DE2311922A1 - METHOD AND DEVICE FOR REMOVING TEXTILE WASTE MATERIAL - Google Patents

Description

AIR KNIFE, INCORPORATED 3Ö15 Tryclan Drive, Charlotte, North Carolina

concerning

"Method and device for removing textile waste material"

A recurring problem in textile mills is the removal of textile waste material from equipment used in textile mills. As is known to workers working in textile mills, particular problems arise where textile waste material becomes entangled or wrapped around an axle or shaft and obstructs or brakes the movement of a rotatable element. An example of such a problem is entanglement of waste material around the axles of rollers or wheels such as those used on carts and the like in textile mills. ,

So far, such textile waste material was usually under Using a knife or other sharp instrument away. In these attempts to remove the waste material there are at least two difficulties, namely the difficulty) on the textile wrapped around the roll neck or the like

309838/0982

Access to waste material and damage to facilities from which the textile waste material is removed. The latter difficulty is of particular concern when removing textile waste material, spools, reels or the like.

In accordance with the present invention, the difficulties and disadvantages of the known methods and devices for removing textile waste material which is heat degradable are overcome by using a flow of heated air which can easily penetrate into inaccessible or narrow spaces and the textile Can remove waste material from these and the device from which the stuck or adhering textile waste material is removed, is not damaged.

Another object of the present invention is to provide protection for an electrical resistance heater that heats up a flowing air stream to an elevated temperature against an otherwise possible failure. Piping object is inventively achieved in that the electric power supply to the heater with the supply by the heating hindurchf read send want to remove Abfallmaterial'-to coordinated directing air flow. For this purpose, an operational connection between the device which supplies the air flow and the electrical resistance heater can be provided and an energy supply to the electrical heater can be prevented in the absence of an air supply.

Another object of the present invention is to create a method for removing fesfeMsigeaäea fosw. _e -adhering dureii

3 Λ GJ? % S B Tt Oi © ^ S y 5? ΰ $ £ 5 s U 9 h & ■ - "" "3

.Heat degradable textile waste material, with a Self-limitation of the temperatures of an electrical resistance heater is achieved. This task is achieved according to the invention in that an air stream flowing with a predetermined throughput of the electrical Resistance heating supplied and through this is performed, with the electrical ^ resistance heating a Has element with a positive temperature dependence. Due to the change in resistance of the resistance heating with the temperature, the power consumption of the resistance heating and thus that of the resistance heating temperature reached a tendency to self-limit. When the temperature of the resistance heater increases and the Power consumption decreases, an equilibrium is achieved which is achieved with the flow velocities provided according to the invention prevents the resistance heating from heating up which would lead to destruction.

In the following the invention is illustrated by means of schematic drawings explained in more detail using exemplary embodiments. It shows

Fig. 1 in a perspective. Representation of a first embodiment the device according to the invention;

Pig. 2 shows a side view of the device according to Pig. I ₉ with a cover plate removed to the in a

Housing to show built-in components of the device; 309838/0982

Flg. Fig. 3 is a side view, partly in section, essentially along line 3-3 in Fig. 2;

4 shows a side view partially in section through part of the device according to FIG. 1, essentially along it the line 4-4 in Figure 1;

Fig. 5 is an illustration on an enlarged scale, in Section substantially along the line 5-5 through "the part of the device shown in FIG. 4;

Fig. 6 is a sectional view taken substantially along line 6-6 in Fig. 5;

FIG. 7 is an enlarged illustration in section, essentially along the line 7-7 in FIG. 4;

Fig. 8 is a view in section, substantially along the line 8-8 in Figure 7;

FIG. 9 is a schematic circuit diagram of the device according to FIG Fig. 1; '.

10 shows a view similar to that shown in FIG. 1 of a second embodiment of the device according to the invention;

11 shows, in a detail view, a pressure-dependent electrical switching device of the device according to FIG. 10; and 309838/0982

Pig. 12 is a schematic circuit diagram of the device according to Pig. 10, which is similar to that in Pig. 9 shown circuit diagram is similar.

