A kind of energy-saving and environment-friendly overflow dyeing machine discharging device
Technical field
The present invention relates to overflow dyeing machine technical field more particularly to a kind of energy-saving and environment-friendly overflow dyeing machine discharging devices.
Background technique
Currently, commonly used bundle dyeing agent is injecting type hank-dyeing machine, this overflow dyeing machine is to hang over reeled yarn set
On swivelling-nozzle, and the jet pipe rotation of gearing driving therewith.When dyeing, the dye liquor feeding mechanism being arranged on body will contaminate
Liquid is sprayed on reeled yarn by the jet pipe with spray orifice, to realize the purpose of dyeing.
A kind of China Patent No.: energy-saving and environment-friendly overflow dyeing machine of CN105002679B, including main body, setting are retrieved in master
The intracorporal dye storehouse of machine and the exit slot of main body front end is set, it is described equipped with proposing cotton piece buff at exit slot in the dye storehouse
It mentions and is equipped with nozzle below cotton piece buff, the main body is equipped with mounting rod, and mounting rod is equipped with vertical vertical bar, is connected on vertical bar
Cross bar, one end of cross bar are connected with the cloth clamp being arranged in front of exit slot, and the cloth clamp flows back after pressing from both sides out the dyestuff on cloth
Into dye storehouse.
Reeled yarn is clamped using the clamping cloth mouth that transverse splint is formed with vertical plywood in the prior art, clamping cloth mouth is oval
Shape, can only often scrape the outermost dye liquor of reeled yarn, but internal dye liquor is still very much, and how scraper is more sufficiently desirable
It solves the problems, such as.
Summary of the invention
The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of energy-saving and environment-friendly dyeing proposed
Machine discharging device is inserted into inside reeled yarn making the more abundant of scraper, and can be improved dyeing effect and carry out fast
The cooling of speed.
To achieve the goals above, present invention employs following technical solutions:
A kind of energy-saving and environment-friendly overflow dyeing machine discharging device, including overflow dyeing machine ontology, on the coating roll of the overflow dyeing machine ontology
It is cased with reeled yarn, the inner left wall of the overflow dyeing machine ontology is vertically-mounted electric sliding rail, and the side walls of the electric sliding rail connect
It is connected to mount board, the middle position of described device plate is equipped with opening, is equipped with device chamber, the dress at left and right sides of the opening
Set it is intracavitary be equipped with clamping device, the first curved splint connecting with two clamping devices and the are respectively equipped with above described device plate
Two curved splints, first curved splint and the second curved splint are located at the two sides immediately below reeled yarn, first arc
The inner wall of clevis plate is equipped with strip groove, and elevating mechanism is equipped in the strip groove, and the lower end of second curved splint, which is equipped with, to be slided
Slot, the inner wall of the sliding slot are fixedly connected with more curved sliding rails, device block, the dress are slidably connected on the curved sliding rail
It sets by two magnetic sheet magnetism connections between block and the inner top of sliding slot, described device block is interior to be equipped with sliding equipment, the sliding
Mutually matched scraping mechanism is connected in mechanism and elevating mechanism, the inner wall of second curved splint is equipped with multiple and sliding slot
The interior bottom in the curved hole of connection, the overflow dyeing machine ontology is equipped with stock chest corresponding with aperture position, the overflow dyeing machine sheet
It is equipped with vortex tube in the left side wall of body, is equipped with the heater connecting with the hot gas delivery end of vortex tube in first curved splint
Structure, the cold air delivery end of the vortex tube are connected with cooling body, and the cooling body is located in the discharge port of overflow dyeing machine ontology.
Preferably, the clamping device includes the electric telescopic rod being fixed on the outside of device chamber on inner wall, described electronic to stretch
The telescopic end of contracting bar is fixedly connected with clamping bar, is fixedly connected with the first guide rod between the inner wall of described device chamber, and described first
Guide rod runs through clamping bar, and the inner top of described device chamber is equipped with strip-shaped hole, and strip-shaped hole is run through in the upper end of the clamping bar, described in two
The opposite inner wall of clamping bar is fixedly connected with the lateral wall of the first curved splint, the second curved splint respectively.
