CN217627671U - Industrial evaporation full-automatic waste water treatment equipment - Google Patents

Abstract

The utility model relates to the technical field of wastewater treatment, in particular to an industrial evaporation full-automatic wastewater treatment device, which comprises a plurality of wastewater treatment main bodies which are transversely arranged, a beam which connects the plurality of wastewater treatment main bodies into a whole, a conveying mechanism arranged on the beam, and a heating evaporation main body which is arranged on the conveying mechanism and is matched with the wastewater treatment main bodies, wherein the wastewater treatment main body comprises a machine body, an air exhaust mechanism arranged inside the machine body, a tank body arranged on the machine body, and a frame erected on the machine body; in the process of pouring wastewater and cleaning waste residues, the heating evaporation main body can convey the other wastewater treatment main body to carry out heating evaporation operation on the wastewater treatment main body, so that the working efficiency of the electric heating component is greatly improved, and heat dissipation of the electric heating component in an idle state is reduced.

Description

Industrial evaporation full-automatic waste water treatment equipment

Technical Field

The utility model belongs to the technical field of waste water treatment technique and specifically relates to a full-automatic formula waste water treatment equipment of industrial evaporation is related to.

Background

A large amount of waste water can be generated in the industrial production process, at present, a waste water treatment mode is provided, water in the waste water is evaporated in a heating mode, evaporated water vapor is pumped out through a vacuum pump for recycling, and the part which cannot be distilled can be reasonably recycled due to the fact that moisture is removed, so that the waste water is effectively treated;

in order to realize the mode, the inventor designs an industrial evaporative wastewater recovery device with an authorization publication number of CN208394815U, and by arranging an evaporation tank which is a closed container, distilled water is treated by a vacuum pump, and components which cannot be distilled are discharged through a slag discharge port at the bottom of a heating tank and are not directly contacted with the external environment, so that the environment-friendly effect is achieved; by arranging the vacuum pump, the vapor evaporated by the sewage passes through the vacuum pump, so that the effect of recycling the wastewater is achieved; however, the device has a complex structure and high manufacturing cost, and realizes the inlet and outlet treatment of sewage in a pipeline mode, and although a full-automatic wastewater treatment mode can be achieved, the device can only separate waste residues with small particles, and the waste residues with large particles cannot enter an evaporation tank from the pipeline.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

An industrial evaporation full-automatic wastewater treatment device comprises a plurality of wastewater treatment main bodies which are transversely arranged, a cross beam which connects the plurality of wastewater treatment main bodies into a whole, a conveying mechanism arranged on the cross beam, and a heating evaporation main body which is arranged on the conveying mechanism and matched with the wastewater treatment main bodies, wherein each wastewater treatment main body comprises a machine body, an air exhaust mechanism arranged in the machine body, a tank body arranged on the machine body, and a rack erected on the machine body, and the cross beam is arranged on the rack; conveying mechanism includes sliding part of sliding connection on the crossbeam, install on sliding part and with crossbeam power fit's conveying motor, and install the electric block on sliding part, the heating evaporation main part is including connecting the cover on electric block and the electric heating part of setting at the cover lower extreme, the cover corresponds the lid through the jar body on conveying mechanism and every waste water treatment main part and closes, be provided with the air inlet on the cover and can dismantle the breathing pipe of connecting in air exhaust mechanism.

Preferably, the crossbeam includes the fixed lath on upper portion, the supporting lath in middle part and the slip lath of lower part, fixed lath, supporting lath and slip lath integrated into one piece constitute the cross-section be the structure of I shape, all be provided with first supporting beam in the frame of every waste water treatment main part, arrange and be provided with a second supporting beam in the frame of two waste water treatment main parts at head and the tail both ends, the crossbeam passes through the fixed lath fixed connection at the lower extreme of first supporting beam, the crossbeam passes through the both ends of slip lath to be fixed in the upper end of second supporting beam.

