US3367006A

US3367006A - Heating apparatus

Info

Publication number: US3367006A
Application number: US440376A
Authority: US
Inventors: Mattingly Denis Albert Edward
Original assignee: Klinger Manufacturing Co Ltd
Current assignee: Klinger Manufacturing Co Ltd
Priority date: 1964-05-27
Filing date: 1965-03-17
Publication date: 1968-02-06
Anticipated expiration: 1985-02-06
Also published as: ES313730A1; CH438565A; GB1098135A; DE1660415A1; FR1455893A; DE1660415B2

Description

Feb. 6, 1968 D. A- E. MATTINGLY HEATING APPARATUS 4 Sheets-Sheet 1 Filed March 17, 1965 Feb. 6, 1968 D. A. E. MATTINGLY 3,367,006

HEATING APPARATUS 4 Sheets-Sheet 2 Filed March 17, 1965 1968 D. A. E. MATTINGLY 3,36 ,006

HEATING APPARATUS Filed March 17, 1965 4 Sheets-Sheet 5 Feb. 6, 1968 D. A. E. MATTINGLY 3,367,006

HEATING APPARATUS 4 Sheets-Sheet 4 Filed March 17, 1965 Unite 1;

ice

3,367,006 HEATING APPARATUS Denis Albert Edward Mattingly, London, England, assignor to The Klinger Manufacturing Company Limited, London, England, a British company Filed Mar. 17, 1965, Ser. No. 440,376 Claims priority, application Great Britain, May 27, 1964, 21,932/64 12 Claims. (Cl. 28-62) ABSTRACT F THE DISCLOSURE The length of travelling yarn contacts a heating member that is in the form of a closed loop. Liquid is heated in the loop by internal means and a turbulent circulating liquid flow at high velocities is created. The apparatus provides for false twisting a plurality of synthetic yarns. Temperature control means may also be included.

The invention relates to apparatus for heating a plurality of yarns and particularly to apparatus for heating a plurality of synthetic yarns in apparatus for treating said yarns, for example in false twisting apparatus.

In some kinds of apparatus for treating yarn it is usual for the yarn to be continuously drawn past or through a heating zone. Where a plurality of yarns are to be treated simultaneously it is desirable that all the yarns should be heated by the same amount so that they may all have the same characteristics. Further, where a plurality of yarns are simultaneously treated on opposite sides of an apparatus it is desirable that the yarns treated on opposite sides should have the same characteristics.

It has been found difiicult to achieve this simultaneous uniform heating of a plurality of yarns, particularly in apparatus where yarns are simultaneously treated on opposite sides of the apparatus. The present invention is concerned with reducing or overcoming this difficulty.

According to one aspect of the present invention there is provided in apparatus for the treatment of a plurality of synthetic yarns a heater in contact with which the yarns are caused to travel, the heater comprising a pair of hollow bodies spaced apart and extending lengthwise along the apparatus and interconnected at their-ends, and means for circulating a hot liquid through said hollow bodies at high velocity such that a turbulent flow is created within the hollow bodies whereby substantially the same temperature is maintained throughout both the hollow bodies. Preferably means for heating the liquid is disposed within the hollow bodies. I

According to another. aspect of the present invention there is provided apparatus for false twisting a plurality of synthetic yarns comprising a plurality of false twisting means disposed on opposite sides of the apparatus, a hollow body disposed on each side of the apparatus, each said hollow body having at least one surface with which yarns contact prior to passing to the false twisting means, the ends of said hollow bodies being interconnected to form a substantially closed circuit, means for circulating liquid through said closed circuit, and means for heating the liquid, the arrangement being such that in use the rate of circulation of said liquid is sufiiciently high to heat the whole of said surfaces to substantially the same temperature.

The means for circulating the liquid can be located within the closed circuit in the path of flow of said liquid; this means may comprise an axial flow pump. The axial flow pump may be driven by an induction motor, the armature of which is enclosed within said closed circuit or an extension thereof; in this way the heat created in the armature windings is passed to the liquid. The motor may be adapted to drive said pump through a flexible coupling. The field windings of said motor may be disposed about the exterior of said closed circuit or of said extension thereof. The motor may be a 3 phase motor, and may, for example, operate at 15 v.

