CN1502739A

CN1502739A - Fluid distribution device

Info

Publication number: CN1502739A
Application number: CNA031386431A
Authority: CN
Inventors: _; 徐達明
Original assignee: Falmer Investments Ltd
Current assignee: Falmer Investments Ltd
Priority date: 2002-11-25
Filing date: 2003-05-29
Publication date: 2004-06-09
Anticipated expiration: 2023-05-29
Also published as: HK1062318A1; GB0227445D0; GB2395537A; TWI243222B; GB2395537B; TW200409842A; CN1259517C

Abstract

A fluid distribution device comprising a vessel (9) having a plurality of inlet pipes (5, 6) and a plurality of outlet pipes (7, 8) to facilitate distribution of fluid to a corresponding number of textile processing machines (not shown). Each of the inlet means (5, 6) is arranged to receive fluid and to transfer the fluid to the vessel (9). Fluid is mixed in the vessel (9) and then distributed from the vessel (9) to each of the textile processing machines (not shown) via the outlet pipes (7; 8).

Description

Fluid distributing apparatus

Technical field

The invention relates to a kind of fluid distributing apparatus, especially about a kind of fluid distributing apparatus that dispenses fluid to two or more textile treatment machines (but not as limit).

Background technology

In the dyeing of yarn packages was handled by the gross, the quantity of yarn packages can surpass the capacity of a single dyeing machine usually.Therefore, just yarn packages must be divided into less batch of material size.Then, the less batch of material of each batch is handled by different dyeing machines usually.When using different dyeing machines, between all batch of materials, can produce the deep or light difference of color and color and luster usually.

In order to promote the color and the deep or light uniformity of color and luster of dyeing processing, can link the pipe-line system of two dyeing machines usually by a hookup.Traditional connecting method and hookup are specially adapted to be equipped with the machine of exterior line.

According to traditional hookup, link to the dye reservoir of second machine and equally the emptying pump of second machine is linked to the dye reservoir of first machine by emptying pump, the dyestuff fluid is redistributed between two machines first machine.

The problem of the hookup of this tradition is, the height relative to each other of the fluid in two machines can be with carrying out of handling of tinction and become unequal.Therefore, the problem of color and the deep or light difference of color and luster still can take place in the yarn packages in each machine.

When the dyeing processing began to carry out, the fluid level in two machines equated.Yet with the carrying out that tinction is handled, the fluid level in the machine can be different with the fluid level of another machine, and this is because due to the fluid flow rate difference of the pump of each machine of supply.Generally speaking, the flow rate by slowing down a machine or close a pump, till the fluid level of two machines equates, but so just head it off.

In a kind of mode of adjusting fluid level, can adopt a frequency phase inverter.Use a frequency phase inverter can reduce with each dyeing machine in the relevant problem of inhomogeneous fluid level, but it can cause the increase of dyeing machine cost in the use usually, and then causes the landing of the market competitiveness.

Summary of the invention

Therefore, the purpose of preferred embodiment of the present invention is that a kind of Improvement type fluid distributing apparatus will be provided.

Therefore, according to a first aspect of the present invention, a kind of fluid distributing apparatus is provided, it is in order to dispense fluid in a plurality of textile treatment machines, this fluid distributing apparatus comprises a container, this container has fluid intake and fluid issuing, and each fluid issuing is configured to dispense fluid to a plurality of textile treatment machines in use.

Best, this fluid distributing apparatus is designed in use, and each fluid issuing can roughly be dispensed to fluid in each textile treatment machine equally.Best, this fluid roughly is assigned to a plurality of textile treatment machines in the use simultaneously.

Best, this fluid issuing is located at the opening in the container wall, and when device used, these openings roughly were positioned on the identical horizontal plane, so that fluid is uniformly distributed in the textile treatment machine.Best, a delivery channel is connected to fluid issuing.Best, a delivery channel that separates is connected to each fluid issuing.The near-end of delivery channel can be connected to the container wall that is positioned at the fluid issuing opening part.Perhaps, the near-end of delivery channel is extensible stretches in the container by this opening.

By the fluid intake that opening provided that is arranged in the container wall, can be arranged so that in use this fluid intake is aligned on the horizontal plane.Best, an entry conductor is connected to fluid inlet.Best, the entry conductor of opening in a minute is connected to each fluid intake.Best, the near-end of entry conductor extends through this opening and stretches in the container.

Best, the near-end of entry conductor has a bend pipe or bend.In use, this bend pipe or bend can change the direction that fluid flows into container.Best, the orientation angle that fluid flows equates by this bend pipe or angle that bend had.Bend pipe or bend be with respect to the angle that the longitudinal axis formed of entry conductor, 90 ° of 0 ° of big what but little whats.Best, this flowing angle is at least 10 °, and preferably at least 15 °, if be at least 20 ° then better, and be the best to be at least 30 °.Best, flowing angle is less than 80 °, and preferably less than 70 °, if less than 60 ° then better, especially being the best less than 50 °.Best, the fluid flowing angle is 33 °.

