CN111569587A - Energy-saving and environment-friendly equipment - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly equipment, which structurally comprises an air inlet, a pretreatment box, a control panel, a support frame, a filter box and a standard discharge port, wherein the right end of the air inlet is embedded at the left end of the pretreatment box and communicated with the pretreatment box, waste gas generated in a paint spraying workshop enters the box body through the air inlet, a contact roller rotates to drive a swinging blade to rotate, heat conduction is carried out through a heat conduction rod, hot gas is conducted to the surface of a bump, coating mist enters a flow groove to be adhered to an adhesion plate, the phenomenon that the coating mist in the waste gas enters the filter box to be adhered to active carbon is reduced, the waste gas enters the flow frame, the normal circulation of the waste gas is ensured through three flow frames, the flow speed of the waste gas is reduced, the flow baffle blocks the coating mist in the waste gas, and the waste gas normally flows through vent holes in the contact process of the plate, the circulation speed of the waste gas is slowed down, and the waste gas is prevented from being directly discharged from the standard discharge port.

Description

Energy-saving and environment-friendly equipment

Technical Field

The invention relates to the field of environment-friendly equipment, in particular to energy-saving environment-friendly equipment.

Background

The workshop of spraying paint discharges out a large amount of organic solvent waste gases in process of production, pass through the active carbon adsorption on energy-concerving and environment-protective equipment to organic solvent waste gas, organic solvent that contains in the waste gas after using the active carbon adsorption can recycle, reach certain energy-concerving and environment-protective effect, but because the workshop of spraying paint when containing more coating fog in the waste gas of in-process production of spraying paint, a large amount of coating fog is when the active carbon is passed through in the waste gas, the humidity that the coating fog contains is great, the adhesion of coating fog large tracts of land is on the active carbon surface, the great active carbon that leads to the fact of humidity is inefficacy, reduce the absorption to waste gas, and at this moment, the speed of exhaust circulation is accelerated, cause partial waste.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the energy-saving and environment-friendly equipment structurally comprises an air inlet, a pretreatment box, a control panel, a support frame, a filter box and a standard discharge port, the right end of the air inlet is embedded at the left end of the pretreatment tank and communicated with the pretreatment tank, the outer surface of the pretreatment tank is embedded with a control panel, the pretreatment box is fixedly arranged at the left end of the support frame, the left end of the filter box is fixed with and communicated with the right end of the pretreatment box, the filter box is fixedly arranged at the right end of the support frame, the right end of the filter box is embedded with a standard discharge port and communicated with the standard discharge port, the pretreatment box comprises a box body, a rotating mechanism and a current-slowing mechanism, wherein the left end of the box body is embedded with an air inlet and communicated with the air inlet, the rotating mechanism is fixedly arranged inside the connecting part of the box body and the air inlet, the right side of the rotating mechanism is provided with a flow retarding mechanism, and the slow flow mechanism is fixedly arranged at the right end in the box body, and the rotating mechanism is controlled to rotate through the control panel.

As a further improvement of the invention, the rotating mechanism comprises a rotating shaft, a contact roller and four swinging blades, wherein the rotating shaft penetrates through the contact roller and is fixed with the contact roller, the swinging blades are arranged outside the contact roller, the rotating shaft is arranged inside the connecting part of the box body and the air inlet, and the four swinging blades are in a sawtooth arc structure and are uniformly distributed on the outer surface of the contact roller in an annular shape.

As a further improvement of the invention, the contact roller comprises a roller body, heating wires, heat conducting rods and convex blocks, wherein the rotating shaft penetrates through the inside of the roller body and is fixed with the roller body, the heating wires are arranged inside the roller body and are wound at the lower ends of the heat conducting rods, the upper ends of the heat conducting rods penetrate through the outside of the roller body in a clearance fit mode, the upper ends of the heat conducting rods are located inside the convex blocks, the convex blocks are embedded on the outer surface of the roller body, swinging blades are arranged on the outer surface of the roller body, four groups of the heating wires are connected in series and are respectively wound with the four groups of the heat conducting rods, twelve heat conducting rods are arranged, three heat conducting rods are arranged in.

As a further improvement of the invention, the swing blade comprises a plate body, a flow groove and an adhesion plate, wherein the plate body is embedded on the outer surface of the roller body, the flow groove is formed in the plate body, the adhesion plate is fixedly installed in the flow groove, the flow groove is composed of three hollow cylinders, and a disc-shaped adhesion plate is arranged in each flow groove.