Temperature sensitive means for controlling the temperature of said liquid can be included in the apparatus, and preferably the temperature sensitive means is located within the path of flow of the liquid.

Preferably the means for heating the liquid is located within the path of flow of the liquid within the closed circuit, anw may comprise one or more electric heating elements. When the apparatus includes a plurality of electric heating elements, the major part of the heat requirements of the system can be provided by heating elements energised independently of said temperature sensitive means, the minor part of said heat requirements being provided by heating elements controlled by said temperature sensitive means.

An expansion vessel for the liquid can be connected to said hollow bodies and is preferably arranged above them.

The liquid can be a non-carbonising oil of low vapour pressure.

The surfaces of said hollow bodies which the yarns are arranged to contact may be smooth, or may be provided with a plurality of grooves along which the yarns are caused to travel. Each surface can be convexly curved in a direction oblique to the direction of travel of the yarn over it.

The direction of travel of each yarn across the surface of either hollow body can be oblique to the direction of flow of the liquid through that hollow body. The direction of travel of 'the yarn may be varied to vary the distance travelled by the yarns in contact with either surface. Preferably all the yarns passing over one of said hollow bodies do so in substantially parallel paths as do the yarns passing over the other said hollow body; the substantially parallel yarn paths over said one hollow body may be transverse or skew to the substantially parallel yarn paths over said other hollow body.

Preferably all the heated surfaces of the heater that are contacted by the yarns are at approximately the same height from the ground and extend in a substantially horizontal direction. Although these surfaces may extend in their longitudinal direction substantially horizontally along each side of the apparatus, these surfaces in their transverse direction preferably extend in a generally vertical direction, or at an acute angle thereto.

According to yet another aspect of the present invention there is provided apparatus for heating a plurality of yarns wherein the yarn is passed in contact with a body heated by a hot liquid flowing in a closed circuit therein, the liquid being heated at one or more zones in its flow around said closed circuit, the temperature rise of the liquid on passing said zone or one of said zones being less than 5 C. and preferably less than 1 C.

According to a further aspect of the present invention there is provided apparatus for heating a plurality of yarns comprising a hollow chamber in contact with at least one face of which the yarns are caused to travel, means for circulating a liquid through said hollow chamber at such a rate that a turbulent flow is created within the hollow chamber, heating means within said hollow chamber to heat the liquid and temperature sensitive means to control said heating means and maintain the temperature of the liquid to within i1%, the heating means being so arranged in relation to the rate of flow of liquid and the configuration of the hollow chamber that the temperature rise of the liquid passing over said heating means is less than 1%, whereby the temperature of the liquid throughout the hollow chamber is maintained within 1%.

Preferably the means for circulating the liquid has a capacity relative to the quantity of liquid in the hollow chamber such that the liquid is caused to flow therethrough at a rate greater than 1.0 foot per second. The hollow chamber can comprise a pair of hollow bodies interconnected at their ends to form a substantially closed circuit, each of said hollow bodies having at least one face in contact with which yarns are caused to travel; the heating means can be located within said hollow bodies and the heating means can comprise one or more electric elements.

The major part of the heat requirements of the system can be provided by heating elements energised independently of the temperature sensitive means, the minor part of said heat requirements being provided by heating elements controlled by the temperature sensitive means.

The means for circulating the liquid can be an axial flow pump located Within the path of the liquid through said hollow chamber. Baflles can be included within the path of flow of the liquid through the hollow chamber to assist in creating turbulence and intermixing of the liquid.

The hollow bodies can each comprise a plurality of sections joined together. Each section can be provided with flanges at each end thereof, the area of the opening in said flanges being less than the area of the section adjacent thereto so as to provide a bafiie within the path of flow of the liquid. The baffles can extend into the hollow bodies from the face in contact with which the yarns travel.

Means can also be included for causing a current of air to flow over the faces of the hollow chamber in contact with which the yarns travel. The current of air can flow across said faces in a generally upward direction. The means'for causing the current of air can comprise a duct extending around the apparatus and provided with portions disposed adjacent and co-extensive with said faces, and means for creating a partial vacuum within said duct.