The fluid intake preferred design becomes to avoid a head and fluid by each fluid intake inflow to collide.Best, the near-end of each entry conductor relative to each other is arranged in use, can cause the fluid that enters to produce swirling flow campaign and flow-disturbing.

Best, when fluid distributing apparatus was arranged on user mode, this fluid issuing was positioned at the top of fluid intake.

Best, the far-end of entry conductor and the far-end of delivery channel are connected to pipeline configuration, and wherein this pipeline disposes and helps to form fluid between a plurality of textile treatment machines and container and be communicated with.Best, this fluid distributing apparatus comprises a plurality of pipeline configurations.What quite have advantage is that the quantity of pipeline configuration equals the quantity of this textile treatment machine.Best, each pipeline configuration comprises an entry conductor and a delivery channel.

Best, each pipeline configuration comprises one first conduit and one second conduit.

Best, first conduit and the second conduit arranged coaxial make to form an annular channel between it, and the inwall of the outer surface of first conduit formation annular channel, and the outer wall of surface formation annular channel within second conduit.

Best, this fluid distributing apparatus also comprises separating device, and it can be separated into annular channel the chamber of two separations.

Best, this separating device is a plate body.Best, this plate body is arranged so that edge contacts with the outer wall of annular channel outside the plate body, and the inner edge of plate body contacts with the inwall of annular channel.Best, this plate body is configured to annular channel to be separated into a front chamber and a rear chamber.Best, this plate body is arranged to be an angle of inclination with respect to the longitudinal axis of pipeline configuration.

Best, this entry conductor and delivery channel are communicated with formation fluid within the annular channel by the opening in the wall body that is arranged on second conduit.

Best, the far-end of entry conductor is arranged to form fluid with front chamber and is communicated with, and the far-end of delivery channel then is arranged to form fluid with rear chamber and is communicated with.

Best, the quantity of this fluid intake, the quantity of the quantity of fluid issuing and pipeline configuration is equal to the quantity of this plural number textile treatment machine.Best, each pipeline configuration forms fluid with a wherein corresponding textile treatment machine of plural textile treatment machine and is communicated with.

Fluid distributing apparatus according to the present invention also can comprise a pump, with this fluid of circulation between the inner passage of pipeline configuration and annular channel.Best, each pipeline configuration comprises a separate pump.This pump can be the part of fluid distributing apparatus or separate with fluid distributing apparatus.

When using the present invention's fluid distributing apparatus, fluid is sent to the front chamber of annular channel via the inner passage of pipeline configuration by a textile treatment machine by pump.This fluid is suitably fed to the fluid intake conduit by front chamber, and is flowed in the container by the fluid intake conduit.In container, mix mutually by the fluid of plural textile treatment machine outflow.When the fluid level in mixing chamber rose, fluid just can be left container and be flowed into the fluid issuing conduit by fluid issuing, and then was back in the rear chamber of annular channel of pipeline configuration.Know from experience in the inflow textile treatment machine by rear chamber's outflow and his like.

A second aspect of the present invention provides a kind of method that dispenses fluid to plural textile treatment machine, and wherein this fluid is dispensed to a container by fluid intake, and by be dispensed to plural textile treatment machine in the container by fluid issuing.

Best, this method comprises fluid is dispensed to container by a fluid source of supply by fluid intake.This source of supply can be any suitable storage tank, and it forms fluid with fluid distributing apparatus and is communicated with.This storage tank can combine with the textile treatment machine or separate.Each fluid intake is connected with a single source of supply, perhaps has the source of supply of opening in a minute at each fluid intake.

Best, also be included in according to the method for second aspect present invention and mix this fluid in the container.Best, each fluid intake is designed to make and enters in the container and his like body and can produce swirling flow campaign and flow-disturbing, makes that the fluid by each inlet inflow can mix in container.

Best, fluid is by being distributed by fluid issuing in the container, and the fluid that transmits equivalent simultaneously is to each textile treatment machine.

Best, the method for the present invention's second sample attitude is performed by the device of first aspect present invention.

Best, this textile treatment machine is the textile dyeing machine, and yarn dyeing machine preferably.

The present invention's preferred embodiment is that a fluid distributor is provided with can having advantage, and it can keep equal fluid level in two or more textile dyeing machines.When in order to distributing fluids between two or more dyeing machines, this device overcomes the problem relevant with unequal Fluid Volume, and can reduce the color of the final textiles of being produced by each machine and the possibility of shade deviation.

