CN109941691B - Material lifting transportation equipment - Google Patents

Abstract

A material lifting and transporting device comprises a first lifting device, a second lifting device and a circulating transporting device, wherein the first lifting device and the second lifting device are used for transporting materials to different heights respectively; the circulating transportation device comprises a first transportation assembly, a transportation assembly and a second transportation assembly which are sequentially connected, wherein the first transportation assembly and the second transportation assembly are respectively in butt joint with the first lifting device and the second lifting device, so that the first lifting device can sequentially transport materials to the first transportation assembly and the transportation assembly from other heights, the transportation assembly can move up and down relative to the first transportation assembly so that the materials on the transportation assembly can be used along with lifting supply, and the transportation assembly is further used for transporting an empty material box to the second transportation assembly and transporting the empty material box to other heights through the second lifting device for recycling. So not only realized the lift transportation of material across the floor, and then alleviateed personnel's intensity of labour greatly, practiced thrift the human cost, improved material transportation efficiency.

Description

Material lifting transportation equipment

Technical Field

The invention relates to the technical field of transportation equipment, in particular to material lifting transportation equipment.

Background

In the workshop production activities of enterprises, the material transportation process is very tedious and heavy, and especially when the space transportation of different heights such as different floors is involved, the workload of material transportation is increased, and the manual transportation mode is high in cost and low in efficiency.

Disclosure of Invention

Based on this, it is necessary to provide a material lifting and transporting apparatus capable of improving material transporting efficiency.

A material lifting transport apparatus comprising:

the first lifting device and the second lifting device are respectively used for conveying materials to different heights; a kind of electronic device with high-pressure air-conditioning system

The circulating transportation device comprises a first transportation assembly, a transportation assembly and a second transportation assembly which are sequentially connected, wherein the first transportation assembly and the second transportation assembly are respectively in butt joint with the first lifting device and the second lifting device, so that the first lifting device can sequentially transport materials from other heights to the first transportation assembly and the transportation assembly, the transportation assembly can move relatively to the first transportation assembly in a lifting manner so that the materials on the transportation assembly can be used along with lifting and supplying, and the transportation assembly is further used for transporting the vacated material boxes to the second transportation assembly and transporting the second lifting device to other heights for recycling.

The material lifting transportation equipment can be used for material transportation between different floors, can also be used for material transportation between different heights of other scenes, and can be used for conveying materials with other heights to the height where the circulating transportation device is located by lifting of the first lifting device and then sequentially transporting the materials to the first transportation assembly and the transfer assembly. The transfer assembly moves up and down relative to the first transport assembly, drives the material of transfer assembly to be taken along with the lift, then transfers the assembly again with the empty material case to transport to the second transport assembly and transport to other high departments through second elevating gear and recycle. So not only realized the lift transportation of material across the floor, make the material case that is used for bearing the weight of the material get back to different altitudes again fast effectively moreover, solved traditional manual handling intensity of labour big, cost of labor is high and inefficiency's problem, and the accessible transports the subassembly and goes up and down when using, avoided artifical discharge and the problem that manual transportation process is difficult to manage, and then alleviateed personnel's intensity of labour greatly, practiced thrift the human cost, improved material transportation efficiency.

In one embodiment, the first lifting device and the second lifting device are arranged at intervals, and the first transport assembly and the second transport assembly are located on the same side of the first lifting device and the second lifting device and are arranged in parallel.

In one embodiment, the circulating transportation device further comprises a third transportation assembly, the third transportation assembly is arranged between the transferring assembly and the second transportation assembly, the transportation direction of the transferring assembly is the same as the transportation direction of the first transportation assembly, and the transportation direction of the third transportation assembly is mutually perpendicular to the transportation direction of the first transportation assembly.

In one embodiment, the first transport assembly, the transfer assembly, the second transport assembly, and the third transport assembly are all powered roller lines.

In one embodiment, the transferring assembly is provided with a first inductive switch, and the first inductive switch is used for sensing materials on the transferring assembly and starting the transferring assembly to move upwards relative to the first transferring assembly, so that the materials on the transferring assembly are taken along with lifting.

