CN113263334A

CN113263334A - Extruder rear auxiliary equipment

Info

Publication number: CN113263334A
Application number: CN202110824290.1A
Authority: CN
Inventors: 陈碧智; 侯新平; 巫胜前; 胡智杰; 田勇
Original assignee: FOSHAN TONGRUN THERMAL ENERGY TECHNOLOGY CO LTD
Current assignee: FOSHAN TONGRUN THERMAL ENERGY TECHNOLOGY CO LTD
Priority date: 2021-07-21
Filing date: 2021-07-21
Publication date: 2021-08-17

Abstract

The invention discloses auxiliary equipment at the rear part of an extruder, which comprises quenching equipment, a traction machine, hot saw equipment, a cooling bed, a straightening machine, a finished product saw feeding shaft channel, finished product saw equipment and a sizing table which are arranged at the rear part of the extruder along the discharging and processing direction of sectional materials. The formed section is drawn and taken out from the extruder by the tractor, and is output after being quenched, cooled by cooling equipment, cut by a hot saw, further cooled by a cooling bed and straightened by the straightener after being further cooled by a finished product saw and a sizing table, the finished section is cut into required length.

Description

Extruder rear auxiliary equipment

Technical Field

The invention relates to the technical field of section bar production, in particular to an auxiliary device at the rear part of an extruder.

Background

The aluminium section is made up by using aluminium and other alloy elements as main metal element and adding some alloy elements to raise the performance of section.

The application space of the aluminum profile in the industrial field is very huge, and along with the rapid development of infrastructure and industrialization, the yield and the demand of the aluminum profile industry are also rapidly increased. The aluminum profile is generally produced by adopting an extrusion process. In the production process, the raw material aluminum bar is heated firstly, then is extruded and molded by a hot extrusion die on an extrusion molding machine, and is shaped and cooled by a cooling device.

In the production process of the aluminum profile, an extrusion die in an extruder is required to be used for molding the aluminum profile. The hollow aluminum section frame generally needs a plurality of extrusion dies to produce a plurality of different aluminum section pieces, and then the aluminum section pieces are spliced to achieve better flatness; the existing integrally formed aluminum profile frame can be produced and manufactured only by one set of extrusion die, so that a large number of working procedures are reduced; but the extrusion die of the existing integrated aluminum section frame has poor flatness of discharged materials and high rejection rate.

In addition, the integrally formed aluminum profile frame is extruded from the extruding machine, and the surface of the aluminum profile frame needs to be cooled and radiated. At present, a water cooling mode is generally adopted when an aluminum profile frame is cooled, the temperature of cold water rises along with the aluminum profile frame, and energy-saving and efficient cold water circulation is not realized in the prior art;

meanwhile, the automation degree of the aluminum profile production line in the prior art is low, remote digital operation control cannot be realized, the operation reliability of the whole production line is low, the energy consumption is high, and the increasing environmental protection requirements cannot be met.

Disclosure of Invention

The invention aims to provide a rear auxiliary device of an extruder, which solves the problems in the prior art.

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

an extruder rear auxiliary machine device comprises a quenching device, a traction machine, a hot saw device, a cooling bed, a straightening machine, a finished product saw feeding shaft channel, a finished product saw device and a sizing table which are arranged at the rear part of an extruder along the discharging and processing direction of a section; wherein:

the quenching equipment comprises a guide roller device, a front end cooling device and a quenching system body;

the tractor is arranged at the outlet of a front beam of the extruder and comprises a lower cross beam rail and an upper cross beam rail, a lower traction table and an upper traction table are respectively installed on the lower cross beam rail and the upper cross beam rail in a sliding mode, and the lower traction table and the upper traction table are driven by chains and respectively move along the lower cross beam rail and the upper cross beam rail;

the hot saw equipment comprises a hot saw track and a hot saw body which is arranged on the hot saw track and can move along the hot saw track; the hot saw body comprises a hot saw frame and a hot saw workbench, two transverse moving guide rails are symmetrically arranged on the left side and the right side of the hot saw frame, the bottom of the hot saw workbench is connected with the transverse moving guide rails in a sliding manner, a hot saw motor and a hot saw cover are fixedly arranged on the hot saw workbench, a saw blade is rotatably arranged in the hot saw cover, and a driving shaft of the hot saw motor is in transmission connection with a rotating shaft of the saw blade through a synchronous belt;

