CN114408541A - Differential turning conveying equipment and turning conveying line - Google Patents

Abstract

The invention discloses a differential turning conveying device, which comprises: the device comprises a rack, a first conveying device and a second conveying device. First conveyor and second conveyor all are equipped with two conveying assembly that set up in pairs. The conveying assembly comprises a conveying part and a conveying driving component. The conveying driving component is used for driving the conveying part to move from the feeding end to the discharging end. The feeding directions of the two conveying assemblies arranged in pairs are consistent. And the two feeding ends of the second conveying device are respectively and correspondingly connected with the two feeding ends of the first conveying device. The invention also discloses a turning conveying line which comprises a first conveying line, a second conveying line and the differential turning conveying equipment. According to the differential turning conveying equipment, the conveying direction of the materials is changed through the differential turning conveying equipment, and meanwhile the materials can rotate due to the speed difference of the conveying assemblies arranged in pairs, so that the orientation of the materials is changed, different conveying requirements are met, and the flexibility is strong.

Description

Differential turning conveying equipment and turning conveying line

Technical Field

The invention relates to the technical field of conveying equipment, in particular to differential turning conveying equipment and a turning conveying line.

Background

The flat plate products such as plates, decorative plates, ceramic tiles and the like are all spread on a conveying line for conveying in the connecting production process. The device is limited by site factors, the positions of all devices are generally difficult to be arranged in a straight line, and a turning conveying line is needed to change the conveying direction of materials during connection production.

Traditional transfer chain that turns round realizes direction of delivery's change through two transfer chain butt each other. The two conveying lines which are butted with each other are used for steering, products are directly conveyed to the other conveying line from one conveying line, the conveying direction of the products is changed, the original orientation of the products is still kept, and the orientation of the products can be changed while the conveying direction is changed by another mechanism for steering the products. In the prior art, some turning conveying lines convey the materials through a plurality of conical rollers which rotate synchronously. Although the direction and the conveying direction of the product can be synchronously changed and the consistency of the direction and the conveying direction of the product is kept, the turning conveying line has the advantages of complex structure, more parts, inconvenient maintenance and high cost.

Disclosure of Invention

The present invention aims to provide a differential turning conveyor which solves one or more of the problems of the prior art and provides at least one useful alternative or creation.

The technical scheme adopted for solving the technical problems is as follows:

a differential turn conveyor apparatus comprising: the device comprises a rack, a first conveying device and a second conveying device, wherein the first conveying device and the second conveying device are mounted on the rack;

the first conveying device and the second conveying device are respectively provided with two conveying assemblies which are arranged in pairs, each conveying assembly is provided with a feeding end and a discharging end, each conveying assembly comprises a conveying part and a conveying driving component, and each conveying driving component is provided with a conveying driving end which is in transmission connection with the conveying part and enables the conveying part to move from the feeding end to the discharging end;

the direction from the feeding end to the discharging end is taken as the feeding direction of the conveying assemblies, the feeding directions of the two conveying assemblies arranged in pairs are consistent, and the feeding directions of the first conveying device and the second conveying device are inconsistent; and the two feeding ends of the second conveying device are respectively and correspondingly connected with the two feeding ends of the first conveying device.

The differential turning conveying equipment provided by the invention at least has the following beneficial effects: the external materials are conveyed by the first conveying device and the second conveying device in sequence, so that the conveying direction of the materials, which is originally consistent with the feeding direction of the first conveying device, is changed into the feeding direction of the second conveying device. When the materials are conveyed on the first conveying device and the second conveying device: different conveying speeds can be preset to the conveying assembly who sets up in pairs, and the transport portion that removes through different speeds makes the material can take place to rotate to change the orientation of material. According to the differential turning conveying equipment, the conveying direction of materials can be changed through the first conveying device and the second conveying device which feed materials in different directions; meanwhile, the materials can rotate in the conveying process through the speed difference between the conveying assemblies arranged in pairs, so that the orientation of the materials is changed. The speed difference of the conveying assemblies arranged in pairs is controlled, the rotation amplitude of the materials can be changed, and the orientation of the materials can be set at any angle with the conveying direction of the materials when the materials are conveyed out of the differential turning conveying equipment.

