CN111285020A

CN111285020A - A high-efficient conveyer belt for production line

Info

Publication number: CN111285020A
Application number: CN202010166250.8A
Authority: CN
Inventors: 林钦准
Original assignee: Qingdao Heyuan Metal Products Co ltd
Current assignee: Qingdao Heyuan Metal Products Co ltd
Priority date: 2020-03-11
Filing date: 2020-03-11
Publication date: 2020-06-16

Abstract

The invention provides a high-efficiency conveying belt for a production line, which comprises an underframe, a top frame, a support rod group, a conveying unit and an inclination adjusting unit, wherein the top frame and the underframe are connected and locked through the support rod group, a conveying belt in the conveying unit is driven by a driving wheel and a driven wheel to move, the driving wheel is driven by a driving motor to rotate, the end part of an air cylinder of the inclination adjusting unit is hinged on the top frame, the output end of the air cylinder is hinged on a bottom plate, the pitching inclination adjustment of the conveying unit is realized by the telescopic movement of the air cylinder, so that the conveying belt is obliquely arranged along different angles, further the conveying belt meets the conveying position requirements of different production lines, a cross beam is arranged along the direction deviating from the conveying belt, an LED lamp is arranged on the cross beam, the space for the conveying belt to rotate and tip is avoided while the illumination is provided, and the, the working efficiency is improved.

Description

A high-efficient conveyer belt for production line

Technical Field

The invention relates to the technical field of machining conveying equipment, in particular to a high-efficiency conveying belt for a production line.

Background

The conveyer belt is a device widely used in production and processing, realizes the moving conveying of workpieces in the processing and production, and improves the automation degree of a production line. However, the position of the existing conveyor belt device in the height direction can be adjusted by the air cylinder and the hydraulic cylinder so as to meet the requirement of conveying production lines with different heights, but the inclination of the conveyor belt cannot be adjusted, so that inconvenience is brought to production and processing.

Disclosure of Invention

In view of the above, the technical problems to be solved by the present invention are: how to provide a conveyor belt device which can adjust the inclination of the conveyor belt so as to lead the conveyor belt to be conveyed in an inclined way.

In order to achieve the above object, the present invention provides a high-efficiency conveyor belt for a production line, comprising a bottom frame, a top frame, a support rod group, a conveying unit and an inclination adjusting unit;

the LED lamp rack comprises a bottom frame, a plurality of LED lamps, a plurality of vertical columns, a transverse frame, a plurality of top frames and a plurality of transverse frames, wherein the bottom frame is provided with a lower slideway at two sides, the vertical columns are arranged at two sides of the bottom frame and are perpendicular to the bottom frame, the top of each vertical column is perpendicularly connected with the transverse frame, the transverse frame is positioned above the top frame, and the plurality of LED lamps are connected to;

the top frame is positioned above the bottom frame, the two sides of the top frame are provided with upper slideways, and the middle part of the top frame is provided with a containing groove;

the support rod group comprises two parallel support rods, the end parts of the two parallel support rods are respectively connected through a cross rod, the cross rod penetrates through the upper slideway or the lower slideway, and the end part of the cross rod is connected with a nut;

the two support rod groups are respectively connected with the bottom frame and the top frame, the two support rod groups are arranged in a crossed manner, and the support rods in the two support rod groups are respectively hinged with each other;

the conveying unit comprises a bottom plate, a driving motor, a driving wheel, a driven wheel and a conveying belt, the bottom plate is connected with the top frame, the cross frame extends along a direction deviating from the bottom plate, the driving motor, the driving wheel and the driven wheel are fixed on the bottom plate, the driving motor is connected with the driving wheel and drives the driving wheel to rotate, the conveying belt is connected between the driving wheel and the driven wheel, the conveying belt is driven to move by the rotation of the driving wheel, one end of the bottom plate is connected with the top frame through a loose-leaf plate, and two ends of the loose-leaf plate are respectively connected with the bottom plate and the top frame so that one end of the bottom plate is hinged with the top frame;

the inclination adjusting unit comprises a cylinder, a first hinged seat and a second hinged seat, the first hinged seat is connected with and fixedly connected with the top frame, the second hinged seat is fixedly connected with the bottom plate, the bottom of the cylinder is hinged to the first hinged seat, the output end of the cylinder is connected with the second hinged seat, and the output end of the cylinder is telescopically moved to drive the bottom plate to wind the bottom plate and the top frame to be hinged.

Further, the bottom of the underframe is provided with a pulley.

Further, the first hinged seat is located below the second hinged seat, and the bottom of the air cylinder is parallel to the rotating axis of the first hinged seat and the rotating axis of the output end of the air cylinder and the rotating axis of the second hinged seat.