the straightening machine comprises a straightening machine guide rail, a movable end and a fixed end, wherein the movable end and the fixed end are respectively arranged on the left side and the right side of the straightening machine guide rail, and the movable end moves along the straightening machine guide rail through a guide wheel; the clamping device comprises a movable end, a fixed end, a hydraulic anti-falling toothed plate, a hydraulic clamping hydraulic rod and a clamping head, wherein the movable end and the fixed end are both provided with clamping ports, the upper side and the lower side of the clamping ports of the movable end and the fixed end are both provided with clamping heads, and the clamping heads comprise the hydraulic anti-falling toothed plate and the clamping hydraulic rod for driving the hydraulic anti-falling toothed plate to move;

the cooling bed comprises a transmission beam, a fixed beam and high-temperature resistant felts coated on the surfaces of the transmission beam and the fixed beam; the straightening machine equipment comprises a fixed end, a movable end and a hydraulic system;

the sizing table comprises a sizing table rack and a sizing trolley, the sizing trolley is slidably mounted on a top cross beam of the sizing table rack, a third rack is mounted along the top cross beam of the sizing table rack, a third gear is rotatably mounted on the sizing trolley, and the third gear is meshed with the third rack to drive the sizing trolley to move along the top cross beam.

As a further scheme of the invention: the guide roller device is arranged at the front beam of the extruder and comprises a driven roller arranged at the outlet of the front beam of the extruder, and the driven roller is driven and adjusted by a hydraulic cylinder.

As a still further scheme of the invention: the front end cooling device is arranged at the front end of an outlet of the extruder and comprises an air curtain device arranged between an outlet of a front beam of the extruder and an inlet of a first section of air duct of the quenching equipment, and an upper air cover and a lower air cover.

As a still further scheme of the invention: the quenching system body is divided into three sections, and each section of the quenching system body comprises a strong wind cooling system, a spraying cooling system, a water mist cooling system and a water penetrating system.

As a still further scheme of the invention: traction table and upper portion draw all to install the drive mechanism who drives the section bar motion on the bench, drive mechanism includes fixed mounting's frame, slidable mounting elevating platform in the frame, drives elevating platform elevating movement's lift hydraulic stem and rotates the clamping jaw swing arm of installing on the elevating platform, movable mounting has the swing hydraulic stem in the frame, the flexible end of swing hydraulic stem is articulated with the clamping jaw swing arm, and the clamping jaw swing arm is piled up by the clamping piece of a plurality of arc structures and is constituteed, and the clamping piece of a plurality of arc structures is installed on the elevating platform through what same pivot was changeed, rotates when the swing hydraulic stem is flexible.

As a still further scheme of the invention: a transverse moving motor is fixedly arranged on the hot saw workbench, the output end of the transverse moving motor is in transmission connection with a first gear through a gear transmission mechanism, a first rack is arranged along a transverse moving guide rail, and the first rack is meshed with the first gear; the hot saw is characterized in that a second motor is fixedly mounted on the hot saw frame, a second gear is fixedly mounted on an output shaft of the second motor, a second rack is mounted along a hot saw guide rail, and the second rack is meshed with the second gear.

As a still further scheme of the invention: the hot saw is characterized in that the hot saw frame is further provided with a dust removal device, the dust removal device comprises a dust removal cylinder, a dust removal fan and a dust removal pipeline, the air inlet end of the dust removal fan is communicated with the dust removal pipeline, the air exhaust end of the dust removal fan is communicated with the dust removal cylinder, and the air inlet of the dust removal pipeline is arranged below the hot saw workbench.

As a still further scheme of the invention: the straightening machine comprises a straightening machine guide rail, a straightening machine rack, a straightening hydraulic rod and a fixed end, wherein the straightening machine guide rail is located on the outer side of the fixed end, the straightening machine rack is fixedly provided with the straightening hydraulic rod, and the telescopic end of the straightening hydraulic rod is fixedly connected with the fixed end through a connecting arm.

