CN109368171B

CN109368171B - Two-way transfer apparatus of aluminium alloy

Info

Publication number: CN109368171B
Application number: CN201811269823.9A
Authority: CN
Inventors: 孟亚平
Original assignee: Cometal Foshan Extrusion Technology Co ltd
Current assignee: Cometal Foshan Extrusion Technology Co ltd
Priority date: 2018-10-29
Filing date: 2018-10-29
Publication date: 2021-02-26
Anticipated expiration: 2038-10-29
Also published as: CN109368171A

Abstract

A bidirectional conveying device for aluminum profiles comprises a support, wherein a plurality of front section conveying assemblies and a plurality of rear section conveying assemblies are arranged on the support, the front section conveying assemblies and the rear section conveying assemblies are sequentially staggered from left to right, and the rear section conveying assemblies are in butt joint with the front section conveying assemblies; the front section conveying assembly is connected with a telescopic driving device and can swing up and down. When the aluminum profile conveying device works, the front section conveying assembly is in a horizontal state, the aluminum profile is placed on the front section conveying assembly, and when the aluminum profile is qualified, the front section conveying assembly conveys the aluminum profile to the rear section conveying assembly; when the aluminium alloy is unqualified, anterior segment conveying assembly swings down, and anterior segment conveying assembly carries the aluminium alloy to unqualified treatment area. The invention is used for conveying aluminum profiles.

Description

Two-way transfer apparatus of aluminium alloy

Technical Field

The invention relates to a conveying device, in particular to a bidirectional conveying device for aluminum profiles.

Background

For satisfying the demand of aluminium alloy automated production processing, need convey the aluminium alloy, need sort the aluminium alloy simultaneously, handle the defective products from the in-process, but less conveying equipment who conveys and have the letter sorting structure to the aluminium alloy at present.

Further, because the length of the aluminum profile is long, the width of the required conveying belt is wide, and the problem brought about is that when the short aluminum profile is clamped in the middle of the conveying equipment, operators are difficult to touch the middle of the conveying equipment at two sides of the conveying equipment for processing, or when the middle of the conveying equipment has a fault, maintenance personnel are difficult to enter for maintenance.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the bidirectional conveying equipment for the aluminum profiles is provided, and forward or backward bidirectional conveying of the aluminum profiles can be realized.

The solution of the invention for solving the technical problem is as follows:

the bidirectional conveying equipment for the aluminum profiles comprises a support, wherein a plurality of front section conveying assemblies and a plurality of rear section conveying assemblies are arranged on the support; the front section conveying assembly comprises a front section base fixedly connected to the support, a rotatable first rotating shaft is arranged on the front section base, a first roller is fixedly connected to the first rotating shaft, a first side plate is rotatably connected to the first rotating shaft and located between the first roller and the front section base and located on the outer side of the support, a rotatable second rotating shaft is arranged on the first side plate, a second roller is fixedly connected to the second rotating shaft, a first belt capable of rotating backwards or forwards is wound on the outer sides of the first roller and the second roller, a telescopic driving device is hinged to the lower front portion of the support, and a telescopic shaft of the telescopic driving device is hinged to the first side plate; the rear-section conveying assembly comprises a rear-section base fixedly connected to the support, a third side plate is fixedly connected to the rear-section base, the third side plate is horizontally arranged, a rotatable third rotating shaft is arranged at one end of the third side plate, a third roller is fixedly connected to the third rotating shaft, a rotatable fourth rotating shaft is arranged at the other end of the third side plate, a fourth roller is fixedly connected to the fourth rotating shaft, and a third belt capable of rotating backwards is wound around the outer sides of the third roller and the fourth roller; the front section conveying assemblies and the rear section conveying assemblies are sequentially staggered from left to right, and the rear section conveying assemblies are in butt joint with the front section conveying assemblies; the first rotating shafts of the front-section conveying assembly are driving shafts, the support is provided with a rotatable first driving shaft arranged along the left-right direction, the first driving shaft is driven by a first motor, and all the first rotating shafts are in transmission connection with the first driving shaft; third rotating shafts of the rear-section conveying assembly are driving shafts, rotatable third driving shafts arranged along the left and right directions are arranged on the support, the third driving shafts are driven by a second motor, and all the third rotating shafts are in transmission connection with the third driving shafts; the front section base is provided with a first notch, and the first driving shaft passes through the first notch; the rear base is provided with a second notch, and the third driving shaft penetrates through the second notch.

