CN219658467U - Waste gas and waste water recycling device on enameled wire production line - Google Patents

Abstract

The utility model provides an exhaust gas and wastewater recycling device on an enameled wire production line, which comprises a production workbench, wherein a working groove is formed in the outer wall of the top of the production workbench, a top cover is connected to the outer wall of one side of the top of the workbench through a hinge, pull buckles are correspondingly arranged on the outer walls of the production workbench and the top cover, a wastewater recycling component is arranged on the inner wall of the bottom of the production workbench, an exhaust gas recycling component is arranged on the outer wall of one side of the top of the production workbench, and a linkage sealing component is arranged on the outer wall of the top of the production workbench. The production workbench is erected on an enameled wire production line, paint spraying processing of the enameled wire is carried out through the production workbench, the top cover is turned over under the action of the hinge in the processing process, the processing area is covered, and the covering and the fixing are carried out through the pull buckle after the covering, so that exhaust gas in the enameled wire processing process can be effectively avoided, waste water in the processing process can be avoided from splashing, and the recovery of waste gas and waste water in the later stage is facilitated.

Description

Waste gas and waste water recycling device on enameled wire production line

Technical Field

The utility model relates to the technical field of enameled wire production equipment, in particular to a waste gas and waste water recycling device on an enameled wire production line.

Background

Enameled wire is a main variety of winding wire, which is formed by two parts of conductor and insulating layer, and bare wire is annealed and softened, painted for many times and baked. However, it is not easy to produce the products meeting both standard requirements and customer requirements, and the products are affected by factors such as raw material quality, process parameters, production equipment, environment and the like, so that the quality characteristics of various enamelled wires are different, but the enamelled wires have four properties of mechanical property, chemical property, electrical property and thermal property; enamelled wire processing is carried out on a production line, and an enamelled wire production line is disclosed in patent publication No. CN 112301210A, and comprises an annealing furnace, a cooling tank, an electroplating device and a painting device which are sequentially arranged.

However, the waste gas and waste water recycling device is not arranged on the enamelled wire production line in the existing market, waste gas and waste water can be generated in the painting process of enamelled wire production, waste gas and waste water are not recycled and adsorbed, harmful substances are easy to splash out, workers can easily inhale, and adverse effects are caused on bodies. Therefore, the improvement is made by the inventor, and the waste gas and waste water recycling device on the enameled wire production line is provided.

Disclosure of Invention

The utility model aims at: the device for recycling waste gas and waste water is not arranged on the existing enameled wire production line, waste gas and waste water can be generated in the painting process of enameled wire production, waste gas and waste water are not recycled and adsorbed, harmful substances are easy to splash out, and adverse effects are easily caused to body workers.

In order to achieve the above object, the present utility model provides the following technical solutions:

waste gas and waste water recycling device on enameled wire production line to improve above-mentioned problem.

The utility model is specifically as follows:

waste gas and waste water recycling device on enameled wire production line, including the production workstation, the working tank has been seted up on the top outer wall of production workstation, there is the top cap through hinged joint on the top one side outer wall of workstation, it draws to install to correspond on the outer wall of production workstation and top cap to detain, be provided with waste water recovery subassembly on the bottom inner wall of production workstation, be equipped with waste gas recovery subassembly on the top one side outer wall of production workstation, be equipped with linkage seal assembly on the top outer wall of production workstation.

According to the preferred technical scheme, the waste water recovery assembly comprises a collecting bottom tank which is installed on the inner wall of the bottom of the production workbench in a penetrating mode, water collecting holes are distributed on the outer wall of the bottom of the working tank, adsorption blocks are filled in the collecting bottom tank, a mixing screw is rotatably installed in the collecting bottom tank, a material discharging pipe is connected to the outer wall of one side of the bottom of the collecting bottom tank in a penetrating mode, a first valve is installed on the outer wall of the top of the material discharging pipe, a water filtering pipe is connected to the outer wall of the bottom of the end portion of the material discharging pipe in a penetrating mode, a second valve is installed on the outer wall of one side of the water filtering pipe, a first turbine is installed on the outer wall of one side of the collecting bottom tank, a first motor is installed on the outer wall of one side of the first turbine, and the first motor, the first turbine and the mixing screw are coaxially connected.

