CN109250899B - Glass fiber phi 161 two-part drawing large-coil heavy direct yarn wire drawing machine - Google Patents

Abstract

The invention relates to a glass fiber phi 161 two-part large-coil-weight direct yarn drawing machine, which comprises a frame (1), a yarn forming mechanism (2), a transverse moving part (3), a yarn blocking part (4), a cylinder changing spray water pipe (5) and a high-pressure impeller cleaning water pipe (6), wherein the yarn forming mechanism (2) is arranged on the frame; the yarn blocking part (4), the transverse moving part (3) and the yarn forming mechanism (2) are sequentially distributed on the frame (1) from top to bottom, so that the invention has the advantages of high production efficiency, stable product quality and yield, long service life and obvious technical advantages in domestic and foreign glass fiber chopping equipment. The novel large-volume heavy direct yarn drawing machine can enable enterprises to adapt to changes and demands of markets at any time, and has wide market prospects.

Description

Glass fiber phi 161 two-part drawing large-coil heavy direct yarn wire drawing machine

Technical Field

The invention relates to a direct yarn drawing machine for drawing large-volume heavy-duty glass fiber phi 161 in two-division mode.

Background

The glass fiber drawing machine is one kind of high speed mechanical equipment for drawing glass melt into fiber form and winding the fiber into fiber roll. The drawing machines may be classified into a direct yarn drawing machine and a ply yarn drawing machine according to the desired glass fiber products.

At present, manufacturers need to produce yarns with longer total length according to market demands, so that the diameter of a spinning cake needs to be larger, the winding weight is also increased greatly, the existing wire drawing machine cannot meet the demands, and therefore a novel wire drawing machine is needed to meet the production demands.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a glass fiber phi 161 two-part drawing large-roll heavy direct yarn wire drawing machine, which has the following technical scheme:

the glass fiber phi 161 two-part large-winding-weight direct yarn drawing machine comprises a frame (1), a yarn forming mechanism (2), a transverse moving part (3), a yarn blocking part (4), a cylinder changing spray water pipe (5) and a high-pressure impeller cleaning water pipe (6) which are arranged on the frame; the yarn blocking part assembly (4), the transverse moving part assembly (3) and the yarn forming mechanism (2) are sequentially distributed on the frame (1) from top to bottom; the cylinder changing spray water pipe (5) and the high-pressure impeller cleaning water pipe (6) are adjacently arranged and are all arranged on one side of the upper part of the frame (1) through fixing blocks.

The yarn forming mechanism (2) is a direct yarn forming mechanism and comprises a main shaft part (2-1), an impeller part (2-2) and a groove cylinder part (2-3), wherein the main shaft part is rotatably arranged on a frame (1), the front end of the main shaft part (2-1) is provided with the impeller part (2-2), the rear end of the main shaft part is in transmission connection with a turnover part (2-4) arranged on the frame, the groove cylinder part (2-3) is adjacently arranged with the impeller part, and the tail part of the groove cylinder part (2-3) is connected with a transverse moving part (3) through a flange.

The main shaft part comprises a main shaft (2-1-1), a shaft core barrel (2-1-2), a servo motor (2-1-4) and a connecting seat (2-1-3), one end of the main shaft (2-1-1) extends into the shaft core barrel and is rotatably arranged on the shaft core barrel (2-1-2) through a bearing, and the main shaft and the shaft core barrel (2-1-2) are coaxially arranged; the shaft core barrel (2-1-2) is rotatably arranged on the frame through a turntable; one side of the connecting seat (2-1-3) is connected with one end of the shaft core barrel (2-1-2) through a bolt, and the other side of the connecting seat is provided with a servo motor (2-1-4) through a bolt; the main shaft (2-1-1) is coaxially connected with the servo motor (2-1-4) in a transmission manner.