Preferably, the sliding part comprises a fixed block, a fixed shaft penetrating through the fixed block, two sliding plates connected to two ends of the fixed shaft respectively, and rollers arranged on the sliding plates, the two sliding plates are located on two sides of the supporting laths respectively, the rollers are in rolling fit with the sliding laths, the conveying motor is installed on one of the sliding plates and is in power connection with the rollers, and the electric hoist is installed at the lower end of the fixed block.

Preferably, the air exhaust mechanism comprises a vacuum pump arranged inside the machine body, an exhaust pipe connected to the air exhaust end of the vacuum pump, and an exhaust pipe connected to the exhaust end of the vacuum pump, two first air pipe joints are installed on the machine body, the exhaust pipe and the exhaust pipe are respectively transmitted to the outside of the machine body through the first air pipe joints, and the air suction pipe is connected with the first air pipe joints connected with the exhaust pipe.

Preferably, an air suction opening is formed in the tank cover, a transition sleeve is formed on the tank cover and located around the air suction opening, a sealing terminal cover is arranged on the transition sleeve, a second air pipe joint is arranged on the sealing terminal cover, and the air suction pipe is connected with the second air pipe joint.

Preferably, flanges are arranged on the covering surfaces of the tank body and the tank cover, and the tank body and the tank cover are closed in a closed manner through the flanges.

Compared with the prior art, the beneficial effects of the utility model are that:

through setting up many waste water treatment main parts, waste water treatment main part bears waste water through a jar body, vapor after the waste water evaporation is extracted through air exhaust mechanism, combine conveying mechanism to carry the heating evaporation main part through the crossbeam, make the heating evaporation main part dock respectively to different waste water treatment main parts, through this design, in the in-process of pouring waste water and clearance waste residue, the heating evaporation main part can carry other waste water treatment main parts to carry out the heating evaporation operation to it, thereby the work efficiency of electric heating part has been improved greatly, thermal dissipation under the reduction electric heating part idle state.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

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

FIG. 2 is a schematic structural view of the assembled middle cross beam, frame and conveying mechanism of the present invention;

FIG. 3 is a schematic structural view of the middle cross beam and the conveying mechanism of the present invention;

fig. 4 is a schematic structural diagram of the middle tank body, the air exhaust mechanism and the heating evaporation main body of the present invention.

The reference numerals and names in the figures are as follows:

the waste water treatment device comprises a waste water treatment body 10, a cross beam 20, a conveying mechanism 30, a heating evaporation body 40, a machine body 11, an air suction mechanism 12, a tank body 13, a frame 14, a flange 15, a fixed lath 21, a supporting lath 22, a sliding lath 23, a sliding part 31, a conveying motor 32, an electric hoist 33, a tank cover 41, an electric heating part 42, a first air pipe joint 111, a vacuum pump 121, an air suction pipe 122, an air exhaust pipe 123, a first supporting beam 141, a second supporting beam 142, a fixed block 311, a fixed shaft 312, a push plate 313, a roller 314, an air inlet 411, an air suction pipe 412, a transition sleeve 413, a sealing terminal cover 414 and a second air pipe joint 415.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-4, in the embodiment of the present invention, referring to fig. 1-2, an industrial evaporation full-automatic wastewater treatment apparatus, which is a container for holding wastewater by using a structure of a tank 13 and a tank cover 41, evaporates the wastewater in the container by heating the container, and then extracts the evaporated water vapor by an air extraction mechanism 12 for recycling, specifically, comprises a plurality of laterally arranged wastewater treatment main bodies 10, a cross beam 20 connecting the plurality of wastewater treatment main bodies 10 into a whole, a conveying mechanism 30 disposed on the cross beam 20, and a heating evaporation main body 40 disposed on the conveying mechanism 30 and cooperating with the wastewater treatment main body 10, wherein the wastewater treatment main body 10 comprises a machine body 11, an air extraction mechanism 12 installed inside the machine body 11, a tank 13 installed on the machine body 11, and a frame 14 erected on the machine body 11, the tank body 13 is used for bearing wastewater, the air extraction mechanism 12 is used for extracting water vapor generated after the wastewater is evaporated, the rack 14 plays a role of lifting, the beam 20 is installed on the rack 14, the beam 20 is positioned right above the tank body 13 and is used for installing the conveying mechanism 30, the conveying mechanism 30 comprises a sliding part 31 connected on the beam 20 in a sliding way, a conveying motor 32 installed on the sliding part 31 and in dynamic fit with the beam 20, and an electric hoist 33 installed on the sliding part 31, when the conveying motor 32 works, the sliding part 31 is driven to slide to the position right above the corresponding wastewater treatment main body 10 along the beam 20, then the heating evaporation main body 40 is transferred to be butted on the tank body 13 of the corresponding wastewater treatment main body 10 through the electric hoist 33, the heating evaporation main body 40 comprises a tank cover 41 connected on the electric hoist 33 and an electric heating part 42 arranged at the lower end of the tank cover 41, after butt joint, the tank cover 41 is covered on the tank body 13, the electric heating part 42 enters the tank body 13 to heat the wastewater in the tank body 13, the tank cover 41 is provided with the air inlet 411 and the air suction pipe 412 detachably connected to the air suction mechanism 12, when the air suction mechanism 12 works, the water vapor generated after evaporation is sucked along the air suction pipe 412, at the moment, the tank body 13 and the tank cover 41 have negative pressure due to the vacuum pumping effect, so that the air-tight covering of the tank body 13 and the tank cover 41 is realized, which is equivalent to the structure that two suckers are mutually adsorbed, therefore, the tank body 13 and the tank cover 41 can be directly covered, a sealing structure is not required to be designed, the air inlet 411 is designed, so that the air can enter the tank body 13 from the air inlet 411, the circulating air flow effect is realized, and in order to ensure that the negative pressure is generated in the tank body 13 and the tank cover 41 after covering, the size of the air inlet 411 needs to be reasonably controlled.

