CN215713558U - Novel quick compounding of material for composite fiber production device - Google Patents

Abstract

The utility model relates to the technical field of fiber processing tools, in particular to a novel device for quickly mixing materials for producing composite fibers. The device can control the heater and the second heater to heat the melting chamber and the second melting chamber at different temperatures according to different melting points of raw materials, so that the energy waste can be reduced, the device can automatically adjust the discharging speeds of the two raw materials according to different required proportions of the raw materials, the automation degree of the device is increased, the solution in the left inner tube and the right inner tube of the device is sprayed to the outside of the composite head attached to the middle spinneret to spray the solution through the right spinneret and the left spinneret to form the core type composite fiber, and the practical value of the device is improved.

Description

Novel quick compounding of material for composite fiber production device

Technical Field

The utility model relates to the technical field of fiber processing tools, in particular to a novel device for quickly mixing materials for producing composite fibers.

Background

Two or more than two polymers which are not mixed exist on the same fiber section, the fiber is called composite fiber, and various modified fibers such as bi-component fiber, permanent crimp fiber, superfine fiber, hollow fiber, special-shaped fine fiber and the like which have the characteristics of the two polymers can be obtained by utilizing the composite fiber manufacturing technology.

The present quick compounding device on the market can't let automatically melt room and second and melt the room and heat according to the different temperatures of the different usefulness of the melting point of raw materials, can increase the waste of the energy like this, and the device can't be according to the ejection of compact speed of the different automatically regulated two kinds of raw materials of the required proportion of raw materials, the degree of automation of reducing means, the device can't form the blowout of core type composite fiber, the practical value of reducing means, consequently, propose a novel quick compounding device of material for composite fiber production to above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel material rapid mixing device for composite fiber production, which comprises a composite spinning assembly, a left inner tube, a middle inner tube, a right spinning tube, a middle spinning tube, a composite head and a left spinning tube, wherein a solution in the left inner tube and the right inner tube is sprayed to the composite head through the right spinning tube and the left spinning tube and is attached to the outer side of the solution sprayed out of the middle spinning tube to form core type composite fiber spraying, the practical value of the device is improved, and the problems in the background technology are solved.

In order to achieve the purpose, the utility model provides the following technical scheme:

a novel material rapid mixing device for composite fiber production comprises a composite spinning assembly, wherein a middle inner tube is arranged at the middle end of the upper half part of the composite spinning assembly, the bottom of the middle inner tube is in conduction connection with the top of the middle spinning tube, a left inner tube is arranged inside the left end of the upper half part of the composite spinning assembly, the bottom of the left inner tube is in conduction connection with the top of the left spinning tube, a right inner tube is arranged inside the right end of the upper half part of the composite spinning assembly, the bottom of the right inner tube is in conduction connection with the top of the right spinning tube, a composite head is arranged at the bottom of the middle end of the composite spinning assembly, the bottom of the right spinning tube and the bottom of the left spinning tube are fixedly connected with the top of the composite head, the bottom of the middle spinning tube is connected inside the composite head, the top of the middle inner tube is in conduction connection with the bottom of a connecting pipe, the top of the connecting pipe is fixedly connected with the bottom of the right end of a metering pump, and the top of the metering pump is in conduction connection with the bottom of the right end of a discharging frame, the device comprises a discharging frame, a motor rotating shaft, a heater, a frequency converter group, a controller and a power regulator group, wherein a turbine rod is arranged in the discharging frame, the left end of the turbine rod is fixedly connected with the right end of the motor rotating shaft through a coupler, the top of the right end of the discharging frame is provided with the frequency converter group, the controller and the power regulator group, the top of the left end of the discharging frame is in conduction connection with the bottom of a melting chamber, the heaters are arranged in the two ends of the melting chamber, the inner side of the top of the right end of the melting chamber is provided with the temperature sensor, the tops of a left inner tube and a right inner tube are fixedly connected with the bottoms of the two ends of a multi-head connecting tube, the top of the multi-head connecting tube is in conduction connection with the bottom of a second metering pump, the top of the second metering pump is in conduction connection with the bottom of the left end of the second discharging frame, a second turbine rod is arranged in the second discharging frame, the right end of the second turbine rod is fixedly connected with the left end of the second motor rotating shaft through a coupler, and the top of the right end of the second discharging frame is in conduction connection with the bottom of the second melting chamber, and a second heater is arranged inside two ends of the second melting chamber, and the inner side of the top of the left end of the second melting chamber is fixedly connected with the top of a second temperature sensor.

As a preferred scheme, a control line of the frequency converter group is connected with a controller, and a control line of the power regulator group is connected with the controller.

As a preferred scheme, the motor, the metering pump, the second metering pump and the second motor are respectively connected to corresponding frequency converters in the frequency converter group through lines.

Preferably, the heater and the second heater are respectively connected to the corresponding power regulator inside the power regulator group through lines.

Preferably, the data lines of the temperature sensor and the second temperature sensor are both connected with the controller.