This pipeline configuration can have any suitable pattern, makes in use, can supply and this fluid that refluxes between container and textile treatment machine.What quite have advantage is, the present invention's pipeline configuration provides a kind of device of miniaturization, and it provides a kind of simple configuration, and this container is configured in the central part of pipeline configuration, and this pipeline configuration is arranged on the middle part of a plurality of textile treatment machines.

What quite have advantage is, can make fluid produce a swirling flow campaign or a flow-disturbing in container in the configuration of the fluid intake of container, so that the fluid of inflow can mix fully, with the textiles generation color that reduces dyeing and the problem of shade deviation.

Description of drawings

The present invention will illustrate with reference to the appended figure in back, wherein:

Fig. 1 is the stereogram that shows a fluid distributor.

Fig. 2 is the side view that shows the fluid distributing apparatus of Fig. 1.

Fig. 3 is the plane that shows the fluid distributing apparatus of Fig. 1 and Fig. 2.

Fig. 4 is the end-view that shows the fluid distributing apparatus of Fig. 1 to 3.

In each figure, the components identical label is in order to indicate the components identical feature.

The specific embodiment

Now please refer to Fig. 1 to 4, wherein show a fluid distributor, it is in order to dispense fluid in two textile dyeing machines.

One container 9 is arranged on the middle part of two pipelines configuration 1,2, and is communicated with two pipelines configuration, 1,2 formation fluids.Each pipeline configuration 1,2 is made of inner body 22,23 of one of arranged coaxial and 24,25 of exterior tubular body, makes to form an annular channel 15,16 between inner body and exterior tubular body.The inside wall body of wall body and exterior tubular body 24,25 constitutes the wall body of annular channel 15,16 outside the inner body 22,23.Inner body 22,23 forms an inner passage.

One demarcation strip 3,4 is sleeved on inner body 22,23, annular channel 15,16 is divided into two chambers 11,12,13,14, that is, and a front chamber 11,12 and a rear chamber 13,14.Plate body is with respect to the longitudinal axis of pipeline configuration and tilt, and its shape is substantially oblong-shaped, make outside the plate body 3,4 lateral edges and inside edge respectively with annular channel 15,16 outside side surface contact with inner surface.

Front chamber 11,12 and rear chamber 13,14 are connected with inlet body 5,6 and outlet body 7,8 respectively, pass in and out this container 9 to help fluid.

Container 9 is connected to two inlet bodys 5,6 and two outlet bodys 7,8.The near-end the 26, the 27th of each inlet body 5,6, bending or have and be linked to the bend pipe connecting portion at this place, and extend in the container 9.The design of near-end 26,27 of inlet body 5,6 provides fluid along corresponding to the flowing of the direction of bend or bend pipe angle, and makes direction that fluid the flows longitudinal axis away from inlet body 5,6.Inlet body 5,6 is designed to avoid a head and the fluid of inflow to collide.Preferable flow direction changes the about 33 ° angle of the longitudinal axis that is equal to apart from the inlet body.The near-end 26,27 of inlet body 5,6 is arranged to relative two surfaces of container 9 facing each other, makes that entering fluid can produce swirling flow campaign and flow-disturbing, with the mixing of strengthening entering fluid.

The far-end of each inlet body 5,6 is extended by container, and is connected with the front chamber 11,12 of corresponding pipeline configuration 1,2.

Similarly, far-end of each outlet body 7,8 is extended by container 9, and is connected with the rear chamber 13,14 of corresponding pipeline configuration 1,2.

Outlet body 7,8 is configured on the identical horizontal plane, so that fluid is flowed out through outlet body 7,8 simultaneously by container.

In bold arrow shown in Figure 1 is the fluid flow circuit that the fluid distributing apparatus shown in Fig. 1 to 4 is used in expression.

In order to begin to carry out dyeing procedure, fluid stream 10,19 is extracted to front chamber 11,12 all respectively.Then, fluid is transferred in the container 9 through inlet body 5,6 by each front chamber 11,12.The approach axis of fluid can produce a swirling flow campaign, and this fluid stream 10,19 mixes mutually in container 9 and combines.

The fluid of mixing is allocated between the outlet 28,29 equally, and after the pipeline configuration 1,2 that outlet body 7,8 and being sent to respectively is connected chamber 13,14.Fluid stream 20,21 leaves this rear chamber 13,14 and is transferred into a dyeing machine (not shown) that is connected, with the processing of dyeing.

In order to finish fluid flow circuit, the fluid 17,18 in dyeing machine is drawn back to the pump suction pipe by inner body 22,23, to finish flow circuit.Then, the pump (not shown) just can emit fluid 17,18 in opposite direction, and forms the fluid stream 10,19 of this front chamber 15,16 that flows through, to begin the entire process flow process once more.Continuous flow circuit just can provide each dyeing machine (not shown) to have uniform color and color and luster.