As a further improvement of the invention, the flow slowing mechanism comprises a flow frame, hinged plates, inclined flow plates and blocking plates, wherein the flow frame is fixedly arranged at the right end in the box body, the outer wall of the lower end of the flow frame is hinged with the upper end of the hinged plates, the lower ends of the hinged plates are fixed with the outer wall of the inclined flow plates, the lower ends of the inclined flow plates are positioned in the flow frame, the upper ends of the inclined flow plates are provided with the blocking plates, the number of the flow frames is three, the upper and lower flow frames are of a structure with a narrow inlet and a wide outlet, the middle of the flow frames is of a structure with a wide inlet and a narrow outlet, the inclined flow plates are arranged at an inclined angle with the left ends higher than the right.

As a further improvement of the present invention, the flow frame includes an exhaust chamber, a partition plate, and flow blocking plates, the lower end of the exhaust chamber is connected to the partition plate, the flow blocking plates are fixedly mounted on the upper surface of the partition plate and located inside the exhaust chamber, the flow blocking plates are provided with eighteen flow blocking plates, six flow blocking plates are in one group, and each group of three flow blocking plates is vertically symmetrical and respectively provided at the upper and lower ends inside the three exhaust chambers.

As a further improvement of the invention, the spoiler comprises a plate body, vent holes and a liquid discharge groove, wherein the liquid discharge groove is arranged at the bottom of the plate body, the lower end of the plate body is fixed with the upper surface of the partition plate, the vent holes are embedded in the plate body, and a plurality of vent holes are uniformly embedded in the plate body.

The invention has the beneficial effects that:

1. inside the waste gas that the workshop of spraying paint produced entered into the box through the air inlet, at this moment the contact roll rotates and has driven swing blade to rotate, contact with waste gas through contact roll and swing blade, carry out heat-conduction through the heat-conducting rod, conduct the lug surface with steam, carry out the drying to the coating fog in the waste gas, reduce the humidity of coating fog, the coating fog enters into the flow groove inside and adheres with the adhesion board, it adheres to take place with the active carbon to have reduced the coating fog in the waste gas and has entered into the rose box inside, ensure that the inside active carbon of rose box carries out normal waste gas adsorption work.

2. Waste gas enters into inside the frame that flows, guarantee through three flow frame that waste gas slows down the flow velocity of waste gas when carrying out normal circulation, at this moment the spoiler blocks the coating fog of part in to waste gas, the coating fog flows towards the lower extreme left through the flowing back tank of intermediate bottom plate lower extreme, flow through the spoiler simultaneously and discharge on the baffle of lower extreme, waste gas is carrying out the in-process that contacts with the plate body, normally flow through the air vent, waste gas circulation speed has been slowed down, avoid waste gas directly to discharge from discharge port up to standard, environmental protection effect is improved.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving and environment-friendly device of the invention.

FIG. 2 is a schematic view showing the internal structure of a pretreatment tank according to the present invention.

Fig. 3 is a schematic perspective view of a rotating mechanism according to the present invention.

Fig. 4 is a schematic view of the internal structure of a contact roller according to the present invention.

Fig. 5 is a schematic sectional view of a swing blade according to the present invention.

Fig. 6 is a schematic perspective view of a slow flow mechanism according to the present invention.

FIG. 7 is a schematic view of the internal structure of a flow frame according to the present invention.

FIG. 8 is a schematic perspective view of a spoiler according to an embodiment of the present invention.

In the figure: the device comprises an air inlet-1, a pretreatment box-2, a control panel-3, a support frame-4, a filter box-5, a standard discharge port-6, a box body-21, a rotating mechanism-22, a slow flow mechanism-23, a rotating shaft-221, a contact roller-222, a swinging blade-223, a roller body-22 a, a heating wire-22 b, a heat conducting rod-22 c, a bump-22 d, a plate body-23 a, a flow groove-23 b, an adhesion plate-23 c, a flow frame-231, a hinge plate-232, an oblique flow plate-233, a blocking plate-234, an exhaust chamber-31 a, a partition plate-31 b, a spoiler-31 c, a plate body-c 1, an air vent-c 2 and a liquid discharge groove-c 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to energy-saving and environment-friendly equipment which structurally comprises an air inlet 1, a pretreatment tank 2, a control panel 3, a support frame 4, a filter tank 5 and a standard discharge port 6, wherein the right end of the air inlet 1 is embedded at the left end of the pretreatment tank 2 and communicated with the pretreatment tank, the control panel 3 is embedded on the outer surface of the pretreatment tank 2, the pretreatment tank 2 is fixedly arranged at the left end of the support frame 4, the left end of the filter tank 5 is fixed and communicated with the right end of the pretreatment tank 2, the filter tank 5 is fixedly arranged at the right end of the support frame 4, the right end of the filter tank 5 is embedded with the standard discharge port 6 and communicated with the filter tank, the pretreatment tank 2 comprises a tank body 21, a rotating mechanism 22 and a flow retarding mechanism 23, the left end of the tank body 21 is embedded with the air inlet 1 and communicated with the air inlet, the rotating mechanism 22 is fixedly arranged in the, the slow flow mechanism 23 is fixedly installed at the right end inside the box 21, and the rotation mechanism 22 is controlled to rotate by the control panel 3.