Compared with the prior art, the utility model has the beneficial effects that: the device can control the heater, the second heater lets melt the room and the second melts the room and heats according to the different temperatures of the different usefulness of the melting point of raw materials, can reduce the waste of the energy like this, the device can be according to the ejection of compact speed of the different automatically regulated two kinds of raw materials of the required proportion of raw materials, increase the degree of automation of device, the inside solution of the left inner tube of the device and right inner tube passes through right spinning nozzle, left spinning nozzle spouts to the outside that the composite head adheres to spinning nozzle spun solution in the middle of, form the blowout of core type composite fiber, the practical value of the improvement device.

Drawings

FIG. 1 is a schematic view of the overall structure of a novel rapid mixing device for composite fiber production materials of the present invention;

FIG. 2 is a schematic cross-sectional view of a spinneret assembly according to the present invention.

In the figure: the spinning device comprises a composite spinning assembly-1, a left inner tube-101, a middle inner tube-102, a right inner tube-103, a right spinning tube-104, a middle spinning tube-105, a composite head-106, a left spinning tube-107, a connecting tube-2, a metering pump-3, a turbine rod-4, a motor-5, a discharging frame-6, a melting chamber-7, a heater-8, a temperature sensor-9, a frequency converter group-10, a controller-11, a power regulator group-12, a second turbine rod-13, a second melting chamber-14, a second temperature sensor-15, a second heater-16, a second discharging frame-17, a second motor-18, a second metering pump-19 and a multi-head connecting tube-20.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the present invention.

Example (b):

referring to fig. 1-2, the present embodiment provides a technical solution:

a novel material rapid mixing device for composite fiber production comprises a composite spinning assembly 1, wherein a middle inner tube 102 is arranged at the middle end of the upper half part of the composite spinning assembly 1, the bottom of the middle inner tube 102 is in conduction connection with the top of a middle spinning tube 105, a left inner tube 101 is arranged inside the left end of the upper half part of the composite spinning assembly 1, the bottom of the left inner tube 101 is in conduction connection with the top of a left spinning tube 107, a right inner tube 103 is arranged inside the right end of the upper half part of the composite spinning assembly 1, the bottom of the right inner tube 103 is in conduction connection with the top of a right spinning tube 104, a composite head 106 is arranged at the bottom of the middle end of the composite spinning assembly 1, the bottoms of the right spinning tube 104 and the left spinning tube 107 are fixedly connected with the top of the composite head 106, the bottom of the middle spinning tube 105 is connected inside the composite head 106, the top of the middle inner tube 102 is in conduction connection with the bottom of a connecting tube 2, the top of the connecting tube 2 is fixedly connected with the bottom of the right end of a metering pump 3, the top of the metering pump 3 is in conduction connection with the bottom of the right end of the discharging frame 6, a turbine rod 4 is arranged in the discharging frame 6, the left end of the turbine rod 4 is fixedly connected with the right end of a rotating shaft of a motor 5 through a coupler, a frequency converter group 10, a controller 11 and a power modulator group 12 are arranged on a control panel at the top of the right end of the discharging frame 6, the top of the left end of the discharging frame 6 is in conduction connection with the bottom of a melting chamber 7, heaters 8 are arranged in the two ends of the melting chamber 7, a temperature sensor 9 is arranged on the inner side of the top of the right end of the melting chamber 7, the tops of a left inner tube 101 and a right inner tube 103 are fixedly connected with the bottoms of two ends of a multi-head connecting tube 20, the top of the connecting tube 20 is in conduction connection with the bottom of a second metering pump 19, the top of the multi-head metering pump 19 is in conduction connection with the bottom of the left end of a second discharging frame 17, a second turbine rod 13 is arranged in the second discharging frame 17, and the right end of the second turbine rod 13 is fixedly connected with the left end of the rotating shaft of a second motor 18 through a coupler, second frame 17 right-hand member top and the second of unloading melt 14 bottoms conducting connection, the second melts 14 both ends inside and is equipped with second heater 16, the second melts 14 left end tops inboard and second temperature sensor 15 tops fixed connection of room, the control scheme connection director 11 of converter group 10, the control scheme connection director 11 of adjusting power ware group 12, motor 5, measuring pump 3, second measuring pump 19 are connected to the inside corresponding converter of converter group 10 respectively through the circuit with second motor 18, heater 8 is connected to the inside power ware that corresponds of adjusting power ware group 12 respectively through the circuit with second heater 16, temperature sensor 9 and the equal connection director 11 of second temperature sensor 15's data line.