Claims

1. fluid distributing apparatus, it is in order to dispense fluid in a plurality of textile treatment machines, this fluid distributing apparatus comprises a container, and this container has fluid intake and fluid issuing, and each fluid issuing is configured to dispense fluid to a plurality of textile treatment machines in use.

2. fluid distributing apparatus as claimed in claim 1, wherein this fluid issuing can roughly be dispensed to fluid in each textile treatment machine equally.

3. fluid distributing apparatus as claimed in claim 1 or 2, wherein in use, this fluid roughly is assigned to a plurality of textile treatment machines in the use simultaneously.

4. as any one described fluid distributing apparatus of claim 1 to 3, wherein fluid issuing is located at the opening in the container wall, and when device used, these openings roughly were positioned on the identical horizontal plane.

5. as the described fluid distributing apparatus of above-mentioned any one claim, wherein a delivery channel is connected to fluid issuing.

6. as the described fluid distributing apparatus of above-mentioned any one claim, wherein this fluid intake is arranged on the opening in the container wall.

7. fluid distributing apparatus as claimed in claim 6, wherein an entry conductor is connected to fluid intake.

8. fluid distributing apparatus as claimed in claim 7, wherein the extending through the opening in the container wall of the near-end of entry conductor and stretching in the container.

9. fluid distributing apparatus as claimed in claim 8, wherein the near-end of this entry conductor is a bend pipe.

10. fluid distributing apparatus as claimed in claim 9, wherein fluid flow direction is changed by bend pipe, wherein the direction that should change with respect to the angle of the longitudinal axis of entry conductor greater than 0 ° and less than 90 °.

11. fluid distributing apparatus as claimed in claim 10, wherein this orientation angle is changed into 33 °.

12. as any one described fluid distributing apparatus of claim 8 to 11, wherein the near-end of each entry conductor relative to each other is arranged in use, can cause the fluid that enters to produce swirling flow campaign and flow-disturbing.

13. as claim 5 or 7 to 12 any one described fluid distributing apparatus, wherein the far-end of the far-end of entry conductor and delivery channel is connected to pipeline configuration.

14. fluid distributing apparatus as claimed in claim 3, it comprises a plurality of pipeline configurations.

15. as claim 13 or 14 described fluid distributing apparatus, wherein this pipeline configuration comprises one first conduit and one second conduit.

16. fluid distributing apparatus as claimed in claim 15, wherein first conduit and second conduit are arranged coaxial, make between it, to form an annular channel, and the inwall of the outer surface of first conduit formation annular channel, and the outer wall of surface formation annular channel within second conduit.

17. fluid distributing apparatus as claimed in claim 16, wherein separating device is the chamber that annular channel is separated into two separations.

18. fluid distributing apparatus as claimed in claim 17, wherein this separating device is a plate body.

19. fluid distributing apparatus as claimed in claim 18, wherein this plate body is arranged so that edge contacts with the outer wall of annular channel outside the plate body, and the inner edge of plate body contacts with the inwall of annular channel.

20. as claim 17 or 18 or 19 described fluid distributing apparatus, wherein this separating device is separated into a front chamber and a rear chamber with annular channel.

21. as any one described fluid distributing apparatus of claim 17 to 20, wherein plate body is arranged to the longitudinal axis that disposes with respect to pipeline and is an angle of inclination.

22. as described in the claim 21 and according to claim 5 or 7 to 20 any one fluid distributing apparatus, wherein the far-end of entry conductor forms fluid with front chamber and is communicated with, and the far-end of delivery channel is communicated with rear chamber formation fluid.

23. as the described fluid distributing apparatus of above-mentioned any one claim, the quantity of this fluid intake wherein, the quantity of the quantity of fluid issuing and pipeline configuration is equal to the quantity of this plural number textile treatment machine.

24. as any one described fluid distributing apparatus of claim 13 to 23, wherein each pipeline configuration is communicated with a wherein corresponding textile treatment machine formation fluid of plural textile treatment machine.

25. a method that dispenses fluid to plural textile treatment machine, wherein this fluid is dispensed to a container by fluid intake, and is dispensed to plural textile treatment machine by container through fluid issuing.

26. method as claimed in claim 25, wherein this fluid is distributed through fluid intake by a fluid source of supply.

27. method as claimed in claim 26 wherein enters to fluid in container swirling flow campaign and the flow-disturbing and mixing mutually by fluid in container.

28. method as claimed in claim 27, wherein fluid is by distributing through fluid issuing in the container, and the fluid that transmits equivalent simultaneously is to each textile treatment machine.

29. as any one described method of claim 25 to 28, wherein this method is performed as the device of claim 1 to 24 as described in any one.