As a further improvement of the above scheme, the first driving shaft is connected with a plurality of first gears in a transmission manner, the front section base is provided with a second gear, the second gear is in meshed connection with the first gears, the first rotating shaft is connected with a third gear in a transmission manner, and the third gear is in meshed connection with the second gears; the third driving shaft is connected with a plurality of fourth gears in a transmission mode, the rear base is provided with a fifth gear, the fifth gear is meshed with the fourth gears, the third rotating shaft is connected with a sixth gear in a transmission mode, and the sixth gear is meshed with the fifth gears.

As a further improvement of the above scheme, the telescopic driving device is an air cylinder.

As a further improvement of the above scheme, the front section base/the rear section base is provided with a clearance gap, and the third driving shaft/the first driving shaft is arranged in the clearance gap.

As a further improvement of the above aspect, the first drive shaft is provided on the rear side of the third drive shaft.

As a further improvement of the above scheme, the front-section conveying assembly is provided with a swing seat, the swing seat is rotatably connected to a first rotating shaft, the swing seat is provided with a first bolt, the first bolt is perpendicular to the first side plate, the first side plate is provided with a first pin hole corresponding to the first bolt, the swing seat is fixedly connected with the first side plate through the first bolt, and a telescopic shaft of the telescopic driving device is hinged to the swing seat; the lower part of the swing seat is hinged with a telescopic supporting rod, and a telescopic shaft of the telescopic supporting rod is hinged with the first side plate.

As a further improvement of the scheme, the telescopic supporting rod is an air spring.

As a further improvement of the scheme, the outer side of the first side plate is fixedly connected with a second bolt seat, a through hole is formed in the second bolt seat, the axis of the through hole is the same as the conveying direction of the first belt, a second bolt is connected to the through hole in a sliding mode, and a second pin hole corresponding to the position of the second bolt is formed in the front section base.

As a further improvement of the above scheme, the axis of the second pin hole is inclined towards the rear side, and the axis of the second pin hole is 95 degrees with the horizontal line.

As a further improvement of the scheme, the second bolt is in threaded connection with a nut, the nut is located between the second bolt seat and the front section base, the second bolt is sleeved with a spring, and the spring is located between the nut and the second bolt seat.

The invention has the beneficial effects that: because the front section conveying assembly and the rear section conveying assembly are arranged, the front section conveying assembly can swing around the first rotating shaft, so that when the aluminum profile conveying mechanism works, the telescopic shaft of the telescopic driving device extends out, the front section conveying assembly is in a horizontal state, the aluminum profile is placed on the front section conveying assembly, and when the aluminum profile is qualified, the front section conveying belt conveys the aluminum profile backwards to the rear section conveying assembly; when the aluminum profile is unqualified, the telescopic shaft of the telescopic driving device retracts, the front section conveying assembly swings downwards, and the aluminum profile is conveyed forwards to the unqualified product processing area. The invention is used for conveying aluminum profiles.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is a top view of the conveyor apparatus of an embodiment of the invention in its entirety;

FIG. 2 is a left side view of a front end transfer assembly of an embodiment of the present invention;

FIG. 3 is a right side view of a front end transfer assembly of an embodiment of the present invention;

FIG. 4 is a left side view of a back end transport assembly of an embodiment of the present invention;

fig. 5 is a left side view of the conveyor apparatus with the front end conveyor assembly of the embodiment of the invention swung down.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. The technical characteristics of the invention can be combined interactively on the premise of not conflicting with each other.

Referring to fig. 1 to 5, this is an embodiment of the invention, specifically:

the bidirectional conveying equipment for the aluminum profiles comprises a support 200, wherein a plurality of front section conveying assemblies 210 and a plurality of rear section conveying assemblies 250 are arranged on the support 200; front-end transfer assembly 210: the telescopic device comprises a front section base 211 fixedly connected to a support 200, wherein a rotatable first rotating shaft 212 is arranged on the front section base 211, a first roller is fixedly connected to the first rotating shaft 212, a first side plate 213 is rotatably connected to the first rotating shaft 212, the first side plate 213 is positioned between the first roller and the front section base 211, the first side plate 213 is positioned at the outer side of the support 200, a rotatable second rotating shaft 214 is arranged on the first side plate 213, a second roller is fixedly connected to the second rotating shaft 214, a first belt 215 capable of rotating backwards or forwards is wound on the outer sides of the first roller and the second roller, a telescopic driving device 216 is hinged to the lower front part of the support 200, and a telescopic shaft of the telescopic driving device 216 is hinged to the first side plate 213; back end transfer assembly 250: the device comprises a rear section base 251 fixedly connected to a support 200, wherein a third side plate 252 is fixedly connected to the rear section base 251, the third side plate 252 is horizontally arranged, a rotatable third rotating shaft 253 is arranged at one end of the third side plate 252, a third roller is fixedly connected to the third rotating shaft 253, a rotatable fourth rotating shaft 254 is arranged at the other end of the third side plate 252, a fourth roller is fixedly connected to the fourth rotating shaft 254, and a third belt 255 capable of rotating backwards is wound around the outer sides of the third roller and the fourth roller; the front section conveying components 210 and the rear section conveying components 250 are sequentially staggered from left to right, and the rear section conveying components 250 are butted with the front section conveying components 210; the first rotating shafts 212 of the front-section conveying assembly 210 are driving shafts, the support 200 is provided with a rotatable first driving shaft 231 arranged along the left-right direction, the first driving shaft 231 is driven by a first motor 232, and all the first rotating shafts 212 are in transmission connection with the first driving shaft 231; third rotating shafts 253 of the rear-section conveying assembly 250 are driving shafts, a rotatable third driving shaft 233 arranged along the left-right direction is arranged on the support 200, the third driving shaft 233 is driven by a second motor 234, and all the third rotating shafts 253 are in transmission connection with the third driving shaft 233; the front base 211 is provided with a first notch 228, and the first driving shaft 231 passes through the first notch 228; the rear base 251 is provided with a second notch 238, and the third driving shaft 233 passes through the second notch 238. Since the rear conveyor assembly 250 is abutted with the front conveyor assembly 210, the aluminum profiles on the front conveyor assembly 210 can be conveyed to the rear conveyor assembly 250. The front section conveying assembly 210 can swing around the first rotating shaft 212, when the front section conveying assembly 210 works, the telescopic shaft of the telescopic driving device 216 extends out, the front section conveying assembly 210 is in a horizontal state, the aluminum profile is placed on the front section conveying assembly 210, when the aluminum profile is qualified, the first belt 215 rotates anticlockwise when viewed from the left side, the aluminum profile is conveyed to the rear section conveying assembly 250, and the third belt 255 rotates anticlockwise; when the aluminum profile is unqualified, the telescopic shaft of the telescopic driving device 216 retracts, the front section conveying assembly 210 swings downwards, as shown in fig. 5, the first belt 215 rotates clockwise, and the aluminum profile is conveyed to an unqualified treatment area. All the first rotating shafts 212 are in transmission connection with the first driving shaft 231, all the third rotating shafts 253 are in transmission connection with the third driving shaft 233, and one first motor 232 can be used for driving all the front-stage conveying assemblies 210, and one second motor 234 can be used for driving all the rear-stage conveying assemblies 250, so that the number of motors is reduced. Because the front section base 211 is provided with the first notch 228, and the rear section base 251 is provided with the second notch 238, when producing shorter aluminum profiles, the front section conveying assembly 210 and the rear section conveying assembly 250 except the aluminum profile length can be conveniently detached and separated from the first driving shaft 231 and the third driving shaft 233, the normal work of the equipment is not affected, the load of the driving motor can be reduced, and the energy is saved. Meanwhile, the first notch 228 and the second notch 238 are arranged, so that a gap exists between the driving shaft and the base, the requirements on the machining precision of the base and the driving shaft can be reduced, the assembly difficulty is reduced, the stress generated by the driving shaft in the operation process is reduced, the vibration of the equipment is reduced, and the service life of the equipment is prolonged.

In this embodiment, a plurality of first gears are connected to the first driving shaft 231 in a transmission manner, a second gear 225 is arranged on the front section base 211, the second gear 225 is in meshed connection with the first gears, a third gear is connected to the first rotating shaft 212 in a transmission manner, and the third gear is in meshed connection with the second gear 225; a plurality of fourth gears are connected to the third driving shaft 233 in a transmission manner, a fifth gear 256 is arranged on the rear base 251, the fifth gear 256 is in meshed connection with the fourth gear, and a sixth gear is connected to the third rotating shaft 253 in a transmission manner and is in meshed connection with the fifth gear 256.