Further, the output end of the cylinder is telescopically moved through the accommodating groove.

Further, the accommodating groove extends along the length direction of the bottom plate.

Further, the bottom of bottom plate is fixed and is set up the second fixed plate, the articulated seat of second with second fixed plate fixed connection.

Further, the bottom of roof-rack is fixed and is set up first fixed plate, first articulated seat with first fixed plate fixed connection, first fixed plate sets up along vertical direction.

Compared with the prior art, the invention provides a high-efficiency conveying belt for a production line, which comprises an underframe, a top frame, a support rod group, a conveying unit and an inclination adjusting unit, wherein the top frame and the underframe are connected and locked through the support rod group, a conveying belt in the conveying unit is driven by a driving wheel and a driven wheel to move, the driving wheel is driven by a driving motor to rotate, the end part of an air cylinder of the inclination adjusting unit is hinged on the top frame, the output end of the air cylinder is hinged on a bottom plate, the pitching inclination adjustment of the conveying unit is realized by the telescopic movement of the air cylinder, so that the conveying belt is obliquely arranged along different angles, the conveying position requirements of different production lines are further met by the conveying belt, a cross beam is arranged along the direction deviating from the conveying belt, an LED lamp is arranged on the cross beam, the space for the conveying belt to rotate and tip can be avoided while illumination is provided, the working efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of a high-efficiency conveyor belt for a production line according to an embodiment of the present invention;

FIG. 2 is another schematic diagram of an efficient conveyor belt for a production line according to an embodiment of the present invention;

fig. 3 is another schematic structural diagram of the efficient conveyor belt for the production line in the embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. Referring to fig. 1 to 3, the present invention provides an efficient conveyor belt for a production line, including a base frame 10, a top frame 20, a strut group 30, a conveying unit 40, and a slope adjusting unit 50.

The two sides of the bottom frame 10 are provided with the lower slideways 11, the lower slideways 11 limit the movement of the bottom of the supporting rod 31, the bottom of the bottom frame 10 is provided with the pulleys 12, the movement of the conveyor belt device is facilitated, the two sides of the bottom frame 10 are provided with the upright columns 13, the upright columns 13 are perpendicular to the bottom frame 10, the top portions of the upright columns 13 are perpendicularly connected with the cross frames 14, the cross frames 14 are located above the top frame 20, the cross frames 14 are connected with the LED lamps 15, the conveying units 40 below the cross frames 14 are provided with light, the operation of a user is facilitated, the cross frames 14 extend in the direction away from the bottom plate 41, namely the cross frames 14 and the bottom plate 41 extend in opposite directions, when the conveyor belt connected onto the bottom plate 41 is overturned and rotated, the cross frames 14 opposite to the bottom plate 41 can provide accommodating spaces for the conveyor belt, and the overturning and the inclination.

The top frame 20 is located above the bottom frame 10, the upper slide rails 21 are arranged on two sides of the top frame 20, the movement of the top of the supporting rod 31 is limited by the upper slide rails 21, the accommodating groove 22 is arranged in the middle of the top frame 20, the output end of the air cylinder 53 moves in a telescopic mode through the accommodating groove 22, and the accommodating groove 22 extends along the length direction of the bottom plate 41 to provide a rotating space along the length direction of the bottom plate 41 when the air cylinder 53 moves in a telescopic mode.

The strut group 30 includes two struts 31 arranged in parallel, the ends of the two struts 31 arranged in parallel are respectively connected by a cross bar 32, the cross bar 32 is arranged in the upper slideway 21 or the lower slideway 11 in a penetrating manner, the end of the cross bar 32 is connected with a nut 33, that is, the end of the cross bar 32 is in threaded locking connection with the nut 33, so that the end of the cross bar 32 is in locking connection with the side of the upper slideway 21 or the lower slideway 11.

The two strut groups 30 are respectively connected with the bottom frame 10 and the top frame 20, the two strut groups 30 are arranged in a crossed manner, and the struts 31 in the two strut groups 30 are respectively hinged with each other, for example, the struts 31 of the two strut groups 30 arranged in a crossed manner are hinged through a pin.

The conveying unit 40 includes a bottom plate 41, a driving motor 42, a driving wheel 43, a driven wheel 44 and a conveying belt 45, the bottom plate 41 is connected to the top frame 20, the driving motor 42, the driving wheel 43 and the driven wheel 44 are fixed on the bottom plate 41, the driving motor 42 is connected to the driving wheel 43 and drives the driving wheel 43 to rotate, the conveying belt 45 is connected between the driving wheel 43 and the driven wheel 44, and the conveying belt 45 is driven to move by the rotation of the driving wheel 43.