The impeller part (2-2) comprises an impeller main body (2-2-1), a rear taper sleeve (2-2-2), a front taper sleeve (2-2-3), an expanding strip (2-2-4) and a wire winding ring (2-2-5); the impeller main body (2-2-1) is sleeved on the main shaft (2-1-1); the rear end of the impeller main body (2-2-1) is provided with the rear taper sleeve (2-2-2), the front end of the impeller main body is slidably provided with the front taper sleeve (2-2-3), a sealing space is formed between the front taper sleeve (2-2-3) and the main shaft (2-2-1), a compression spring is arranged in the sealing space, one end of the compression spring is connected to the front taper sleeve (2-2-3), the other end of the compression spring is connected to the main shaft, the expansion strip (2-2-4) is arranged in a T-shaped groove on the outer surface of the impeller main body (2-2-1) in a lifting manner, the front end of the expansion strip is slidably matched with the front taper sleeve (2-2-3), and the rear end of the expansion strip is slidably matched with the rear taper sleeve (2-2-2), and the front taper sleeve (2-2-3) is driven to lift and descend when sliding forwards and backwards; the wire winding ring (2-2-5) is arranged at the front end of the front taper sleeve (2-2-3).

The groove drum part (2-3) comprises a transmission case (2-3-1), a groove drum shaft (2-3-2), a wire arranging case (2-3-3), a driven belt pulley (2-3-4), a tension pulley (2-3-5) and a wire arranging shuttle (2-3-6), wherein the transmission case (2-3-1) is fixedly connected with a flange arranged on the transverse moving part, the wire arranging case (2-3-3) is fixedly arranged on one side of the transmission case (2-3-1), and the groove drum shaft (2-3-2) is rotatably arranged on the wire arranging case (2-3-3); the driven belt wheel (2-3-4) is arranged on the groove cylinder shaft (2-3-2), is in transmission connection with the driving belt wheel of the transverse moving part (3) through a synchronous belt, and the tensioning wheel (2-3-5) is arranged in the transmission case (2-3-1) and is tightly pressed on the synchronous belt; a flat shuttle (2-3-6) is arranged in the spiral groove of the groove cylinder shaft (2-3-2).

The transverse moving part assembly (3) comprises a hanging bent plate (3-1), a transverse moving plate (3-2) and a transverse moving shaft assembly (3-3), wherein the hanging bent plate (3-1) is fixedly arranged on the frame (1), the transverse moving plate (3-2) is arranged at the bottom of the hanging bent plate (3-1) in a sliding mode, the transverse moving shaft assembly (3-3) is fixedly arranged on the transverse moving plate, a first servo motor (3-4) and a transverse moving screw (3-5) connected with the first servo motor (3-4) through a synchronous belt transmission are arranged on the upper portion of the hanging bent plate, the first servo motor (3-4) is arranged on the hanging bent plate through a first servo motor mounting seat (3-6), a connecting block (3-7) is arranged on the transverse moving screw (3-5), and the connecting block (3-7) is fixedly connected with the plate (3-2).

The transverse moving shaft assembly (3-3) comprises a transverse moving tube (3-3-1), a transmission shaft (3-3-2), a driving belt pulley (3-3-3) and a clamping block (3-3-4), wherein the transverse moving tube (3-3-1) is connected with the transverse moving plate (3-2) through the two clamping blocks (3-3-4), the transmission shaft (3-3-2) is rotatably arranged in the transverse moving tube (3-3-1) and is coaxially arranged with the transverse moving tube (3-3-1), one end of the transmission shaft (3-3-2) extends out of the transverse moving tube and is in transmission connection with a motor shaft of the second servo motor (3-3-5), and the driving belt pulley (3-3) is arranged after the other end of the transmission shaft extends out of the transverse moving tube, and the transverse moving tube (3-3-1) moves transversely along with the transverse moving plate (3-2); a flange plate connected with the transmission case (2-3-1) is arranged on the traversing tube (3-3-1) near one end of the driving belt wheel.

The wire blocking part (4) is used for pushing the wire bundles to the position of the wire winding ring (2-2-5) and comprises a supporting seat (4-1), a wire blocking cylinder (4-2), a wire blocking rod (4-3) and a wire blocking plate (4-4), wherein the wire blocking cylinder (4-2) is fixed on the frame (1) through the supporting seat (4-1); the screw blocking rod (4-3) is fixedly connected to the sliding block of the screw blocking cylinder (4-2), and the sliding block of the screw blocking cylinder (4-2) drives the screw blocking rod (4-3) to move forwards and backwards; the silk baffle plate (4-4) is fixed at the front end of the silk baffle rod (4-3).

