CN203080278U - Dyeing machine filter with heat exchange device - Google Patents
Dyeing machine filter with heat exchange device Download PDFInfo
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- CN203080278U CN203080278U CN 201320067874 CN201320067874U CN203080278U CN 203080278 U CN203080278 U CN 203080278U CN 201320067874 CN201320067874 CN 201320067874 CN 201320067874 U CN201320067874 U CN 201320067874U CN 203080278 U CN203080278 U CN 203080278U
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- screen pack
- scraper
- filter
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Abstract
The utility model relates to a dyeing machine filter with a heat exchange device. The structure of the filter comprise a main body (1), a filter screen (8), a scraper (9), an end cover (16) and a motor (17), and also comprises a heat exchanging device mounted inside the main body (1), wherein the heat exchanging device is composed of a heat exchanger (13) with a metal structure, is cylindrical or coil-shaped, and is provided with a heat exchange medium pipe therein; the scraper (9) is a spiral blade with a hard structure, and a plurality of blades can be mounted on a rotating shaft. The filter screen (8) is cylindrical and provided with a groove (20); and a space is formed on the inner wall of the filter screen and can not be contacted when part of the scraper rotates; residue adhered to the inner wall of the filter screen scraped by the scraper can be cleaned, and the cleanliness of the dye solution is increased. The dyeing machine filter with the heat exchange device has the beneficial effects that the filtering function and heat exchange efficacy are integrated in the same main body, the amount of water used by a circulation system is reduced, the machine operation cost is lowered, energy consumption is reduced, and the filter can be widely applied to the dyeing and finishing industry.
Description
Technical field
The utility model relates to a kind of filter, particularly relates to a kind of dyeing machine filter.
Background technology
In dyeing and finishing industry, dyeing machine is cloth or the spindle indispensable equipment that dyes.Filter is the key device of the protection dye liquor circulatory system, and it can exclude the residue in the dye liquor, avoids damaging the machine component of precise structure such as water pump.Simultaneously, locate dyeing and weaving thing or spindle, also need use heat-exchanger rig to regulate the temperature of dye liquor in the dyeing machine.The heat-exchanger rig of existing dyeing installation all separates with dyeing machine, is installed in the middle of the dye liquor circulation, heat is injected or therefrom takes away with steam or cold water.Simultaneously, the fluid intake of existing filter is positioned at the top of this filter, is free-falling when fluid enters filter, can produce harmful effect to the flow direction in the filter, makes turbulent flow easily, lowers filtering efficiency.Simultaneously, the dye liquor in the existing coloring system is through being directed to the outlet that it is positioned at the main body next door behind the filter.Because of its columnar design, the inwall of main body must keep some distances with screen pack, this chamber also account for a part the space.In the dye liquor circulatory system, this has also additionally increased the consumption of water.
Scraper is the parts of the key in the filter, existing dyeing machine filter scraper exists many defectives, be crescent shape as the scraper on the patent No. 201120339401.1 disclosed a kind of filters, when scraper is agreed to the axle center rotation, trapped substance can still can accumulate on the blade surface, though adopted designs such as spring and radial type to improve,, damaged blade construction if meeting the stronger material of toughness still may occur towing even stuck phenomenon.
Summary of the invention
In the production of equipment for dyeing and finishing, how to reduce water for industrial use and become a main trend, equipment manufacturers do one's utmost to reduce the unnecessary hydrospace of using on machine construction, to reduce the ratio of fabric and dye liquor.The purpose of this utility model is to provide a kind of novel filter, and filter and heat abstractor are done the one design, and heat-exchanger rig is installed in the filter, to raise the efficiency, solves the water consumption that reduces in the fluid handling system.Simultaneously, scraper is carried out technological improvement, solve the above-mentioned defective of the scraper existence of prior art, and create the drainage design that is different from the novelty that has filter, and adopt novel screen pack, realize technological improvement to filter, a large amount of using water wisely, and enhance productivity.
The technical scheme that the utility model provides is:
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, its structure comprises main body (1), screen pack (8), scraper (9), fluid intake (2), fluid issuing (3), end cap (16), motor (17), it is characterized in that its structure also includes heat-exchanger rig, be installed between the inwall and screen pack (8) of main body (1), end cap (16) is installed in main body (1) top, main shaft (11), scraper (9) and screen pack concentric are installed, scraper (9) rotation of motor (17) with driving main shaft (11) and main shaft (11) is installed on the end cap (16), and it scrapes the inwall of edge touching filter during the scraper rotation.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, described heat-exchanger rig is to be made of the heat exchanger of metal structure (13), pipeline for the heat transferring medium walking is arranged in the heat exchanger (13), the import of heat exchanger (13) connects main body (1) steam or water source in addition, and the outlet of heat exchanger (13) connects the outer discharge tube of main body (1).