As a further improvement of the above technical solution, the conveying assembly includes a conveying belt, the conveying driving member includes a conveying driving unit and two driving wheels, the two driving wheels are respectively disposed at the feeding end and the discharging end, the axial directions of the two driving wheels are perpendicular to the feeding direction, the two driving wheels are connected to the frame, the conveying driving unit is drivingly connected to one of the driving wheels, the conveying belt is wound around the two driving wheels and is drivingly connected to the two driving wheels, and the conveying portion is disposed on the upper side belt surface of the conveying belt. Through above-mentioned technical scheme, the conveyer belt can be around establishing on two drive wheels for its area can carry out bearing and transport to the material. The conveyer belt that the circulation was around establishing can the endless movement, realizes incessant pay-off. The driving unit can drive the driving wheel to rotate, so that the conveying belt is driven to circularly move, and materials are conveyed.

As a further improvement of the above technical solution, the conveying assembly further includes a belt supporting member, the belt supporting member is disposed between the two driving wheels and connected to the frame, the belt supporting member is provided with a belt supporting portion extending in the feeding direction, and the belt supporting portion is disposed on the inner side of the conveying belt. Through the technical scheme, the belt supporting part of the belt supporting piece can support the inner side belt surface of the conveying belt, and the problem that the middle of the conveying belt is easy to dent, so that the material is jumped to influence conveying is avoided.

As a further improvement of the above technical solution, the tape supporting member is provided with a first connecting portion and a second connecting portion arranged in the feeding direction, and the first connecting portion and the second connecting portion are both connected with the rack in an up-down direction. Through the technical scheme, the heights of the two ends of the belt supporting piece can be adjusted as required, the two ends of the conveying assembly are convenient to butt, and materials can enter or be conveyed out of the conveying assembly smoothly.

As a further improvement of the above technical solution, the carrier strip part is of a groove structure, and the shape of the carrier strip part is consistent with the shape of the inner side of the conveyor belt. Through the technical scheme, the supporting belt part is of a groove structure and can limit and guide the inner side of the conveying belt, so that the inner side of the conveying belt moves in the supporting belt part, and the abnormal situation caused by the deflection of the conveying belt in the movement process is effectively avoided.

As a further improvement of the above technical solution, the conveying parts of the conveying assemblies are all disposed on the same horizontal plane, the direction perpendicular to the feeding direction and parallel to the horizontal direction is taken as the width direction of the conveying assemblies, and the conveying assemblies are adjustably connected with the rack along the width direction. Through above-mentioned technical scheme, the material can steadily be carried to the transport portion that the level aligns, and the material is difficult to take place to overturn. The conveying assemblies can be adjusted in position in the width direction, so that the distance between the conveying assemblies arranged in pairs can be set according to the size of the material.

As a further improvement of the above technical solution, the first conveying device and the second conveying device further include universal ball conveying members, the universal ball conveying members are disposed between the conveying assemblies arranged in pairs and connected to the rack, and the universal ball conveying members include a plurality of universal ball units arranged in the feeding direction. Through above-mentioned technical scheme, universal ball conveying member can carry out the bearing to the material in the position between two conveyor components, and universal ball unit and material bottom rolling contact can not lead to the fact the hindrance to the transport or the rotation of material.

As a further improvement of the above technical solution, the first conveying device and the second conveying device are both mounted at the top of the frame, the bottom of the frame is provided with a plurality of columns extending downward, the bottom ends of the columns are provided with adjustable support legs, and the distance between the adjustable support legs and the top of the frame is adjustable. Through the technical scheme, the height of the rack can be adjusted according to requirements, and the heights of the first conveying device and the second conveying device can be adjusted according to the corresponding heights of the connection line butt joint.

The invention also provides a turning conveying line, which comprises: the first conveying line, the second conveying line and the differential turning conveying equipment are arranged on the conveying line; the conveying direction of the first conveying line is consistent with the feeding direction of the first conveying device, and the downstream end of the first conveying line is connected with the two feeding ends of the first conveying device; the conveying direction of the second conveying line is consistent with the feeding direction of the second conveying device, and the upstream end of the second conveying line is connected with the two discharging ends of the first conveying device.

The turning conveying line provided by the invention at least has the following beneficial effects: the foreign materials in the previous process can be conveyed into the differential turning conveying equipment along the first conveying line, the conveying direction and the material direction are changed in the differential turning conveying equipment, and then the foreign materials are conveyed out along the second conveying line to enter the next process.