The invention has the advantages that:

1. the device realizes the small-diameter and large-coil weight, and the spinning cake drawn by the phi 161-diameter machine head can reach 40kg; the handpiece is non-resonant in the full speed segment (up to 4500 rpm).

2. The integrated frame is adopted, so that the integrated frame is firm and durable, and the appearance is attractive and elegant.

3. The spare high-pressure impeller cleaning water pipe is arranged, so that the spare impeller can be cleaned at any time, the impeller disassembly cleaning times are reduced, and the labor capacity of maintenance workers is reduced.

The invention has high production efficiency, stable product quality and yield, long service life and obvious technical advantages in domestic and foreign glass fiber chopping equipment. The novel large-volume heavy direct yarn drawing machine can enable enterprises to adapt to changes and demands of markets at any time, and has wide market prospects.

Drawings

Fig. 1 is a schematic main structure of an embodiment of the present invention.

Fig. 2 is a schematic diagram of a spindle configuration.

Fig. 3 is a schematic view of the impeller assembly structure.

Fig. 4 is a schematic diagram of the structure of the grooved drum assembly.

Fig. 5 is a cross-sectional view A-A of fig. 4.

Fig. 6 is a schematic view of the structure of the traverse unit.

Fig. 7 is a schematic view of the structure of the wire blocking unit.

Detailed Description

The invention will be further described with reference to specific embodiments, and advantages and features of the invention will become apparent from the description. These examples are merely exemplary and do not limit the scope of the invention in any way. It will be understood by those skilled in the art that various changes and substitutions of details and forms of the technical solution of the present invention may be made without departing from the spirit and scope of the present invention, but these changes and substitutions fall within the scope of the present invention.

Referring to fig. 1 to 7, the invention relates to a glass fiber phi 161 two-part large-volume heavy direct yarn drawing machine, which comprises a frame 1, a yarn forming mechanism 2, a traversing part 3, a yarn blocking part 4, a cylinder changing spray water pipe 5 and a high-pressure impeller cleaning water pipe 6, wherein the yarn forming mechanism 2, the traversing part 3, the yarn blocking part 4, the cylinder changing spray water pipe 6 are arranged on the frame; the yarn blocking part assembly 4, the transverse moving part assembly 3 and the yarn forming mechanism 2 are sequentially distributed on the frame 1 from top to bottom; the cylinder changing spray water pipe 5 and the high-pressure impeller cleaning water pipe 6 are adjacently arranged and are all arranged on one side of the upper part of the frame 1 through fixing blocks.

The yarn forming mechanism 2 is a forming mechanism for direct yarn forming and comprises a main shaft part 2-1, an impeller part 2-2 and a groove cylinder part 2-3, wherein the main shaft part is rotatably arranged on the frame 1, the impeller part 2-2 is arranged at the front end of the main shaft part 2-1, the rear end of the main shaft part 2-1 is in transmission connection with a turnover part 2-4 arranged on the frame, the groove cylinder part 2-3 is adjacently arranged with the impeller part, and the tail part of the groove cylinder part 2-3 is connected with a transverse moving part 3 through a flange.

The main shaft part comprises a main shaft 2-1-1, a shaft core barrel 2-1-2, a servo motor 2-1-4 and a connecting seat 2-1-3, wherein one end of the main shaft 2-1-1 extends into the shaft core barrel and is rotatably arranged on the shaft core barrel 2-1-2 through a bearing, and the main shaft and the shaft core barrel 2-1-2 are coaxially arranged; the shaft core barrel 2-1-2 is rotatably arranged on the frame through a turntable; one side of the connecting seat 2-1-3 is connected with one end of the shaft core barrel 2-1-2 through a bolt, and the other side of the connecting seat is provided with a servo motor 2-1-4 through a bolt; the main shaft 2-1-1 is connected with the servo motor 2-1-4 in a coaxial transmission manner.