The synthetic yarns to be treated by apparatus according to the invention can be thermo-plastic yarns, or yarns having a thermo-plastic component, for example, yarns of nylon, polypropylene, or Terylene.

By way of example, an embodiment of the present invention will now be described with reference to the accompanying diagrammatic drawings in which:.

FIGURE 1 is a side elevation of part of a false twist apparatus according to the invention;

FIGURE 2 is a section on the line IIII in FIGURE 1 of the heater;

FIGURE 3 is a plan view of the heater;

FIGURE 4 is a side elevation of the heater viewed in the same direction as in FIGURE 1;

FIGURE 5 is a plan view of the heater similar to FIGURE 3 showing an alternative arrangement of the heating elements and control means;

FIGURE 6 is a plan view of a heater according to another embodiment of the invention with parts broken away and all the insulation removed to show the construction more clearly;

FIGURE 7 is a side elevation in the direction of arrow VII in FIGURE 6 of one of the sections comprising the heater shown in FIGURE 6;

FIGURE 8 is an end elevation of the section shown in FIGURE 7, and

FIGURE 9 is a sectional elevation on the line IXIX of FIGURE 6 showing false twist means.

The false twisting apparatus as shown in FIGURE 1 comprises a number of supply bobbins 1 of yarn arranged at the top of the apparatus, the yarn 2 passing downwards from each bobbin through a pair of feed rollers indicated diagrammatically at 3. The yarn then passes obliquely across a face 4 of a heater 5, the direction of travel of the yarn being determined by pairs of guides 6 and 7 on opposite sides of the face 4. From the heater the yarn passes downwardly through a false twisting head 8 and thence through feed rollers 9 and a reciprocating guide 10 of a traverse mechanism to be wound into a package 11 rotated at a constant peripheral speed by a roller 11a.

As shown in FIGURE 2 the false twisting heads and associated mechanisms are arranged on both sides of the apparatus. The faces 4 of the heater 5 are convexly curved and inclined to the vertical, the guides 6 and 7 being slightly set back from the faces 4 so that the yarns are retained in contact therewith.

The heater 5, as shown in more detail in FIGURE 3, comprises two enclosed passages 13 and 14 which extend lengthwise along the apparatus, each of said passages having a convex face 4 as hereinbefore described.

Passages

15 and 16 connect the passages 13 and 14 at their ends, the four passages together forming a closed circuit, the general plane of the closed circuit being horizontal. The passages are completely covered apart from the two faces 4 with which the yarn contacts, by suitable lagging 12, although the faces 4 project proud of the lagging 12 as shown in FIGURE 2. An expansion vessel 17 is located above the level of said closed circuit and is connected thereto by a pipe 18 (see FIGURE 4). An axial flow pump 19 is located within the passage 13 and arranged to be driven by an induction motor 21. The shaft 22 of the pump 19 is journalled at one end in a support 20 in the passage 13, and connected at the other end by a flexible coupling 23 to the motor 21. The armature windings 24 of the induction motor 21 are disposed within a compartment 25 forming an extension of the closed circuit formed by the passages .13, 14, 15 and 16, the field windings 26 of the motor 21 being disposed around the outside of the compartment 25.

Electric heating elements

27 and 28 extend into the passages 13 and 14 at opposite ends thereof, and are brought into circuit with a source of supply, and disconnected therefrom, by control means 29 operated by a heat responsive element 30 located within the closed circuit.

The

passages

13, 14, 15 and 16 forming the closed circuit are filled with a liquid, preferably a non-carbonising oil of low vapour pressure such as is sold under the trade name Voluta 45, the oil extending up the pipe 18 and partially filling the expansion vessel 17. The axial flow pump 19 promotes a flow of oil throughout the closed circuit, the how being at such a rate in relation to the capacity and configuration of the closed circuit that a high turbulence of the oil is created.

The oil is heated by the

electric heating elements

27 and 28, the heat responsive element 30 causing the control means 29 to disconnect the electric elements from their source of supply at a predetermined oil temperature and to reconnect the electric elements to their source of supply as the oil temperature falls.

