CN115025525A

CN115025525A - High-efficient discharging equipment of waste rubber for fiber manufacturing

Info

Publication number: CN115025525A
Application number: CN202210527337.2A
Authority: CN
Inventors: 谢朝阳
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-09-09

Abstract

The invention relates to a waste rubber discharge device, in particular to a high-efficiency waste rubber discharge device for the fiber manufacturing industry. The invention provides a waste rubber high-efficiency discharge device for fiber manufacturing industry, which can realize automatic fishing of cooled waste rubber and automatic control of the flow speed of the melted waste rubber. A high-efficient discharging equipment of scrap rubber for fiber manufacturing industry includes: the top of each support leg is provided with a frame body; the upper part of the frame body is provided with the mounting frame; the middle of the upper part of the mounting frame is provided with a feeding pipeline; the first support is arranged on the upper portion of the frame body and connected with the feeding pipeline. According to the invention, the waste glue can be uniformly scattered in the frame body through the discharge pipe, and the waste glue is contacted with cold water, so that the waste glue is cooled by water, the waste glue is prevented from being bonded together, and the water cooling effect of the waste glue is realized.

Description

High-efficient discharging equipment of waste rubber for fiber manufacturing

Technical Field

The invention relates to a waste rubber discharge device, in particular to a high-efficiency waste rubber discharge device for fiber manufacturing industry.

Background

At fiber manufacturing waste rubber discharge in-process, former waste rubber discharge system does not lead to, discharged waste rubber can not in time meet water cooling and produce the bonding, extremely influence waste rubber recovery solvent work of handling on next step, when the adhesive tape was discharged from the mouth of arranging glue, directly enter into the waste rubber collecting pit, because adhesive tape temperature height and adhesive tape are perpendicular continuous entering a position in collecting pit, and lead to the adhesive tape can not in time cool down the condensation, thereby the direction that the adhesive tape discharged can not change piles up and produces the adhesion and become the bold and the crystallization, should not fish for and retrieve when leading to retrieving waste rubber so far.

Traditional cull discharge mode, it heats the cull to the molten condition through the workman, the workman pours cold water in the cask afterwards, the back is poured into to cold water, the workman pours the cull after heating in the cask again, make cull and cold water mix together, prevent the cull bonding, the back is accomplished in the cull cooling, the workman drags for with the help of the instrument to the cull after the cooling again, the work task of workman has been increased, the physical power of workman has been accelerated to be consumed simultaneously, and the flow of the cull after the workman's uncontrollable melting, cause the material extravagant easily.

Therefore, the efficient waste glue discharging device for the fiber manufacturing industry is designed to realize automatic fishing of cooled waste glue and automatic control of the flow speed of the melted waste glue.

Disclosure of Invention

In order to overcome the defects that the traditional waste rubber discharging device can not automatically fish the cooled waste rubber and can not automatically control the flow speed of the melted waste rubber, the invention provides the waste rubber efficient discharging device for the fiber manufacturing industry, which can realize the automatic fishing of the cooled waste rubber and the automatic control of the flow speed of the melted waste rubber.

The invention is realized in this way, a high-efficient discharging equipment of waste glue for fiber manufacturing industry, including: stabilizer blade, framework, installing frame, charge-in pipeline, first support, valve, discharging pipe, actuating mechanism and clearance mechanism, the stabilizer blade top is equipped with the framework, framework upper portion is equipped with the installing frame, is equipped with charge-in pipeline in the middle of the installing frame upper portion, framework upper portion is equipped with first support, and first support is connected with charge-in pipeline, and charge-in pipeline middle part rotary type is equipped with the valve, and charge-in pipeline downside rotary type is equipped with the discharging pipe, and framework upper portion is equipped with actuating mechanism, the inside clearance mechanism that is equipped with of framework.

As a preferred aspect of the present invention, the drive mechanism includes: a second support is arranged on the upper portion of the frame body, a motor is installed on the inner side of the second support, a rotating shaft is arranged on an output shaft of the motor, a first small bevel gear is arranged on the rotating shaft, and a large bevel gear is arranged on the upper side of the discharging pipe.