The embodiment shown in FIGS. 1 to 9 is Specifically intended for use in circumstances where there is an electrical connection to the locations is available to carry out the removal of firmly attached or adhering textile waste materials and this embodiment includes an air compressor as a means for providing a flow of air. The second embodiment of the device according to the invention, illustrated in FIGS. 10 to 12, is in particular useful when connections to a central compressed air system are available at the locations where the removal of the firmly attached or adherent by heat degradable textile waste material is to be carried out. The embodiment shown in FIGS. 10 to 12 of the invention The device is set up to be connected to a compressed air supply system of the factory, and is to be described in more detail below. In the following, the embodiment according to Pig, I to 9 and then the embodiment according to FIGS. 10 to 12 is described.

The implementation of the method according to the invention at any location in a textile factory or the like is

309§38 / 0982 -6-

in the first embodiment of the device according to the invention. facilitated by the fact that the components of the device generally designated 20 in a housing 21 or on this housing are arranged, and this housing has a handle 22 on which the device can be carried to the location on which it is to be used. An electrically driven air compressor 24 is arranged within the housing, which, according to the illustrated embodiment, is of the type which has two membranes which are reciprocated by an electric motor. The air compressor 24 is compressed air in a flexible line 25, which extends out of the housing 21. If an air compressor with two diaphragms is used, there is a characteristic Flow velocity or a characteristic throughput of the compressed air delivered by the compressor 24 about 0.028 trr / min (1 cubic foot per minute) at over ^

pressure of approximately 1.05 Kg / cm (15 psi). A satisfactory one Operation was also achieved with a single diaphragm air compressor at approximately 0.0113 m / min (4/10 cubic foot per minute). It is therefore assumed that the air flow rates are expediently in a range of at least about 0.0113 nr / min (4/10 cubic foot per minute) upwards. The line 25 is dimensioned so that these air throughputs and pressures flow therethrough substantially unimpeded so that these currents and pressures are available to act on the to act on the waste material to be removed.

In addition to the compressor 24, a coil 26 for an electrical line is built into the housing 21, which makes it possible to

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a power connection cable or an electrical line 28 from to pull the housing 21 and to connect to a suitable electrical voltage source. By means of the power connector 28 becomes the compressor 24 and switching elements of the device 20 electrical current supplied, this supply can be influenced by a control device which is in the will be described in detail below.

Air supplied through the line 25 reaches a handle 29 provided for handling, in which an electrical resistance heater, generally designated 50, is installed. The electrical resistance heater 30 has a protective sheath 3I made of metal, in one end of which a ceramic core 32 (FIGS. 8 and 8) is installed. The ceramic core 32 includes a number of longitudinally extending apertures therethrough, wherein each of the turns of one resistance wire ^ k are arranged in each of the passages. As soon as the resistance wire 3 ^ is supplied with current, the wire is heated to an elevated temperature in order to heat the air flowing through it.

The resistance heater 30 preferably has an air inflow section, which is arranged inside the handle 29 and a heating section which is located in front of the handle 29 (Fig. 4) extends on. In this way, when an operator manipulates the handle 29, he is around that of the device released air flow to be directed against textile waste material to be removed, protected against it with the

309838/0982 - * "

Section of the resistance heating comes into contact with the assumes an elevated temperature. At the very front end of the Resistance heating 30 1st-a device for fastening a removable nozzle 35 is provided for directing the air flow, this device having a clamping screw / 36 attached to the nozzle, a clamping connector 38 .and an the outlet pipe ^ 40 of the resistance heater 30 attached Clamping screw 39 includes. .

To supply electrical power to the resistance heater 30, extend electric. Lines 4l, 42 and 43 along the air line 25 and are arranged in a spiral shape by a Winding 45 * 'arranged around the air line 25 is) held in attachment to the latter.

Around the resistance wire 34 of the electrical resistance heater 30 against premature wear and tear or melting to protect, which is otherwise possible due to excessive heating of the same, are special control devices provided and used resistance elements of a special type. The control devices are operationally with the the air supplying compressor 24 and connected to the electrical resistance heater 30 to power the Resistance heater 30 with the delivery of a stream of air to combine. As shown schematically in Fig. 9, Such control devices include an electrical switch 46, which is electrically connected on the one hand to the power connection cable: 28 and on the other hand, the compressor 24 and the electric resistance heater 30 are connected.

