sudden strain of a muscle coating thinner which characterized in that: the device comprises an impurity removing component (1), a processing component (2) and a collecting component (3), wherein the impurity removing component (1) comprises a first box body (11), a liquid receiving tank (12), a liquid receiving pipeline (13) and a filter screen plate (14), the liquid receiving tank (12) is arranged at the upper end of the first box body (11), the liquid receiving pipeline (13) is arranged in the first box body (11), the liquid receiving tank (12) is communicated with the first box body (11) through the liquid receiving pipeline (13), and the filter screen plate (14) is detachably connected in the first box body (11); the processing component (2) comprises a second box body (21), an evaporation bin (22), a heating component (23) and a waste collecting box (24), the evaporation bin (22) is arranged inside the second box body (21), the waste material collection box (24) is arranged at the bottom of the second box body (21) and is used for receiving the treated waste material, the heating component (23) is used for evaporating the material in the evaporation bin (22), the evaporation bin (22) is communicated with the first box body (11) through a guide pipe (241), a first valve (25) is arranged at the position of the guide pipe (241), the waste collecting box (24) is arranged at the bottom of the second box body (21), and the waste collecting box (24) is connected with the evaporation bin (22) through a communicating pipe (26), the communicating pipe (26) is provided with a second valve (27), and the collecting component (3) collects materials treated by the treating component (2).

2. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 1, wherein: rectangular groove (40) have been seted up to the side level of first box (11), draw-in groove (42) have been seted up to the both sides wall of rectangular groove (40), be provided with rectangular board (41) in rectangular groove (40), rectangular board (41) and the one end fixed connection of filtering otter board (14), be provided with joint part (4) with rectangular board (41) locking in draw-in groove (42).

3. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 2, wherein: joint part (4) are including joint spare and reset, the joint spare includes fixture block (43), sliding block (44) and spring (45), sliding block (44) sliding connection is in draw-in groove (42), one side that sliding block (44) are close to rectangular groove (40) is connected in fixture block (43), the holding tank that holds fixture block (43) is seted up to the both sides of rectangular board (41), spring (45) are connected between sliding block (44) and draw-in groove (42) inner wall, when spring (45) are in pristine condition, fixture block (43) card is in the holding tank, reset is used for reseing of fixture block (43).

4. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 3, wherein: the reset piece comprises a pull rod (46) and a driving block (47), the pull rod (46) is arranged at one end, away from the clamping block (43), of the sliding block (44), the pull rod (46) extends out of the outer side of the first box body (11), the driving block (47) is arranged at one end, away from the sliding block (44), of the pull rod (46), and the driving block (47) abuts against the outer surface of the first box body (11).

5. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 2, wherein: the filter screen plate (14) is horizontally connected to the lower end of the long strip plate (41).

6. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 1, wherein: heating member (23) are including heating furnace (231), steam pipe (232) and heat conduction pipeline (233), heating furnace (231) set up in second box (21) the outside, heat conduction pipeline (233) set up the week side in evaporation storehouse (22), steam pipe (232) transmit the steam of heating furnace (231) for heat conduction pipeline (233), heat conduction pipeline (233) are kept away from steam pipe (232) one side and are linked together with heating furnace (231).

7. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 1, wherein: collect subassembly (3) and include that third box (31), outlet pipe way (32), condenser pipe (33), inlet pipe way (34) and material collect storehouse (35) and all set up inside third box (31), outlet pipe way (32) intercommunication condenser pipe (33) and evaporation storehouse (22), the one end that evaporation storehouse (22) were kept away from in outlet pipe way (32) is linked together with the one end of condenser pipe (33), inlet pipe way (34) are linked together with the other end of condenser pipe (33), the one end that condenser pipe (33) were kept away from in inlet pipe way (34) is linked together with material collection storehouse (35), inlet pipe way (34) department is provided with third valve (36), outlet pipe way (32) department is provided with fourth valve (37).

8. The special recovery device for the anti-pollution flashover coating diluent as claimed in claim 1, wherein: the liquid receiving tank (12) is arranged in an arc shape.

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