CN109351712A - Automate textile machinery dedusting humidifying device - Google Patents
Automate textile machinery dedusting humidifying device Download PDFInfo
- Publication number
- CN109351712A CN109351712A CN201811179269.5A CN201811179269A CN109351712A CN 109351712 A CN109351712 A CN 109351712A CN 201811179269 A CN201811179269 A CN 201811179269A CN 109351712 A CN109351712 A CN 109351712A
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- China
- Prior art keywords
- block
- humidification
- bottom end
- mutually welded
- circulation
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D46/00—Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
- B01D46/10—Particle separators, e.g. dust precipitators, using filter plates, sheets or pads having plane surfaces
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D46/00—Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
- B01D46/42—Auxiliary equipment or operation thereof
- B01D46/48—Removing dust other than cleaning filters, e.g. by using collecting trays
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B13/00—Machines or plants for applying liquids or other fluent materials to surfaces of objects or other work by spraying, not covered by groups B05B1/00 - B05B11/00
- B05B13/02—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B13/00—Accessories or details of general applicability for machines or apparatus for cleaning
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B5/00—Cleaning by methods involving the use of air flow or gas flow
- B08B5/04—Cleaning by suction, with or without auxiliary action
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Filtering Of Dispersed Particles In Gases (AREA)
Abstract
The invention discloses automation textile machinery dedusting humidifying devices, its structure includes humidification suction box, pedestal, lateral mass, protecting crust, the bottom end of humidification suction box and the top of pedestal are mutually welded, lateral mass is set on humidification suction box, and the two is integrated, the present invention passes through the part-structure that improves equipment, it can be cooperated by humidification circulation mechanism and circulation driving mechanism, it is being humidified to be recycled to the left residual liquid of humidification, prevent equipment in the case where longtime running humidification, make to accumulate a large amount of ponding in equipment, oxidation corrosion is caused to equipment, pass through the part-structure of improvement dust collection mechanism simultaneously, make its automatic valve opening when needing dust suction, timely valve closing when stopping dust suction, dust exhaust apparatus midway is prevented to stop, the dust in recycling is caused to be affected by gravity and fall to equipment again On, secondary pollution is caused to equipment.
Description
Technical field
The present invention relates to dedusting humidifying device fields, are humidified and fill particularly with regard to a kind of automation textile machinery dedusting
It sets.
Background technique
Textile machinery dedusting humidifying device is automated as a kind of unit equipment on weaving instrument, dedicated for equipment
Dust cleaning, and humidification can effectively ensure that equipment is in a relatively stable working condition, but existing equipment in order to
Guarantee humidity when mechanical movement, generally requires persistently to carry out plus water spray easily leads to and condenses largely in equipment for a long time with this
Droplet eventually becomes ponding, and is not easy to be cleared up, and causes oxidation corrosion to environment division part, at the same existing equipment into
Often using the method adsorbed from bottom to top when row dedusting, if dust-extraction unit is out of service, the dust in absorption is easy
Because losing the suction of deduster, and under the influence of gravity, fall downwards, to cause secondary pollution to equipment.
Summary of the invention
In view of the deficiencies of the prior art, the present invention is to realize by the following technical solutions: automation textile machinery
Dedusting humidifying device, structure include humidification suction box, pedestal, lateral mass, protecting crust, the bottom end of the humidification suction box and pedestal
Top mutually weld, the lateral mass is set on humidification suction box, and the two is integrated, and the lateral mass is located at protecting crust
Right, the humidification suction box include dust collection mechanism, humidification circulation mechanism, circulation driving mechanism, drawing liquid mechanism, drain machine
Structure, recovering mechanism, shell, the dust collection mechanism are located at the lower left of humidification circulation mechanism, the bottom end of the humidification circulation mechanism
It is mutually welded with the top of recovering mechanism, the right end of the circulation driving mechanism is equipped with drawing liquid mechanism, and the two is flexibly connected, institute
The bottom end on the top and circulation driving mechanism of stating drainage mechanism is mutually welded, and the recovering mechanism is located under circulation driving mechanism
Side.