As a preferable technical solution of the present invention, the cleaning mechanism includes: the inside both sides of framework all are equipped with the slide bar, and slidingtype is connected with the filter screen between two slide bars, and two slide bar downside all are around having first spring, and first spring both ends are connected with slide bar and filter screen respectively, and framework upper portion is equipped with the slide rail, and slide rail middle part slidingtype is equipped with first screens piece, and both sides all are around having the second spring on the first screens piece, and the second spring both ends are connected with slide rail and first screens piece respectively.

As a preferable technical solution of the present invention, the present invention further includes a pulling mechanism, the pulling mechanism including: be equipped with the roating seat on the first support, the last rotation type of roating seat is equipped with first rotatory piece, and the pivot middle part is equipped with the stirring piece, and first rotatory piece outside slidingtype is equipped with the wedge, is equipped with the reel in the pivot, is connected with two third springs between first rotatory piece and the wedge, and the filter screen top is equipped with the connecting block, is connected with the stay cord between connecting block and the reel.

As a preferable aspect of the present invention, the valve opening device further includes a valve opening mechanism including: the first rotatory piece outside is equipped with the lug, and charge-in pipeline upper portion is equipped with the sliding sleeve, and the sliding type is equipped with second screens piece on the sliding sleeve, and second screens piece upper portion is equipped with the contact piece, is equipped with the cam in the pivot, and charge-in pipeline middle part rotary type is equipped with the rotatory piece of second, and the rotatory piece of second is connected with the valve, around there being torque spring on the rotatory piece of second, and the torque spring both ends are connected with the rotatory piece of second and charge-in pipeline respectively, are connected with the fourth spring between sliding sleeve and the second screens piece.

As a preferred technical scheme of the invention, the device also comprises an air blowing mechanism, wherein the air blowing mechanism comprises: feed pipeline upper portion is equipped with the third support, and both sides all are equipped with the squeeze box on the third support, and slidingtype connection has the stripper bar between two stripper box inboards, and both sides all are around there being the fifth spring on the stripper bar, and the fifth spring both ends are connected with stripper box and stripper bar respectively, and two stripper box outside middle parts all are equipped with the intake pipe, and the intake pipe is connected with the installing frame, and the intake pipe is connected with the framework.

As a preferable technical solution of the present invention, the present invention further includes a swing mechanism, the swing mechanism including: the first support is provided with a fourth support, the top of the fourth support is provided with a fifth support, the middle of the fourth support is rotatably provided with a disc, the middle of the fifth support is rotatably provided with a swing rod, the swing rod is connected with the disc in a sliding manner, the swing rod is connected with the extrusion rod in a sliding manner, and the disc is provided with a second bevel pinion.

In a preferred embodiment of the present invention, the housing is used for containing cold water.

The invention provides a high-efficiency waste glue discharging device for fiber manufacturing industry, which has the following beneficial effects:

1. according to the invention, the waste rubber can be uniformly sprinkled in the frame body through the discharge pipe, and the waste rubber is contacted with cold water, so that the waste rubber is cooled by water, the waste rubber is prevented from being bonded together, and the water cooling effect of the waste rubber is realized;

2. when the filter screen moves downwards to be in contact with the first clamping block, the first clamping block is used for clamping the filter screen, so that a user can conveniently treat the water-cooled waste glue, and the effect of clamping the filter screen by the first clamping block is realized;

3. according to the invention, the oscillating rod drives the extrusion rod to move, so that cold water in the frame body is impacted by airflow generated by the extrusion rod, thus the working steps of manually operating the extrusion rod by a user are saved, and the effect of automatically impacting the cold water by the airflow is realized;

4. during the air current that extrudes as the stripper bar flowed into the framework through the intake pipe on right side, through the side-to-side motion of stripper bar, the air current that produces impacted the cold water in the framework to stir the scrap rubber, realize the air current stirring scrap rubber effect.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a perspective view of a third part of the present invention.

Fig. 5 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 6 is a schematic perspective view of the cleaning mechanism of the present invention.

Fig. 7 is a schematic perspective view of a part of the cleaning mechanism of the present invention.

Fig. 8 is a schematic perspective view of a first pulling mechanism according to the present invention.

Fig. 9 is a perspective view of a first portion of the pulling mechanism of the present invention.

Fig. 10 is a perspective view of a second portion of the pulling mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second pulling mechanism according to the present invention.