The telescopic driving device 216 in this embodiment is a cylinder.

In this embodiment, the front base 211 and the rear base 251 are provided with a clearance 240, the third driving shaft 233 and the first driving shaft 231 are disposed in the clearance 240, and the first driving shaft 231 is disposed at the rear side of the third driving shaft 233, so that the front conveying assembly 210 and the rear conveying assembly 250 can have longer intersecting conveying surfaces, and small-sized aluminum profiles can be conveyed.

As shown in fig. 2, in the embodiment, the front-end conveying assembly 210 is provided with a swing seat 217, the swing seat 217 is rotatably connected to the first rotating shaft 212, the swing seat 217 is provided with a first pin 218, the first pin 218 is perpendicular to the first side plate 213, the first side plate 213 is provided with a first pin hole corresponding to the first pin 218, the swing seat 217 is fixedly connected to the first side plate 213 through the first pin 218, and the telescopic shaft of the telescopic driving device 216 is hinged to the swing seat 217; the lower part of the swing seat 217 is hinged with a telescopic support rod 219, and a telescopic shaft of the telescopic support rod 219 is hinged with the first side plate 213. When the first pin 218 is inserted into the first pin hole, the first side plate 213 is fixedly connected with the swing seat 217, the telescopic shaft of the telescopic driving device 216 is hinged to the swing seat 217, and the first side plate 213 swings downward along with the swing seat 217; when the first pin 218 is pulled out of the first pin hole, the first side plate 213 is rotatably connected with the swing seat 217, the first side plate 213 can swing upwards, and a space can be reserved for an operator to enter the middle of the device after the first side plate 213 swings upwards. The telescopic support rod 219 can provide auxiliary force in the swinging process of the first side plate, and the force applied by an operator is reduced.

The telescopic support rod 219 in this embodiment is an air spring.

As shown in fig. 3, a second pin seat 220 is fixedly connected to an outer side of the first side plate 213, a through hole is formed in the second pin seat 220, an axis of the through hole is the same as a transmission direction of the first belt 215, a second pin 221 is slidably connected to the through hole, and a second pin hole 222 corresponding to the second pin 221 is formed in the front base 211. When the first side plate 213 is swung upward, the second pin 221 can be inserted into the second pin hole 222, and the first side plate 213 can be fixed at the swung-upward position.

In this embodiment, the axis of the second pin hole 222 is inclined toward the rear side, and the axis of the second pin hole 222 forms an angle of 95 degrees with the horizontal line, so that the first side plate 213 can be fixed at a position which swings upward by 95 degrees, and a person can conveniently enter the first side plate.

In this embodiment, a nut is screwed on the second pin 221, the nut is located between the second pin seat 220 and the front section base 211, a spring 223 is sleeved on the second pin 221, and the spring 223 is located between the nut and the second pin seat 220. The spring 223 can apply pressure to the second pin 221, so that the second pin 221 is tightly inserted into the second pin hole 222 and is not easy to be removed.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a two-way transfer apparatus of aluminium alloy which characterized in that: comprises a bracket (200), wherein the bracket (200) is provided with a plurality of front-section conveying assemblies (210) and a plurality of rear-section conveying assemblies (250);

front end transfer assembly (210):

the automatic folding device comprises a front section base (211) fixedly connected to a support (200), wherein a rotatable first rotating shaft (212) is arranged on the front section base (211), a first roller is fixedly connected to the first rotating shaft (212), a first side plate (213) is rotatably connected to the first rotating shaft (212), the first side plate (213) is positioned between the first roller and the front section base (211), the first side plate (213) is positioned at the outer side of the support (200), a rotatable second rotating shaft (214) is arranged on the first side plate (213), a second roller is fixedly connected to the second rotating shaft (214), a first belt (215) capable of rotating backwards or forwards is wound on the outer sides of the first roller and the second roller, a telescopic driving device (216) is hinged to the lower front part of the support (200), and a telescopic shaft of the telescopic driving device (216) is connected to the first side plate (213);

a back end transfer assembly (250):