Referring to fig. 3, the cross beam 20 includes an upper fixing strip 21, a middle supporting strip 22 and a lower sliding strip 23, the fixing strip 21, the supporting strip 22 and the sliding strip 23 are integrally formed to form a structure with an i-shaped cross section, a first supporting beam 141 is disposed on the rack 14 of each wastewater treatment main body 10, second supporting beams 142 are disposed on the racks 14 of two wastewater treatment main bodies 10 arranged at the head and the tail ends, the cross beam 20 is fixedly connected to the lower end of the first supporting beam 141 through the fixing strip 21, and the cross beam 20 is fixed to the upper end of the second supporting beam 142 through the two ends of the sliding strip 23.

Referring to fig. 3, the sliding part 31 includes a fixing block 311, a fixing shaft 312 penetrating through the fixing block 311, two pushing plates 313 connected to two ends of the fixing shaft 312, and a roller 314 disposed on the pushing plates 313, the two pushing plates 313 are located at two sides of the supporting lath 22, the roller 314 is in rolling fit with the sliding lath 23, the conveying motor 32 is mounted on one of the pushing plates 313, the conveying motor 32 is in power connection with the roller 314, the conveying distance of the conveying motor 32 driving the sliding part 31 is controlled according to a position sensor combination program mounted on the cross beam 20, the electric hoist 33 is mounted at the lower end of the fixing block 311, and the lifting distance of the electric hoist 33 controlling the lifting hook can also be controlled by a program.

Referring to fig. 4, the pumping mechanism 12 includes a vacuum pump 121 installed inside the body 11, a pumping tube 122 connected to the pumping end of the vacuum pump 121, and an exhaust tube 123 connected to the exhaust end of the vacuum pump 121, two first gas tube joints 111 are installed on the body 11, the pumping tube 122 and the exhaust tube 123 respectively penetrate out of the body 11 through the first gas tube joints 111, and the gas tube 412 is connected to the first gas tube joint 111 connected to the pumping tube 122, so that the gas tube 412 is easily detached, thereby facilitating an operator to quickly connect the vacuum pump 121 corresponding to the wastewater treatment main body 10.