Fig. 12 is a perspective view of the valve opening mechanism of the present invention.

Fig. 13 is a schematic perspective view of a valve opening mechanism according to the present invention.

FIG. 14 is a perspective view of the blowing mechanism of the present invention.

FIG. 15 is a schematic perspective view of a portion of the blowing mechanism of the present invention.

Fig. 16 is a schematic perspective view of the swing mechanism of the present invention.

Labeled in the figure as: 1-foot, 2-frame, 3-mounting frame, 4-feed line, 5-first support, 6-valve, 7-discharge pipe, 8-drive mechanism, 81-second support, 82-motor, 83-spindle, 84-first bevel pinion, 85-bevel pinion, 9-cleaning mechanism, 91-slide bar, 92-filter screen, 93-slide rail, 94-first catch block, 95-first spring, 96-second spring, 10-pulling mechanism, 101-rotary seat, 102-first rotary block, 103-toggle block, 104-wedge block, 105-reel, 106-pull rope, 107-third spring, 108-connecting block, 11-valve-opening mechanism, 111-slide sleeve, 112-a second clamping block, 113-a contact block, 114-a cam, 115-a second rotating block, 116-a torsion spring, 117-a bump, 118-a fourth spring, 12-an air blowing mechanism, 121-a third support, 122-an extrusion box, 123-an extrusion rod, 124-a fifth spring, 125-an air inlet pipe, 13-a swinging mechanism, 131-a fourth support, 132-a fifth support, 133-a disc, 134-a swinging rod and 135-a second bevel pinion.

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 invention and are not intended to limit the invention.

Referring to fig. 1 to fig. 16, the present invention provides a technical solution: the utility model provides a high-efficient discharging equipment of scrap rubber for fiber manufacturing industry, including stabilizer blade 1, framework 2, the installing frame 3, charge-in pipeline 4, first support 5, valve 6, discharging pipe 7, actuating mechanism 8 and clearance mechanism 9, the fixed framework 2 that is equipped with in 1 top of stabilizer blade, the welding of 2 upper portions of framework has installing frame 3, be equipped with charge-in pipeline 4 in the middle of the 3 upper portions of installing frame, 4 front side middle part rotary types of charge-in pipeline are equipped with valve 6, 2 rear side upper portions of framework are equipped with first support 5, first support 5 is connected with charge-in

pipeline

4, 2 rear side upper portions of framework are equipped with

actuating mechanism

8, 4 downside rotary types of charge-in pipeline are equipped with discharging

pipe

7, 2 inside clearance mechanisms 9 that are equipped with of framework.

The driving mechanism 8 comprises a second support 81, a motor 82, a rotating shaft 83, a first small bevel gear 84 and a large bevel gear 85, the second support 81 is welded to the upper portion of the rear side of the frame body 2, the motor 82 is fixedly mounted on the inner side of the second support 81 through bolts, the rotating shaft 83 is arranged at the front end of an output shaft of the motor 82, the first small bevel gear 84 is fixedly arranged on the front side of the rotating shaft 83, the large bevel gear 85 is arranged on the upper side of the discharge pipe 7, and the large bevel gear 85 is matched with the first small bevel gear 84.

Clearance mechanism 9 is including slide bar 91, filter screen 92, slide rail 93, first screens piece 94, first spring 95 and second spring 96, slide bar 91 has all been welded to the inside left and right sides of framework 2, slidingly be connected with between two slide bar 91 subs and be used for salvaging the filter screen 92 who transports the waste rubber, two slide bar 91 subs all around having first spring 95, first spring 95 is located the filter screen 92 downside, first spring 95 both ends are connected with slide bar 91 and filter screen 92 respectively, framework 2 right side upper portion is equipped with slide rail 93, slide rail 93 middle part slidingtype is equipped with first screens piece 94, first screens piece 94 and filter screen 92 cooperation, first screens piece 94 both sides are all around having second spring 96 around both sides, second spring 96 both ends are connected with slide rail 93 and first screens piece 94 respectively.