As advanced optimizing for the technical program, the dust collection mechanism includes valve-opening mechanism, filter mechanism, capsul,
The valve-opening mechanism is set to the surface of filter mechanism, and the left and right ends of the filter mechanism are mutually welded with the inner end of capsul.
As advanced optimizing for the technical program, the valve-opening mechanism includes fixture block, channel, rotation shifting block, mobile valve
Block is connected strut, sticks up bar, sealing block, sealing bar, and the fixture block is set to the centre in channel, and the two is integrated, institute
The left end for rotating shifting block is stated equipped with mobile valve block, and the two is flexibly connected, top and the movement valve block of the linking strut
The bottom end of the connection of middle part hinge, the linking strut is connect with the top hinge for sticking up bar, and the sealing block, which is fitted around, to be sealed
On bar, the sealing block is set at left and right sides of fixture block, and the two is flexibly connected.
As advanced optimizing for the technical program, the filter mechanism includes fixed valve block, filter screen, dust-absorbing groove, institute
Fixed valve block is stated on dust-absorbing groove, and the two is mutually welded, the left and right ends of the filter screen are equipped with fixed valve block, and two
Person mutually welds.
As advanced optimizing for the technical program, the humidification circulation mechanism includes input duct, half-duplex channel, pumping
Block, spring, power shifting block, movable push, the half-duplex channel is set in input duct, and the two is integrated, institute
The right end for taking out block is stated equipped with movable push, and the two is mutually welded, the left end of the spring and the right end for taking out block mutually weld, described
Power shifting block is set to the right end of movable push, and the two is flexibly connected, the left end of the power shifting block and circulation driving mechanism
It is flexibly connected.
As advanced optimizing for the technical program, the circulation driving mechanism includes water flow shifting block, rotation axis, rotates outside
Circle, roller, lower circulation road, the head end of the water flow shifting block and the outer ring of rotation outer ring are mutually welded, and the rotation axis is set to rotation
The center of outer ring, the roller are fitted around on the rotating shaft, and the water flow shifting block is set in lower circulation road, the rotation outer ring
Left end be flexibly connected with power shifting block.
As advanced optimizing for the technical program, the drawing liquid mechanism includes drawing liquid valve block, mobile framework, sector
Wheel, motor, motor support frame, the right end of the drawing liquid valve block is equipped with mobile framework, and the two is flexibly connected, the sector
Wheel is set on the inside casing of mobile framework, and the two is meshed, and the sector gear is located at the top of motor, and the two passes through belt
It is connected, the bottom end of the motor is mutually welded with the top of motor support frame.
As advanced optimizing for the technical program, the drainage mechanism includes one-way flow plate, single-direction balls, chute, row
The left and right ends of wet mouth, spray head, limit spring, the one-way flow plate are mutually welded with chute, and the one-way flow plate is located at single
To the surface of ball, it is one that the single-direction balls, which are set to the middle part of chute, the bottom end set on chute of the moisture exhausting port, and the two,
Body structure, the spray head is set on the bottom end of moisture exhausting port, and the two is mutually welded, and the spray head is located at the underface of chute,
The top of the limit spring and the bottom end of one-way flow plate are mutually welded, the bottom end of the limit spring and the top phase of single-direction balls
Welding.
As advanced optimizing for the technical program, the recovering mechanism include accommodating groove shell, recovery port, leak every
Plate, upper suction valve block, recovery channel, DC tube, accommodating groove, the recovery port are set on the bottom end of accommodating groove interior of shell, and
The two is integrated, and the left and right ends of the leak partition and the outer shell phase of accommodating groove are welded, and the leak partition is located at back
The bottom end of the surface of closing in, the upper bottom end for inhaling valve block and accommodating groove interior of shell is mutually welded, the upper top for inhaling valve block
End is equipped with the bottom end of DC tube, and the two is integrated, and the DC tube is set in accommodating groove, and the accommodating groove is set to
On accommodating groove shell, and the two is integrated.