According to the technical scheme, the waste gas recovery assembly comprises a mounting frame arranged on the outer wall of the top of the production workbench, sliding blocks are fixed on the outer walls of two ends of the mounting frame, sliding grooves are formed in the outer walls of two sides of the top of the production workbench, the sliding blocks are inserted into the sliding grooves, a second turbine is mounted on the outer wall of one side of the end of the mounting frame in an embedded mode, a second motor is mounted on the outer wall of one side of the second turbine in a driving mode, a gear is mounted at one end of a rotating shaft of the second turbine, tooth grooves are formed in the outer wall of one side of the top of the production workbench, the gear is in meshed connection with the tooth grooves, an air suction end of the second turbine is connected with an air suction pipe, one end of the air suction pipe penetrates through the inside of the working groove, an air delivery end of the second turbine is connected with an air delivery pipe, one end of the air delivery pipe penetrates through the inside of the collecting bottom tank, and a one-way valve is mounted at the end of the air delivery pipe.

As a preferable technical scheme of the utility model, the linkage sealing assembly comprises a sealing air bag which is covered and fixed on the outer walls of the two sides of the top of the production workbench, the air delivery end of the first turbine is connected with an air inlet pipe, one end of the air inlet pipe is in through connection with one end of the sealing air bag, the outer wall of the other side of the sealing air bag is in through connection with an air blowing pipe, one end of the air blowing pipe penetrates through the inside of the working groove, and the end part of the air blowing pipe is provided with a pressure relief valve.

As a preferable technical scheme of the utility model, the second motor is a stepping motor, and the gas pipe is a telescopic hose.

As a preferable technical scheme of the utility model, the adsorption block is an activated carbon adsorption block.

As a preferable technical scheme of the utility model, the outer wall of the top cover is in contact connection with the sealing air bag, and the top cover is of a transparent structure.

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

in the scheme of the utility model:

1. through the arrangement of the waste water recovery assembly, the enameled wire is used for collecting waste water generated by processing on a production workbench through a working groove, the waste water is collected into a collecting bottom tank through a water collecting hole, a first motor is controlled to drive a first turbine and a mixing screw to rotate, the mixing screw rotates in the collecting bottom tank to stir and mix the collected waste water and an adsorption block, the adsorption block is used for adsorbing the waste water, the adsorption block is also conveyed in the rotation process of the mixing screw, water adsorbed in the adsorption block is discharged through a water filtering pipe, the effect of adsorbing and filtering the waste water is achieved, the waste water is recycled, and the adsorption block can be discharged and replaced by opening a first valve in the later stage;

2. through the arrangement of the waste gas recovery component, in the processing process of the enameled wire on the production workbench, the second motor works to drive the second turbine to rotate, the second turbine performs suction of waste gas generated by enameled wire processing at the air suction pipe and inputs the waste gas into the collecting bottom tank through the gas transmission pipe, the collected waste gas is adsorbed through the adsorption block to play a role in recovering waste gas generated by enameled wire processing, in the processing process of waste gas on the workbench, the second motor also drives the gear to rotate, the gear and the tooth slot cooperate to drive the mounting frame to move under the cooperation of the sliding block and the sliding slot, so that the air suction pipe is driven to move on the workbench, and comprehensive suction recovery of the waste gas generated by enameled wire processing is realized;

3. in the course of working upset top cap under the hinge effect, carry out the cover of processing region, it is fixed to cover the back through the pull buckle, can effectually avoid the discharge of waste gas in the enameled wire course of working, also can avoid the spill of waste water in the course of working, do benefit to waste gas waste water's recovery, through linkage seal assembly's setting, the top cap is pressed and is held in sealed gasbag's top, first turbine work is with compressed air through the intake pipe input sealed gasbag in, make sealed gasbag inflation guaranteed the leakproofness that the top cap was closed, the internal atmospheric pressure of sealed gasbag reaches the relief valve upper limit, unnecessary air is discharged through the gas blow pipe, carry out dust removal to production workstation outer wall and handle, reduce the attachment of impurity.