309838/0982

Since the electrical lines leading to the resistance heater 30 and to the compressor 24 are parallel to one another are connected, is a power supply of the resistance heater 30 before a power supply of the Compressor not possible. Due to the temperature rise characteristic the resistance heating compared with the flow characteristics of the compressor is the Resistance heater 30 will only reach an elevated temperature when the air flow from compressor 24 has started Has. The electrical circuit also includes a fuse 48 for protection against excessive power consumption and a Indicator lamp 49 which indicates to the operator that the Device is in operation.

It has been found desirable to provide a way to change the flow of current to the resistance heater 30 and thus changing the temperature at which the air is blown onto the textile waste material to be removed. For this the control circuitry preferably comprises means for changing at least one characteristic value of the electrical current supply to the resistance heater 30. As in FIG. 9 A variable resistor 50 is shown schematically inserted into the line 42 leading to the resistance heater 30. A thyristor circuit is preferably used, about the phase relationship that is fed to the resistance heating to modulate electrical power in a known manner. Such circuits are e.g. in section 9 * 4.2 of the

-10- 309838/0982

- ίο -

described fourth edition of the publication "Silicone controled i- Redifier Manual", published by the Halbleiteräbteilung the General Electric Company.

When using the method according to the invention for removing stuck or adhering textile waste materials by blowing with a heated air stream , it has been found that both thermoplastic and other textile waste materials can be removed. If thermoplastic textile materials such as polyester yarns and the like are to be removed, it is desirable that the temperature of the heated air be at least about the range of the softening temperature of the textile material. In the event that the textile material or textile material comprises other than thermoplastic material or consists entirely of such a non-thermoplastic material air temperatures have been found to at least about 540 ⁰ C (IOOO ⁰ F) as appropriate for a possible easy and rapid removal . Accordingly, the air is preferably heated to the latter value, to be usable both thermoplastic non-thermoplastic and for the removal of textile Dep allmateriaHen for removal.

In the selection or design of an electrical resistance heater for heating the air, the Leistungsr is receptive of the electrical resistance as determined in accordance with a formula ^ whereafter the measured in kilowatts

- -11-

309838/0982

Power is equal to the weight of air supplied per hour times 0.24 times the number of degrees Fahrenheit that the air moves is heated from ambient temperature divided by 3412. Preferably the required power is the Resistance heating approximately according to the following formula calculated:

KW power consumption =,

rs? / Yi χ (3.59 x (° C increase above ambient temperature χ 9/5 + 32)

3000

β ( CFM x F increase above ambient temperature

3000

where "CFM" is an abbreviation for cubic feet per minute).

In order to further protect the resistance heating against otherwise possible premature failures, is used as a material chosen for the resistor 34 a material which has an electrical resistance with a positive temperature dependence having. This means that one of the materials is used whose electrical resistance increases with increasing temperature of the material increases. An electrical resistance heater produced in this way is self-limiting Characteristic by the increasing resistance of the wire, the current flow and the power consumption of the resistance heating and thus also the wattage transferred to the air flow and that reached by the air top temperature limited. The material from which the turns

- 12 309838/0982

■. ■ - 12 -

the resistance heating are produced, has such a characteristic preferably in the temperature range of about 650 ° C (1200 p) and can be a nickel-platinum alloy be.

With the embodiment according to FIGS. 1 to 9, at Operation in the range of the parameters described above directed heated air against the waste material to be removed, by flowing out of the nozzle device from the handle 29 * of the resistance heater j50 and the outlet pipe 35 is formed; the outflow velocity is at least about 2440 m / min (8OOO feet per minute). Such speeds have no negative effects in the throughput and temperature ranges described above Effects on textile machines, e.g. bobbins, rolls and the like from which stuck or sticking Heat-degradable or changeable textile material is to be removed. These speeds, throughputs and However, heated air temperatures are effective in completely removing such residues.

While in the above the embodiment according to FIGS 1 to 9 has been described in detail, which in particular is intended for operation by connection to an electrical voltage source, an alternative embodiment is also provided, which can be used where an external Compressed air source is available. This second embodiment

-13-

is shown in FIGS. 10 to 12, in which components which correspond to the components of the embodiment first described above are identified by the same reference numerals, but these reference numerals are also provided with a prime. The following description particularly emphasizes the differences between the two embodiments and dispenses with a detailed repetition of the common features of the two embodiments. The device 20 'shown in FIGS. 10 to 12 comprises an air supply line 51' which is provided with a suitable coupling part 52 by means of which it can be connected to an external compressed air source 53 * as is usually found in textile factories and the like. The compressed air entering the device 20 'through the line 51 is filtered in a filter 5 ^ and fed to a pressure regulator 55, which has an operator-operable handle 56 which extends through the housing 20'. By operating the handle 56, the pressure with which the air is ^{fed to the line 25 ′ and thus to the resistance heater 30 1 can} be set.