Referring to fig. 4, an air extraction opening is formed on the tank cover 41, and a transition sleeve 413 is formed on the tank cover 41 around the air extraction opening, the transition sleeve 413 plays a role in height transition, so that the situation that waste slag is extracted in the air extraction process can be avoided; the transition sleeve 413 is provided with a sealing terminal cover 414, the sealing terminal cover 414 is provided with a second air pipe joint 415, and the air suction pipe 412 is connected with the second air pipe joint 415, so that both ends of the air suction pipe 412 can be quickly assembled and disassembled.

Referring to fig. 4, flanges 15 are disposed on the covering surfaces of the can body 13 and the can cover 41, and the can body 13 and the can cover 41 are closed by the flanges 15, so as to avoid gaps caused by inaccurate covering of the can body 13 and the can cover 41.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (6)

1. The industrial evaporation full-automatic wastewater treatment equipment is characterized by comprising a plurality of wastewater treatment main bodies which are transversely arranged, a cross beam which connects the plurality of wastewater treatment main bodies into a whole, a conveying mechanism arranged on the cross beam, and a heating evaporation main body which is arranged on the conveying mechanism and matched with the wastewater treatment main bodies, wherein the wastewater treatment main body comprises a machine body, an air exhaust mechanism arranged in the machine body, a tank body arranged on the machine body, and a rack erected on the machine body, and the cross beam is arranged on the rack; conveying mechanism includes sliding part of sliding connection on the crossbeam, install on sliding part and with crossbeam power fit's conveying motor, and install the electric block on sliding part, the heating evaporation main part is including connecting the cover on electric block and the electric heating part of setting at the cover lower extreme, the cover corresponds the lid through the jar body on conveying mechanism and every waste water treatment main part and closes, be provided with the air inlet on the cover and can dismantle the breathing pipe of connecting in air exhaust mechanism.

2. The fully automatic industrial evaporation type wastewater treatment equipment according to claim 1, wherein the cross beam comprises an upper fixed plate strip, a middle supporting plate strip and a lower sliding plate strip, the upper fixed plate strip, the middle supporting plate strip and the lower sliding plate strip are integrally formed to form a structure with an I-shaped section, a first supporting beam is arranged on a rack of each wastewater treatment main body, second supporting beams are arranged on racks of two wastewater treatment main bodies arranged at the head end and the tail end, the cross beam is fixedly connected to the lower end of the first supporting beam through the fixed plate strip, and the cross beam is fixed to the upper end of the second supporting beam through the two ends of the sliding plate strip.

3. The industrial evaporation full-automatic wastewater treatment equipment according to claim 2, wherein the sliding part comprises a fixed block, a fixed shaft penetrating through the fixed block, two sliding plates respectively connected to two ends of the fixed shaft, and rollers arranged on the sliding plates, the two sliding plates are respectively arranged at two sides of the supporting lath, the rollers are in rolling fit with the sliding lath, the conveying motor is mounted on one of the sliding plates and is in power connection with the rollers, and the electric hoist is mounted at the lower end of the fixed block.

4. The fully automatic industrial evaporation type wastewater treatment equipment according to claim 1, wherein the air exhaust mechanism comprises a vacuum pump arranged inside the machine body, an air exhaust pipe connected to the air exhaust end of the vacuum pump, and an air exhaust pipe connected to the air exhaust end of the vacuum pump, two first air pipe joints are arranged on the machine body, the air exhaust pipe and the air exhaust pipe respectively penetrate out of the machine body through the first air pipe joints, and the air exhaust pipe is connected with the first air pipe joint connected with the air exhaust pipe.

5. The industrial evaporation full-automatic wastewater treatment equipment according to claim 4, wherein the tank cover is provided with an air suction opening, a transition sleeve is formed on the tank cover around the air suction opening, a sealing terminal cover is arranged on the transition sleeve, a second air pipe joint is arranged on the sealing terminal cover, and the air suction pipe is connected with the second air pipe joint.

6. The fully automatic industrial evaporation wastewater treatment equipment according to claim 1, wherein flanges are arranged on the covering surfaces of the tank body and the tank cover, and the tank body and the tank cover are closed through the flanges.

Images