CN112473167A

CN112473167A - Condensate water recovery device

Info

Publication number: CN112473167A
Application number: CN202011246362.0A
Authority: CN
Inventors: 陈震翔; 郝刚; 赵俊
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-03-12

Abstract

The invention relates to a condensate water recovery device, which comprises a processing cabinet, a condensing group and a filtering mechanism, wherein the lower end of the processing cabinet is arranged on the existing working ground, the upper end inside the processing cabinet is provided with the condensing group, the lower part inside the processing cabinet is provided with the filtering mechanism, and the filtering mechanism is just opposite to the condensing group. Thereby improving the condensation effect of the steam.

Description

Condensate water recovery device

Technical Field

The invention relates to the field of steam treatment instruments, in particular to a condensate water recovery device.

Background

When liquid evaporates in a limited closed space, liquid molecules enter the upper space through the liquid surface to become vapor molecules, and the vapor is formed thereby, and the vapor is classified into saturated vapor and superheated vapor according to the influence of pressure and temperature on various vapors. The main uses of the steam are heating, humidifying, power generation, driving and the like, and the condensate water: gaseous state water, the liquid water that vapor formed through the condensation, easily produce a large amount of high temperature steam in the common industrial production, high temperature steam directly gets rid of and can cause environmental pollution and the waste of resource to the nature, consequently the common way is that condense into liquid with its cooling and carry out recycle again, and the water resource has been practiced thrift again to heat wherein so both the utilization ratio, nevertheless can appear following problem in the comdenstion water recovery in-process:

1. under the condition of no auxiliary constant temperature structure or reinforced air flow structure, the high-temperature steam easily raises the temperature of the initial end of the condensation structure in contact with the condensation structure, namely the condensation effect of the condensation structure is reduced, and meanwhile, when a simple or single-stage filtration mode is adopted for the condensed water, the filtration degree of the condensed water is lower;

2. the in-process of flow direction filtration is concentrated to the comdenstion water, and along with the increase of time, the jam is concentrated easily appearing in filtration, and filtration adopts fixed connection structure so that be not convenient for dismantle the washing more simultaneously, and filter the impurity that produces etc. and can't effectually in time clear away.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the condensate water recovery device comprises a treatment cabinet, a condensation group and a filtering mechanism, wherein the lower end of the treatment cabinet is arranged on the existing working ground, the condensation group is arranged at the upper end inside the treatment cabinet, the filtering mechanism is arranged below the inside of the treatment cabinet, and the filtering mechanism is right opposite to the condensation group.

Condensation group include the intake pipe, automatically controlled cold pipe, hemisphere cover and connecting piece, the up end middle part of handling the cabinet has seted up the tube through-hole, install the intake pipe in the tube through-hole, automatically controlled cold pipe is installed to the lower extreme of intake pipe, automatically controlled cold pipe is helical structure, be provided with hemisphere cover under automatically controlled cold pipe, hemisphere cover is upwards protruding, be provided with the connecting piece between the inside wall about handling the cabinet, the connecting piece is located the below of hemisphere cover, steam is by intake pipe to the input of automatically controlled cold intraductal, take place condensation phenomenon and form the comdenstion water when steam and the contact of automatically controlled cold pipe, the comdenstion water flows down along spiral helicine automatically controlled cold pipe, when flowing to hemisphere cover surface, hemisphere cover can play the reposition of redundant personnel effect to the comdenstion water, so that the comdens.

The filtering mechanism comprises a rotating shaft, a filtering cloth belt, a motor, a ring, a material conveying plate, a hairbrush, a waste basket and a water containing basket, wherein the rotating shaft is symmetrically arranged between the left inner side wall and the right inner side wall of the treatment cabinet in a front-back mode, the filtering cloth belt is connected between the middle parts of the rotating shafts, the rotating shaft at the rear end of the filtering cloth belt is connected with the inner side wall of the treatment cabinet through a bearing, the right end of the rotating shaft at the front end of the filtering cloth belt is connected with the right inner side wall of the treatment cabinet through a bearing, the left end of the rotating shaft at the front end of the filtering cloth belt is connected with an output shaft end of the motor, the left end of the motor is arranged on the left inner side wall of the treatment cabinet, the rings are symmetrically arranged at the left end and the right end of the rotating shaft at the rear end of the filtering cloth belt, the filtering cloth belt is positioned between the rings, the material conveying, a waste basket is arranged below the material conveying plate and is arranged between the left inner side wall and the right inner side wall of the rectangular through groove in a sliding fit mode, the rectangular through groove is arranged on the rear end face of the treatment cabinet, a water containing basket is arranged under the filter cloth belt and is positioned in front of the waste basket, the lower end of the water containing basket is connected with the inner bottom wall of the treatment cabinet in a sliding fit mode, condensed water flows to the filter cloth belt from the surface of the hemispherical cover, meanwhile, a motor drives a rotating shaft connected with the filter cloth belt to rotate, the rotating shaft drives the filter cloth belt to rotate, the two rotating shafts synchronously rotate under the driving of the filter cloth belt, the filter cloth belt carries out filtration treatment on the condensed water, filtered impurities are conveyed to the rear side along the filter cloth belt, when the impurities are contacted with the hairbrush, the hairbrush scrapes the impurities from the surface of the filter cloth belt, the scraped impurities slide into the waste basket along the material conveying plate, and after the impurities in the waste, the waste basket is drawn out in a manual mode and impurities in the waste basket are treated, filtered condensate water passes through the filtering cloth belt and flows into the water containing basket, and after the condensate water in the water containing basket is accumulated to a certain amount, the water containing basket is drawn out in a manual mode and the condensate water in the water containing basket is recycled.