The working principle is as follows: the heater 8 can heat the inside of the melting chamber 7 to melt the raw material, the temperature sensor 9 can detect the temperature inside the melting chamber 7, the second heater 16 can heat the inside of the second melting chamber 14 to melt another raw material, the second temperature sensor 15 can detect the temperature inside the second melting chamber 14, the controller 11 controls the heater 8 through the power regulator group 12, the second heater 16 enables the melting chamber 7 and the second melting chamber 14 to heat at different temperatures according to different melting points of the raw materials, thus the energy waste can be reduced, the motor 5 can control the discharging speed of the discharging frame 6 by controlling the rotating speed of the turbine rod 4, the melted raw material enters the middle inner tube 102 through the metering pump 3 and the connecting tube 2, the second motor 18 can control the discharging speed of the second discharging frame 17 by controlling the rotating speed of the second turbine rod 13, and the melted raw material flows along the second metering pump 19, The multi-head connecting pipe 20 enters the left inner pipe 101 and the right inner pipe 103, the device can automatically adjust the discharging speed of two raw materials according to different raw material required proportions, the automation degree of the device is increased, the solution inside the middle inner pipe 102 is sprayed to the composite head 106 through the middle spinneret 105, the solution inside the left inner pipe 101 and the right inner pipe 103 is sprayed to the composite head 106 through the right spinneret 104 and the left spinneret 107 and attached to the outside of the solution sprayed out of the middle spinneret 105, composite fiber spraying is formed, and the practical value of the device is improved.

Has the advantages that: the device can control the heater, the second heater lets melt the room and the second melts the room and heats according to the different temperatures of the different usefulness of the melting point of raw materials, can reduce the waste of the energy like this, the device can be according to the ejection of compact speed of the different automatically regulated two kinds of raw materials of the required proportion of raw materials, increase the degree of automation of device, the inside solution of the left inner tube of the device and right inner tube passes through right spinning nozzle, left spinning nozzle spouts to the outside that the composite head adheres to spinning nozzle spun solution in the middle of, form the blowout of core type composite fiber, the practical value of the improvement device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a novel quick compounding of material for composite fiber production device, includes composite spinneret subassembly (1), its characterized in that: the composite spinning pack comprises a composite spinning pack (1), wherein a middle inner tube (102) is arranged at the middle end of the upper half part of the composite spinning pack (1), the bottom of the middle inner tube (102) is in conduction connection with the top of a middle spinning tube (105), a left inner tube (101) is arranged inside the left end of the upper half part of the composite spinning pack (1), the bottom of the left inner tube (101) is in conduction connection with the top of a left spinning tube (107), a right inner tube (103) is arranged inside the right end of the upper half part of the composite spinning pack (1), the bottom of the right inner tube (103) is in conduction connection with the top of a right spinning tube (104), the bottom of the left spinning tube (107) is fixedly connected with the top of the composite spinning tube (106), the bottom of the middle spinning tube (105) is connected to the inside of the composite spinning tube (106), the top of the middle inner tube (102) is in conduction connection with the bottom of a connecting tube (2), the top of the connecting pipe (2) is fixedly connected with the bottom of the right end of the metering pump (3), the top of the metering pump (3) is in conduction connection with the bottom of the right end of the discharging frame (6), a turbine rod (4) is arranged in the discharging frame (6), the left end of the turbine rod (4) is fixedly connected with the right end of a rotating shaft of the motor (5) through a coupler, a frequency converter group (10), a controller (11) and a power regulator group (12) are arranged on a control panel at the top of the right end of the discharging frame (6), the top of the left end of the discharging frame (6) is in conduction connection with the bottom of the melting chamber (7), heaters (8) are arranged in the two ends of the melting chamber (7), a temperature sensor (9) is arranged on the inner side of the top of the right end of the melting chamber (7), the tops of the left inner pipe (101) and the right inner pipe (103) are fixedly connected with the bottoms of the two ends of the multi-head connecting pipe (20), the top of the multi-head connecting pipe (20) is in conduction connection with the bottom of the second metering pump (19), second measuring pump (19) top and second ejection of compact frame (17) left end bottom turn-on connection, second turbine pole (13) are equipped with to second ejection of compact frame (17) inside, second turbine pole (13) right-hand member passes through shaft coupling and second motor (18) pivot left end fixed connection, second ejection of compact frame (17) right-hand member top and second melt room (14) bottom turn-on connection, the second melts room (14) both ends inside and is equipped with second heater (16), the second melts room (14) left end top inboard and second temperature sensor (15) top fixed connection.

2. The novel composite fiber production material rapid mixing device is characterized in that: the control circuit of the frequency converter group (10) is connected with the controller (11), and the control circuit of the power regulator group (12) is connected with the controller (11).

3. The novel composite fiber production material rapid mixing device is characterized in that: the motor (5), the metering pump (3), the second metering pump (19) and the second motor (18) are respectively connected to corresponding frequency converters in the frequency converter group (10) through lines.

4. The novel composite fiber production material rapid mixing device is characterized in that: the heater (8) and the second heater (16) are respectively connected to corresponding power regulators in the power regulator group (12) through lines.

5. The novel composite fiber production material rapid mixing device is characterized in that: and data lines of the temperature sensor (9) and the second temperature sensor (15) are both connected with the controller (11).

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