As a still further scheme of the invention: a plurality of guide rollers are arranged between the movable end and the fixed end of the straightening machine guide rail; the clamping side that removes end and stiff end still installs the gap bridge conveyer belt, the gap bridge conveyer belt passes through the belt rack-mount and is being removed end or fixed end on, installs the regulation pole of adjusting the tensioning of gap bridge conveyer belt on the belt rack.

As a still further scheme of the invention: the multi-group scale table guide mechanism is installed to the lower part of scale table frame, and multi-group scale table guide mechanism is by same root chain synchronous drive, the actuating mechanism of drive chain motion is still installed to the bottom of scale table frame, and actuating mechanism includes fixed mounting has driving motor, driving motor's output is connected with drive sprocket through the gear box transmission, drive sprocket is connected with one side transmission of chain.

The invention has the beneficial effects that: the invention arranges quenching equipment, a traction machine, hot saw equipment, a cooling bed, a straightening machine, a finished product saw feeding shaft channel, finished product saw equipment and a sizing table at the rear part of an extruder along the discharging and processing direction of the section, the formed section is drawn and taken out from the extruder by the traction machine, and after quenching equipment quenching cooling, hot saw cutting, further cooling of the cooling bed and straightening and correction of the straightening machine, the finished product saw and the sizing table cut the finished section into required length and then output.

Drawings

Fig. 1 is a layout diagram of auxiliary equipment at the rear part of an extruder.

Fig. 2 is a schematic structural diagram of a tractor in an auxiliary device at the rear part of the extruder.

FIG. 3 is a schematic view showing the structure of a hot saw apparatus in a post auxiliary apparatus of an extruder.

Fig. 4 is a partially enlarged schematic view of a portion a of fig. 3.

FIG. 5 is a side view of a hot saw apparatus in a post auxiliary apparatus of an extruder.

Fig. 6 is a side view of a straightener in an auxiliary device at the rear of an extruder.

Fig. 7 is a top view of the straightener in the extruder back auxiliary equipment.

Fig. 8 is a schematic structural diagram of a bridge conveyer belt in an auxiliary device at the rear part of the extruder.

Fig. 9 is a schematic structural diagram of a sizing table in a rear auxiliary device of an extruder.

Fig. 10 is a partially enlarged schematic view of a portion a of fig. 9.

Fig. 11 is a partially enlarged schematic view of fig. 9 at B.

Fig. 12 is a partially enlarged schematic view at C in fig. 9.

In the figure: 1-tractor, 101-lower beam rail, 102-lower traction table, 103-frame, 104-lifting hydraulic rod, 105-lifting table, 106-clamping jaw swing arm, 107-swinging hydraulic rod, 108-upper beam rail, 109-upper traction table, 2-hot saw equipment, 201-hot saw guide rail, 202-hot saw body, 203-hot saw frame, 204-transverse guide rail, 205-transverse motor, 206-synchronous belt, 207-hot saw cover, 208-hot saw motor, 209-first gear, 210-first rack, 211-dust removal fan, 212-dust removal pipeline, 213-dust removal cylinder, 214-second motor, 215-second rack, 216-saw blade, 217-hot saw workbench, 3-straightening machine, 301-straightening machine guide rail, 302-moving end, 303-guide wheel, 304-bridge passing conveyor belt, 305-guide roller, 306-fixed end, 307-straightening machine frame, 308-clamping hydraulic rod, 309-straightening hydraulic rod, 310-adjusting rod, 311-belt frame, 4-sizing table, 401-sizing table frame, 402-buffer mechanism, 403-sizing table guide mechanism, 404-sizing trolley, 405-third rack, 406-third gear, 407-driving motor, 408-gear box, 409-driving sprocket, 410-chain, 411-sizing guide roller driving wheel, 5-quenching equipment, 6-cooling bed and 7-finished saw feeding shaft channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-12, in an embodiment of the present invention, an extruder rear auxiliary device includes a quenching device 5, a tractor 1, a hot saw device 2, a cooling bed 6, a straightening machine 3, a finished saw feeding shaft 7, a finished saw device, and a sizing table 4, which are arranged at the rear of an extruder along a profile discharging and processing direction, wherein:

the quenching equipment comprises a guide roller device, a front end cooling device and a quenching system body, wherein the guide roller device is arranged at the front beam of the extruder and comprises a driven roller arranged at the outlet of the front beam of the extruder, the driven roller is driven and adjusted by a hydraulic cylinder and is adjusted up, down, left and right at the outlet of the front beam of the extruder, and the positioning of the guide roller device needs to be determined by being matched with an extruder manufacturer so as to determine the structure of the roller at the front beam and facilitate the first material extrusion; the front end cooling device is arranged at the front end of an outlet of the extruder and comprises an air curtain device arranged between an outlet of a front beam of the extruder and an inlet of a first section of air duct of quenching equipment and an upper air cover and a lower air cover, so that the water mist function is realized, and water does not flow towards the direction of a mold during water mist and spraying is ensured; the quenching system body is divided into three sections, each section of quenching system body comprises a strong wind cooling system, a spray cooling system, a water spray cooling system and a water through system, the strong wind cooling quenching system comprises two independent air channels, an upper quenching air cover and a lower quenching air cover, the upper quenching air cover and the lower quenching air cover are arranged on the upper portion and the lower portion of the air channels, and the upper quenching air cover and the lower quenching air cover are driven by a chain to lift and move in the vertical direction inside the channels;

referring to fig. 2 again, the tractor 1 is disposed at an outlet of a front beam of an extruder and used for performing initial material traction, the tractor includes a lower cross beam rail 101 and an upper cross beam rail 108, a lower traction table 102 and an upper traction table 109 are respectively slidably mounted on the lower cross beam rail 101 and the upper cross beam rail 108, the lower traction table 102 and the upper traction table 109 are driven by a chain and respectively move along the lower cross beam rail 101 and the upper cross beam rail 108, traction mechanisms for driving a profile to move are respectively mounted on the lower traction table 102 and the upper traction table 109, the traction mechanisms include a fixedly mounted frame 103, a lifting table 105 slidably mounted on the frame 103, a lifting hydraulic rod 104 for driving the lifting table 105 to move up and down, and a swing arm 106 rotatably mounted on the lifting table 105, a swing hydraulic rod 107 is movably mounted on the frame 103, the telescopic end of the swing hydraulic rod 107 is hinged with the clamping jaw swing arm 106, the swing hydraulic rod 107 drives the clamping jaw swing arm 106 to swing when being stretched, so that the section is clamped, and the section is driven to move when the lower traction table 102 or the upper traction table 109 moves;

further, in the embodiment of the present invention, it should be noted that the clamping jaw swing arm 106 is formed by stacking a plurality of clamping pieces with arc structures, and the plurality of clamping pieces with arc structures are installed on the lifting platform 105 through a same rotating shaft, and rotate when the swing hydraulic rod 107 extends and retracts.

Referring to fig. 3-5 again, the hot saw apparatus 2 includes a hot saw rail 201 and a hot saw body 202 mounted on the hot saw rail 201 and capable of moving along the hot saw rail 201; the hot saw body 202 comprises a hot saw frame 203 and a hot saw workbench 217, two traverse guide rails 204 are symmetrically arranged on the left side and the right side of the hot saw frame 203, the bottom of the hot saw workbench 217 is slidably connected with the traverse guide rails 204, a hot saw motor 208 and a hot saw cover 207 are fixedly arranged on the hot saw workbench 217, a saw blade 216 is rotatably arranged in the hot saw cover 207, a driving shaft of the hot saw motor 208 is in transmission connection with a rotating shaft of the saw blade 216 through a synchronous belt 206 and is used for driving the saw blade 216 to rotate to cut the section bar, meanwhile, the hot saw workbench 217 can slide on the traverse guide rails 204 to adjust the position of the saw blade 216, so that a plurality of section bars can be cut;