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, described heat exchanger (13) is a cylinder mode, cylinder is made of inwall and outer wall, the top is sealed by an annular capping, heat transferring medium inlet and outlet are arranged at the bottom, and heat transferring medium injects the space between inwall and the outer wall from the cylinder bottom.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described heat exchanger (13) is a coil arrangement.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, the inboard of described heat exchanger (13) is provided with screen pack (8), the inboard of screen pack is provided with cylinder (10), screen pack (8) links to each other with end cap (16), form filter chamber between screen pack inboard and the cylinder, form heat exchanging chamber between the wall of the screen pack outside and main body.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described scraper (9) is a helical blade, and it is scraped edge and touches mutually with screen pack when rotated.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described scraper (9) is that the multi-disc blade is installed on the turning cylinder.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described scraper (9) is fixed on the cylinder (10), and cylinder (10) inwall has support to be connected with main shaft (11).
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described screen pack (8) is gone up fluted (20), makes the screen pack inwall form the space that can't touch when a part of scraper rotates.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and polylith deflector (6) is arranged in the described heat exchanger (13), is installed in the space of heat exchanger (13) at interval.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, described main body (1) below is provided with fluid intake (2), fluid intake (2) is connected with cylinder (10), bottom part body has a residue floss hole (4), fluid enters after the main body from last and fill with cylinder (10), overflows from cylinder (10) top again.
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, and described end cap (16) and screen pack (8) can be dismantled from main body (1).
The utility model provides a kind of dyeing machine filter that heat-exchanger rig is arranged, described motor (17) connects minor axis (19), hitch bar (18) is connected minor axis (19) with one heart with main shaft (11), hitch bar (18) is the pair of separable plate, and motor (17) can shift out from end cap (16)
In the fabric finishing machinery, it is the arrangement of the traditional dye liquor circulatory system that filter and heat exchanger independently separate separately.The water consumption that is defined in the dyeing comprises shared water in the whole circulation system, heat exchanger of the present utility model places and can reach in the filter to the free-revving engine that conserves water, see through the reduction circulatory system, relative water consumption just can reduce, under the filtration and heat exchange function in not influence system, the utility model is designs of innovation in the dyeing and finishing machinery industry in conjunction with above-mentioned two kinds of function designs in same main body, is that showing of dyeing and finishing machinery middle filtrator equipment is progressive.With identical heat exchange property relatively, fluid displacement shared behind design score opened filter of the present utility model and the heat exchanger can significantly reduce.
The utility model is put into filter with heat-exchanger rig, makes it have the function of heat exchanger and filter simultaneously.Filtering function and heat exchanger efficiency are concentrated in the same main body, its fluid occupancy is significantly less than the design that existing filter and heat exchanger separate, reduce the circulatory system and account for the water yield, can save intrasystem water consumption for this dyeing and finishing machinery, the machine operation cost reduces, reduce energy consumption, effect is showing in the dyeing and finishing industry of a large amount of waters.
Simultaneously, in the utility model the blade in the filter is improved, can more effectively alleviate because of trapped substance accumulates in and cause the resistance that is out of shape on the scraper.The spiral vane that designs in the utility model, blade than the crescent shape of prior art on the structure is hard, bigger with the joint face of power transmission shaft, can more effectively alleviate because of trapped substance accumulates in and cause the resistance that is out of shape on the scraper, can more effectively alleviate because of trapped substance accumulates in and cause the resistance that is out of shape on the scraper.Spiral vane is not limit number, can use two or more scrapers simultaneously on same power transmission shaft.
Produce turbulent flow because of flow velocity is too fast when preventing that fluid from entering main body, the utility model has adopted a kind of drainage design of novelty.The drainage of general filter is simple and directly, as the patent No. 201120339401.1 disclosed a kind of filters, its fluid intake is positioned at the main body top, directly with flow velocity faster fluid be directed into filter chamber, and do not do any slow design.The too fast turbulent flow of making easily of flow velocity is unfavorable for that residue precipitates in main body.The utility model has adopted novel diversion Design, effectively stops turbulent flow to form.Fluid intake is placed the main body below, make fluid fill up main body in the overflow mode from bottom to up, cooperate the deflector conversion to flow to again, the flow velocity of main body inner fluid is further reduced.The feature of drainage design of the present utility model is as follows: fluid intake (2) is positioned at the main body below, makes fluid enter the center of main body from bottom part body.One upright cylinder (10) is arranged in the main center, and cylinder is connected with fluid intake, and fluid is entered after the main body from filling with cylinder down.Cylinder is filled with the back fluid and is overflowed from the cylinder top, and space remaining in the main body is filled up.