The beneficial effects of the present invention are: the present invention to automate textile machinery dedusting humidifying device, is carrying out using setting
When standby, started by dust collection mechanism on humidification suction box, from the rotation shifting block opened on valve-opening mechanism is pushed, make itself and shifting
Movable valve block matches, and mobile valve block is driven to move up, and pulls linking strut, to make to stick up bar tilting, pulling open sealing bar makes it
It is mutually separated with fixture block, dust can be made to come up from the filter screen absorption on filter mechanism, when dust collection mechanism is out of service,
Sealing bar is influenced by spring, will do it return, to close to channel, prevents dust from falling, while humidification,
Started by motor, drive sector gear to be rotated, matched with mobile framework, so that drawing liquid valve block be made to extract humidification liquid
Onto lower circulation road, water flow shifting block is impacted, so that the influence for rotating outer ring hand water flow impact pressure is rotated, thus
It drives power shifting block to be rotated, is cooperated with movable push, the reciprocating motion for controlling movable push, drive and take out block
It is twitched, the hydrops that will be dropped on accommodating groove, is come in upper suction valve block by recovery port, finally come water via DC tube
In slot, recycle again.
For the prior art, the present invention, can be by humidifying circulation mechanism by the part-structure that improves equipment
It cooperates with circulation driving mechanism, is being humidified to be recycled to the left residual liquid of humidification, is preventing equipment in length
In the case where phase operation humidification, make to accumulate a large amount of ponding in equipment, oxidation corrosion is caused to equipment, while by improving dust suction
The part-structure of mechanism makes its automatic valve opening when needing dust suction, timely valve closing when stopping dust suction, it is therefore prevented that inhales
Dirt device midway stops, and causes the dust in recycling to be affected by gravity and fallen in equipment again, causes secondary dirt to equipment
Dye.
Detailed description of the invention
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is the structural schematic diagram of present invention automation textile machinery dedusting humidifying device.
Fig. 2 is the cross section detailed construction schematic diagram before present invention humidification suction box operation.
Fig. 3 is the present invention humidification postrun cross section detailed construction schematic diagram of suction box.
Fig. 4 is the detailed structural schematic diagram in cross section before dust collection mechanism of the present invention operation.
Fig. 5 is the detailed structural schematic diagram in the postrun cross section of dust collection mechanism of the present invention.
Fig. 6 is the present invention humidification postrun cross section detailed construction schematic diagram of circulation mechanism.
Cross section detailed construction schematic diagram when Fig. 7 is present invention circulation driving mechanism operation.
Fig. 8 is the detailed structural schematic diagram in cross section before drainage mechanism of the present invention operation.
In figure: humidification suction box -1, pedestal -2, lateral mass -3, protecting crust -4, dust collection mechanism -11, humidification circulation mechanism -12,
Recycle driving mechanism -13, drawing liquid mechanism -14, drainage mechanism -15, recovering mechanism -16, shell -17, valve-opening mechanism -111, filtering
Mechanism -112, capsul -113, fixture block -1111, channel -1112, rotation shifting block -1113, mobile valve block -1114, linking strut -
1115, stick up bar -1116, sealing block -1117, sealing bar -1118, fixed valve block -1121, filter screen -1122, dust-absorbing groove -1123,
Input duct -121, takes out block -123, spring -124, power shifting block -125, movable push -126, water flow group at half-duplex channel -122
Block -131, rotation axis -132, rotation outer ring -133, roller -134, lower circulation road -135, drawing liquid valve block -141, mobile framework -
142, sector gear -143, motor -144, motor support frame -145, one-way flow plate -151, single-direction balls -152, chute -153,
Moisture exhausting port -154, spray head -155, limit spring -156, accommodating groove shell -161, recovery port -162, leak partition -163, upper suction
Valve block -164, recovery channel -165, DC tube -166, accommodating groove -167.