Downstream of the pressure regulator there is provided a pressure-dependent switching device, generally designated 58 (FIGS. 11 and 12), which responds ^{to the presence of an air stream flowing through the line 25 'to the resistance heater 30 f.} As soon as there is a flow of air, it becomes a

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associated electrical switch 59 closed to close the circuit of the resistance heating and thus the power supply to the resistance heater 30 ' enable. When there is no air flow, the switch is open and prevents power from being supplied the resistance heating.

All information and features disclosed in the documents, in particular the disclosed spatial design, are, insofar as they are individually or in combination "new" compared to the state of the art, as essential to the invention claimed.

Expectations:

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Claims (15)

PATENT CLAIMS (American Version) 1. Method for removing stuck or adhering heat-degradable or changeable textile waste material of devices used in textile factories or in other textile handling, characterized in that an air flow with a volume flow rate of at least about 0.0113 nr / min and the electrical power supply to an electrical resistance heater is coupled to the supply of the air flow in order to increase the air flow to a temperature of at least about 54O ° C heat, with the resistance heater being protected against premature failure that could occur if it were is energized with no air flowing through it and that the air against the waste material to be removed will be judged » 2. The method according to claim 1, characterized in that the heated air at a speed is blown out at least about 2440 m / min. 3. The method according to claim 1 or 2, characterized in that the electrical power supply to a Air compressor and to the electrical resistance heater is switched at the same time. 4. The method according to claim 1 or 2, characterized in that the electrical power supply to the Resistance heating is switched depending on the presence or absence of compressed air. 309838/0982 5. The method according to any one of claims 1 to 4, characterized in that the air is substantially is fed unhindered by a line of the resistance heating, the flow rate and the pressure of the air are essentially retained. 6. The method according to any one of claims 1 to 5, characterized in g e that the air blown out of the line is guided by a handle with which the Operator can manually direct the airflow against the waste material. 7. The method according to any one of claims 1 to 6, characterized in that the air is electrical Resistance turns of · electrical resistance heating happens that have a positive temperature dependence of the resistance, and thus against a premature one Failure are protected. 8. The method according to any one of claims 1 to 7 * marked * that electrical power is recorded according to the following formula: KW power consumption = no / h χ Q.59 χ (° C increase above ambient 5temp * x9 / 5 t 52) 3000 300838/0982 9. Device for removing stuck or adhering textile waste materials which are degradable or changeable by heat from facilities which are used in textile factories or for other handling of textiles, characterized in that a compressed air source (24; 53) has an air flow of at least about 0.0113 nr / min, and an electrical resistance heater (34; 34 ^f ) is interposed in the flow path of the air stream to heat the air to a temperature of at least about 54O ° C and that a nozzle (35; 35 ^f ) is provided to the to direct heated air against the waste material to be removed, and that a control device (46; 59) is operationally connected to the compressed air source (24; 53) and "the resistance heater (30,30 *) and the power supply of the resistance heater (3O; 3O . ^! ) is coordinated with the supply of the air flow and thus ^{protects the resistance heating (30; 30 f} ) against a premature failure that occurs with a power supply The resistance heating can occur while no air is flowing through the ■ resistance heating. 10. The device according to claim 9, characterized in that the compressed air source (24; 53) and the nozzle (35; 35 ^f ) cooperate to blow out the heated air flow at a speed of at least about 2440 m / min. 11. The device according to claim 9 or 10, characterized in that the compressed air source is an electrical driven air compressor (24) is provided. 309838/0982 12. Device according to one of claims 9 to 11, characterized in that a compressed air operated electrical switch (59) is operationally connected to the compressed air ^{source and to the resistance heater (30; 30 f} ) to the electrical power supply to the resistance heater in dependence on the Switching the air flow on and off. 13. Device according to one of claims 9 to 12, characterized in that an air source (24; 53) with the resistance heater (30; 3Q ^f ) connecting air line is dimensioned so that it allows a substantially unimpeded flow of air to the resistance heater permitted. 