Still including pulling mechanism 10, pulling mechanism 10 is including swivel mount 101, first rotating block 102, toggle block 103, wedge 104, reel 105, stay cord 106, third spring 107 and connecting block 108, first support 5 rear side welded swivel mount 101, pivot 83 middle part is equipped with toggle block 103, swivel mount 101 rear side rotation type is equipped with first rotating block 102, first rotating block 102 outside slidingtype is equipped with wedge 104, wedge 104 and toggle block 103 cooperation, be connected with two third springs 107 between first rotating block 102 and the wedge 104, pivot 83 rear side is equipped with reel 105, filter screen 92 top rear side is equipped with connecting block 108, be connected with stay cord 106 between connecting block 108 and the reel 105.

The valve opening mechanism 11 is also included, the valve opening mechanism 11 comprises a sliding sleeve 111, a second clamping block 112, a contact block 113 and a cam 114, the second rotating block 115, the torsion spring 116, the bump 117 and the fourth spring 118 are arranged on the outer side of the first rotating block 102, the sliding sleeve 111 is fixedly arranged on the rear side of the upper portion of the feeding pipeline 4, the second clamping block 112 is slidably arranged on the rear side of the sliding sleeve 111, the cam 114 is arranged on the rotating shaft 83, the contact block 113 is arranged on the upper portion of the rear side of the second clamping block 112, the contact block 113 is matched with the bump 117, the second rotating block 115 is rotatably arranged in the middle of the rear side of the feeding pipeline 4, the second rotating block 115 is connected with the valve 6, the second rotating block 115 is matched with the second clamping block 112, the second rotating block 115 is matched with the cam 114, the torsion spring 116 is wound on the front side of the second rotating block 115, two ends of the torsion spring 116 are respectively connected with the second rotating block 115 and the feeding pipeline 4, and the fourth spring 118 is connected between the top of the rear side of the sliding sleeve 111 and the upper portion of the rear side of the second clamping block 112.

Still including the mechanism 12 of blowing, the mechanism 12 of blowing is including third support 121, extrusion box 122, the extrusion pole 123, fifth spring 124 and intake pipe 125, the welding of feed pipe 4 front side upper portion has third support 121, the equal fixed extrusion box 122 that is equipped with in third support 121 left and right sides, sliding connection has extrusion pole 123 between two extrusion box 122 inboard middle parts, two extrusion box 122 outside middle parts all are equipped with intake pipe 125, intake pipe 125 is connected with installing frame 3, intake pipe 125 is connected with framework 2, the extrusion pole 123 left and right sides all has been around fifth spring 124, fifth spring 124 both ends are connected with extrusion box 122 and extrusion pole 123 respectively.

The device is characterized by further comprising a swinging mechanism 13, wherein the swinging mechanism 13 comprises a fourth support 131, a fifth support 132, a disc 133, a swing rod 134 and a second bevel pinion 135, the fourth support 131 is welded on the front side of the first support 5, the fifth support 132 is fixedly arranged on the front side of the top of the fourth support 131, the disc 133 is rotatably arranged in the middle of the fourth support 131, the swing rod 134 is rotatably arranged in the middle of the rear side of the fifth support 132, the swing rod 134 is slidably connected with the disc 133, the swing rod 134 is slidably connected with the extrusion rod 123, the second bevel pinion 135 is arranged on the rear side of the disc 133, and the second bevel pinion 135 is matched with the bevel pinion 85.

The housing 2 is used to contain cold water.

The working principle of the invention is that in a fiber manufacturing factory, when people want to discharge waste rubber, the high-efficiency waste rubber discharge device for the fiber manufacturing industry can be used, firstly, a user pours cold water into the frame body 2, after the cold water is poured, the user starts the driving mechanism 8, the driving mechanism 8 drives the discharge pipe 7 to rotate, then the user inserts the molten waste rubber pipeline into the feed pipeline 4, after the waste rubber pipeline is inserted, the user rotates the valve 6 to open the channel of the feed pipeline 4, the waste rubber is uniformly scattered in the cold water of the frame body 2 through the channel of the feed pipeline 4 and the discharge pipe 7, the cold water cools the waste rubber, thereby preventing the waste rubber from being bonded together, after the waste rubber is discharged, the user reversely rotates the valve 6 to close the channel of the feed pipeline 4, then the user closes the driving mechanism 8, subsequently, the user operates the cleaning mechanism 9 to operate, so that the cleaning mechanism 9 conveys the water-cooled waste rubber upwards, the user collects and processes the waste rubber after the waste rubber is conveyed to a designated position, the user operates the cleaning mechanism 9 to reversely operate to a recovery position after the waste rubber is collected and processed, and then the user moves the dissolved waste rubber pipeline out of the feeding pipeline 4.