One end of the bottom plate 41 is connected with the top frame 20 through the loose-leaf plate 23, and two ends of the loose-leaf plate 23 are respectively connected with the bottom plate 41 and the top frame 20 so that one end of the bottom plate 41 is hinged with the top frame 20 and the bottom plate 41 can rotate around the hinge axis of the loose-leaf plate 23.

The inclination adjusting unit 50 includes an air cylinder 53, a first hinge base 51 and a second hinge base 52, the first hinge base 51 is fixedly connected to the top frame 20, the second hinge base 52 is fixedly connected to the bottom plate 41, and the first hinge base 51 is located below the second hinge base 52, such that the air cylinder 53 is obliquely connected between the first hinge base 51 and the second hinge base 52.

Specifically, the bottom of the bottom plate 41 is fixedly provided with a second fixing plate 62, the second hinge seat 52 is fixedly connected with the second fixing plate 62, the bottom of the top frame 20 is fixedly provided with a first fixing plate 61, the first hinge seat 51 is fixedly connected with the first fixing plate 61, and the first fixing plate 61 is arranged along the vertical direction.

The bottom of the air cylinder 53 is hinged with the first hinged seat 51, the output end of the air cylinder 53 is connected with the second hinged seat 52, and the bottom of the air cylinder 53 is parallel to the rotating axis of the first hinged seat 51 and the rotating axis of the output end of the air cylinder 53 and the rotating axis of the second hinged seat 52.

The telescopic movement of the output end of the air cylinder 53 drives the bottom plate 41 to rotate around the hinged connection of the bottom plate 41 and the top frame 20, specifically, the bottom of the air cylinder 53 and the output end of the air cylinder 53 are respectively hinged to the first hinged seat 51 and the second hinged seat 52, when the output end of the air cylinder 53 extends out, the bottom plate 41 is jacked up to enable the bottom plate 41 to rotate around the hinged axis of the loose-leaf plate 23, so that the conveyor belt 45 is obliquely arranged along an obliquely downward angle, and further, the inclination of the conveyor belt is adjusted; when the output of the cylinder 53 is retracted, the base plate 41 is retracted so that the base plate 41 is rotated about the hinge axis of the loose-leaf blade 23, causing the conveyor belt 45 to return to the horizontal disposition.

In summary, the invention provides a high-efficiency conveyor belt for a production line, which comprises an underframe, a top frame, a support rod group, a conveying unit and an inclination adjusting unit, wherein the top frame and the underframe are connected and locked through the support rod group, a driving belt in the conveying unit is driven by a driving wheel and a driven wheel to move, the driving wheel is driven by a driving motor to rotate, the end part of an air cylinder of the inclination adjusting unit is hinged on the top frame, the output end of the air cylinder is hinged on a bottom plate, the pitching inclination of the conveying unit is adjusted by the telescopic movement of the air cylinder, so that the conveyor belt is obliquely arranged along different angles, the requirement of conveying positions of different production lines is met by the conveyor belt, a cross beam is arranged along the direction deviating from the conveyor belt, an LED lamp is arranged on the cross beam, a space for the conveyor belt to rotate and tip can be avoided while illumination is provided, and, the working efficiency is improved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A high-efficiency conveying belt for a production line is characterized by comprising an underframe, a top frame, a support rod group, a conveying unit and an inclination adjusting unit;

2. A high efficiency conveyor belt for manufacturing lines as claimed in claim 1 wherein the bottom of said base frame is provided with pulleys.

3. A high efficiency conveyor belt for production lines as claimed in claim 1 wherein said first hinge base is located below said second hinge base, and the bottom of said cylinder is parallel to the axis of rotation of said first hinge base and the output end of said cylinder is parallel to the axis of rotation of said second hinge base.

4. A high efficiency conveyor belt for a production line as set forth in claim 1, wherein the output end of said air cylinder is telescopically moved via said accommodating groove.

5. A high efficiency conveyor belt for a production line as set forth in claim 1, wherein said accommodating groove is provided extending in a length direction of said base plate.

6. A high efficiency conveyor belt for production lines as in claim 1 wherein a second retaining plate is fixedly disposed at the bottom of the base plate, and the second hinge seat is fixedly connected with the second retaining plate.

7. A high efficiency conveyor belt for production lines as claimed in claim 6, wherein a first fixing plate is fixedly arranged at the bottom of the top frame, the first hinge seat is fixedly connected with the first fixing plate, and the first fixing plate is arranged along the vertical direction.