As a preferred technical scheme of the invention, the lower end of the interior of the water containing basket is provided with a circular plate in a sliding fit mode, the middle part of the circular plate is provided with screening cloth, the upper end surfaces of the left and right ends of the circular plate are symmetrically provided with hook rings which are symmetrically arranged in the front and back direction, the hook rings are provided with hooks in a sliding fit mode, the upper ends of the hooks are connected with one ends of pull ropes, the left and right ends of the upper end surface of the water containing basket are symmetrically provided with plate blocks which are symmetrically arranged in the front and back direction, pin shafts are rotatably connected between the front and back opposite plate blocks, the pull ropes penetrate through the upper ends of the pin shafts in a sliding fit mode, the outer surfaces of the left and right ends of the water containing basket are symmetrically provided with a second electric slide block in a sliding fit mode, the other ends of the pull ropes are connected with the upper ends of the second electric slide blocks, when condensed, the other end of the pull rope pulls the hook ring to synchronously and slowly move upwards through the hook, the return plate drives the sieving cloth to synchronously and slowly move upwards under the driving of the hook ring, the sieving cloth upwards and gradually takes the residual bottom-sinking impurities away from the condensed water, after the clip-shaped plate is completely exposed on the surface of the condensed water, the hook is detached and the clip-shaped plate is taken down by manual mode, then the impurities at the upper end of the sieving cloth are treated and the sieving cloth is cleaned, after the cleaning is finished and the condensed water in the water containing basket is poured, the hook ring is hung on the hook again, the return plate is hoisted to the bottom in the water containing basket through the second electric slide block, the cooperation among the return plate, the sieving cloth and the filtering mechanism can lead the condensed water to be subjected to multiple filtering treatment, and then improved the filter effect of comdenstion water greatly, the return plate is in the movable mounting state under colluding the cooperation between ring and the couple simultaneously, and then is convenient for in time clear up the cloth that sieves.

As a preferred technical scheme, the connecting piece comprises a concave plate and T-shaped plates, the concave plate is of a circular structure, the middle of the inner bottom wall of the concave plate is connected with the lower end face of the hemispherical cover, sieve holes are formed in the inner bottom wall of the concave plate from front to back at equal intervals, the sieve holes are evenly distributed along the circumferential direction of the concave plate and are located on the outer side of the hemispherical cover, the T-shaped plates are symmetrically arranged in the middles of the left end and the right end of the concave plate, the outer side ends of the T-shaped plates are connected with the inner side wall of the processing cabinet in a sliding fit mode, and in the process that condensate water flows downwards from the surface of the hemispherical cover, the concave plate can filter large-particle impurities, so that the phenomenon that the subsequent filtering structure is blocked due to the large-particle impurities is avoided, and the movable.

As a preferred technical scheme, a rectangular groove is formed in the middle of the upper end face of the conveying plate, a first electric sliding block is installed in the rectangular groove in a sliding fit mode, the upper end face of the first electric sliding block is connected with the upper end face of a hairbrush, the hairbrush scrapes impurities on the surface of a filter cloth belt in motion, and meanwhile, the hairbrush is driven to reciprocate left and right through the first electric sliding block, so that the stripping degree of the impurities on the surface of the filter cloth belt can be improved on the basis, and the filtering effect of the filter cloth belt is further maintained.