Preferably, the elevating mechanism includes the driving motor for being fixed on the first curved splint upper end, the driving motor
Output shaft end extend in strip groove and be fixedly connected with threaded rod, sliding block is threaded on the threaded rod, it is described
The side wall of sliding block and the inner wall of strip groove are slidably connected.
Preferably, the sliding equipment includes the cylindrical cavity being arranged in device block, fixed company between the inner wall of the cylindrical cavity
It is connected to the second guide rod, slide plate is arranged on second guide rod, the side wall of the slide plate is fixedly connected with support rod, described to support
The front end of bar is run through the inner wall of cylindrical cavity and is extended in curved hole, is arranged with spring on second guide rod.
Preferably, the scraping mechanism includes the first magnetic patch for being fixed on slips end, and the front end of the support rod is embedded with
With heteropolar the second attracting magnetic patch of the first magnetic patch.
Preferably, the heating mechanism includes the arc-shaped cavity being arranged in the first curved splint, and the arc-shaped cavity is by leading
The connection of the hot gas output end of tracheae and vortex tube.
Preferably, the cooling body includes the supervisor for being fixed on bottom in discharge port, and the supervisor is cold with vortex tube
The connection of gas output end, the upper end of the supervisor are equidistantly vertically connected with multiple branch pipes, and the arranged on both sides of the branch pipe is equipped with more
A venthole.
Preferably, the curved hole is corresponding with the position of curved sliding rail, curved Kong Weiyi group described in every two, and two
The distance between the top half in the curved hole is greater than the distance between lower half portion.
Compared with prior art, the present invention has the advantages that:
1, there are two clamping devices, two clamping devices to be separately connected the first curved splint and the second curved splint for setting,
Be equipped with elevating mechanism in first curved splint, the second curved splint inner wall is equipped with multiple curved holes matched, curved hole and
Mutually matched wiping mechanism is connected on elevating mechanism jointly, is inserted into inside reeled yarn, dispersion scraper is carried out to reeled yarn, is scraped
Expect more abundant.
2, it is provided with vortex tube, is equipped with the heating mechanism connecting with vortex tube hot gas output end in the first curved splint,
During scraper, further heat-shaping can be carried out to the reeled yarn after scraper, make dye liquor preferably in conjunction with reeled yarn.
3, it is provided with cooling body, can be cooled down between reeled yarn taking-up, avoids overheating not during reeled yarn dye system
Easily take out.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of energy-saving and environment-friendly overflow dyeing machine discharging device proposed by the present invention;
Fig. 2 is a kind of mount board and the first, second arc of energy-saving and environment-friendly overflow dyeing machine discharging device proposed by the present invention
Clamping plate connection schematic diagram;
Fig. 3 is structure enlargement diagram at a kind of A of energy-saving and environment-friendly overflow dyeing machine discharging device proposed by the present invention;
Fig. 4 is a kind of the second curved splint inner wall signal of energy-saving and environment-friendly overflow dyeing machine discharging device proposed by the present invention
Figure;
Fig. 5 is a kind of cooling body schematic diagram of energy-saving and environment-friendly overflow dyeing machine discharging device proposed by the present invention.
In figure: 1 overflow dyeing machine ontology, 2 reeled yarns, 3 discharge ports, 4 branch pipes, 5 supervisors, 6 electric sliding rails, 7 vortex tubes, 8 stock chests,
9 mount boards, 10 gas-guide tubes, 11 electric telescopic rods, 12 openings, 13 device chambers, 14 first guide rods, 15 clamping bars, 16 second arcs
Clamping plate, 17 curved sliding rails, 18 sliding slots, 19 curved holes, 20 first magnetic patch, 21 driving motors, 22 sliding blocks, 23 first curved splints,
24 threaded rods, 25 strip grooves, 26 arc-shaped cavities, 27 second guide rods, 28 springs, 29 device blocks, 30 support rods, 31 second magnetic patch, 32
Magnetic sheet, 33 ventholes.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.