As a further improvement of the above technical solution, the conveying speed of the second conveying line is not lower than that of the first conveying line, and the conveying speeds of the first conveying device and the second conveying device are not lower than that of the first conveying line. Through the technical scheme, the foreign materials are conveyed on the first conveying line, the differential turning conveying equipment and the second conveying line in sequence. The conveying speed of first conveyor and second transfer chain all is not less than first transfer chain, can avoid the material to pile up. It is worth noting that the faster the conveying speed, the greater the distance between the positions of adjacent materials. For some materials which are non-circular on the projection plane vertical to the up-down direction, the required material distance is increased when the materials rotate; for some materials with changed orientation, the material spacing needs to be increased. The conveying speeds of the first conveying device, the second conveying device and the second conveying line can be set according to the conveying requirements of materials.

Drawings

The invention is further described with reference to the accompanying drawings and examples;

FIG. 1 is a schematic perspective view of an embodiment of a corner conveyor line provided by the present invention;

FIG. 2 is a perspective view of one embodiment of a differentially curved conveyor apparatus according to the present invention;

FIG. 3 is a perspective view of one embodiment of a differentially curved conveyor apparatus according to the present invention;

FIG. 4 is a top view of an embodiment of the differentially curved conveyor apparatus of the present invention.

In the figure: 100. a frame; 110. a column; 111. an adjustable support leg; 200. a first conveying device; 300. a second conveying device; 400. a delivery assembly; 410. a conveyor belt; 411. a conveying section; 420. a conveyance driving member; 421. a conveyance drive unit; 422. a drive wheel; 423. a drive shaft; 430. a belt supporting member; 500. a first conveyor line; 600. and a second conveyor line.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 4, the corner conveyor line of the present invention makes the following embodiments:

a corner conveyor line comprising: a first conveyor line 500, a second conveyor line 600, and a differentially-turned conveyor apparatus.

The differentially-curved conveying apparatus includes: a frame 100, a first conveyor 200, and a second conveyor 300.

The first conveyor 200 and the second conveyor 300 are both mounted on the top of the frame 100. The bottom of frame 100 is equipped with a plurality of stands 110 that extend down, the bottom of stand 110 is equipped with adjustable stabilizer blade 111, adjustable stabilizer blade 111 with the distance at frame 100 top is adjustable. In this embodiment, the adjustable supporting leg 111 is slidably connected to the bottom end of the upright column 110 along the up-down direction, an adjusting bolt is further disposed between the upright column 110 and the adjustable supporting leg 111, the axial direction of the adjusting bolt extends along the up-down direction, and the adjusting bolt is rotatably connected to the adjustable supporting leg 111 and is in threaded connection with the upright column 110. In some embodiments, the adjustable leg 111 may be a cup, which is provided with a vertically extending stud and is threadedly mounted to the bottom end of the upright 110.

The first conveyor 200 and the second conveyor 300 are each provided with two conveyor assemblies 400 arranged in pairs.

The conveyor assembly 400 is provided with a feed end and a discharge end. The conveyance assembly 400 includes a conveyance portion 411 and a conveyance driving member 420. The conveying driving member 420 is provided with a conveying driving end which is in transmission connection with the conveying part 411 and enables the conveying part 411 to move from the feeding end to the discharging end.

To facilitate the transportation of the flat product, in this embodiment, the transportation assembly 400 is a belt wheel transmission transportation belt 410. Conveying assembly 400 includes conveyer belt 410, carry drive component 420 including carrying drive unit 421 and two drive wheels 422, two drive wheels 422 locate respectively feed end and discharge end, two the equal perpendicular to of drive wheel 422's axial the pay-off direction, two drive wheel 422 all with frame 100 is connected, carry drive unit 421 with one of them drive wheel 422 drive connection, conveyer belt 410 is around locating two drive wheel 422 and with two drive wheel 422 transmission is connected, conveying portion 411 is located the side of going up of conveyer belt 410.

The conveying driving unit 421 in this embodiment is a servo motor in consideration of convenience in controlling the speed and accuracy of conveying, and in other embodiments, the conveying driving unit 421 may be a rotary driving element such as a stepping motor or a pneumatic motor.

The conveyor assembly 400 also includes a carrier 430. The belt supporting member 430 is disposed between the two driving wheels 422 and connected to the frame 100, the belt supporting member 430 is provided with a belt supporting portion extending along the feeding direction, and the belt supporting portion is disposed on the inner side of the conveying belt 410.

In this embodiment, the conveyor belt 410 is a flat belt, and the carrier belt portion is a flat plane. In other embodiments, the conveying belt 410 may be a V-belt or a circular belt. The carrier strip part is of a groove structure, and the shape of the carrier strip part is consistent with the shape of the inner side of the conveying belt 410. Likewise, the periphery of the drive wheel 422 is also provided with a groove structure conforming in shape to the inside of the conveyor belt 410.