As a preferred technical scheme of the invention, a transverse rod is arranged right above the front end of the waste basket, sliding grooves are symmetrically formed in the left and right inner side walls of the treatment cabinet, each sliding groove is of an L-shaped structure, the inclination angle of the lower end of each sliding groove is the same as that of the corresponding material conveying plate, each transverse rod is connected between the corresponding sliding grooves in a sliding fit mode and is positioned above the corresponding material conveying plate, a push rod is arranged in the middle of the rear end of each transverse rod and is positioned in each rectangular through groove, a scraping plate is arranged at the lower end of each transverse rod, the lower end of each scraping plate is inclined backwards, after condensate water is filtered, each push rod is pushed forwards in a manual mode, each transverse rod is pushed by each push rod to move downwards along the corresponding sliding groove towards the corresponding material conveying plate, each transverse rod drives each scraping plate to move synchronously, and when each transverse rod moves to the lower end of each, then make the transverse bar along sliding groove downstream through the push rod, scrape the flitch and strike off adhesion impurity processing to defeated material board up end in step to reach the mesh that keeps defeated material board up end smoothness degree, and then appear piling up the phenomenon on avoiding impurity and the defeated material board.

As a preferred technical scheme of the invention, a support plate is installed in the middle of an inner ring surface at the rear end of the air inlet pipe, a round rod is rotatably connected to the front end of the support plate, fan blades 202 are installed at the upper end of the round rod, the fan blades 202 are uniformly distributed along the circumferential direction of the round rod, and in the process of conveying steam into the air inlet pipe, the fan blades 202 drive the round rod to perform self-rotation movement under the blowing of the steam, so that air exchange is formed, and further, certain cooling treatment is performed on the steam to reduce the probability of reduction of the cooling control effect of the electric control cooling pipe due to overhigh temperature.

As a preferred technical scheme of the invention, a connecting rod is arranged at the right back side of the round rod, the upper end surface of the connecting rod is connected with the inner upper wall of the processing cabinet, a chain is connected between the upper end of the connecting rod and the upper end of the round rod, the chain is connected with an installation through groove in a sliding fit mode, the installation through groove is arranged at the back end of the air inlet pipe, the middle part of the connecting rod is rotatably connected with an ear plate, the front end of the ear plate is connected with the outer surface of the air inlet pipe, a first conical gear is arranged at the lower end of the connecting rod, a vertical plate is arranged at the right back side of the connecting rod, the upper end of the vertical plate is connected with the inner upper wall of the processing cabinet, the lower end of the vertical plate is rotatably connected with a cross rod, a second conical gear is arranged at the middle part of the cross rod, the second conical gear is meshed with the first conical gear, fan blades are, the air vent is arranged at the front rear side of the cross rod, the air vent is arranged at the rear end face of the processing cabinet, the fan blades drive the round rod to do autorotation motion under the blowing of steam, the round rod drives the connecting rod to synchronously rotate through the chain, the connecting rod drives the first conical gear to synchronously rotate, the second conical gear drives the cross rod to synchronously rotate through the matching between the first conical gear and the second conical gear, the cross rod drives the fan blades to synchronously rotate and improves the flowing degree of air near the upper end of the electric control cold pipe, so that a certain constant temperature effect can be played on the electric control cold pipe, and the forming rate of condensed water is further improved.

(II) advantageous effects

1. The condensate water recovery device adopts a design concept of combining condensation and multiple filtration to recover condensate water, a recyclable filtering structure arranged in a filtering mechanism can reduce the probability of the phenomenon of filtration saturation, and meanwhile, the high filtering effect is realized by adopting an integrated structural design of filtering and impurity filtering treatment, a condensation group can play a role in condensing and can also play a role in shunting the generated condensate water, so that the condensate water disperses and flows to avoid filtration blockage caused by excessive concentration, and meanwhile, an electric control cold pipe with a spiral structure in the condensation group can greatly prolong the retention time of steam in the electric control cold pipe, thereby improving the condensation effect of the steam;

2. the cooperation among the loop plate, the sieving cloth and the filtering mechanism can lead the condensed water to be subjected to multiple filtering treatment, thereby greatly improving the filtering effect of the condensed water, and meanwhile, the loop plate is in a movable installation state under the cooperation between the hook ring and the hook, thereby being convenient for timely cleaning the sieving cloth;

3. the fan blades and the fan blades can rotate by utilizing steam to play a role in improving air exchange flow, so that certain cooling treatment is carried out on the steam to reduce the probability of reduction of the cooling control effect of the electric control cold pipe due to overhigh temperature, and meanwhile, a certain constant temperature effect is played on the electric control cold pipe to further improve the forming rate of condensed water;

4. the cooperation among the transverse rod, the push rod and the scraping plate can scrape and adhere impurities on the upper end surface of the material conveying plate, so that the aim of keeping the smoothness of the upper end surface of the material conveying plate can be fulfilled, and further, the accumulation phenomenon of the impurities and the material conveying plate is avoided;