Referring to Fig.1-5, a kind of energy-saving and environment-friendly overflow dyeing machine discharging device, including overflow dyeing machine ontology 1, overflow dyeing machine ontology 1
Reeled yarn 2 is cased on coating roll, the inner left wall of overflow dyeing machine ontology 1 is vertically-mounted electric sliding rail 6, and the side wall of electric sliding rail 6 is sliding
Dynamic to be connected with mount board 9, the middle position of mount board 9 is equipped with opening 12, and 12 left and right sides of being open is equipped with device chamber 13, fills
Set and be equipped with clamping device in chamber 13, be respectively equipped with above mount board 9 the first curved splint 23 connect with two clamping devices and
Second curved splint 16, the first curved splint 23 and the second curved splint 16 are located at the two sides immediately below reeled yarn 2, the first arc
The inner wall of clevis plate 23 is equipped with strip groove 25, and elevating mechanism is equipped in strip groove 25, and the lower end of the second curved splint 16, which is equipped with, to be slided
Slot 18, the inner wall of sliding slot 18 are fixedly connected with more curved sliding rails 17, slidably connect device block 29, device on curved sliding rail 17
By the magnetic connection of two magnetic sheets 32 between block 29 and the inner top of sliding slot 18, device block 29 is interior to be equipped with sliding equipment, skate machine
Mutually matched scraping mechanism is connected on structure and elevating mechanism, the inner wall of the second curved splint 16 is equipped with multiple and sliding slot 18 and connects
Logical curved hole 19, the interior bottom of overflow dyeing machine ontology 1 are equipped with stock chest 8 corresponding with 12 positions of opening, overflow dyeing machine ontology 1
It is equipped with vortex tube 7 in left side wall, is equipped with the heating mechanism connecting with the hot gas delivery end of vortex tube 7 in the first curved splint 23,
The cold air delivery end of vortex tube 7 is connected with cooling body, and cooling body is located in the discharge port 3 of overflow dyeing machine ontology 1.
In the present invention, clamping device includes the electric telescopic rod 11 being fixed on 13 outside inner wall of device chamber, electric expansion
The telescopic end of bar 11 is fixedly connected with clamping bar 15, and the first guide rod 14 is fixedly connected between the inner wall of device chamber 13, and first leads
Run through clamping bar 15 to bar 14, the inner top of device chamber 13 is equipped with strip-shaped hole, and strip-shaped hole, two clamping bars 15 are run through in the upper end of clamping bar 15
Opposite inner wall is fixedly connected with the lateral wall of the first curved splint 23, the second curved splint 16 respectively, and starting two is electronic to stretch
Contracting bar 11 drives clamping bar 15 mobile, and clamping bar 15 drives the first curved splint 23 to press from both sides with the second curved splint 16 to reeled yarn 2
It holds.
Elevating mechanism includes the driving motor 21 for being fixed on 23 upper end of the first curved splint, the output shaft end of driving motor 21
End extends in strip groove 25 and is fixedly connected with threaded rod 24, and sliding block 22, the side of sliding block 22 are threaded on threaded rod 24
Wall and the inner wall of strip groove 25 are slidably connected, and start driving motor 21, drive threaded rod 24 to rotate, threaded rod 24 is with movable slider 22
It moves down, sliding block 22 drives scraping mechanism to move down.
Sliding equipment includes the cylindrical cavity being arranged in device block 29, and the second guide rod is fixedly connected between the inner wall of cylindrical cavity
27, slide plate is arranged on the second guide rod 27, the side wall of slide plate is fixedly connected with support rod 30, and the front end of support rod 30 is through cylindrical cavity
Inner wall simultaneously extends in curved hole 19, is arranged with spring 28 on the second guide rod 27, after scraper, the first curved splint 23 with
After the separation of second curved splint 16,28 elastic force of spring is greater than magnetic force, and support rod 30 is driven to enter in cylindrical cavity.