Wherein, slewing mechanism 22 includes axis of rotation 221, contact roller 222, swing blade 223, axis of rotation 221 runs through inside and fixed mutually in contact roller 222, contact roller 222 outside is equipped with swing blade 223, axis of rotation 221 is installed inside box 21 and air inlet 1 junction, swing blade 223 is sawtooth arc structure to be equipped with four altogether, be annular evenly distributed at the surface of contact roller 222, do benefit to and carry out abundant contact with the coating fog in the waste gas, it enters into rose box 5 inside to reduce the coating fog, and after the stop work, carry out free drippage through arc structure coating fog, reduce the coating fog and adhere on swing blade 223 surface.

The contact roller 222 includes a roller body 22a, a heating wire 22b, a heat conducting rod 22c, and a protrusion 22d, the rotation shaft 221 penetrates through the inside of the roller body 22a and is fixed to the inside of the roller body 22a, the heating wire 22b is installed inside the roller body 22a, the heating wire 22b is wound around the lower end of the heat conducting rod 22c, the upper end of the heat conducting rod 22c penetrates through the outside of the roller body 22a in a clearance fit manner, the upper end of the heat conducting rod 22c is located inside the protrusion 22d, the protrusion 22d is embedded on the outer surface of the roller body 22a, the outer surface of the roller body 22a is provided with a swinging blade 223, the heating wire 22b is provided with four groups, the four groups of heating wires 22b are connected in series and are respectively wound around the four groups of heat conducting rods 22c, so as to uniformly conduct heat to the heat conducting rod 22, the contact between the top of the heat conducting rod 22c and the coating mist is improved, the coating mist is dried, and the humidity of the coating mist is reduced.

The swing blade 223 comprises a plate body 23a, a flow groove 23b and an adhesion plate 23c, the plate body 23a is embedded on the outer surface of the roller body 22a, the flow groove 23b is arranged inside the plate body 23a, the adhesion plate 23c is fixedly arranged inside the flow groove 23b, the flow groove 23b is composed of three hollow cylinders, and a disc-shaped adhesion plate 23c is arranged inside each flow groove 23b, so that the coating mist can be prevented from entering the flow groove 23b, and the coating mist is adhered through the adhesion plate 23 c.

The specific use mode and function of the embodiment are as follows:

in the invention, waste gas generated in a painting workshop enters the box body 21 through the air inlet 1, the control panel 3 controls the rotating mechanism 22 to rotate, at this time, the contact roller 222 rotates to rotate the swing blade 223, and the exhaust gas is contacted by the contact roller 222 and the swing blade 223, meanwhile, the control panel 3 controls the heating wire 22b to perform heating work, the heat conduction is performed through the heat conduction rod 22c, the hot air is conducted to the surface of the bump 22d, the coating mist in the waste gas is dried, the humidity of the coating mist is reduced, meanwhile, the coating mist is circulated through the flowing groove 23b in the plate body 23a, the coating mist enters the flowing groove 23b to be adhered to the adhering plate 23c, the coating mist in the waste gas is prevented from entering the filtering box 5 to be adhered to the active carbon, and the active carbon in the filtering box 5 is ensured to perform normal waste gas adsorption work.

Example 2:

as shown in fig. 6 to 8:

wherein, the slow flow mechanism 23 comprises a flow frame 231, a hinge plate 232, an inclined flow plate 233 and a blocking plate 234, the flow frame 231 is fixedly arranged at the right end in the box body 21, the outer wall of the lower end of the flow frame 231 is hinged with the upper end of the hinge plate 232, the lower end of the hinge plate 232 is fixed with the outer wall of the oblique flow plate 233, the lower end of the oblique flow plate 233 is positioned inside the flow frame 231, the upper end of the inclined flow plate 233 is provided with a blocking plate 234, the number of the flow frames 231 is three, and the upper and lower parts are in a structure with a narrow inlet and a wide outlet, and the middle part is in a structure with a wide inlet and a narrow outlet, which is beneficial to ensuring the normal circulation of the waste gas and simultaneously slowing down the flow speed of the waste gas, the inclined flow plate 233 is installed at an inclined angle with a high left end and a low right end, which is advantageous for discharging the coating mist flowing downward inside the middle flow frame 231 to the inside of the lower flow frame 231, the blocking plate 234 has an arc-shaped plate structure, and is beneficial to blocking the coating mist flowing downwards.