Drawings

Fig. 1 is a schematic perspective view of an apparatus for recycling waste gas and wastewater on an enameled wire production line;

fig. 2 is a schematic diagram of a three-dimensional cutaway structure of a waste gas and waste water recycling device on an enameled wire production line;

fig. 3 is an enlarged view of the structure of the area a in the waste gas and waste water recycling device on the enameled wire production line provided by the utility model;

fig. 4 is an enlarged view of the structure of the region B in the waste gas and waste water recycling device on the enameled wire production line provided by the utility model;

fig. 5 is an enlarged view of the structure of the C region in the waste gas and wastewater recycling device on the enameled wire production line provided by the utility model;

fig. 6 is an enlarged view of the structure of the D region in the waste gas and waste water recycling device on the enameled wire production line.

The figures indicate:

1. a production workbench; 2. a working groove; 3. a hinge; 4. a top cover; 5. pulling buckle; 6. a wastewater recovery assembly; 7. an exhaust gas recovery assembly; 8. a linkage seal assembly;

601. collecting a bottom tank; 602. a water collecting hole; 603. an adsorption block; 604. a mixing screw; 605. a discharge pipe; 606. a first valve; 607. a water filtering pipe; 608. a second valve; 609. a first turbine;

701. a mounting frame; 702. a slide block; 703. a chute; 704. a second turbine; 705. a second motor; 706. a gear; 707. tooth slots; 708. an air suction pipe; 709. a gas pipe; 710. a one-way valve;

801. sealing the air bag; 802. an air inlet pipe; 803. an air blowing pipe; 804. and a pressure release valve.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model.

Thus, the following detailed description of the embodiments of the utility model is not intended to limit the scope of the utility model, as claimed, but is merely representative of some embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, under the condition of no conflict, the embodiments of the present utility model and the features and technical solutions in the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, the terms "upper", "lower", and the like indicate an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, or an azimuth or a positional relationship conventionally put in use of the inventive product, or an azimuth or a positional relationship conventionally understood by those skilled in the art, such terms are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, this embodiment provides an exhaust gas and waste water recycling device on enameled wire production line, including production workstation 1, work groove 2 has been seted up on the top outer wall of production workstation 1, be connected with top cap 4 through hinge 3 on the top one side outer wall of workstation 1, correspondingly install on the outer wall of production workstation 1 and top cap 4 and draw knot 5, be provided with waste water recovery subassembly 6 on the bottom inner wall of production workstation 1, be equipped with waste gas recovery subassembly 7 on the top one side outer wall of production workstation 1, be equipped with linkage seal assembly 8 on the top outer wall of production workstation 1, production workstation 1 erects on enameled wire production line, carry out the paint spraying processing of enameled wire through production workstation 1, upset top cap 4 under the effect of hinge 3, carry out the cover of processing region, cover back through draw knot 5 and close fixedly, can effectually avoid the discharge of waste gas in the enameled wire course of working, also can avoid the spill of waste water in the course of working, do benefit to later stage waste gas.