in the embodiment of the present invention, it should be noted that a traverse motor 205 is further fixedly mounted on the hot saw table 217, an output end of the traverse motor 205 is connected with a first gear 209 through a gear transmission mechanism, a first rack 210 is mounted along the traverse guide 204, and the first rack 210 is engaged with the first gear 209, so as to drive the hot saw table 217 to move on the traverse guide 204;

it should be further noted that a second motor 214 is fixedly mounted on the hot saw frame 203, a second gear is fixedly mounted on an output shaft of the second motor 214, a second rack 215 is mounted along the hot saw guide rail 201, and the second rack 215 is engaged with the second gear, so as to drive the hot saw body 202 to move along the hot saw rail 201, thereby performing multi-stage cutting on the profile;

in another embodiment of the present invention, a dust removing device is further installed on the hot saw frame 203, the dust removing device includes a dust removing cylinder 213, a dust removing fan 211 and a dust removing pipeline 212, an air inlet end of the dust removing fan 211 is communicated with the dust removing pipeline 212, an air outlet end of the dust removing fan 211 is communicated with the dust removing cylinder 213, and an air inlet of the dust removing pipeline 212 is disposed below the hot saw worktable 217 to absorb the debris generated when the saw blade 216 operates.

Referring to fig. 6-8 again, the straightening machine 3 includes a straightening machine guide rail 301, a movable end 302 and a fixed end 306, the movable end 302 and the fixed end 306 are respectively disposed at the left and right sides of the straightening machine guide rail 301, and the movable end 302 moves along the straightening machine guide rail 301 through a guide wheel 303; the movable end 302 and the fixed end 306 are both provided with a clamping opening, clamping heads are respectively arranged on the upper side and the lower side of the clamping opening of the movable end 302 and the fixed end 306, and each clamping head comprises a hydraulic anti-falling tooth plate and a clamping hydraulic rod 308 for driving the hydraulic anti-falling tooth plate to move; a straightening machine frame 307 is arranged on the outer side of the fixed end 306 of the straightening machine guide rail 301, a straightening hydraulic rod 309 is fixedly arranged on the straightening machine frame 307, and the telescopic end of the straightening hydraulic rod 309 is fixedly connected with the fixed end 306 through a connecting arm;

in the embodiment of the present invention, a plurality of guide rollers 305 are installed between the moving end 302 and the fixed end 306 of the straightening machine guide rail 301; remove the centre gripping side of end 302 and stiff end 306 and still install gap bridge conveyer belt 304, gap bridge conveyer belt 304 passes through belt frame 311 and installs on removing end 302 or stiff end 306, installs the regulation pole 310 of adjusting gap bridge conveyer belt 304 tensioning on the belt frame 311, it is telescopic rod structure to adjust pole 310.

The cooling bed comprises a transmission beam, a fixed beam and a high-temperature-resistant felt coated on the surfaces of the transmission beam and the fixed beam, wherein the transmission beam and the fixed beam are both formed by processing profile steel, the fixed beam is a steel structure and is fixedly arranged on a ground bearing profile, the transmission beam is arranged on a steel structure frame, the profile on a roll table sliding out of the transmission beam is moved out of the fixed beam through the horizontal movement of a hydraulic cylinder or a motor reducer, and meanwhile, the transmission beam moves the profile on the fixed beam to a bridge passing belt of the stretcher.

Referring to fig. 9-12 again, the sizing table 4 includes a sizing table frame 401 and a sizing trolley 404, the sizing trolley 404 is slidably mounted on a top cross beam of the sizing table frame 401, a third rack 405 is mounted along the top cross beam of the sizing table frame 401, a third gear 406 is rotatably mounted on the sizing trolley 404, the third gear 406 is engaged with the third rack 405, the sizing trolley 404 is driven to move along the top cross beam, and the position of the sizing trolley is adjusted;

further, in the embodiment of the present invention, a buffer mechanism 402 is installed on one end of the top beam of the sizing table rack 401, which is far away from the sizing trolley 404, so as to prevent the sizing trolley 404 from dropping off the top beam, and prevent the sizing trolley from colliding with the top beam;