In order to maintain the surfaces 4 of the heater 5 at substantially the same temperature on both sides of the apparatus and throughout their length, it has been found desirable to circulate the oil at at least 1.0 foot per second. In this way the temperature rise of the oil as it passes either of

theheating elements

27 or 28 can be less than 5 C. and preferably in the order of 1 C., which means that the temperature throughout the closed circuit is maintained constant to within 5 C. or less and preferably to within 1 C.

In an alternate arrangement the electric heating elements can be arranged as shown in FIGURE 5 so that one or more elements 27 supplies the major part of the heat requirements of the system and a further element or elements 28 supplies the minor part of the heat requirements of the system. By arranging for the major part of the heat requirements to be less than the heat losses from the system, for example by radiation particularly from the surfaces 4 and by heat transferred to the yarn, the elements 27 supplying the major part of the heat requirements can be maintained in circuit for substantially the whole time of operation, and only the elements 28 supplying the minor part of the heat requirements need be controlled by the control means 29. In this way the fluctuations in power consumption and wear on the control means 29, the control means 29 then operating at a lower loading, are both reduced.

The surfaces 4 of the heater 5 are preferably smooth as shown but they can be provided with grooves along and in which the yarns are caused to travel. When the surfaces 4 are smooth and without grooves the guide means 6 and 7 on opposite sides of each surface 4 may be so disposed and in suflicient numbers that, by appropriately engaging the various yarns with them, the distance travelled by the yarn over the heated surface and hence the length of yarn in contact with the heated surface may be varied. In this way, and by controlling the temperature of the heater, the required crimp can be set in yarns travelling at various speeds and having various setting temperatures or requirements.

To alleviate the difficulties of electrically insulating the induction motor 21, the motor can be operated at low voltage, for example 15 volts, and preferably on 3 phase supply.

The motor arrangement as shown and described with the armature windings fully submerged in oil within the closed extension 25 is particularly advantageous as it eliminates a possible source of oil leakage from the system and heat generated in the armature windings is transferred to the oil.

The flexible coupling 23 is included in the drive shaft 22 to the pump 19 to allow for any distortion of the apparatus as the oil is heated to the working temperature.

A heater as shown in FIGURES 3 and 4 having a closed circuit length of flow of oil of 25 feet, 20 gallons oil capacity, and the axial flow pump having a capacity of 60 gallons per minute was constructed. The electric heating elements were disposed at opposite corners of the circuit and connected to a source of supply as shown in FIGURE 5; each face 4 was four inches wide. The oil was heated to 240 C. and circulated around the closed circuit three times per minute, and therefore a velocity of 1.25 feet per second. The temperature was maintained constant through the closed circuit (and so over the surfaces 4), to an accuracy of 1 C.

The enclosed passages on which are provided the convex heating faces 4 may conveniently be formed from .4. number of sections, particularly when the total length of each passage is required to be more than about feet long, in order to facilitate manufacture and erection. One such embodiment is shown in FIGURES 6, 7 and 8 in which a section 34 is formed to the required shape from sheet metal to each end of which are secured flanges 35' and 36. Four holes 37 are provided in each flange whereby adjacent sections are bolted together by nuts and bolts 57. In order that the flanges do not interfere with the travel of the yarns in contact with the heated surface the flanges are shaped to conform to the curvature of the surface 4.

As can be seen in FIGURE 8 the opening 38 in the flange is smaller than the bore of the section 34, a part 39 of the flange extending inwards across the bore of the passage from the face 4 and forming a bafile within the passage. A bleed screw 40 is threadably mounted within the flange 36 and communicates through drillings 41, 42 with the inside of the passageway. A bleed screw can be provided on one or both of the flanges of a section.

A number of sections are bolted together to form a pair of hollow enclosed passages and their ends interconnected by conduits 43 and 44 as shown in FIGURE 6. Connected to conduit 44 by a pipe 45 is an expansion vessel 46 disposed above the level of the closed circuit, and through which oil or other liquid can be introduced into the closed circuit. A-ir trapped within the sections 34 by the batfles 39 can be released through the bleed screws 40. Mounted on an extension 47 of the conduit 43 is a motor 48 which is connected to an axial flow pump located within the conduit 49 as shown in FIGURE 3. The motor 48 is of the type in which the armature operates within a closed chamber in communication with the closed circuit, the field windings being arranged around and outside of the chamber. This ararngement obviates the need to provide a seal around a rotating drive shaft.