5. the concave plate can filter large-particle impurities, so that the phenomenon that a subsequent filtering structure is blocked due to the large-particle impurities is avoided, and the movable connection between the T-shaped plate and the processing cabinet can facilitate timely disassembly and cleaning of the concave plate.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a second cross-sectional view of the present invention;

FIG. 4 is a third cross-sectional view of the present invention;

FIG. 5 is an enlarged view of the invention in section X of FIG. 2;

FIG. 6 is an enlarged view of the Y-direction portion of FIG. 2 of the present invention;

FIG. 7 is an enlarged view of the invention in the Z-direction of FIG. 2;

FIG. 8 is an enlarged view of the M-direction portion of FIG. 2 in accordance with the present invention;

FIG. 9 is an enlarged view of the N-direction portion of FIG. 2 in accordance with the present invention;

fig. 10 is an enlarged view of the R-direction portion of fig. 3 according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 10, a condensate water recycling device comprises a processing cabinet 1, a condensing group 2 and a filtering mechanism 3, wherein the lower end of the processing cabinet 1 is installed on the existing working ground, the condensing group 2 is arranged at the upper end inside the processing cabinet 1, the filtering mechanism 3 is installed below the inside of the processing cabinet 1, and the filtering mechanism 3 is just opposite to the condensing group 2.

The condensation group 2 comprises an air inlet pipe 20, an electric control cold pipe 21, a hemispherical cover 22 and a connecting piece 23, a pipe through hole is formed in the middle of the upper end face of the processing cabinet 1, the air inlet pipe 20 is installed in the pipe through hole, the electric control cold pipe 21 is installed at the lower end of the air inlet pipe 20, the electric control cold pipe 21 is of a spiral structure, the hemispherical cover 22 is arranged right below the electric control cold pipe 21, the hemispherical cover 22 protrudes upwards, the connecting piece 23 is arranged between the left inner side wall and the right inner side wall of the processing cabinet 1, the connecting piece 23 is positioned below the hemispherical cover 22, steam is input into the electric control cold pipe 21 from the air inlet pipe 20, condensation phenomenon occurs when the steam is contacted with the electric control cold pipe 21 to form condensate water, the condensate water flows downwards along the spiral electric control cold pipe 21 and flows to the surface of the hemispherical cover 22, the hemispherical cover 22 can play a shunting role on the condensate water to enable the condensate water to, the helical structure of the electric control cold pipe 21 can greatly prolong the retention time of the steam in the electric control cold pipe 21, and further improve the condensation effect of the steam.

The middle part of the inner ring surface of the rear end of the air inlet pipe 20 is provided with a support plate 200, the front end of the support plate 200 is rotatably connected with a round rod 201, fan blades 202 are installed at the upper end of the round rod 201, the fan blades 202 are evenly distributed along the circumferential direction of the round rod 201, and in the process of conveying steam into the air inlet pipe 20, the fan blades 202 drive the round rod 201 to do autorotation motion under the blowing of the steam, so that air exchange is formed, and then certain cooling treatment is carried out on the steam to reduce the probability of the cooling control effect reduction of the electric control cooling pipe 21 caused by overhigh temperature.

A connecting rod 202 is arranged at the right rear side of the round rod 201, the upper end face of the connecting rod 202 is connected with the inner upper wall of the processing cabinet 1, a chain 203 is connected between the upper end of the connecting rod 202 and the upper end of the round rod 201, the chain 203 is connected with an installation through groove in a sliding fit mode, the installation through groove is arranged at the rear end of the air inlet pipe 20, the middle part of the connecting rod 202 is rotatably connected with an ear plate 204, the front end of the ear plate 204 is connected with the outer surface of the air inlet pipe 20, a first conical gear 205 is arranged at the lower end of the connecting rod 202, a vertical plate 206 is arranged at the right rear side of the connecting rod 202, the upper end of the vertical plate 206 is connected with the inner upper wall of the processing cabinet 1, a cross rod 207 is rotatably connected at the lower end of the vertical plate 206, a second conical gear 208 is arranged at the middle part of the cross rod 207, the second conical gear 208 is meshed with the, the fan blade 209 is located the positive rear side of automatically controlled cold pipe 21 upper end, the positive rear side of horizontal pole 207 is provided with the air vent, the air vent is seted up at the rear end face of handling cabinet 1, fan blade 202 drives round bar 201 and is the rotation motion under the blowing of steam, round bar 201 drives connecting rod 202 synchronous revolution through chain 203, connecting rod 202 drives a conical gear synchronous revolution, No. two conical gear drives horizontal pole 207 synchronous revolution through the cooperation with a conical gear between, horizontal pole 207 drives fan blade 209 synchronous revolution and has improved the flow degree of near air in automatically controlled cold pipe 21 upper end, so as to play certain constant temperature effect to automatically controlled cold pipe 21, and then improve the shaping rate of comdenstion water.