The impeller part 2-2 comprises an impeller main body 2-2-1, a rear taper sleeve 2-2-2, a front taper sleeve 2-2-3, an expansion strip 2-2-4 and a wire winding ring 2-2-5; the impeller main body 2-2-1 is sleeved on the main shaft 2-1-1; the rear end of the impeller main body 2-2-1 is provided with the rear taper sleeve 2-2, the front end of the impeller main body is slidably provided with the front taper sleeve 2-2-3, a sealed space is formed between the front taper sleeve 2-2-3 and the main shaft 2-2-1, the front taper sleeve is driven to slide by inflating the sealed space, a compression spring is arranged in the sealed space, one end of the compression spring is connected to the front taper sleeve 2-2-3, the other end of the compression spring is connected to the main shaft, the expansion strip 2-2-4 is arranged in a T-shaped groove on the outer surface of the impeller main body 2-2-1 in a lifting manner, the front end of the expansion strip is slidably matched with the front taper sleeve 2-2-3, and the rear end of the expansion strip is slidably matched with the rear taper sleeve 2-2-2, and the front taper sleeve 2-3 is driven to lift and descend when being slid forwards and backwards; the wire winding ring 2-2-5 is arranged at the front end of the front taper sleeve 2-2-3.

The groove drum part assembly 2-3 comprises a transmission case 2-3-1, a groove drum shaft 2-3-2, a wire arranging case 2-3-3, a driven belt pulley 2-3-4, a tension pulley 2-3-5 and a wire arranging shuttle 2-3-6, wherein the transmission case 2-3-1 is fixedly connected with a flange arranged on the transverse moving part, the wire arranging case 2-3-3 is fixedly arranged on one side of the transmission case 2-3-1, and the groove drum shaft 2-3-2 is rotatably arranged on the wire arranging case 2-3-3; the driven belt wheel 2-3-4 is arranged on the groove cylinder shaft 2-3-2 and is in transmission connection with the driving belt wheel of the transverse moving part 3 through a synchronous belt, and the tensioning wheel 2-3-5 is arranged in the transmission case 2-3-1 and is tightly pressed on the synchronous belt; the spiral groove of the groove cylinder shaft 2-3-2 is internally provided with a flat shuttle 2-3-6.

The transverse moving part assembly 3 comprises a hanging bent plate 3-1, a transverse moving plate 3-2 and a transverse moving shaft assembly 3-3, wherein the hanging bent plate 3-1 is fixedly arranged on the frame 1, the transverse moving plate 3-2 is slidably arranged at the bottom of the hanging bent plate 3-1, the transverse moving shaft assembly 3-3 is fixedly arranged on the transverse moving plate, a first servo motor 3-4 and a transverse moving screw rod 3-5 connected with the first servo motor 3-4 through a synchronous belt transmission are arranged on the upper portion of the hanging bent plate, the first servo motor 3-4 is arranged on the hanging bent plate through a first servo motor mounting seat 3-6, a connecting block 3-7 is arranged on the transverse moving screw rod 3-5, and the connecting block 3-7 is fixedly connected with the transverse moving plate 3-2.

The transverse moving shaft assembly 3-3 comprises a transverse moving tube 3-3-1, a transmission shaft 3-3-2 and a driving pulley 3-3 clamping block 3-3-4, the transverse moving tube 3-3-1 is connected with a transverse moving plate 3-2 through the two clamping blocks 3-3-4, the transmission shaft 3-3-2 is rotatably arranged in the transverse moving tube 3-3-1 and is coaxially arranged with the transverse moving tube 3-1, one end of the transmission shaft 3-3-2 extends out of the transverse moving tube and is in transmission connection with a motor shaft of a second servo motor 3-3-5, the other end of the transmission shaft extends out of the transverse moving tube and is provided with the driving pulley 3-3, and the transverse moving tube 3-3-1 moves transversely along with the transverse moving plate 3-2; a flange plate connected with the transmission case 2-3-1 is arranged on the traversing tube 3-3-1 near one end of the driving pulley.