A plurality of heating eiements 5'0 and 51 are mounted on plates 52 and 53 respectively which are secured to flanges 54, 55, formed on extensions to the conduits 43 and 44 by nuts 56. The elements extend beyond the conduit 43 and 44 and into the passages 34.

When oil is circulated around the circuit the baflles 39 assist in creating turbulence and intermixing of the oil so that a layer of cooled oil is not allowed to form adjacent the inside surface of the face 4.

The passage of yarn over the heated surface can give rise to fumes which may become objectionable. To mini mize this extraction means may be arranged to cause a current of air to be drawn over the heated surface gathering at least a part of the fumes and exhausting them in the open air at any convenient point.

The extraction means as shown in FIGURES 6 and 9 comprises a duct 31 which extends along the machine adjacent the heater. The top of the duct is provided with a number of holes 32 which communicate with a collector 33 secured to the top of the duct and of suitable shape so as to have its open end adjacent the top of the heated surface. The edge of the collector is cut away at 58 to provide clearance for yarn to pass around guides 6. Air is exhausted from the duct 31 by a centrifugal fan 59 through a ventilating chimney 60 to the outside air. The fan creates a partial vacuum within the duct 31 causing air to flow across the heated surface 4 in a generally upward direction into the collector 33 through the holes 32 and into the duct, the current of air taking with it at least some of the fumes given off by the heated yarn.

A heater was constructed as shown in FIGURES 6 to 9 in which each of the passages comprised nine sections 34, each 5 feet long, bolted together to provide heating surfaces 4 both feet long. The length of the conduits 43 and 44 were 4 feet and 3 feet respectively giving a total closed circuit length of 97 feet. The capacity of the circuit was 45 gallons of oil which was Voluta 45 and the axial flow pump operated at the rate of gallons per minute. The oil therefore flowed at 1.8 feet per second. Twelve heating elements were employed each of 1950 watts, grouped equally at opposite corners of the heater as shown in FIGURE 6, the oil being heated to 235 C. Two heating elements at each corner were controlled in response to the temperature of the oil. The temperature of the heater surfaces 4 was maintained to within an accuracy of 1 C. at all points around the heater.

It should be noted that with the illustrated apparatus each yarn on each side of the apparatus is subjected to the same heat treatment. Should for any reason there be a change in the temperature of the heater, then all the yarns would be affected in the same way. Thus, all the packages of yarn taken off the machine at any one time will, so far as any variations due to heating are concerned, contain crimped yarns all having the same characteristics. Consequently, if one package is of acceptable standard of crimped yarn, then all the other packages removed at that time should be acceptable; whilst if one package is of substandard yarn, then all the other packages should be substandard. This is particularly advantageous because if one set of packages of yarn are used to fabricate material and after dyeting etc. it is apparent that the yarn is sub-standard, then no good yarn has been wasted in the sub-standard material produced.

On the other hand, had the yarns been processed with heating means which might allow different yarns being simultaneously processed to receive different heat treatments-particularly yarns being processed on opposite sides of the apparatus-then if one or several packages of sub-standard yarn are produced these may go undetected until they have been fabricated into material with good quality yarn and the material dyed etc. The material would then be sub-standard due to only one or a few substandard yarns in it and all the good quality yarn would in effect be wasted.

Thus the illustrated apparatus has the advantage that either all the packages of crimped yarn produced at one time will be acceptable or all can be rejected as sub-standard and consequently the risk of wasting acceptable yarn by fabricating it with unacceptable yarn is reduced or even substantially eliminated.

Although the heater system has been described with reference to a conventional false twist crimping apparatus it is within the scope of the invention to incorporate the heater within any apparatus wherein synthetic yarns are subjected to heat treatment.