Specific embodiment
To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to
Specific embodiment and Detailed description of the invention, the preferred embodiment that the present invention is further explained.
Embodiment
Fig. 1-Fig. 8 is please referred to, the present invention provides automation textile machinery dedusting humidifying device, and structure includes that humidification is inhaled
Dirt case 1, pedestal 2, lateral mass 3, protecting crust 4, the bottom end of the humidification suction box 1 and the top of pedestal 2 are mutually welded, the lateral mass 3
On humidification suction box 1, and the two is integrated, and the lateral mass 3 is located at the right of protecting crust 4, and the humidification is inhaled
Dirt case 1 includes dust collection mechanism 11, humidification circulation mechanism 12, circulation driving mechanism 13, drawing liquid mechanism 14, drainage mechanism 15, recycling
Mechanism 16, shell 17, the dust collection mechanism 11 are located at the lower left of humidification circulation mechanism 12, the bottom of the humidification circulation mechanism 12
It holds and is mutually welded with the top of recovering mechanism 16, the right end of the circulation driving mechanism 13 is equipped with drawing liquid mechanism 14, and the two is living
Dynamic connection, the top of the drainage mechanism 15 and the bottom end of circulation driving mechanism 13 are mutually welded, and the recovering mechanism 16, which is located at, to follow
The lower section of ring driving mechanism 13.
The dust collection mechanism 11 includes valve-opening mechanism 111, filter mechanism 112, capsul 113, and the valve-opening mechanism 111 is set
In the surface of filter mechanism 112, the left and right ends of the filter mechanism 112 are mutually welded with the inner end of capsul 113.
The valve-opening mechanism 111 includes fixture block 1111, channel 1112, rotation shifting block 1113, mobile valve block 1114, linking branch
Bar 1115 sticks up bar 1116, sealing block 1117, sealing bar 1118, and the fixture block 1111 is set to the centre in channel 1112, and the two
It is integrated, the left end of the rotation shifting block 1113 is equipped with mobile valve block 1114, and the two is flexibly connected, the linking
The top of strut 1115 connect with the middle part hinge of mobile valve block 1114, the bottom end of the linking strut 1115 with stick up bar 1116
The connection of top hinge, the sealing block 1117 are fitted around in sealing bar 1118, and the sealing block 1117 is set to fixture block 1111
The left and right sides, and the two is flexibly connected, and the filter mechanism 112 includes fixed valve block 1121, filter screen 1122, dust-absorbing groove
1123, the fixed valve block 1121 is set on dust-absorbing groove 1123, and the two is mutually welded, the left and right ends of the filter screen 1122
Equipped with fixed valve block 1121, and the two is mutually welded, and the humidification circulation mechanism 12 includes input duct 121, half-duplex channel
122, block 123, spring 124, power shifting block 125, movable push 126 are taken out, the half-duplex channel 122 is set in input duct 121,
And the two is integrated, and the right end for taking out block 123 is equipped with movable push 126, and the two is mutually welded, the spring
124 left end is mutually welded with the right end for taking out block 123, and the power shifting block 125 is set to the right end of movable push 126, and the two
It is flexibly connected, the power shifting block 125 is flexibly connected with the left end of circulation driving mechanism 13, and the circulation driving mechanism 13 includes
Water flow shifting block 131, rotation axis 132, rotation outer ring 133, roller 134, lower circulation road 135, the head end of the water flow shifting block 131 with
The outer ring of rotation outer ring 133 is mutually welded, and the rotation axis 132 is set to the center of rotation outer ring 133, and the roller 134 is around peace
In rotation axis 132, the water flow shifting block 131 is set in lower circulation road 135, the left end of the rotation outer ring 133 and power
Shifting block 125 is flexibly connected, and the drawing liquid mechanism 14 includes drawing liquid valve block 141, mobile framework 142, sector gear 143, motor
144, motor support frame 145, the right end of the drawing liquid valve block 141 is equipped with mobile framework 142, and the two is flexibly connected, described
Sector gear 143 is set on the inside casing of mobile framework 142, and the two is meshed, and the sector gear 143 is located at motor 144
Top, the two is connected by belt, and the bottom end of the motor 144 is mutually welded with the top of motor support frame 145, the row