Connecting piece 23 include notch board 230 and T template 231, notch board 230 is circular structure, the lower terminal surface of inner bottom wall middle part and hemisphere cover 22 of notch board 230 links to each other, the sieve mesh has been seted up to the inner bottom wall of notch board 230 equidistance backward in the past, the sieve mesh is evenly arranged along notch board 230 circumference, and the sieve mesh is located hemisphere cover 22's the outside, T template 231 is installed to both ends middle part symmetry about notch board 230, T template 231 outside end links to each other with the inside wall of handling cabinet 1 through the sliding fit mode, the comdenstion water is from hemisphere cover 22 surface downward flow's in-process, notch board 230 can carry out the large granule impurity to it and filter, and then avoid the large granule impurity to cause follow-up filtration to appear blocking phenomenon, swing joint between T template 231 and the handling cabinet 1 can be convenient for in time dismantle the clearance notch board 230.

The filtering mechanism 3 comprises a rotating shaft 30, a filter cloth belt 31, a motor 32, a ring 33, a material conveying plate 34, a brush 35, a waste basket 36 and a water containing basket 37, wherein the rotating shaft 30 is symmetrically arranged between the left inner side wall and the right inner side wall of the treatment cabinet 1 in a front-back manner, the filter cloth belt 31 is connected between the middle parts of the rotating shafts 30, the rotating shaft 30 at the rear end of the filter cloth belt 31 is connected with the inner side wall of the treatment cabinet 1 through a bearing, the right end of the rotating shaft 30 at the front end of the filter cloth belt 31 is connected with the right inner side wall of the treatment cabinet 1 through a bearing, the left end of the rotating shaft 30 at the front end of the filter cloth belt 31 is connected with the output shaft end of the motor 32, the left end of the motor 32 is arranged on the left inner side wall of the treatment cabinet 1, the ring 33 is symmetrically arranged at the left end and the right end of the rotating shaft 30 at the rear end of the filter cloth belt 31, the filter cloth belt 31 is positioned between the ring, the brush 35 is connected with the filter cloth belt 31 in a sliding fit manner, the waste basket 36 is arranged below the material conveying plate 34, the waste basket 36 is arranged between the left inner side wall and the right inner side wall of the rectangular through groove in a sliding fit manner, the rectangular through groove is formed in the rear end face of the treatment cabinet 1, the water containing basket 37 is arranged right below the filter cloth belt 31, the water containing basket 37 is positioned in front of the waste basket 36, the lower end of the water containing basket 37 is connected with the inner bottom wall of the treatment cabinet 1 in a sliding fit manner, condensed water flows to the filter cloth belt 31 from the surface of the hemispherical cover 22, meanwhile, the motor 32 drives the rotating shaft 30 connected with the filter cloth belt to rotate, the rotating shaft 30 drives the filter cloth belt 31 to rotate, the two rotating shafts 30 synchronously rotate under the driving of the filter cloth belt 31, the filter cloth belt 31 carries out filter treatment on the condensed water, filtered impurities are conveyed to the rear side along with the filter cloth belt 31, when the impurities are contacted with the brush 35, the brush 35 scrapes the, scrape impurity from along defeated flitch 34 landing to waste material basket 36 in, treat impurity accumulation to a certain amount after in the waste material basket 36, take waste material basket 36 out and handle impurity in it through artifical mode, pass through filterable comdenstion water and filter in the strap 31 flows into flourishing basket 37, treat comdenstion water accumulation to a certain amount after in the flourishing basket 37, take out flourishing basket 37 through artifical mode and carry out recycle to comdenstion water in it, but the cyclic utilization filtration structure that sets up in the filter equipment 3 can reduce the probability that the filter saturation phenomenon appears, take simultaneously and filter the integrative structural design of impurity processing and realize high filtration effect.

Defeated material board 34's up end middle part seted up the rectangle recess, install an electronic slider 340 through sliding fit mode in the rectangle recess, the up end of an electronic slider 340 links to each other with the up end of brush 35, when brush 35 scrapes away from the impurity on the filter cloth area 31 surface in the motion, through an electronic slider 340 drive brush 35 do left and right reciprocating motion, can improve the degree of peeling off of impurity in filter cloth area 31 surface on this basis, and then keep filter cloth area 31's filter effect.