I claim:

1. Apparatus for heating a plurality of yarns comprising a continuous closed circuit formed by a pair of hollow passages spaced apart and extending parallel with each other, each of said hollow passages having at least one face in contact with which yarns can travel, with conduits joining adjacent ends of said hollow passages, one of said conduits being provided with an extension, driving means secured to said extension, pump means located within the conduit and adapted to be driven by said driving means to circulale a liquid around the closed circuit, and a plurality of heating elements disposed within the closed circuit to heat the liquid as it travels around said closed circuit.

2. Apparatus according to claim 1 in which said hollow passages are formed from a plurality of hollow sections, each of said sections comprising a hollow chamber having at least one surface over and in contact with which yarns can travel, and flanges secured to both ends of said chamber whereby a number of said sections can be joined together to form a continuous hollow passage.

3. Apparatus according to claim 2 including a plurality of yarn guide means disposed on both sides of and adjacent each of said surfaces the direction of travel of yarns across the surfaces being transverse to the direction of flow of the liquid and being retained in contact with the surfaces by said guide means.

4. Apparatus according to claim 1 including means for causing a current of air to flow across said surfaces of the heater comprising a duct, means for creating a partial vacuum within said duct and portions of said duct disposed adjacent and co-extensive with said surfaces.

5. In apparatus for the treatment of a plurality of yarns on opposite sides of the apparatus, a heater in contact with which the yarns are caused to travel, the heater comprising a pair of hollow bodies disposed one on each side of the apparatus and interconnected at their ends by passages to form a closed circut, means within the closed circuit for circulating a liquid around the said circuit at a rate such as to cause a turbulent flow of liquid, and one or more heating means located within the closed circuit and arranged to heat the liquid by less than 1 C. in its passage thereover.

6. Apparatus in accordance with claim 5 wherein there is further included a plurality of false twisting means arranged to impart a twist to the yarn as they travel in contact with said heater.

7. Apparatus in accordance with claim 6 wherein the capacity of the means for circulating the liquid in relation to the capacity of the heater and the length of said circuit is arranged to circulate the liquid at a rate greater than one foot per second.

8. A heater for use in apparatus for the treatment of a plurality of yarns on both sides of the apparatus comprising a closed circuit formed by a number of hollow chambers, the closed circuit extending lengthwise along both sides of the apparatus and having at least one face on each side of the machine in contact with which the yarns pass, circulating means located within one of said hollow chambers to cause a flow of liquid around said closed circuit and heating means located within the closed circuit in the path of fiow of the liquid.

9. A heater according to claim 8 in which said faces of the hollow chambers in contact with which the yarns pass have a long dimension extending in a substantially horizontal direction and a short dimension in a direction perpendicular to said long dimension, the direction of travel of the yarns across said faces being transverse to the long dimension.

10. Apparatus for heating a plurality of travelling yarns comprising a pair of hollow passages of substantial length in relation to their width, each of said hollow passages comprising a number of hollow chambers each having a surface in contact with which the yarns travel and a flange at each end whereby said chambers are joined together, the flanges having portions extending within the hollow passages, conduit means interconnecting the ends of said hollow passages to form a continuous circuit, a liquid contained within the continuous circuit, liquid circulating means disposed Within the continuous circuit and heating means disposed within the continuous circuit for heating the liquid at at least two locations, said locations and said heating means being arranged so that the temperature rise of the liquid passing said locations is less than 1% whereby the temperature of the liquid throughout the continuous circuit is maintained within 1%.

11. Apparatus according to claim 10 including a plurality of guide means adjacent the edges of said surfaces the guide means adjacent one edge of the surfaces cooperating with the guide mcans adjacent the opposite edges of the surfaces to define paths of travel of the yarns in a substantially lengthwise direction along the surfaces and across the width thereof.

12. Apparatus according to claim 10 including temperature sensitive means disposed within the continuous circuit and adapted to control at least one of said heating means, which heating means supply the minor part of the heat requirements, the major part of the heat requirements being supplied by heating elements independently of said temperature sensitive means.

References Cited UNITED STATES PATENTS 2,089,240 8/1937 Whitehead.

2,864,229 12/1958 Seem et al 28-62 X 2,874,4l0 2/1959 Kinney.

2,977,745 4/1961 Neu ct al. 28--62 X LOUIS K. RIMRODT, Primary Examiner.