As shown in fig. 1 and 2, further, as a preferred embodiment, the wastewater recovery unit 6 comprises a collection tank 601 installed on the inner wall of the bottom of the production table 1 in a penetrating manner, water collecting holes 602 are formed on the outer wall of the bottom of the working tank 2, the inside of the collection tank 601 is filled with an adsorption block 603, a mixing screw 604 is rotatably installed inside the collection tank 601, a discharge pipe 605 is connected on the outer wall of the bottom side of the collection tank 601 in a penetrating manner, a first valve 606 is installed on the top outer wall of the discharge pipe 605, a water filtering pipe 607 is connected on the outer wall of the bottom side of the end of the discharge pipe 605 in a penetrating manner, a second valve 608 is installed on the outer wall of one side of the water filtering pipe 607, a first turbine 609 is installed on the outer wall of one side of the collection tank 601, a first motor 610 is installed on the outer wall of one side of the first turbine 609, the first motor 610, the first turbine 609 and the mixing screw 604 are coaxially connected, in the processing process of the enameled wire on the production workbench 1, the wastewater generated by the production and processing is collected through the working groove 2, the wastewater is collected into the collecting bottom tank 601 through the water collecting hole 602, the process controls the first motor 610 to work so as to drive the first turbine 609 and the mixing screw 604 to rotate, the mixing screw 604 rotates in the collecting bottom tank 601 to stir and mix the collected wastewater and the adsorption block 603, the adsorption block 603 adsorbs the wastewater, the adsorption block 603 also conveys the adsorption block 603 in the rotation process of the mixing screw 604, the adsorption block 603 absorbs water is input into the discharge pipe 605, the first valve 606 closes the adsorption block 603 to extrude at the first valve 606, the second valve 608 is opened, the water absorbed in the adsorption block 603 is discharged through the water filtering pipe 607 to play a role in adsorbing and filtering the wastewater, the recycling of the wastewater is facilitated, later on, the suction block 603 can be discharged and replaced by opening the first valve 606.

As shown in fig. 1, 3 and 4, as a preferred embodiment, further, the exhaust gas recovery unit 7 comprises a mounting frame 701 arranged on the outer wall of the top of the production table 1, sliding blocks 702 are fixed on the outer walls of two ends of the mounting frame 701, sliding grooves 703 are formed on the outer walls of two sides of the top of the production table 1, the sliding blocks 702 are inserted into the sliding grooves 703, a second turbine 704 is mounted on the outer wall of one side of the end of the mounting frame 701 in an embedded manner, a second motor 705 is mounted on the outer wall of one side of the second turbine 704 in a driving manner, a gear 706 is mounted at one end of a rotating shaft of the second turbine 704, a tooth groove 707 is formed on the outer wall of one side of the top of the production table 1, the gear 706 is in meshed connection with the tooth groove 707, an air suction end of the second turbine 704 is connected with an air suction pipe 708, and one end of the air suction pipe 708 penetrates through the inside of the working groove 2, the gas delivery end of the second turbine 704 is connected with a gas delivery pipe 709, one end of the gas delivery pipe 709 penetrates through the inside of the collecting bottom tank 601, a one-way valve 710 is arranged at the end part of the gas delivery pipe 709, the second motor 705 is controlled to work to drive the second turbine 704 to rotate in the processing process of the enameled wire on the production workbench 1, the second turbine 704 performs the suction of the enameled wire processing generated waste gas at the position of the gas suction pipe 708 and inputs the waste gas into the collecting bottom tank 601 through the gas delivery pipe 709, the collected waste gas is adsorbed by the adsorption block 603 to play a role in recovering the enameled wire processing waste gas, the second motor 705 also drives the gear 706 to rotate in the suction process of the waste gas on the workbench, the gear 706 and the tooth socket 707 cooperate to drive the mounting frame 701 to move under the cooperation of the sliding block 702 and the sliding groove 703, thereby driving the gas suction pipe 708 to move on the workbench, the comprehensive suction of the waste gas generated in the enameled wire processing is realized.

As shown in fig. 1, 5 and 6, as a preferred embodiment, further, the linkage seal assembly 8 includes a seal airbag 801 covered and fixed on two outer walls of the top of the production table 1, the gas transmission end of the first turbine 609 is connected with a gas inlet pipe 802, one end of the gas inlet pipe 802 is connected with one end of the seal airbag 801 in a penetrating manner, a gas blowing pipe 803 is connected on the other outer wall of the seal airbag 801 in a penetrating manner, one end of the gas blowing pipe 803 penetrates through the inside of the working groove 2, a pressure release valve 804 is installed at the end of the gas blowing pipe 803, in the covering process of the top cover 4, the top cover 4 is pressed and held above the seal airbag 801, the first motor 610 operates to drive the first turbine to input compressed air into the seal airbag 801 through the gas inlet pipe 802, so that the seal airbag 801 expands to ensure the sealing performance of the covering of the top cover 4, the first turbine 609 continuously operates on the seal airbag 801, the gas pressure in the seal airbag 801 reaches the upper portion of the pressure release valve 804, the redundant air is discharged through the gas blowing pipe 803, the time-limited treatment is performed on the outer wall of the production table 1, and the adhesion of impurities is reduced.