in the embodiment of the present invention, a plurality of sets of sizing table guiding mechanisms 403 are installed at the lower part of the sizing table rack 401, the plurality of sets of sizing table guiding mechanisms 403 are synchronously driven by the same chain 410, and a driving mechanism for driving the chain 410 to move is further installed at the bottom of the sizing table rack 401;

it should be noted that the driving mechanism includes a driving motor 407 fixedly mounted, an output end of the driving motor 407 is connected with a driving sprocket 409 through a gear box 408 in a transmission manner, and the driving sprocket 409 is connected with one side of a chain 410 in a transmission manner;

further, in the embodiment of the present invention, two auxiliary sprockets are symmetrically and rotatably installed on the left and right sides of the driving sprocket 409, and the auxiliary sprockets are in transmission connection with the other side of the chain 410 to assist in driving the chain 410 to move.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The extruder rear auxiliary equipment is characterized by comprising quenching equipment (5), a traction machine (1), hot saw equipment (2), a cooling bed (6), a straightening machine (3), a finished product saw feeding shaft channel (7), finished product saw equipment and a sizing table (4), wherein the quenching equipment (5), the traction machine, the hot saw equipment, the cooling bed (6), the straightening machine, the finished product saw feeding shaft channel and the sizing table are arranged at the rear part of an extruder along the profile discharging and processing direction; wherein:

the quenching equipment (5) comprises a guide roller device, a front end cooling device and a quenching system body;

the tractor (1) is arranged at an outlet of a front beam of the extruder and comprises a lower cross beam rail (101) and an upper cross beam rail (108), a lower traction table (102) and an upper traction table (109) are respectively installed on the lower cross beam rail (101) and the upper cross beam rail (108) in a sliding mode, and the lower traction table (102) and the upper traction table (109) are driven by chains and respectively move along the lower cross beam rail (101) and the upper cross beam rail (108);

the hot saw device (2) comprises a hot saw track (201) and a hot saw body (202) which is arranged on the hot saw track (201) and can move along the hot saw track (201); the hot saw body (202) comprises a hot saw frame (203) and a hot saw workbench (217), two transverse moving guide rails (204) are symmetrically arranged on the left side and the right side of the hot saw frame (203), the bottom of the hot saw workbench (217) is in sliding connection with the transverse moving guide rails (204), a hot saw motor (208) and a hot saw cover (207) are fixedly arranged on the hot saw workbench (217), a saw blade (216) is rotatably arranged in the hot saw cover (207), and a driving shaft of the hot saw motor (208) is in transmission connection with a rotating shaft of the saw blade (216) through a synchronous belt (206);

the straightening machine (3) comprises a straightening machine guide rail (301), a moving end (302) and a fixed end (306), wherein the moving end (302) and the fixed end (306) are respectively arranged at the left side and the right side of the straightening machine guide rail (301), and the moving end (302) moves along the straightening machine guide rail (301) through a guide wheel (303); the clamping device is characterized in that clamping ports are formed in the moving end (302) and the fixed end (306), clamping heads are mounted on the upper side and the lower side of the clamping ports of the moving end (302) and the fixed end (306), and each clamping head comprises a hydraulic anti-falling tooth plate and a clamping hydraulic rod (308) for driving the hydraulic anti-falling tooth plate to move;

the cooling bed (6) comprises a transmission beam, a fixed beam and high-temperature resistant felts coated on the surfaces of the transmission beam and the fixed beam; the straightening machine equipment comprises a fixed end, a movable end and a hydraulic system;

the sizing table (4) comprises a sizing table rack (401) and a sizing trolley (404), the sizing trolley (404) is mounted on a top cross beam of the sizing table rack (401) in a sliding mode, a third rack (405) is mounted along the top cross beam of the sizing table rack (401), a third gear (406) is mounted on the sizing trolley (404) in a rotating mode, the third gear (406) is meshed with the third rack (405), and the sizing trolley (404) is driven to move along the top cross beam.