The user starts motor 82, motor 82 output shaft drives pivot 83 and first bevel pinion 84 and rotates, first bevel pinion 84 and big bevel pinion 85 cooperation, thereby it is rotatory to drive big bevel pinion 85 and discharging pipe 7, then the user will melt the waste gum pipeline of completion and insert in feed pipe 4 again, the waste gum flows down in framework 2 through feed pipe 4 and discharging pipe 7, at the rotatory in-process of discharging pipe 7, discharging pipe 7 can be with the even unrestrained in framework 2 of waste gum, and the waste gum contacts with cold water, thereby carry out the water-cooling to the waste gum, prevent that the waste gum from bonding together, the waste gum discharges and accomplishes the back, the user closes motor 82, above action stops.

After the waste glue water cooling is completed, a user pushes the filter screen 92 upwards, the first spring 95 is stretched, the filter screen 92 conveys the waste glue upwards, the filter screen 92 moves upwards to be in contact with the first clamping block 94 to drive the first clamping block 94 to move rightwards, the second spring 96 is compressed, the filter screen 92 moves upwards to be separated from the first clamping block 94, the second spring 96 resets to drive the first clamping block 94 to move leftwards to a recovery position, the filter screen 92 moves upwards to a designated position, the user loosens the filter screen 92, the first spring 95 resets to drive the filter screen 92 to move downwards, the filter screen 92 moves downwards to be in contact with the first clamping block 94 to clamp the filter screen 92 by the first clamping block 94, then the user processes the waste glue on the filter screen 92 again, after the waste glue processing is completed, the user pulls the first clamping block 94 rightwards, the second spring 96 is compressed, and after the first catching block 94 moves to the right and is separated from the filter screen 92, the first spring 95 is continuously reset, so that the filter screen 92 is driven to move downwards to the recovery position, and after the filter screen 92 is far away from the first catching block 94, a user releases the first catching block 94, and the second spring 96 is reset, so that the first catching block 94 is driven to move to the left to the recovery position.

When the rotating shaft 83 rotates, the rotating shaft 83 drives the poking block 103 and the reel 105 to rotate, the first rotating block 102 does not rotate and pokes and rotates to be in contact with the wedge block 104 to drive the wedge block 104 to move upwards, the third spring 107 is stretched, after poking and rotating to be separated from the wedge block 104, the third spring 107 resets to drive the wedge block 104 to move downwards, the reel 105 loosens the pull rope 106, after waste glue water cooling is completed, a user controls the output shaft of the motor 82 to rotate reversely, the output shaft of the motor 82 drives the rotating shaft 83, the poking block 103 and the reel 105 to rotate reversely, the poking block 103 rotates reversely to be in contact with the wedge block 104 to drive the wedge block 104, the third spring 107 and the first rotating block 102 to rotate reversely, the reel 105 winds the pull rope 106, the pull rope 106 drives the connecting block 108 and the filter screen 92 to move upwards, the first spring 95 is stretched, and the filter screen 92 moves upwards to be in contact with the first clamping block 94, thereby driving the first clamping block 94 to move rightwards, compressing the second spring 96, after the filter screen 92 moves upwards to be separated from the first clamping block 94, resetting the second spring 96, thereby driving the first clamping block 94 to move leftwards to a recovery position, after the filter screen 92 moves upwards to a specified position, controlling the output shaft of the motor 82 to stop working by a user, so that the filter screen 92 conveys waste glue, thereby saving the step of manually operating the filter screen 92 by the user, after the waste glue is collected, when the rotating shaft 83 rotates, the rotating shaft 83 drives the poking block 103 and the reel 105 to rotate, the first rotating block 102 does not rotate, pokes to rotate to be in contact with and matched with the wedge-shaped block 104, thereby driving the wedge-shaped block 104 to move upwards, the third spring 107 is stretched, after poking to rotate to be separated from the wedge-shaped block 104, the third spring 107 resets, thereby driving the wedge-shaped block 104 to move downwards, the reel 105 loosens the pull rope 106, when a user pulls the first clamping block 94 rightwards, the second spring 96 is compressed, after the first clamping block 94 moves rightwards to be separated from the filter screen 92, the first spring 95 continues to reset, so that the filter screen 92 is driven to move downwards to the recovery position, after the filter screen 92 is far away from the first clamping block 94, the user loosens the first clamping block 94, the second spring 96 resets, so that the first clamping block 94 is driven to move leftwards to the recovery position, and after the filter screen 92 moves downwards to the recovery position, the user turns off the motor 82, and the actions are stopped.