The screen pack that the utility model uses is columnar, has at least one groove (20) on the cylinder and protrudes beyond the center of circle, shown in the top view of Fig. 3.Because scraper of the present utility model (9) places wall within the screen pack (8), so the relative scraper of this groove caves in.In the time of the above-mentioned groove of scraper process, attached and draw and obtain the of short duration time because both separate in scraper and residue between the screen pack and get loose by folder, liquid stream around the complement filter net, residue can be effective in above-mentioned blade edge and be flushed away from scraper in the of short duration time of separating with screen pack, and fall into the residue floss hole (4) of container bottom in groove, the residue that sticks of the screen pack inwall that strikes off of cleaning doctor timely, reduce the artificial of cleaning filter net, improved the cleannes of dye liquor.
Description of drawings
Fig. 1 is a section master diagrammatic sketch of the present utility model.
Fig. 2 is the internal structure of heat exchanger.
Fig. 3 is the vertical view of screen pack and scraper.
Fig. 4 is the three-dimensional cutaway view of screen pack and scraper.
Fig. 5 is a schematic perspective view of the present utility model.
Fu Tu Zhong ︰
1 main body
2 fluid intakes
3 fluid issuings
4 residue floss holes
Larynx road, 5 heat exchanger gateway
6 deflectors
7 filter chambers
8 screen packs
9 scrapers
10 cylinders
11 main shafts
12 heat exchanging chambers
13 heat exchangers
14 valves
15 dividing plates
16 end caps
17 motors
18 hitch bars
19 minor axises
20 grooves
The specific embodiment
Below by embodiment, the utility model is further elaborated:
As Fig. 1-shown in Figure 5, present embodiment comprises main body 1, its periphery has fluid issuing 3, fluid intake 3, larynx road, heat exchanger gateway 5, trapped substance floss hole 4, with the scraper 9 in a motor 17 and the transmission component driving main body 1, also comprise screen pack 8 and heat exchanger 13 in the main body 1, the layout of screen pack is across the direction of flow in the main body 1.
Fluid intake is positioned at the below of device.The fluid that enters filter by the scope of drainage to filter center, fills up space flow through screen pack before in the mode of overflow through pipeline.Special drainage design promotes filtering efficiency, uses the coverage of screen pack to greatest extent.
Heat exchanger is installed on the space behind the filter of flowing through, and fluid after filtering enters into another chamber in the main body 1, and heat exchanger then is installed in the space of this chamber.Heat exchanger is made of metal, comprises a pipeline inside by the heat transferring medium heat exchanger inside of flowing through.Heat transferring medium is separated by the metal shell of heat exchanger with the dye liquor of the heat exchanging chamber of flowing through, and can not contact each other.Conduction of heat sees through the temperature difference of the inside and outside both sides of metal and produces, and makes heat energy infiltrate dye liquor from heat transferring medium, or is taken away by heat transferring medium from dye liquor, causes dye liquor to heat up or cool effect.
Heat exchanger does not have set shape in heat exchanging chamber, can promote heat exchange efficiency by the tube side that prolongs the heat transferring medium walking to increase heat exchange area.The assembly that constitutes heat exchanger comprises at least one metal hollow channel, and pipe ends connects beyond the main body 1, makes fluid enter pipeline from an end, and is positioned at a part of pipeline of main body 1 to flowing through with folk prescription, leaves main body 1 by the other end again.Because heat exchanger and filter are shared a main body 1, the size of heat exchanger in main body 1, trend is subjected to main body 1 internal filter down to shape position limit.The outer wall of heat exchanger all can contact processed fluid in the space of main body 1, these contact-making surfaces are defined as heat exchange area on heat conduction.For increasing the heat exchanger efficiency of main body 1, usual way is to promote its heat exchange area in limited space as far as possible.