Liquid mechanism 15 includes one-way flow plate 151, single-direction balls 152, chute 153, moisture exhausting port 154, spray head 155, limit spring 156, institute
State one-way flow plate 151 left and right ends and 153 phase of chute weld, the one-way flow plate 151 be located at single-direction balls 152 just on
Side, the single-direction balls 152 are set to the middle part of chute 153, the bottom end set on chute 153 of the moisture exhausting port 154, and the two is
Integral structure, the spray head 155 is set on the bottom end of moisture exhausting port 154, and the two is mutually welded, and the spray head 155 is located at stream
The underface of slot 153, the top of the limit spring 156 are mutually welded with the bottom end of one-way flow plate 151, the limit spring
156 bottom end and the top of single-direction balls 152 are mutually welded, and the recovering mechanism 16 includes accommodating groove shell 161, recovery port 162, leakage
Water partition 163, upper suction valve block 164, recovery channel 165, DC tube 166, accommodating groove 167, the recovery port 162 are set to accommodating groove
On bottom end inside shell 161, and the two is integrated, outside the left and right ends of the leak partition 163 and accommodating groove
The welding of 161 phase of shell, the leak partition 163 are located at the surface of recovery port 162, the upper bottom end for inhaling valve block 164 and storage
Bottom end inside slot shell 161 is mutually welded, and the upper top for inhaling valve block 164 is equipped with the bottom end of DC tube 166, and the two is
Integral structure, the DC tube 166 are set in accommodating groove 167, and the accommodating groove 167 is set on accommodating groove shell 161, and
The two is integrated.
The principle of the present invention: when carrying out using equipment, being started by dust collection mechanism 11 on humidification suction box 1, from
The rotation shifting block 1113 opened on valve-opening mechanism 111 is pushed, matches it with mobile valve block 1114, drives mobile valve block 1114
It moves up, pulls linking strut 1115, to make to stick up 1116 tilting of bar, pulling open sealing bar 1118 makes itself and 1111 phase of fixture block point
From, dust can be made to come up from the absorption of filter screen 1122 on filter mechanism 112, when dust collection mechanism 11 is out of service,
Sealing bar 1118 is influenced by spring, will do it return, to close to channel 1112, prevents dust from falling, and is being added
While wet, started by motor 144, drives sector gear 143 to be rotated, matched with mobile framework 142, to make to take out
Liquid valve block 141 extracts humidification liquid and comes on lower circulation road 135, impacts to water flow shifting block 131, to make to rotate outer ring 133
The influence of hand water flow impact pressure is rotated, so that power shifting block 125 be driven to be rotated, is cooperated with movable push 126,
The reciprocating motion for controlling movable push 126 drives pumping block 123 to be twitched, will be dropped in the product on accommodating groove 167
Liquid is come in upper suction valve block 164 by recovery port 160, finally comes in screw clamp via DC tube 166, recycle again.
Problems solved by the invention is existing equipment to guarantee humidity when mechanical movement, generally requires persistently to be added
Water spray easily leads to for a long time with this and condenses a large amount of droplet in equipment, eventually becomes ponding, and is not easy to be cleared up, to equipment
Part causes oxidation corrosion, while existing equipment often uses the side adsorbed from bottom to top when being dusted
Method, if dust-extraction unit is out of service, the dust in absorption is easy because losing the suction of deduster, and under the influence of gravity, to
Under fall, to cause secondary pollution to equipment, the present invention is combined with each other by above-mentioned component, and the present invention is by improving equipment
Part-structure can be cooperated by humidification circulation mechanism and circulation driving mechanism, thus left residual to humidifying
Liquid stay, which is recycled, to be humidified, and prevents equipment in the case where longtime running humidification, makes to accumulate a large amount of ponding in equipment, right
Equipment causes oxidation corrosion, while the part-structure by improving dust collection mechanism, makes its automatic valve opening when needing dust suction,
Timely valve closing when stopping dust suction, it is therefore prevented that dust exhaust apparatus midway stop, causing recycling in dust be affected by gravity and
Again it falls in equipment, secondary pollution is caused to equipment.