When the rotating shaft 83 rotates, the rotating shaft 83 drives the cam 114 to rotate, the cam 114 rotates to be in contact fit with the second rotating block 115, so as to drive the second rotating block 115 and the valve 6 to rotate, the torsion spring 116 is twisted and deformed, when the groove part of the second rotating block 115 rotates to be aligned with the groove part of the second clamping block 112, the fourth spring 118 in a stretching state is reset, so as to drive the second clamping block 112 and the contact block 113 to move downwards, the second clamping block 112 moves downwards to be in contact with the groove part of the second rotating block 115, so as to clamp the second rotating block 115, so that the valve 6 opens the channel of the feeding pipe 4, waste rubber can flow into the frame body 2 through the channel of the feeding pipe 4 and the discharge pipe 7, when the rotating shaft 83 rotates reversely, the rotating shaft 83 drives the cam 114 and the shifting block 103 to rotate reversely, the shifting block 103 rotates reversely to be in contact fit with the wedge block 104, so as to drive the wedge block 104, The third spring 107 and the first rotating block 102 rotate reversely, the first rotating block 102 drives the projection 117 to rotate reversely, the projection 117 rotates reversely to be in contact fit with the contact block 113, so as to drive the second clamping block 112 and the contact block 113 to move upwards, the fourth spring 118 is stretched, after the second clamping block 112 moves upwards to be separated from the groove part of the second rotating block 115, the torsion spring 116 resets, so as to drive the second rotating block 115 and the valve 6 to rotate reversely to be restored, so that the valve 6 closes the passage of the feeding pipeline 4.

The user promotes the extrusion pole 123 leftwards, the fifth spring 124 simultaneously deforms and resets, make the extrusion pole 123 extrude left extrusion box 122, the air current that the extrusion pole 123 extruded flows into in framework 2 through left intake pipe 125, the user promotes the extrusion pole 123 rightwards, the fifth spring 124 simultaneously deforms and resets, make the extrusion pole 123 extrude the extrusion box 122 on right side, the air current that the extrusion pole 123 extruded flows into in framework 2 through right intake pipe 125, through the side-to-side motion of extrusion pole 123, the air current that produces strikes the cold water in framework 2, thereby stir the waste glue, after the waste glue stirring is accomplished, the user stops to promote the extrusion pole 123, the air current stops thereupon to produce.

When the large bevel gear 85 rotates, the large bevel gear 85 is matched with the second small bevel gear 135, so that the second small bevel gear 135 and the disc 133 are driven to rotate, the disc 133 drives the swing rod 134 to swing, the swing rod 134 drives the extrusion rod 123 to move, air flow generated by the extrusion rod 123 impacts cold water in the frame body 2, and therefore working steps of manually operating the extrusion rod 123 by a user are saved, and when the large bevel gear 85 stops rotating, the actions are stopped.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the protective scope of the invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims

1. The utility model provides a high-efficient discharging equipment of waste rubber for fiber manufacturing industry which characterized in that includes: stabilizer blade (1), framework (2), installing frame (3), charge-in pipeline (4), first support (5), valve (6), discharging pipe (7), actuating mechanism (8) and clearance mechanism (9), stabilizer blade (1) top is equipped with framework (2), framework (2) upper portion is equipped with installing frame (3), be equipped with charge-in pipeline (4) in the middle of installing frame (3) upper portion, framework (2) upper portion is equipped with first support (5), first support (5) are connected with charge-in pipeline (4), charge-in pipeline (4) middle part rotary type is equipped with valve (6), charge-in pipeline (4) downside rotary type is equipped with discharging pipe (7), framework (2) upper portion is equipped with actuating mechanism (8), framework (2) inside is equipped with clearance mechanism (9).