In one embodiment, the circulating transportation device further comprises a fourth transportation assembly and/or a fifth transportation assembly, the fourth transportation assembly is arranged at other heights of the first transportation assembly except the height where the first transportation assembly is in butt joint with the first transportation assembly and is in butt joint with the first transportation assembly, and the fifth transportation assembly is arranged at other heights of the second transportation assembly except the height where the second transportation assembly is in butt joint with the second transportation assembly and is in butt joint with the second transportation assembly.

In one embodiment, the fourth transporting assembly is provided with a second inductive switch, and the second inductive switch is used for sensing materials on the fourth transporting assembly and starting the fourth transporting assembly.

In one embodiment, the first lifting device comprises a first lifting frame, a first substrate assembly and a first lifting driving piece, wherein the first substrate assembly is arranged in the first lifting frame, and the first lifting driving piece is used for driving the first substrate assembly to move up and down;

the second lifting device comprises a second lifting frame, a second substrate assembly and a second lifting driving piece, wherein the second substrate assembly is arranged in the second lifting frame, and the second lifting driving piece is used for driving the second substrate assembly to move up and down.

In one embodiment, the first substrate assembly and the second substrate assembly are both conveyor assemblies, the conveyor in the first substrate assembly has a transport direction pointing from the first elevator frame to the first transport assembly, and the conveyor in the second substrate assembly has a transport direction pointing from the second transport assembly to the second elevator frame.

In one embodiment, the first substrate assembly is provided with a third inductive switch for sensing the material on the first substrate assembly and starting the conveyor belt of the first substrate assembly, and the second substrate assembly is provided with a fourth inductive switch for sensing the material on the second substrate assembly and starting the conveyor belt of the second substrate assembly.

Drawings

Fig. 1 is a structural view of a material lifting and transporting apparatus according to an embodiment.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be 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.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a material lifting and transporting apparatus 100 according to an embodiment includes a first lifting device 110, a second lifting device 120, and a circulating transport device 130.

The first lifting device 110 is used to transport material to different heights.

The second lifting device 120 is used to transport the material to different heights.

The circulating transportation device 130 comprises a first transportation assembly 131, a transferring assembly 132 and a second transportation assembly 133 which are sequentially connected.

The first and second transport assemblies 131 and 133 interface with the first and second lifting devices 110 and 120, respectively, such that the first lifting device 110 can sequentially transport material from other elevations to the first and transfer assemblies 131 and 132. The transferring assembly 132 can move up and down relative to the first transporting assembly 131 so that the material on the transferring assembly 132 can be taken along with the lifting, and the transferring assembly 132 is further used for transferring the emptied material box to the second transporting assembly 133 and transporting the empty material box to other heights for recycling through the second lifting device 120.

The material lifting and transporting device 100 can be used for material transportation between different floors, and also can be used for material transportation between different heights in other scenes, and the lifting of the first lifting device 110 brings materials with other heights to the height of the circulating and transporting device 130, and then sequentially transports the materials to the first transporting assembly 131 and the transporting assembly 132. The transferring assembly 132 moves up and down relative to the first transporting assembly 131, so that the material of the transferring assembly 132 is driven to be taken along with the up and down movement, and then the transferring assembly 132 transfers the empty material box to the second transporting assembly 133 and transports the empty material box to other positions at other heights through the second lifting device 120 for recycling. So not only realized the lift transportation of material across the floor, make the material case that is used for bearing the weight of the material get back to different altitudes again fast effectively moreover, solved traditional manual handling intensity of labour big, cost of labor is high and inefficiency's problem, and the accessible transports the subassembly and goes up and down when using, avoided artifical discharge and the problem that manual transportation process is difficult to manage, and then alleviateed personnel's intensity of labour greatly, practiced thrift the human cost, improved material transportation efficiency.

In particular, the material lifting and transporting device 100 is particularly suitable for use in workshops such as knitted grey cloth storage and transportation workshops. Specifically, the first and second transport assemblies 131 and 133 are respectively docked with the first and second elevating devices 110 and 120 at the same height.

Further, the first elevating device 110 includes a first elevating frame 111, a first substrate assembly 112, and a first elevating driving member (not shown). The first substrate assembly 112 is disposed in the first lifting frame 111, and the first lifting driving member is used for driving the first substrate assembly 112 to move up and down.