2. The extruder rear auxiliary machine equipment is characterized in that the guide roller device is arranged at the front beam of the extruder and comprises a driven roller arranged at the outlet of the front beam of the extruder, and the driven roller is driven and adjusted by a hydraulic cylinder.

3. The extruder rear auxiliary equipment as claimed in claim 2, wherein the front end cooling device is mounted at the front end of the extruder outlet, and comprises an air curtain device, an upper air hood and a lower air hood which are arranged between the extruder front beam outlet and the inlet of the first section air duct of the quenching equipment.

4. The extruder rear auxiliary equipment as claimed in claim 3, wherein the quenching system body is divided into three sections, and each section of quenching system body comprises a strong wind cooling system, a spray cooling system, a water mist cooling system and a water through system.

5. The extruder rear auxiliary device according to claim 4, characterized in that the lower traction table (102) and the upper traction table (109) are provided with traction mechanisms for driving the profile to move, the traction mechanism comprises a machine frame (103) fixedly installed, a lifting platform (105) slidably installed on the machine frame (103), a lifting hydraulic rod (104) driving the lifting platform (105) to move up and down and a clamping jaw swing arm (106) rotatably installed on the lifting platform (105), swing hydraulic stem (107) are movably mounted on frame (103), the flexible end of swing hydraulic stem (107) is articulated with clamping jaw swing arm (106), and clamping jaw swing arm (106) are piled up by the clamping piece of a plurality of arc structures and are constituteed, and the clamping piece of a plurality of arc structures is installed on elevating platform (105) through what same root pivot was changeed, rotates when swing hydraulic stem (107) are flexible.

6. The extruder rear auxiliary device is characterized in that a traverse motor (205) is further fixedly mounted on the hot saw workbench (217), the output end of the traverse motor (205) is in transmission connection with a first gear (209) through a gear transmission mechanism, a first rack (210) is mounted along a traverse guide rail (204), and the first rack (210) is meshed with the first gear (209); the hot saw is characterized in that a second motor (214) is fixedly mounted on the hot saw frame (203), a second gear is fixedly mounted on an output shaft of the second motor (214), a second rack (215) is mounted along the hot saw guide rail (201), and the second rack (215) is meshed with the second gear.

7. The extruder rear auxiliary equipment as claimed in claim 6, wherein the hot saw frame (203) is further provided with a dust removing device, the dust removing device comprises a dust removing cylinder (213), a dust removing fan (211) and a dust removing pipeline (212), the air inlet end of the dust removing fan (211) is communicated with the dust removing pipeline (212), the air outlet end of the dust removing fan (211) is communicated with the dust removing cylinder (213), and the air inlet of the dust removing pipeline (212) is arranged below the hot saw workbench (217).

8. The extruder rear auxiliary device is characterized in that the straightening machine frame (307) is installed on the outer side, located at the fixed end (306), of the straightening machine guide rail (301), the straightening hydraulic rod (309) is fixedly installed on the straightening machine frame (307), and the telescopic end of the straightening hydraulic rod (309) is fixedly connected with the fixed end (306) through a connecting arm.

9. An extruder rear auxiliary device according to claim 8, characterized in that a plurality of guide rollers (305) are mounted on the straightener guide (301) between the movable end (302) and the fixed end (306); move the centre gripping side of end (302) and stiff end (306) and still install gap bridge conveyer belt (304), gap bridge conveyer belt (304) are installed on moving end (302) or stiff end (306) through belt frame (311), install on belt frame (311) and adjust pole (310) of adjusting gap bridge conveyer belt (304) tensioning.

10. The extruder rear auxiliary equipment is characterized in that a plurality of groups of sizing table guide mechanisms (403) are mounted at the lower part of the sizing table rack (401), the plurality of groups of sizing table guide mechanisms (403) are synchronously driven by the same chain (410), a driving mechanism for driving the chain (410) to move is further mounted at the bottom of the sizing table rack (401), the driving mechanism comprises a driving motor (407) fixedly mounted, the output end of the driving motor (407) is in transmission connection with a driving chain wheel (409) through a gear box (408), and the driving chain wheel (409) is in transmission connection with one side of the chain (410).