A transverse rod 360 is arranged right above the front end of the waste basket 36, sliding grooves are symmetrically formed in the left inner side wall and the right inner side wall of the treatment cabinet 1, each sliding groove is of an L-shaped structure, the inclination angle of the lower end of each sliding groove is the same as that of the corresponding conveying plate 34, the transverse rods 360 are connected with the sliding grooves in a sliding fit mode, the transverse rods 360 are located above the conveying plates 34, push rods 361 are installed in the middles of the rear ends of the transverse rods 360 and located in the rectangular through grooves, scraping plates 362 are installed at the lower ends of the transverse rods 360, the lower ends of the scraping plates 362 are inclined backwards, after condensate water is filtered, the push rods 361 are pushed forwards manually, the transverse rods 360 move towards the conveying plates 34 along the sliding grooves under the pushing action of the push rods 361, the transverse rods 360 drive the scraping plates 362 to move synchronously, and when the transverse rods 360 just move to the lower ends of the sliding grooves, the lower ends, then, the push rod 361 makes the transverse rod 360 move downwards along the sliding groove, and the scraper 362 scrapes off the adhered impurities from the upper end surface of the material conveying plate 34 synchronously, so as to achieve the purpose of keeping the smoothness of the upper end surface of the material conveying plate 34, and further avoid the accumulation of the impurities and the material conveying plate 34.

The water containing basket 37 is characterized in that a rotary plate 370 is arranged at the lower end of the inside of the water containing basket 37 in a sliding fit mode, a sieving cloth 371 is arranged at the middle part of the rotary plate 370, hook rings 372 are symmetrically arranged on the upper end surfaces of the left end and the right end of the rotary plate 370 in a front-back symmetrical mode, hooks 373 are arranged on the hook rings 372 in a sliding fit mode, the upper ends of the hooks 373 are connected with one ends of pull ropes 374, plates 375 are symmetrically arranged on the left end and the right end of the upper end surface of the water containing basket 37 in a front-back symmetrical mode, pin shafts are rotatably connected between the front-back opposite plates 375, the pull ropes 374 penetrate through the upper ends of the pin shafts in a sliding fit mode, second electric sliding blocks 376 are symmetrically arranged on the outer surfaces of the left end and the right end of the water containing basket 37 in a sliding fit mode, the other ends of the pull ropes 374 are connected with, pulling a pull rope 374 downwards by a second electric slider 376, pulling a hook 372 to synchronously and slowly move upwards by the other end of the pull rope 374 through a hook 373, driving a sieving cloth 371 to synchronously and slowly move upwards by the hook 372, gradually taking residual bottom impurities upwards away from condensed water by the sieving cloth 371, unloading the hook 373 and taking the sieving plate 370 down by a manual mode after the sieving plate 370 is completely exposed on the water surface of the condensed water, processing the impurities at the upper end of the sieving cloth 371 and cleaning the sieving cloth 371, hanging the hook 372 on the hook 373 again after the cleaning is finished and the condensed water in the water containing basket 37 is poured over, hoisting the sieving plate 370 to the bottom in the water containing basket 37 by the second electric slider 376, and enabling the condensed water to be subjected to multiple filtration processing by the cooperation between the sieving plate 370, the sieving cloth 371 and the filter mechanism 3, thereby greatly improving the filtration effect of the condensed water, the plate 370 is in movable mounting state under the cooperation between colluding ring 372 and couple 373 simultaneously, and then is convenient for in time clear up sieving cloth 371.