The wire blocking part 4 is used for pushing the wire bundles to the position of the wire winding ring 2-2-5 and comprises a supporting seat 4-1, a wire blocking cylinder 4-2, a wire blocking rod 4-3 and a wire blocking plate 4-4, wherein the wire blocking cylinder 4-2 is fixed on the frame 1 through the supporting seat 4-1; the screw blocking rod 4-3 is fixedly connected to a sliding block of the screw blocking cylinder 4-2, and the sliding block of the screw blocking cylinder 4-2 drives the screw blocking rod 4-3 to move back and forth; the wire baffle plate 4-4 is fixed at the front end of the wire baffle rod 4-3.

The operation principle of the two-division large-volume heavy direct yarn wire drawing machine is as follows:

after the glass fiber comes out from the previous working procedure, the glass fiber is wound on a yarn winding ring arranged on the impeller part along a yarn blocking plate of a yarn blocking mechanism, when the rotating speed of a main shaft reaches a specified rotating speed, a yarn blocking cylinder drives the yarn blocking plate to retract, the glass fiber bundles are uniformly wound on the impeller part, a groove drum mechanism is driven by a transverse moving part to rapidly close to the impeller part, at the moment, a yarn arranging shuttle is driven by a groove drum shaft to reciprocate, the glass fiber bundles touch the reciprocating yarn arranging shuttle and slide into a long groove of the yarn arranging shuttle due to the tension, and the yarn arranging shuttle drives reciprocating yarn arranging.

Claims (4)

1. The glass fiber phi 161 two-part large-winding-weight direct yarn drawing machine is characterized by comprising a frame (1), a yarn forming mechanism (2), a transverse moving part (3), a yarn blocking part (4), a cylinder changing spray water pipe (5) and a high-pressure impeller cleaning water pipe (6), wherein the yarn blocking part (4), the transverse moving part (3) and the yarn forming mechanism (2) are sequentially distributed on the frame (1) from top to bottom; the cylinder changing spray water pipe (5) and the high-pressure impeller cleaning water pipe (6) are adjacently arranged and are all arranged on one side of the upper part of the frame (1) through a fixed block;

the yarn forming mechanism (2) is a direct yarn forming mechanism and comprises a main shaft part (2-1), an impeller part (2-2) and a groove cylinder part (2-3), wherein the main shaft part is rotatably arranged on a frame (1), the front end of the main shaft part (2-1) is provided with the impeller part (2-2), the rear end of the main shaft part is in transmission connection with a turnover part (2-4) arranged on the frame, the groove cylinder part (2-3) is adjacently arranged with the impeller part, and the tail part of the groove cylinder part (2-3) is connected with a transverse moving part (3) through a flange;

the main shaft part comprises a main shaft (2-1-1), a shaft core barrel (2-1-2), a servo motor (2-1-4) and a connecting seat (2-1-3), one end of the main shaft (2-1-1) extends into the shaft core barrel and is rotatably arranged on the shaft core barrel (2-1-2) through a bearing, and the main shaft and the shaft core barrel (2-1-2) are coaxially arranged; the shaft core barrel (2-1-2) is rotatably arranged on the frame through a turntable; one side of the connecting seat (2-1-3) is connected with one end of the shaft core barrel (2-1-2) through a bolt, and the other side of the connecting seat is provided with a servo motor (2-1-4) through a bolt; the main shaft (2-1-1) is coaxially connected with the servo motor (2-1-4) in a transmission manner;

the impeller part (2-2) comprises an impeller main body (2-2-1), a rear taper sleeve (2-2-2), a front taper sleeve (2-2-3), an expanding strip (2-2-4) and a wire winding ring (2-2-5); the impeller main body (2-2-1) is sleeved on the main shaft (2-1-1); the rear end of the impeller main body (2-2-1) is provided with the rear taper sleeve (2-2-2), the front end of the impeller main body is slidably provided with the front taper sleeve (2-2-3), a sealing space is formed between the front taper sleeve (2-2-3) and the main shaft (2-1-1), a compression spring is arranged in the sealing space, one end of the compression spring is connected to the front taper sleeve (2-2-3), the other end of the compression spring is connected to the main shaft, the expansion strip (2-2-4) is arranged in a T-shaped groove on the outer surface of the impeller main body (2-2-1) in a lifting manner, the front end of the expansion strip is slidably matched with the front taper sleeve (2-2-3), and the rear end of the expansion strip is slidably matched with the rear taper sleeve (2-2-2), and the front taper sleeve (2-2-3) is driven to lift and descend when sliding forwards and backwards; the wire winding ring (2-2-5) is arranged at the front end of the front taper sleeve (2-2-3);