Claims (9)
1. automating textile machinery dedusting humidifying device, it is characterised in that: its structure includes humidification suction box (1), pedestal
(2), lateral mass (3), protecting crust (4), the bottom end of humidification suction box (1) and the top of pedestal (2) are mutually welded, the lateral mass
(3) it is set on humidification suction box (1), and the two is integrated, the lateral mass (3) is located at the right of protecting crust (4);
The humidification suction box (1) includes dust collection mechanism (11), humidification circulation mechanism (12), circulation driving mechanism (13), drawing liquid
Mechanism (14), drainage mechanism (15), recovering mechanism (16), shell (17), the dust collection mechanism (11) are located at humidification circulation mechanism
(12) lower left, the bottom end of humidification circulation mechanism (12) and the top of recovering mechanism (16) are mutually welded, and the circulation is driven
The right end of motivation structure (13) be equipped with drawing liquid mechanism (14), and the two be flexibly connected, the top of the drainage mechanism (15) with follow
The bottom end of ring driving mechanism (13) is mutually welded, and the recovering mechanism (16) is located at the lower section of circulation driving mechanism (13).
2. automation textile machinery dedusting humidifying device according to claim 1, it is characterised in that: the dust collection mechanism
It (11) include valve-opening mechanism (111), filter mechanism (112), capsul (113), the valve-opening mechanism (111) is set to filter mechanism
(112) surface, the left and right ends of the filter mechanism (112) and the inner end of capsul (113) are mutually welded.
3. automation textile machinery dedusting humidifying device according to claim 2, it is characterised in that: the valve-opening mechanism
(111) include fixture block (1111), channel (1112), rotation shifting block (1113), mobile valve block (1114), linking strut (1115),
Bar (1116), sealing block (1117), sealing bar (1118) are stuck up, the fixture block (1111) is set to the centre of channel (1112), and
The two is integrated, and the left end of rotation shifting block (1113) is equipped with mobile valve block (1114), and the two is flexibly connected,
The top of linking strut (1115) is connect with the middle part hinge of mobile valve block (1114), the bottom of linking strut (1115)
The top hinge held and stick up bar (1116) connects, and the sealing block (1117) is fitted around on sealing bar (1118), described close
It seals block (1117) to be set at left and right sides of fixture block (1111), and the two is flexibly connected.
4. automation textile machinery dedusting humidifying device according to claim 2, it is characterised in that: the filter mechanism
It (112) include fixed valve block (1121), filter screen (1122), dust-absorbing groove (1123), the fixed valve block (1121) is set to dust suction
On slot (1123), and the two is mutually welded, and the left and right ends of the filter screen (1122) are equipped with fixed valve block (1121), and two
Person mutually welds.
5. automation textile machinery dedusting humidifying device according to claim 1, it is characterised in that: the humidification circulation
Mechanism (12) includes input duct (121), half-duplex channel (122), takes out block (123), spring (124), power shifting block (125), lives
Dynamic push plate (126), the half-duplex channel (122) is set on input duct (121), and the two is integrated, the pumping
The right end of block (123) is equipped with movable push (126), and the two is mutually welded, the left end of the spring (124) and pumping block (123)
Right end mutually weld, the power shifting block (125) is set to the right end of movable push (126), and the two is flexibly connected, described dynamic
Power shifting block (125) is flexibly connected with the left end of circulation driving mechanism (13).