2. A high efficiency waste glue discharge device for fiber manufacturing industry according to claim 1, characterized in that the driving mechanism (8) comprises: a second support (81) is arranged at the upper part of the frame body (2), a motor (82) is installed on the inner side of the second support (81), a rotating shaft (83) is arranged on an output shaft of the motor (82), a first small bevel gear (84) is arranged on the rotating shaft (83), and a large bevel gear (85) is arranged on the upper side of the discharge pipe (7).

3. A high efficiency waste glue discharge device for fibre manufacturing industry according to claim 2, characterised in that the cleaning means (9) comprises: inside both sides of framework (2) all are equipped with slide bar (91), slidingtype is connected with filter screen (92) between two slide bar (91), two slide bar (91) downside all around having first spring (95), first spring (95) both ends are connected with slide bar (91) and filter screen (92) respectively, framework (2) upper portion is equipped with slide rail (93), slide rail (93) middle part slidingtype is equipped with first screens piece (94), both sides all around having second spring (96) on first screens piece (94), second spring (96) both ends are connected with slide rail (93) and first screens piece (94) respectively.

4. The high-efficiency waste glue discharging device for the fiber manufacturing industry as recited in claim 3, characterized in that, a pulling mechanism (10) is further included, the pulling mechanism (10) comprises: be equipped with roating seat (101) on first support (5), roating seat (101) go up the rotation type and are equipped with first rotatory piece (102), pivot (83) middle part is equipped with dials piece (103), first rotatory piece (102) outside slidingtype is equipped with wedge (104), be equipped with reel (105) on pivot (83), be connected with two third springs (107) between first rotatory piece (102) and wedge (104), filter screen (92) top is equipped with connecting block (108), be connected with stay cord (106) between connecting block (108) and reel (105).

5. The high-efficiency waste glue discharging device for fiber manufacturing industry as recited in claim 4, characterized in that, the device further comprises a valve opening mechanism (11), the valve opening mechanism (11) comprises: the outer side of the first rotating block (102) is provided with a convex block (117), the upper portion of the feeding pipeline (4) is provided with a sliding sleeve (111), the sliding sleeve (111) is slidably provided with a second clamping block (112), the upper portion of the second clamping block (112) is provided with a contact block (113), the rotating shaft (83) is provided with a cam (114), the middle portion of the feeding pipeline (4) is rotatably provided with a second rotating block (115), the second rotating block (115) is connected with a valve (6), the second rotating block (115) is wound with a torsion spring (116), two ends of the torsion spring (116) are respectively connected with the second rotating block (115) and the feeding pipeline (4), and a fourth spring (118) is connected between the sliding sleeve (111) and the second clamping block (112).

6. The high-efficiency waste glue discharging device for the fiber manufacturing industry as recited in claim 5, characterized in that, the device further comprises a blowing mechanism (12), and the blowing mechanism (12) comprises: feed pipe (4) upper portion is equipped with third support (121), both sides all are equipped with squeeze box (122) on third support (121), sliding type connection has squeeze bar (123) between two squeeze box (122) inboards, both sides all around fifth spring (124) on squeeze bar (123), fifth spring (124) both ends are connected with squeeze box (122) and squeeze bar (123) respectively, two squeeze box (122) outside middle parts all are equipped with intake pipe (125), intake pipe (125) are connected with installing frame (3), intake pipe (125) are connected with framework (2).

7. The efficient waste glue discharging device for fiber manufacturing industry as recited in claim 6, further comprising a swing mechanism (13), wherein the swing mechanism (13) comprises: the first support (5) is provided with a fourth support (131), the top of the fourth support (131) is provided with a fifth support (132), the middle of the fourth support (131) is rotatably provided with a disc (133), the middle of the fifth support (132) is rotatably provided with a swing rod (134), the swing rod (134) is slidably connected with the disc (133), the swing rod (134) is slidably connected with the extrusion rod (123), and the disc (133) is provided with a second bevel pinion (135).

8. The efficient waste glue discharging device for fiber manufacturing industry as recited in claim 1, wherein the frame body (2) is used for loading cold water.