the groove drum part (2-3) comprises a transmission case (2-3-1), a groove drum shaft (2-3-2), a wire arranging case (2-3-3), a driven belt pulley (2-3-4), a tension pulley (2-3-5) and a wire arranging shuttle (2-3-6), wherein the transmission case (2-3-1) is fixedly connected with a flange arranged on the transverse moving part, the wire arranging case (2-3-3) is fixedly arranged on one side of the transmission case (2-3-1), and the groove drum shaft (2-3-2) is rotatably arranged on the wire arranging case (2-3-3); the driven belt wheel (2-3-4) is arranged on the groove cylinder shaft (2-3-2), is in transmission connection with the driving belt wheel of the transverse moving part (3) through a synchronous belt, and the tensioning wheel (2-3-5) is arranged in the transmission case (2-3-1) and is tightly pressed on the synchronous belt; a flat shuttle (2-3-6) is arranged in the spiral groove of the groove cylinder shaft (2-3-2).

2. The large-roll-weight direct yarn drawing machine for glass fiber phi 161 according to claim 1, wherein the transverse moving part (3) comprises a suspension bent plate (3-1), a transverse moving plate (3-2) and a transverse moving shaft (3-3), the suspension bent plate (3-1) is fixedly arranged on the frame (1), a transverse moving plate (3-2) is arranged at the bottom of the suspension bent plate (3-1) in a sliding manner, the transverse moving shaft (3-3) is fixedly arranged on the transverse moving plate, a first servo motor (3-4) and a transverse moving screw (3-5) connected with the first servo motor (3-4) through a synchronous belt transmission are arranged at the upper part of the suspension bent plate, the first servo motor (3-4) is transversely arranged on the suspension bent plate through a first servo motor mounting seat (3-6), a connecting block (3-7) is arranged on the transverse moving screw (3-5), and the connecting block (3-7) is fixedly connected with the plate (3-2).

3. The glass fiber phi 161 two-part large-winding direct yarn drawing machine according to claim 2, wherein the transverse moving shaft assembly (3-3) comprises a transverse moving tube (3-3-1), a transmission shaft (3-3-2), a driving belt wheel (3-3-3) and a clamping block (3-3-4), the transverse moving tube (3-3-1) is connected with the transverse moving plate (3-2) through the two clamping blocks (3-3-4), the transmission shaft (3-3-2) is rotatably arranged inside the transverse moving tube (3-3-1) and is coaxially arranged with the transverse moving tube (3-3-1), one end of the transmission shaft (3-3-2) extends out of the transverse moving tube and then is in transmission connection with a motor shaft of the second servo motor (3-3-5), the other end of the transmission shaft extends out of the transverse moving tube and then is provided with the driving belt wheel (3-3-3), and the transverse moving tube (3-3-1) moves transversely along with the transverse moving plate (3-2); a flange plate connected with the transmission case (2-3-1) is arranged on the traversing tube (3-3-1) near one end of the driving belt wheel.

4. The direct fiber glass phi 161 two-part large-winding-weight yarn drawing machine according to claim 1, wherein the yarn blocking part (4) is used for pushing a yarn bundle to a position of a yarn winding ring (2-2-5) and comprises a supporting seat (4-1), a yarn blocking cylinder (4-2), a yarn blocking rod (4-3) and a yarn blocking plate (4-4), and the yarn blocking cylinder (4-2) is fixed on a frame (1) through the supporting seat (4-1); the screw blocking rod (4-3) is fixedly connected to the sliding block of the screw blocking cylinder (4-2), and the sliding block of the screw blocking cylinder (4-2) drives the screw blocking rod (4-3) to move forwards and backwards; the silk baffle plate (4-4) is fixed at the front end of the silk baffle rod (4-3).