Scraping mechanism includes the first magnetic patch 20 for being fixed on 22 end of sliding block, and the front end of support rod 30 is embedded with and the first magnetic patch
20 heteropolar the second attracting magnetic patch 31, the first magnetic patch 20 is inserted into inside reeled yarn 2, since the first magnetic patch 20 and the second magnetic patch 31 are heteropolar
Attracting, to make the second magnetic patch 31 that support rod 30 be driven to be inserted into inside reeled yarn 2, multiple support rods 30 divide reeled yarn 2 for multiple groups.Curved hole
19 is corresponding with the position of curved sliding rail 17, and the curved hole 19 of every two is one group, and between the top half in two curved holes 19
Distance be greater than the distance between lower half portion, since the lower half portion spacing in the curved hole 19 of every two narrows, two support rods 30
It slides down to curved 19 lower half portion time interval of hole to narrow, dyestuff extra on reeled yarn 2 is scraped, the dyestuff scraped is by opening
Mouth 12, which is fallen into stock chest 8, to be recycled.
Heating mechanism includes the arc-shaped cavity 26 being arranged in the first curved splint 23, and arc-shaped cavity 26 passes through gas-guide tube 10 and whirlpool
The hot gas output end of flow tube 7 connects, and starts vortex tube 7, and the hot gas that vortex tube 7 exports enters arc-shaped cavity 26 by gas-guide tube 10
It is interior, the first curved splint 23 is heated, the first curved splint 23 heats reeled yarn 2, makes dyestuff and strand on reeled yarn 2
The effect that yarn 2 combines is more preferable.Cooling body includes the supervisor 5 for being fixed on bottom in discharge port 3, the cold air of supervisor 5 and vortex tube 7
Output end connection, the upper end for being responsible for 5 are equidistantly vertically connected with multiple branch pipes 4, and the arranged on both sides of branch pipe 4 is equipped with multiple ventholes
33, the cold air that vortex tube 7 exports enters supervisor 5, multiple branch pipes 4 are entered back into, are expelled to discharging finally by multiple ventholes 33
In mouth 3, can quickly it be cooled down when reeled yarn 2 is at discharge port 3.
In the present invention, after the dye of reeled yarn 2 makes, start electric sliding rail 6, driving device plate 9 moves up, and drives the first curved splint
23 and second move to 2 two sides of reeled yarn on curved splint 16, start two electric telescopic rods 11 at this time, drive clamping bar 15 mobile, folder
Bar 15 drives the first curved splint 23 to clamp with the second curved splint 16 to reeled yarn 2, and the first magnetic patch 20 is inserted into reeled yarn 2 at this time
Inside, since the first magnetic patch 20 and the second magnetic patch 31 are heteropolar attracting, since the magnetic force of the first magnetic patch 20 and the second magnetic patch 31 is stronger
Greater than the elastic force of spring 28, to make the second magnetic patch 31 that support rod 30 be driven to be inserted into inside reeled yarn 2, multiple support rods 30 divide reeled yarn 2
For multiple groups, start driving motor 21 at this time, threaded rod 24 is driven to rotate, threaded rod 24 is moved down with movable slider 22, and sliding block 22 drives
First magnetic patch 20 moves down, to make the second magnetic patch 31 that support rod 30 be driven to move down, due between the lower half portion in the curved hole 19 of every two
Away from narrowing, two support rods 30 slide down to curved 19 lower half portion time interval of hole and narrow, and dyestuff extra on reeled yarn 2 is scraped
Under, the dyestuff scraped is fallen into stock chest 8 by opening 12 to be recycled,
While scraper, starting vortex tube 7, the hot gas that vortex tube 7 exports is entered in arc-shaped cavity 26 by gas-guide tube 10,
First curved splint 23 is heated, the first curved splint 23 heats reeled yarn 2, makes dyestuff and reeled yarn 2 on reeled yarn 2
In conjunction with effect it is more preferable, vortex tube 7 export cold air enter supervisor 5, multiple branch pipes 4 are entered back into, finally by multiple ventholes
33 are expelled in discharge port 3, can quickly cool down when reeled yarn 2 is at discharge port 3.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.