The belt supporting member 430 is provided with a first connecting portion and a second connecting portion arranged along the feeding direction, and the first connecting portion and the second connecting portion are both connected with the rack 100 in an up-and-down direction in an adjustable manner.

The direction from the feeding end to the discharging end is the feeding direction of the conveying assembly 400. The feeding directions of the two conveying assemblies 400 arranged in pairs are consistent, and the feeding directions of the first conveying device 200 and the second conveying device 300 are not consistent. Two feeding ends of the second conveying device 300 are correspondingly connected with two feeding ends of the first conveying device 200 respectively.

The conveying direction of the first conveying line 500 is the same as the feeding direction of the first conveying device 200, and the downstream end of the first conveying line 500 is connected with the two feeding ends of the first conveying device 200. The conveying direction of the second conveying line 600 is the same as the feeding direction of the second conveying device 300, and the upstream end of the second conveying line 600 is connected with the two discharging ends of the first conveying device 200.

In order to avoid the material stacking and the collision and scratch of the material caused by the reduction of the material conveying speed, the conveying speed of the second conveying line 600 is not lower than that of the first conveying line 500, and the conveying speeds of the first conveying device 200 and the second conveying device 300 are not lower than that of the first conveying line 500. It should be noted that the conveying speed of the first conveying device 200 refers to the conveying speed of the conveying assembly 400 with the lower speed in the first conveying device 200; likewise, the conveying speed of the second conveying device 300 refers to the conveying speed of the conveying assembly 400 with the lower speed in the second conveying device 300.

When using the corner conveyor line of the invention: the foreign materials are sequentially conveyed on the first conveyor line 500, the differentially turned conveyor apparatus, and the second conveyor line 600. When the material enters the feeding end of the second conveyor 300 from the discharging end of the first conveyor 200, the conveying direction of the material is changed from the feeding direction of the first conveyor 200 to the feeding direction of the second conveyor 300.

For balancing the stress and avoiding the falling of the material, in this embodiment, the conveying parts 411 of the conveying assemblies 400 are all disposed on the same horizontal plane. The direction perpendicular to the feeding direction and parallel to the horizontal direction is taken as the width direction of the conveying assembly 400, and the conveying assembly 400 is connected with the rack 100 in an adjustable manner along the width direction. The conveyor assembly 400 is provided with a drive shaft 423 extending in the width direction, and the drive wheel 422 is mounted coaxially with the drive shaft 423 so as to be adjustable in the width direction. Likewise, the belt supporting member 430 is adjustably coupled to the frame 100 in a width direction.

The two conveying assemblies 400 of the first conveying unit are respectively a first outer conveying assembly 400 and a first inner conveying assembly 400, and the two conveying assemblies 400 of the second conveying unit are respectively a second outer conveying assembly 400 and a second inner conveying assembly 400. The feed end of the second outer conveyor assembly 400 is connected to the discharge end of the first outer conveyor assembly 400 and the feed end of the second inner conveyor assembly 400 is connected to the discharge end of the first inner conveyor assembly 400.

In this embodiment, the feeding direction of the first conveying device 200 is set forward, the second conveying device 300 is disposed at the front end side of the first conveying device 200, and the feeding direction of the second conveying device 300 is set leftward. The first inner conveying assembly 400 and the first outer conveying assembly 400 are respectively disposed at the left and right sides of the first conveying device 200, and the second outer conveying assembly 400 and the second inner conveying assembly 400 are respectively disposed at the front and rear sides of the second conveying device 300.

When foreign material is conveyed on the differentially curved conveyor apparatus, the speed differential between the two side conveyor assemblies 400 causes the material to rotate during the conveying process. In this embodiment, looking from top to bottom: when the conveying speed of the first inner conveying assembly 400 is higher than that of the first outer conveying assembly 400, the materials rotate clockwise in the conveying process of the first conveying device 200; otherwise, the material rotates anticlockwise. When the conveying speed of the second inner conveying assembly 400 is higher than that of the second outer conveying assembly 400, the materials rotate clockwise in the conveying process of the second conveying device 300; otherwise, the rotation is anticlockwise.

In some embodiments, the first and second delivery devices 200, 300 further comprise a gimbaled ball delivery member. The universal ball conveying member is arranged between the conveying assemblies 400 arranged in pairs and connected with the rack 100, and comprises a plurality of universal ball units arranged in the feeding direction.