In embodiment of the present utility model, used a kind of drum type brake heat exchanger, described cylinder is made of inwall and outer wall, and the top is sealed by an annular capping.The bottom connects heat transferring medium inlet and outlet, and heat transferring medium injects the space between inwall and the outer wall from the cylinder bottom.For making heat transferring medium be full of space in the cylinder fully, some deflectors are had living space the heat transferring medium guiding with institute in the cylinder of walking in a zigzag, and the flow direction is shown in the arrow mouth of Fig. 2.
In the present embodiment, pipeline changes in the periphery of screen pack with annulus mode dish.This pipe ends is connected to the heat transferring medium source beyond the filter, as running water and steam.After filling with pipeline with arbitrary heat transferring medium, if the fluid of its outer wall of flowing through, that is contact with pipeline outer wall and have the temperature difference, just produce heat and conduct through the fluid of filter.Rely on described conduction, but fluid just the mat heat transferring medium obtain or take away heat, cause and heat up or cool effect.
In using operation, fluid is in fluid intake enters main body, and the pressure of the mat circulatory system itself guides to the top in the main body 1.Fluid intake 2 is positioned at main body below, makes fluid fill up main body in the overflow mode, reduces turbulent flow, makes the easier precipitation of residue after the filtration.One hollow cylinder 10 is arranged as the pipeline that connects fluid intake in the main body 1, fluid is filled with cylinder after entering main body 1 gradually.
Filter chamber is defined by the outer wall of cylinder 10 and the inwall of screen pack 8.Screen pack is columnar, and the metallic plate of being expired fine hole by a piece of cloth constitutes, and it arranges the passage of walking across whole fluid in main body 1.Hole size on the screen pack should be not enough to allow foreign material in the fluid such as soft flocks etc. pass through, so that during the filter operation, foreign material can be because of not flowing to filter other end quilt every being stopped on the screen pack inwall.Along with the operating time prolongs, excluding thing and can accumulate gradually and begin to stop up hole on the screen pack on the screen pack influence speed and flow that fluid passes through screen pack.It is necessary removing the trapped substance on the screen pack to recover normal flow velocity.In this embodiment, at least one scraper 9 is installed in the filter chamber 7, spirality scraper and screen pack are installed in the main body 1 with one heart, and mechanically are connected with a motor, make scraper can see through transmission device and rotate in main body 1.The design of scraper makes its surface of striking off permanent contacted filter screen inwall when rotating, and trapped substance is wiped off from screen pack.Scraper 9 is connected as a single entity to support with cylinder 10, and cylinder inner wall has support to be connected to main shaft 11, so that when main shaft rotated, cylinder and scraper also rotated to same direction simultaneously.In this embodiment, main shaft and cylinder, scraper and screen pack are installed with one heart, and wherein main shaft extends outward and connects power to drive the scraper in the main body 1 towards the end cap 16 of main body 1.The position that main shaft passes through end cap also has mechanically-sealing apparatus to prevent that fluid is from this seepage.These all are to handle common Machine Design in the sealed main body 1.
After fluid entered filter chamber, its screen pack was across whole direction of flow, so screen pack is passed in the perforation that fluid sees through on the screen pack.In the fluid volume bore a hole big trapped substance can be intercepted in the perforation on, promptly stagnate upstream in screen pack.Spirality scraper in the rotation touches the trapped substance on the screen pack, and its knife edge can be dragged trapped substance or it is cut, tears to the littler trapped substance of volume away from from screen pack.Depend on its size, trapped substance chopped or can stay on the screen pack once more, or small to the perforation that is enough to pass through on the screen pack.Part also can be precipitated to the bottom of filter chamber, and the rotating speed of scraper is also transferred to being not enough to make excessive turbulent flow, the influence precipitation.
Fluid is through entering another chamber behind the screen pack, this chamber by the wall of main body 1, end cap 16, and screen pack 8 and dividing plate 15 form, be defined as heat exchanging chamber 12.Because main body 1 is installed in this embodiment with one heart with screen pack 8, so heat exchanging chamber is around screen pack.Heat exchanger 13 is arranged in the heat exchanging chamber, and heat exchanger is made up of at least one metal hollow channel.Pipe ends is connected to beyond the main body 1 and plug into any heat exchange circle matter such as water or saturated vapour.Among other embodiment of the present utility model, heat exchanger can adopt the mode of coil pipe.Pipeline moving towards in main body 1 arranged round screen pack, filled the space of most of heat exchanging chamber in theory in dish mode repeatedly.Pipeline is in the indoor winding of main body 1, and the longest tube side of walking is to make maximum heat exchange area.Pipeline from the inside to surface, dish changes into some numbers of plies from top to down, presses the size of heat exchanging chamber, and the layout of pipeline also can be different.Leave the space between the pipeline of the different numbers of plies and the wall all around and allow fluid from these spatial flow mistakes, and the outer wall of contact pipeline.The layout that the utility model designs this pipeline should occupy the space of most of heat exchanging chamber, and the trend of pipeline is also to realize the direction design of maximum heat exchange area.