During operation, in the process of conveying steam into the air inlet pipe 20, the fan blades 202 drive the round rod 201 to perform rotation movement under the blowing of the steam, so as to form air exchange, and further perform certain temperature reduction treatment on the steam, meanwhile, the round rod 201 drives the connecting rod 202 to synchronously rotate through the chains 203, the connecting rod 202 drives the first conical gear to synchronously rotate, the second conical gear drives the cross rod 207 to synchronously rotate through matching with the first conical gear, the cross rod 207 drives the fan blades 209 to synchronously rotate, so as to improve the flowing degree of air near the upper end of the electrically controlled cold pipe 21, after the steam enters the electrically controlled cold pipe 21, condensation occurs when the steam contacts the electrically controlled cold pipe 21, so as to form condensate water, the condensate water flows downwards along the spiral electrically controlled cold pipe 21, when the condensate water flows to the surface of the hemispherical cover 22, the hemispherical cover 22 can shunt the condensate water, and the concave plate 230 can filter large-particle impurities of the condensate, condensed water flows to the filter cloth belt 31 from the surface of the hemispherical cover 22 and drives the rotating shaft 30 connected with the hemispherical cover to rotate through the motor 32, the rotating shaft 30 drives the filter cloth belt 31 to rotate, the two rotating shafts 30 synchronously rotate under the drive of the filter cloth belt 31, the filter cloth belt 31 filters the condensed water, filtered impurities are conveyed to the rear side along with the filter cloth belt 31, when the impurities are contacted with the brush 35, the brush 35 scrapes the impurities from the surface of the filter cloth belt 31, and simultaneously the brush 35 is driven to do left-right reciprocating motion through the electric sliding block 340, on the basis, the stripping degree of the impurities on the surface of the filter cloth belt 31 can be improved, the scraped impurities slide into the waste basket 36 along the conveying plate 34, after the condensed water filtration is finished, the push rod 361 is manually pushed forwards, the transverse rod 360 pushes the push rod 361 to move along the sliding groove to the conveying plate 34, the transverse rod 360 drives the scraping plate 362 to synchronously move, when the transverse rod 360 just moves to the lower end of the sliding groove, the lower end of the scraping plate 362 contacts with the upper end face of the material conveying plate 34, then the transverse rod 360 moves downwards along the sliding groove through the push rod 361, the scraping plate 362 synchronously scrapes and adheres impurities on the upper end face of the material conveying plate 34 to achieve the purpose of keeping smoothness of the upper end face of the material conveying plate 34, after the impurities in the waste basket 36 are accumulated to a certain amount, the waste basket 36 is manually drawn out and the impurities in the waste basket are treated, the filtered condensate water flows into the water containing basket 37 through the filter cloth belt 31, when the condensate water is equalized to the water containing basket 37, the whole body is kept still for a period of time, the pull rope 373 is pulled downwards through the second electric slide block 376, the other end of the pull rope 374 pulls the hook ring 371 through the hook to synchronously move slowly and upwards, the return plate 370 drives the screen cloth to synchronously move slowly and upwards under the driving of the hook ring 372, go through sieve cloth 371 will remain heavy end impurity upwards take gradually from the comdenstion water, after returning template plate 370 to expose on the comdenstion water surface completely, lift couple 373 and take off returning template plate 370 through manual mode, later handle sieving cloth 371 upper end impurity and clear up sieving cloth 371, the clearance is accomplished and will flourishing water basket 37 take out and empty the back with the comdenstion water in it, will collude ring 372 and hang again on couple 373, and will return template plate 370 hoist and mount to flourishing water basket 37 bottom in through No. two electric slider 376, will flourishing water basket 37 take out and carry out recycle to the comdenstion water in it through manual mode.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a condensate recovery device, is including handling cabinet (1), condensation group (2) and filter mechanism (3), its characterized in that: the lower end of the processing cabinet (1) is arranged on the existing working ground, the upper end in the processing cabinet (1) is provided with a condensing group (2), the lower end in the processing cabinet (1) is provided with a filtering mechanism (3), and the filtering mechanism (3) is right opposite to the condensing group (2);

the condensation group (2) comprises an air inlet pipe (20), an electric control cold pipe (21), a hemispherical cover (22) and a connecting piece (23), a pipe through hole is formed in the middle of the upper end face of the treatment cabinet (1), the air inlet pipe (20) is installed in the pipe through hole, the electric control cold pipe (21) is installed at the lower end of the air inlet pipe (20), the electric control cold pipe (21) is of a spiral structure, the hemispherical cover (22) is arranged right below the electric control cold pipe (21), the hemispherical cover (22) protrudes upwards, the connecting piece (23) is arranged between the left inner side wall and the right inner side wall of the treatment cabinet (1), and the connecting piece (23) is located below the hemispherical cover (22);

the filter mechanism (3) comprises a rotating shaft (30), a filter cloth belt (31), a motor (32), a circular ring (33), a material conveying plate (34), a brush (35), a waste basket (36) and a water containing basket (37), the rotating shaft (30) is symmetrically arranged between the left inner side wall and the right inner side wall of the treatment cabinet (1) in a front-back mode, the filter cloth belt (31) is connected between the middle parts of the rotating shaft (30), the rear end rotating shaft (30) of the filter cloth belt (31) is connected with the inner side wall of the treatment cabinet (1) through a bearing, the right end of the front end rotating shaft (30) of the filter cloth belt (31) is connected with the right inner side wall of the treatment cabinet (1) through the bearing, the left end of the front end rotating shaft (30) of the filter cloth belt (31) is connected with the output shaft end of the motor (32), the left end of the motor (32) is installed on the left inner side wall of the treatment cabinet (1), the circular ring (33) is, the filter cloth belt (31) is located between the circular rings (33), a material conveying plate (34) is connected between the rear lower ends of the circular rings (33), the front end of the material conveying plate (34) inclines upwards, brushes (35) are arranged on the upper end face of the material conveying plate (34) in an equidistance from left to right, the brushes (35) are connected with the filter cloth belt (31) in a sliding fit mode, a waste basket (36) is arranged below the material conveying plate (34), the waste basket (36) is arranged between the left inner side wall and the right inner side wall of the rectangular through groove in a sliding fit mode, the rectangular through groove is formed in the rear end face of the treatment cabinet (1), a water containing basket (37) is arranged under the filter cloth belt (31), the water containing basket (37) is located in front of the waste basket (36), and the lower end of the water containing basket (37) is connected with the inner bottom wall of the treatment cabinet (1) in.