14. Device according to one of claims 9 to 13, marked by the fact that the nozzle (35; 35 *) is attached to a handle (29) by means of which the operator blows the heated air against the waste material can judge. 15. Device according to one of claims 9 to 14, characterized in that the resistance heater (30; 3Q ^f ) has a positive temperature dependency of its resistance and the resistance increases when the temperature of the same increases, whereby a further protection against premature failure of the Resistance heating is achieved. 309838/0982 l6. Device according to one of Claims 9 to 15 *, characterized in that the electrical power consumption of the resistance heater (30; 30 ^f ) as a function of the volume throughput of the air and the temperature rise of the air compared to the ambient temperature approximately according to the formula KW power consumption = m ^ / h χ 0.59 x ( ⁰ C increase above ambient temperature χ 9/5 t 32) 3000 takes place. 309838/0982 PATENT CLAIMS (German version) ΓΪ »A method for removing stuck or adhering textile waste materials which can be degraded or changed by heat from equipment used in textile factories or other textile handling, characterized in that an air flow of the order of magnitude of at least about 0.0113 nr / min with a temperature of at least about 5 ¹ K) ⁰ C and a speed of at least about 2440 m / min is directed against the textile waste materials to be removed in order to loosen them and blow them away. 2. Apparatus for performing the method according to claim 1, characterized in that a Compressed Air Source ($ 24 53) provide airflow of at least delivers about 0.0113 nr / min, and an electrical resistance heater (34; 34 *) is interposed in the flow path of the air stream to bring the air to a temperature of at least heat up to about 54o ° C and a nozzle (35; 35 ') is provided, to direct the heated air against the waste material to be removed, and a control device (46; 59) operative with the compressed air source (24; 53) and the resistance heater (30; 30 *) is connected and the power supply of the resistor - 21 , - 309838/0982 Parking heater (JJO ^ O ¹ ) leoordinated with the supply of air flow to protect the resistance heater (3Q; 30 ^r ) against premature failure that can occur if the resistance heater is energized with no air through it flows through it. 3. Apparatus according to claim 2, characterized in that the compressed air source (24; 53) and the nozzle (35; 35 ^f ) are dimensioned so that the heated air flow is blown out at a speed of at least about 2440 m / min. 4. Apparatus according to claim 2 or 3 * characterized g e k e η η records that an electrically driven air compressor (24) is provided as a compressed air source. 5. Apparatus according to claim 4, characterized in that the power supply to the air compressor (24) in parallel with the power supply to the resistance heater (j55) and is switched on and off together with the latter. 6. Device according to one of claims 2 to 5, characterized in that a compressed air operated electrical switch (59) is operationally connected to the compressed air source and to the resistance heater (j50; 30 ^r ) to the electrical power supply to the resistance heater depending on the to switch the air flow on and off. 309838/0982 " ²² " 7. Device according to one of claims 2 to 6, characterized in that it comprises a compressed air source (24; 53) with the resistance heater (30; 30 ^r ) connecting the air line, which is dimensioned so that they a substantially unimpeded flow of the Air is allowed to the resistance heater, the flow rate and pressure of the air preferably remaining substantially the same along the line. 8. Device according to one of claims 2 to 7 #, characterized in that the nozzle (35; 35 *) ⁸ ^ a handle (29) is attached, by means of which the operator can direct the exiting from the nozzle, heated air flow against the waste material . 9. Device according to one of claims 2 to 8, characterized in that the resistance heater (3OjJJO ¹ ) has a positive temperature dependence of its resistance and the resistance increases when the temperature of the same increases, whereby a further protection against premature failure of the resistance heating due to overheating. . 10. Device according to one of claims 2 to 9, characterized characterized in that the resistance heater (30; 30 ') is dimensioned so that the electrical power consumption as a function the volume throughput of the air and the temperature 309838/0982 increase in air temperature compared to the ambient temperature approximately according to the formula
KW power consumption = m, / h χ 0.59 χ ( ⁰ C increase above ambient temperature χ 9/5 + 32) 3000 takes place. 309838/0982 Lee rs e ι te