The flow frame 231 comprises an exhaust chamber 31a, a partition plate 31b and flow blocking plates 31c, the lower end of the exhaust chamber 31a is connected with the partition plate 31b, the flow blocking plates 31c are fixedly mounted on the upper surface of the partition plate 31b and located inside the exhaust chamber 31a, eighteen flow blocking plates 31c are arranged, six flow blocking plates are in one group, three flow blocking plates 31c in each group are symmetrical up and down and are respectively arranged at the upper end and the lower end inside the three exhaust chambers 31a, contact between the flow blocking plates and exhaust gas is improved, and coating mist is blocked.

The spoiler 31c comprises a plate body c1, a vent hole c2 and a liquid discharge groove c3, wherein the bottom of the plate body c1 is provided with the liquid discharge groove c3, the lower end of the plate body c1 is fixed with the upper surface of the partition plate 31b, the vent hole c2 is embedded in the plate body c1, the vent holes c2 are provided with a plurality of vent holes which are uniformly embedded in the plate body c1, and the exhaust gas can flow normally in the contact process of the plate body c 1.

The specific use mode and function of the embodiment are as follows:

in the invention, after being dried, the exhaust gas enters the flow frames 231, the flow speed of the exhaust gas is reduced while the normal circulation of the exhaust gas is ensured by the three flow frames 231, meanwhile, the exhaust gas is in contact with the spoiler 31c in the exhaust chamber 31a, at the moment, part of coating mist in the exhaust gas is blocked by the spoiler 31c, the coating mist flows towards the left lower end through the liquid discharge groove c3 at the lower end of the middle partition plate 31b, the coating mist is blocked by the blocking plate 234 and flows onto the partition plate 31b at the lower end through the spoiler 233 to be discharged, and the exhaust gas normally flows through the vent hole c2 in the process of being in contact with the plate body c1, so that the circulation speed of the exhaust gas is reduced, the exhaust gas is prevented from being directly discharged from the standard discharge port 6, and the environmental.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (5)

1. The utility model provides an energy-concerving and environment-protective equipment, its structure includes air inlet (1), preliminary treatment case (2), control panel (3), support frame (4), rose box (5), discharge port up to standard (6), air inlet (1) right-hand member inlays in preliminary treatment case (2) left end and link up mutually, control panel (3) have been inlayed to preliminary treatment case (2) surface, preliminary treatment case (2) fixed mounting is in support frame (4) left end, rose box (5) left end is fixed mutually and link up mutually with preliminary treatment case (2) right-hand member, rose box (5) fixed mounting is at support frame (4) right-hand member, rose box (5) right-hand member has inlayed discharge port up to standard (6) and link up mutually, its characterized in that:

pretreatment box (2) include box (21), slewing mechanism (22), unhurried current mechanism (23), air inlet (1) have been inlayed and have been link up mutually to box (21) left end, slewing mechanism (22) fixed mounting is inside box (21) and air inlet (1) junction, slewing mechanism (22) right side is equipped with unhurried current mechanism (23) to unhurried current mechanism (23) fixed mounting is at the inside right-hand member of box (21).

2. An energy saving and environmental friendly apparatus according to claim 1, wherein: the rotating mechanism (22) comprises a rotating shaft (221), a contact roller (222) and a swinging blade (223), the rotating shaft (221) penetrates through the contact roller (222) and is fixed, the swinging blade (223) is arranged outside the contact roller (222), and the rotating shaft (221) is installed inside the connection position of the box body (21) and the air inlet (1).

3. An energy saving and environmental friendly apparatus according to claim 2, wherein: contact roller (222) includes roll body (22a), heater strip (22b), heat conduction pole (22c), lug (22d), axis of rotation (221) run through in roll body (22a) inside and fixed mutually, roll body (22a) internally mounted has heater strip (22b) to heater strip (22b) twine in heat conduction pole (22c) lower extreme, heat conduction pole (22c) upper end adopts clearance fit to run through in roll body (22a) outside to heat conduction pole (22c) upper end is located lug (22d) inside, lug (22d) inlay roll body (22a) surface, roll body (22a) surface is equipped with swing blade (223).

4. An energy saving and environmental friendly apparatus according to claim 3, wherein: the swing blade (223) comprises a plate body (23a), a flow groove (23b) and a filter screen plate (23c), the plate body (23a) is embedded on the outer surface of the roller body (22a), the flow groove (23b) is arranged inside the plate body (23a), and the filter screen plate (23c) is fixedly installed inside the flow groove (23 b).

5. An energy saving and environmental friendly apparatus according to claim 1, wherein: the slow flow mechanism (23) comprises a flow frame (231), a hinge plate (232), an inclined flow plate (233) and a blocking plate (234), the flow frame (231) is fixedly installed at the right end inside the box body (21), the outer wall of the lower end of the flow frame (231) is hinged to the upper end of the hinge plate (232), the lower end of the hinge plate (232) is fixed to the outer wall of the inclined flow plate (233), the lower end of the inclined flow plate (233) is located inside the flow frame (231), and the blocking plate (234) is arranged at the upper end of the inclined flow plate (233).

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