2. A condensate recovery apparatus according to claim 1, wherein: the inside lower extreme of flourishing water basket (37) install back template (370) through sliding fit, the mid-mounting of returning template (370) has screen cloth (371), the up end symmetry at both ends is installed and is colluded ring (372) about returning template (370), it arranges to collude ring (372) front and back symmetry, collude and install couple (373) through sliding fit on ring (372), the upper end of couple (373) links to each other with the one end of stay cord (374), plate (375) are installed to both ends symmetry about the up end of flourishing water basket (37), plate (375) front and back symmetry arranges, it is connected with the round pin axle to rotate between the positive relative plate (375) in front and back, stay cord (374) pass in round pin axle upper end through sliding fit, No. two electronic slider (376) are installed through sliding fit symmetry to the surface at both ends about flourishing water basket (37), the other end of stay cord (374) links to each other with the upper end of No. two electronic slider (376).

3. A condensate recovery apparatus according to claim 1, wherein: connecting piece (23) including notch board (230) and T template (231), notch board (230) are circular structure, the lower terminal surface of the inner bottom wall middle part and hemisphere cover (22) of notch board (230) links to each other, the sieve mesh has been seted up from preceding toward the back equidistance to the inner bottom wall of notch board (230), the sieve mesh is evenly arranged along notch board (230) circumference, and the sieve mesh is located the outside of hemisphere cover (22), T template (231) are installed to both ends middle part symmetry about notch board (230), T template (231) outside end links to each other with the inside wall of handling cabinet (1) through sliding fit mode.

4. A condensate recovery apparatus according to claim 1, wherein: a rectangular groove is formed in the middle of the upper end face of the material conveying plate (34), a first electric sliding block (340) is installed in the rectangular groove in a sliding fit mode, and the upper end face of the first electric sliding block (340) is connected with the upper end face of the brush (35).

5. A condensate recovery apparatus according to claim 1, wherein: waste basket (36) front end be provided with transverse bar (360) directly over, the slip recess has been seted up to the left and right sides inside wall symmetry of handling cabinet (1), the slip recess is type L type structure, and the inclination of slip recess lower extreme is the same with the inclination of defeated flitch (34), transverse bar (360) are connected and are slided between the recess through sliding fit mode, transverse bar (360) are located defeated flitch (34) top, the rear end mid-mounting of transverse bar (360) has push rod (361), push rod (361) are located the logical inslot of rectangle, the lower extreme of transverse bar (360) is installed and is scraped flitch (362), it inclines backward to scrape flitch (362) lower extreme.

6. A condensate recovery apparatus according to claim 1, wherein: the middle part of the inner ring surface of the rear end of the air inlet pipe (20) is provided with a support plate (200), the front end of the support plate (200) is rotatably connected with a round rod (201), the upper end of the round rod (201) is provided with fan blades (202), and the fan blades (202) are uniformly distributed along the circumferential direction of the round rod (201).

7. A condensate recovery apparatus according to claim 6, wherein: a connecting rod (202) is arranged at the front rear side of the round rod (201), the upper end face of the connecting rod (202) is connected with the inner upper wall of the processing cabinet (1), a chain (203) is connected between the upper end of the connecting rod (202) and the upper end of the round rod (201), the chain (203) is connected with an installation through groove in a sliding fit mode, the installation through groove is formed in the rear end of the air inlet pipe (20), an ear plate (204) is rotatably connected to the middle of the connecting rod (202), the front end of the ear plate (204) is connected with the outer surface of the air inlet pipe (20), a first conical gear (205) is installed at the lower end of the connecting rod (202), a vertical plate (206) is arranged at the front rear side of the connecting rod (202), the upper end of the vertical plate (206) is connected with the inner upper wall of the processing cabinet (1), a cross rod (207) is rotatably connected to the lower end of the vertical plate (, no. two bevel gears (208) mesh with No. one bevel gear (205), and fan blade (209) are installed to the front end of horizontal pole (207), and fan blade (209) evenly arrange along horizontal pole (207) circumference, and fan blade (209) are located automatically controlled cold tube (21) positive rear side of upper end, and the positive rear side of horizontal pole (207) is provided with the air vent, and the air vent is seted up at the rear end face of handling cabinet (1).