When fluid is flowed through the outer wall of heat exchanger, in response to heat exchanger in the heat exchange circle matter temperature difference heat of fluid be pulled away or absorb heat from heat conductor.By kind and the flow of heat exchange circle matter in the control heat exchanger to reach the effect of adjusting fluid temperature (F.T.).Fluid leaves main body 1 by fluid issuing after by heat exchanging chamber, and the flow direction of fluid is shown in Fig. 2 arrow mouth.For example, heat exchanger is injected steam, make steam in pipeline folk prescription to flowing.Steam heats up heat exchanger surface, and the outer fluid of pipeline of flowing through assimilates because of the temperature difference, and temperature is risen.Otherwise when pipeline injects cold water and fluid temperature (F.T.) is higher relatively, heat just sees through cold water and is pulled away from fluid, reduces fluid temperature (F.T.).
When trapped substance is struck off from filter, the part thing that dams can be deposited on main body 1 bottom.Main body 1 bottom is a back taper, makes the landing of residue energy to residue floss hole 4.The residue floss hole is positioned at main body 1 bottom, and connects valve 14, and the deposit in the main body 1 can be discharged outside the main body 1 when valve open.Separate with dividing plate 15 between filter chamber and the heat exchanging chamber, avoid in the trapped substance Returning fluid circulatory system after filtering.
Filter adopts the design of easy to disassemble and assemble to be user-friendly for maintenance, and screen pack can be removed to clean or repair and replacement.For making main body 1 can be easy to cleaning, the top of main body 1 is open, and screen pack can be taken out from the top.One end cap 16 is arranged at main body 1 top, with the opening at complete main body covered 1 top.End cap, screen pack, cylinder, the connected main shaft of scraper mechanically connect into an assembly, and when making end cap be installed on main body 1 top, whole filter is placed in the main body 1.
The configurable motor 17 in end cap top is connected to main shaft.In the present embodiment, motor can separate with end cap, and the commentaries on classics that motor produced is transferred to main shaft apart from mat hitch bar 18 by the minor axis on the motor 19.After having removed the screw that connects end cap and main body, the assembling parts that is connected with end cap comprises that screen pack, scraper, motor and main shaft etc. all can remove from main body.Wherein screen pack also is connected to the end cap bottom with screw, can further screen pack be separated from assembly with the screw of end cap by removing the connection screen pack, so that safeguard and clean.Only need when returning dress screen pack is fixed in earlier on the end cap, again end-cap assembly is reinstalled main body and just can operates.
Fig. 3 has showed the setting between screen pack 8, scraper 9 and the cylinder 10.Except the space at groove 20 places, the surface of scraper permanent contacted filter in the process of rotation.
Fig. 4 has further showed setting between screen pack 8, scraper 9 and the cylinder 10 with three dimensional pattern.Screen pack is that the part scrapes off herein, to demonstrate the position of scraper.Groove 20 is positioned on the screen pack, makes the screen pack part outstanding outward from uniform cylindrical shape, produces the space that scraper can not cover in the screen pack.Height and the scraper of groove on screen pack is similar, purpose is when making the position of the rotation arrival groove in the scraper, but attached and draw the of short duration disengaging screen pack of residue mat blade surface between scraper and screen pack and have an opportunity to wash away by folder with liquid stream, reach the beneficial effect of auto-cleaning filter screen.
Claims (13)
1. dyeing machine filter that heat-exchanger rig is arranged, its structure comprises main body (1), screen pack (8), scraper (9), fluid intake (2), fluid issuing (3), end cap (16), motor (17), it is characterized in that its structure also includes heat-exchanger rig, be installed between the inwall and screen pack (8) of main body (1), end cap (16) is installed in main body (1) top, main shaft (11), scraper (9) and screen pack concentric are installed, scraper (9) rotation of motor (17) with driving main shaft (11) and main shaft (11) is installed on the end cap (16), and it scrapes the inwall of edge touching filter during the scraper rotation.
2. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1, it is characterized in that described heat-exchanger rig is heat exchanger (13) formation by metal structure, pipeline for the heat transferring medium walking is arranged in the heat exchanger (13), the import of heat exchanger (13) connects main body (1) steam or water source in addition, and the outlet of heat exchanger (13) connects the outer discharge tube of main body (1).
3. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 and 2, it is characterized in that described heat exchanger (13) is a cylinder mode, cylinder is made of inwall and outer wall, the top is sealed by an annular capping, heat transferring medium inlet and outlet are arranged at the bottom, and heat transferring medium injects the space between inwall and the outer wall from the cylinder bottom.
4. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 and 2 is characterized in that described heat exchanger (13) is a coil arrangement.
5. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1, the inboard that it is characterized in that described heat exchanger (13) is provided with screen pack (8), the inboard of screen pack is provided with cylinder (10), screen pack (8) links to each other with end cap (16), form filter chamber between screen pack inboard and the cylinder, form heat exchanging chamber between the wall of the screen pack outside and main body.
6. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 is characterized in that described scraper (9) is helical blade, and it is scraped edge and touches mutually with screen pack when rotated.
7. according to claim 1 and 6 described a kind of dyeing machine filters that heat-exchanger rig is arranged, it is characterized in that described scraper (9) is that the multi-disc blade is installed on the turning cylinder.
8. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 is characterized in that described scraper (9) is fixed on the cylinder (10), and cylinder (10) inwall has support to be connected with main shaft (11).
9. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 is characterized in that described screen pack (8) upward fluted (20), makes the screen pack inwall form the space that can't touch when a part of scraper rotates.
10. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 is characterized in that polylith deflector (6) is arranged in the described heat exchanger (13), is installed in the space of heat exchanger (13) at interval.
11. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1, it is characterized in that described main body (1) below is provided with fluid intake (2), fluid intake (2) is connected with cylinder (10), bottom part body has a residue floss hole (4), fluid enters after the main body from last and fill with cylinder (10), overflows from cylinder (10) top again.
12. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1 is characterized in that described end cap (16) and screen pack (8) can dismantle from main body (1).
13. a kind of dyeing machine filter that heat-exchanger rig is arranged according to claim 1, it is characterized in that described motor (17) connects minor axis (19), hitch bar (18) is connected minor axis (19) with one heart with main shaft (11), hitch bar (18) is the pair of separable plate, and motor (17) can shift out from end cap (16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320067874 CN203080278U (en) | 2013-02-05 | 2013-02-05 | Dyeing machine filter with heat exchange device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320067874 CN203080278U (en) | 2013-02-05 | 2013-02-05 | Dyeing machine filter with heat exchange device |
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CN203080278U true CN203080278U (en) | 2013-07-24 |
Family
ID=48826136
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CN 201320067874 Withdrawn - After Issue CN203080278U (en) | 2013-02-05 | 2013-02-05 | Dyeing machine filter with heat exchange device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103966792A (en) * | 2013-02-05 | 2014-08-06 | 立信染整机械(深圳)有限公司 | Dyeing machine filter with heat exchange device |
CN105332211A (en) * | 2015-10-28 | 2016-02-17 | 无锡市惠泽通用机械有限公司 | Filtration-type liquid storage tank for dyeing machine |
CN107059176A (en) * | 2017-05-17 | 2017-08-18 | 晋中经纬恒腾纺机有限公司 | A kind of automatic cleaning apparatus of ring spinner suction bellows filter screen |
-
2013
- 2013-02-05 CN CN 201320067874 patent/CN203080278U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103966792A (en) * | 2013-02-05 | 2014-08-06 | 立信染整机械(深圳)有限公司 | Dyeing machine filter with heat exchange device |
CN103966792B (en) * | 2013-02-05 | 2016-04-13 | 立信染整机械(深圳)有限公司 | There is the dyeing machine filter of heat-exchanger rig |
CN105332211A (en) * | 2015-10-28 | 2016-02-17 | 无锡市惠泽通用机械有限公司 | Filtration-type liquid storage tank for dyeing machine |
CN107059176A (en) * | 2017-05-17 | 2017-08-18 | 晋中经纬恒腾纺机有限公司 | A kind of automatic cleaning apparatus of ring spinner suction bellows filter screen |
CN107059176B (en) * | 2017-05-17 | 2023-06-27 | 晋中经纬恒腾纺机有限公司 | Automatic cleaning device for filter screen of cotton suction bellows of ring spinning machine |
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