As shown in fig. 1 and 4, in the above-mentioned preferred embodiment, further, the second motor 705 is a stepping motor, the air pipe 709 is a flexible hose, and the air pipe 709 is disposed to facilitate the traversing of the mounting frame 701.

As shown in fig. 2, in addition to the above embodiment, the adsorption block 603 is an activated carbon adsorption block, and the activated carbon adsorption block can effectively perform adsorption treatment of waste water and waste gas, so as to avoid harmful substances from being scattered.

As shown in fig. 1, as a preferred embodiment, on the basis of the above manner, further, the outer wall of the top cover 4 is in contact connection with the sealing air bag 801, and the top cover 4 has a transparent structure, so that the sealing performance of the cover 4 is ensured, and the production state of the enameled wire is convenient to observe.

Specifically, this waste gas waste water recycle device on enameled wire production line is during operation/during the use: the production workbench 1 is erected on an enameled wire production line, the enameled wire is painted through the production workbench 1, the top cover 4 is turned over under the action of the hinge 3 in the processing process, the processing area is covered, the covered area is covered and fixed by the pull buckle 5, the exhaust of waste gas in the enameled wire processing process can be effectively avoided, the splashing of waste water in the processing process can be avoided, the recovery of waste gas and waste water in the later stage is facilitated, the enameled wire is collected through the working tank 2 in the processing process of the production workbench 1, the waste water generated in the production process is collected into the collecting bottom tank 601 through the water collecting hole 602, the process control first motor 610 works to drive the first turbine 609 and the mixing screw 604 to rotate in the collecting bottom tank 601, the collected waste water and the adsorption block 603 are stirred and mixed, the adsorption block 603 adsorbs the waste water, the adsorption block 603 is also conveyed in the rotation process of the mixing screw 604, the water-absorbing adsorption block 603 is conveyed into the discharge pipe 605, the adsorption block 603 is closed by the first valve 606 to be extruded at the first valve 606, the second valve 608 is opened, water absorbed in the adsorption block 603 is discharged through the water filtering pipe 607 to play a role in absorbing and filtering waste water, recycling of waste water is facilitated, the discharge and replacement of the adsorption block 603 can be carried out by opening the first valve 606 in the later stage, the second motor 705 is controlled to work to drive the second turbine 704 to rotate, the second turbine 704 is processed at the air suction pipe 708 to produce the suction of waste gas, the waste gas is conveyed into the collection bottom tank 601 through the air conveying pipe 709, the collected waste gas is absorbed through the adsorption block 603 to play a role in recovering waste gas in the suction process of waste gas on a workbench, the second motor 705 has also driven the gear 706 and has rotated, gear 706 and tooth's socket 707 cooperation drive mounting bracket 701 and remove under slider 702 and spout 703 cooperation, thereby drive breathing pipe 708 and remove on the workstation, realize the comprehensive suction of enameled wire processing waste gas, above-mentioned lid 4's lid in-process, lid 4 is held in the top of sealed gasbag 801 in the pressure, first motor 610 work drives first turbine 609 work and imports compressed air in sealed gasbag 801 through intake pipe 802, make sealed gasbag 801 inflation guaranteed the leakproofness that lid 4 was covered, first turbine 609 continuously works in sealed gasbag 801 atmospheric pressure reaches the relief valve 804 upper limit, unnecessary air discharges through the gas-blowing pipe 803, carry out dust removal to production workstation 1 outer wall and handle, reduce the attachment of impurity.

The above embodiments are only for illustrating the present utility model and not for limiting the technical solutions described in the present utility model, and although the present utility model has been described in detail in the present specification with reference to the above embodiments, the present utility model is not limited to the above specific embodiments, and thus any modifications or equivalent substitutions are made to the present utility model; all technical solutions and modifications thereof that do not depart from the spirit and scope of the utility model are intended to be included in the scope of the appended claims.