the device comprises a rear section base (251) fixedly connected to a support (200), a third side plate (252) is fixedly connected to the rear section base (251), the third side plate (252) is horizontally arranged, a rotatable third rotating shaft (253) is arranged at one end of the third side plate (252), a third roller is fixedly connected to the third rotating shaft (253), a rotatable fourth rotating shaft (254) is arranged at the other end of the third side plate (252), a fourth roller is fixedly connected to the fourth rotating shaft (254), and a third belt (255) capable of rotating backwards is wound around the outer sides of the third roller and the fourth roller;

the front section conveying components (210) and the rear section conveying components (250) are sequentially staggered from left to right, and the rear section conveying components (250) are butted with the front section conveying components (210);

the first rotating shafts (212) of the front section conveying assembly (210) are driving shafts, the support (200) is provided with a rotatable first driving shaft (231) arranged along the left-right direction, the first driving shaft (231) is driven by a first motor (232), and all the first rotating shafts (212) are in transmission connection with the first driving shaft (231);

third rotating shafts (253) of the rear section conveying assembly (250) are driving shafts, rotatable third driving shafts (233) arranged along the left-right direction are arranged on the support (200), the third driving shafts (233) are driven by a second motor (234), and all the third rotating shafts (253) are in transmission connection with the third driving shafts (233);

the front section base (211) is provided with a first notch (228), and the first driving shaft (231) passes through the first notch (228);

the rear section base (251) is provided with a second notch (238), and the third driving shaft (233) passes through the second notch (238);

the front-section conveying assembly (210) is provided with a swinging seat (217), the swinging seat (217) is rotatably connected to a first rotating shaft (212), a first bolt (218) is arranged on the swinging seat (217), the first bolt (218) is perpendicular to a first side plate (213), a first pin hole corresponding to the first bolt (218) in position is formed in the first side plate (213), the swinging seat (217) is fixedly connected with the first side plate (213) through the first bolt (218), and a telescopic shaft of a telescopic driving device (216) is hinged to the swinging seat (217); the lower part of the swinging seat (217) is hinged with a telescopic supporting rod (219), and a telescopic shaft of the telescopic supporting rod (219) is hinged with the first side plate (213).

2. The two-way transfer apparatus of aluminum profile according to claim 1, characterized in that: a plurality of first gears are connected to the first driving shaft (231) in a transmission manner, a second gear (225) is arranged on the front section base (211), the second gear (225) is meshed with the first gears, a third gear is connected to the first rotating shaft (212) in a transmission manner, and the third gear is meshed with the second gears (225); a plurality of fourth gears are connected to the third driving shaft (233) in a transmission mode, a fifth gear (256) is arranged on the rear section base (251), the fifth gear (256) is meshed with the fourth gears and connected with the third rotating shaft (253) in a transmission mode, and the sixth gear is meshed with the fifth gear (256).

3. The two-way transfer apparatus of aluminum profile according to claim 1, characterized in that: the telescopic driving device (216) is an air cylinder.

4. The two-way transfer apparatus of aluminum profile according to claim 1, characterized in that: the front section base (211)/the rear section base (251) is provided with a clearance gap (240), and the third driving shaft (233)/the first driving shaft (231) is arranged in the clearance gap (240).

5. The two-way transfer apparatus of aluminum profile according to claim 4, characterized in that: the first drive shaft (231) is provided on the rear side of the third drive shaft (233).

6. The two-way transfer apparatus of aluminum profile according to claim 1, characterized in that: the telescopic supporting rod (219) is an air spring.

7. The two-way transfer apparatus of aluminum profile according to claim 1, characterized in that: the outside fixedly connected with second bolt seat (220) of first curb plate (213), be equipped with the through-hole on second bolt seat (220), the axis of through-hole is the same with the direction of transfer of first belt (215), and through-hole sliding connection has second bolt (221), is equipped with second pinhole (222) corresponding with second bolt (221) position on anterior segment base (211).

8. The two-way transfer apparatus of aluminum profile according to claim 7, characterized in that: the axis of the second pin hole (222) is inclined towards the rear side, and the axis of the second pin hole (222) forms an angle of 95 degrees with the horizontal line.

9. The two-way transfer apparatus of aluminum profile according to claim 7, characterized in that: the second bolt (221) is connected with a nut in a threaded mode, the nut is located between the second bolt seat (220) and the front section base (211), the second bolt (221) is sleeved with a spring (223), and the spring (223) is located between the nut and the second bolt seat (220).