6. automation textile machinery dedusting humidifying device according to claim 5, it is characterised in that: the circulation driving
Mechanism (13) includes water flow shifting block (131), rotation axis (132), rotates outer ring (133), roller (134), lower circulation road (135),
The head end of the water flow shifting block (131) and the outer ring of rotation outer ring (133) are mutually welded, and it is outer that the rotation axis (132) is set to rotation
The center of (133) is enclosed, the roller (134) is fitted around on rotation axis (132), and the water flow shifting block (131), which is set to, to be flowed down
In channel (135), the left end of rotation outer ring (133) is flexibly connected with power shifting block (125).
7. automation textile machinery dedusting humidifying device according to claim 1, it is characterised in that: the drawing liquid mechanism
It (14) include drawing liquid valve block (141), mobile framework (142), sector gear (143), motor (144), motor support frame (145),
The right end of the drawing liquid valve block (141) is equipped with mobile framework (142), and the two is flexibly connected, and the sector gear (143) sets
In on the inside casing of mobile framework (142), and the two is meshed, and the sector gear (143) is located at the top of motor (144),
The two is connected by belt, and the bottom end of the motor (144) and the top of motor support frame (145) are mutually welded.
8. automation textile machinery dedusting humidifying device according to claim 1, it is characterised in that: the drainage mechanism
It (15) include one-way flow plate (151), single-direction balls (152), chute (153), moisture exhausting port (154), spray head (155), limit spring
(156), the left and right ends of the one-way flow plate (151) are mutually welded with chute (153), and the one-way flow plate (151) is located at
The surface of single-direction balls (152), the single-direction balls (152) are set to the middle part of chute (153), and moisture exhausting port (154) are set to
The bottom end of chute (153), and the two is integrated, and the spray head (155) is set on the bottom end of moisture exhausting port (154), and
And the two is mutually welded, the spray head (155) is located at the underface of chute (153), the top of the limit spring (156) and unidirectional
The bottom end of flow plate (151) is mutually welded, and the bottom end of the limit spring (156) and the top of single-direction balls (152) are mutually welded.
9. automation textile machinery dedusting humidifying device according to claim 1, it is characterised in that: the recovering mechanism
It (16) include accommodating groove shell (161), recovery port (162), leak partition (163), upper suction valve block (164), recovery channel
(165), DC tube (166), accommodating groove (167), the recovery port (162) are set on accommodating groove shell (161) internal bottom end,
And the two is integrated, and left and right ends and the accommodating groove shell (161) of the leak partition (163) mutually weld, described
Leak partition (163) is located at the surface of recovery port (162), the upper bottom end and accommodating groove shell (161) for inhaling valve block (164)
Internal bottom end is mutually welded, and the upper top for inhaling valve block (164) is equipped with the bottom end of DC tube (166), and the two is integrated
Change structure, the DC tube (166) is set in accommodating groove (167), and the accommodating groove (167) is set on accommodating groove shell (161),
And the two is integrated.
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CN201811179269.5A CN109351712A (en) | 2018-10-10 | 2018-10-10 | Automate textile machinery dedusting humidifying device |
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CN201811179269.5A CN109351712A (en) | 2018-10-10 | 2018-10-10 | Automate textile machinery dedusting humidifying device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109824178A (en) * | 2019-04-03 | 2019-05-31 | 胡乐顺 | Industrial waste water disposal device |
CN111389113A (en) * | 2020-04-09 | 2020-07-10 | 江苏华强新能源科技有限公司 | Frame type efficient filter for gas turbine air intake system |
-
2018
- 2018-10-10 CN CN201811179269.5A patent/CN109351712A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109824178A (en) * | 2019-04-03 | 2019-05-31 | 胡乐顺 | Industrial waste water disposal device |
CN111389113A (en) * | 2020-04-09 | 2020-07-10 | 江苏华强新能源科技有限公司 | Frame type efficient filter for gas turbine air intake system |
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Application publication date: 20190219 |