Claims (7)

1. Waste gas and waste water recycling device on enameled wire production line, a serial communication port, including production workstation (1), offered working tank (2) on the top outer wall of production workstation (1), be connected with top cap (4) through hinge (3) on the top one side outer wall of workstation (1), correspondence is installed on the outer wall of production workstation (1) and top cap (4) and is drawn knot (5), be provided with waste water recovery subassembly (6) on the bottom inner wall of production workstation (1), be equipped with waste gas recovery subassembly (7) on the top one side outer wall of production workstation (1), be equipped with linkage seal assembly (8) on the top outer wall of production workstation (1).

2. The waste gas and waste water recycling device on an enameled wire production line according to claim 1, wherein the waste water recycling component (6) comprises a collecting bottom tank (601) which is installed on the inner wall of the bottom of the production workbench (1) in a penetrating mode, water collecting holes (602) are distributed in the outer wall of the bottom of the working tank (2), an adsorption block (603) is filled in the collecting bottom tank (601), a mixing screw (604) is installed in the collecting bottom tank (601) in a rotating mode, a discharging pipe (605) is connected to the outer wall of one side of the bottom of the collecting bottom tank (601) in a penetrating mode, a first valve (606) is installed on the outer wall of the top of the discharging pipe (605), a water filtering pipe (607) is connected to the outer wall of the bottom of the end portion of the discharging pipe (605), a second valve (608) is installed on the outer wall of one side of the water filtering pipe (607), a first turbine (609) is installed on the outer wall of one side of the collecting bottom tank (601), a first motor (610) is installed on the outer wall of one side of the first turbine (609), and the first turbine (609) is connected to the first motor (604) in a coaxial mode.

3. The waste gas and waste water recycling device on an enameled wire production line according to claim 1, characterized in that the waste gas recycling component (7) comprises a mounting frame (701) arranged on the outer wall of the top of the production workbench (1), sliding blocks (702) are fixed on the outer walls of the two ends of the mounting frame (701), sliding grooves (703) are formed in the outer walls of the two sides of the top of the production workbench (1), the sliding blocks (702) are inserted into the sliding grooves (703), a second turbine (704) is mounted on the outer wall of one side of the end part of the mounting frame (701), a second motor (705) is mounted on the outer wall of one side of the second turbine (704), a gear (706) is mounted at one end of a rotating shaft of the second turbine (704), tooth grooves (707) are formed in the outer wall of one side of the top of the production workbench (1), the gear (706) is connected with the tooth grooves (707) in a meshed mode, one end of the air suction pipe (708) penetrates through the inside the working groove (703), a second turbine (704) is mounted at one end of the air delivery pipe (709), and a one-way valve (709) is mounted at the end of the air delivery pipe (709).

4. The waste gas and waste water recycling device on an enameled wire production line according to claim 2, wherein the linkage sealing assembly (8) comprises a sealing air bag (801) which is fixed on the outer walls of two sides of the top of the production workbench (1) in a covering mode, the air delivery end of the first turbine (609) is connected with an air inlet pipe (802), one end of the air inlet pipe (802) is in through connection with one end of the sealing air bag (801), an air blowing pipe (803) is in through connection with the outer wall of the other side of the sealing air bag (801), one end of the air blowing pipe (803) penetrates through the inside of the working groove (2), and a pressure relief valve (804) is arranged at the end of the air blowing pipe (803).

5. A waste gas and waste water recycling device in an enameled wire production line according to claim 3, characterized in that the second motor (705) is a stepping motor, and the gas pipe (709) is a telescopic hose.

6. The waste gas and waste water recycling device on an enameled wire production line according to claim 2 is characterized in that the adsorption block (603) is an activated carbon adsorption block.

7. The waste gas and waste water recycling device on an enameled wire production line according to claim 4 is characterized in that the outer wall of the top cover (4) is in contact connection with the sealing air bag (801), and the top cover (4) is of a transparent structure.