Further, the present invention is applicable to various embodiments of the differential turn conveyor apparatus, which are described in the above-listed examples of the differential turn conveyor apparatus for the curve line, and will not be described in detail here.

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 (10)

1. A differential turn conveying apparatus characterized in that: the method comprises the following steps: a frame (100) and a first conveyor (200) and a second conveyor (300) mounted to the frame (100);

the first conveying device (200) and the second conveying device (300) are respectively provided with two conveying assemblies (400) which are arranged in pairs, the conveying assemblies (400) are provided with a feeding end and a discharging end, each conveying assembly (400) comprises a conveying part (411) and a conveying driving member (420), and each conveying driving member (420) is provided with a conveying driving end which is in transmission connection with the conveying part (411) and enables the conveying part (411) to move from the feeding end to the discharging end;

the direction from the feeding end to the discharging end is taken as the feeding direction of the conveying assemblies (400), the feeding directions of the two conveying assemblies (400) which are arranged in pairs are consistent, and the feeding directions of the first conveying device (200) and the second conveying device (300) are inconsistent; two feeding ends of the second conveying device (300) are correspondingly connected with two feeding ends of the first conveying device (200) respectively.

2. The differentially-curved conveying apparatus of claim 1, wherein: conveying assembly (400) includes conveyer belt (410), carry drive component (420) including carrying drive unit (421) and two drive wheel (422), two drive wheel (422) are located respectively feed end and discharge end, two the equal perpendicular to of axial of drive wheel (422) pay-off direction, two drive wheel (422) all with frame (100) are connected, carry drive unit (421) and one of them drive wheel (422) drive is connected, conveyer belt (410) around locating two drive wheel (422) and with two drive wheel (422) transmission is connected, conveying part (411) are located the last side of band of conveyer belt (410).

3. The differentially-curved conveying apparatus of claim 2, wherein: the conveying assembly (400) further comprises a belt supporting piece (430), the belt supporting piece (430) is arranged between the two driving wheels (422) and connected with the rack (100), a belt supporting portion extending along the feeding direction is arranged on the belt supporting piece (430), and the belt supporting portion is arranged on the inner side of the conveying belt (410).

4. The differentially-curved conveying apparatus of claim 3, wherein: the belt supporting piece (430) is provided with a first connecting portion and a second connecting portion which are arranged along the feeding direction, and the first connecting portion and the second connecting portion are connected with the rack (100) in an adjustable mode along the up-down direction.

5. The differentially-curved conveying apparatus of claim 3, wherein: the carrier band part is of a groove structure, and the shape of the carrier band part is consistent with the shape of the inner side of the conveying belt (410).

6. The differentially-curved conveying apparatus of claim 1, wherein: the conveying parts (411) of the conveying assemblies (400) are arranged on the same horizontal plane, the direction which is perpendicular to the feeding direction and parallel to the horizontal direction is the width direction of the conveying assemblies (400), and the conveying assemblies (400) are connected with the rack (100) in an adjustable mode along the width direction.

7. The differentially-curved conveying apparatus of claim 1, wherein: the first conveying device (200) and the second conveying device (300) further comprise universal ball conveying members, the universal ball conveying members are arranged between the conveying assemblies (400) arranged in pairs and connected with the rack (100), and each universal ball conveying member comprises a plurality of universal ball units arranged in the feeding direction.

8. The differentially-curved conveying apparatus of claim 1, wherein: the first conveying device (200) and the second conveying device (300) are mounted at the top of the rack (100), a plurality of upright columns (110) extending downwards are arranged at the bottom of the rack (100), adjustable supporting legs (111) are arranged at the bottom ends of the upright columns (110), and the distance between the adjustable supporting legs (111) and the top of the rack (100) is adjustable.

9. The utility model provides a transfer chain turns round which characterized in that: the method comprises the following steps: the first conveyor line (500), the second conveyor line (600) and the differentially-curved conveyor apparatus of any of claims 1-8;

the conveying direction of the first conveying line (500) is consistent with the feeding direction of the first conveying device (200), and the downstream end of the first conveying line (500) is connected with the two feeding ends of the first conveying device (200); the conveying direction of the second conveying line (600) is consistent with the feeding direction of the second conveying device (300), and the upstream end of the second conveying line (600) is connected with the two discharging ends of the first conveying device (200).

10. The corner conveyor line according to claim 9, wherein: the conveying speed of the second conveying line (600) is not lower than that of the first conveying line (500), and the conveying speeds of the first conveying device (200) and the second conveying device (300) are not lower than that of the first conveying line (500).

Images