The second elevating device 120 includes a second elevating frame 121, a second substrate assembly 122, and a second elevating driving member (not shown). The second substrate assembly 122 is disposed in the second lifting frame 121, and the second lifting driving member is used for driving the second substrate assembly 122 to move up and down.

Further, the first elevator frame 111 is provided with a fence (not shown), and a material inlet and outlet is provided at a position of docking with the first transporting assembly 131 and other heights. The second elevator frame 121 is also provided with a rail (not shown) and a material inlet and outlet at a location where the second transporting assembly 133 is docked and at other heights to prevent the material from falling during the elevator process.

Further, the first substrate assembly 112 and the second substrate assembly 122 are both conveyor assemblies. The conveying direction of the conveyor belt in the first substrate assembly 112 is a direction from the first lifting frame 111 to the first conveying assembly 131, so that the material on the first substrate assembly 112 can be conveyed onto the first conveying assembly 131 by the forward conveying of the first substrate assembly 112 and the movement of the second conveying assembly 133. The conveying direction of the conveyor belt in the second substrate assembly 122 is a direction from the second conveying assembly 133 to the second lifting frame 121, so that the material on the second conveying assembly 133 can be conveyed onto the second substrate assembly 122 by the movement of the second conveying assembly 133 and the forward conveying of the second substrate assembly 122. The design is simple and applicable, and very ingenious.

Specifically, the first transporting assembly 131, the transferring assembly 132 and the second transporting assembly 133 are all power roller lines.

Specifically, the first elevating device 110 and the second elevating device 120 are disposed at intervals. The first and second transport assemblies 131 and 133 are located at the same side of the first and second elevating devices 110 and 120 and are disposed in parallel. The material lifting and transporting device 100 is more compact and reasonable in structure.

Specifically, the endless transport device 130 further includes a third transport assembly 134. The third transporting assembly 134 is disposed between the transferring assembly 132 and the second transporting assembly 133, the transporting direction of the transferring assembly 132 is the same as the transporting direction of the first transporting assembly 131, and the transporting direction of the third transporting assembly 134 is perpendicular to the transporting direction of the first transporting assembly 131.

More specifically, the third transport assembly 134 is also a powered roller line.

Further, the transfer assembly 132 is provided with a first sensor switch (not shown). The first inductive switch is used for sensing the material on the transferring assembly 132 and starting the transferring assembly 132 to move up and down relative to the first transferring assembly 131, so that the material on the transferring assembly is taken along with lifting. Specifically, the first inductive switch is a photoelectric inductive switch.

In one embodiment, the endless transport arrangement 130 further comprises a fourth transport assembly 135. The fourth transporting assembly 135 is disposed at a height corresponding to the first elevating device 110 except for the height at which the first transporting assembly 131 is docked and is docked with the first elevating device 110. The fourth transport assembly 135 can thus be extended to various sources of material at other elevations, further reducing the transport of material.

In one embodiment, the endless transport arrangement 130 further comprises a fifth transport assembly 136. The fifth transporting assembly 136 is disposed at a height corresponding to the second elevating device 120 except for the height at which the second transporting assembly 133 is docked and is docked with the second elevating device 120. Thus, the fifth transporting assembly 136 can be extended to other material sources, and the fifth transporting assembly 136 transports the empty material boxes to other material sources for packing, so as to further reduce the transporting process of the material boxes.

In particular, the fourth transport assembly 135 and the fifth transport assembly 136 are power roller lines.

In one embodiment, a second sensor switch (not shown) is provided on the fourth conveyor assembly 135 for sensing material on the fourth conveyor assembly 135 and activating the fourth conveyor assembly 135. Specifically, the second inductive switch is a photoelectric inductive switch. Specifically, the second inductive switch is further used to simultaneously activate the first lifting driving member of the first lifting device 110.

Further, the fifth transporting assembly 136 may also be provided with an inductive switch for sensing the material on the fifth transporting assembly 136 and simultaneously activating the second lifting driving members of the fifth transporting assembly 136 and the second lifting device 120.

Specifically, the first substrate assembly 112 is provided with a third sensor switch (not shown) for sensing the material on the first substrate assembly 112 and activating the conveyor belt of the first substrate assembly 112. Specifically, a fourth sensor switch (not shown) is disposed on the second substrate assembly 122 for sensing the material on the second substrate assembly 122 and activating the conveyor belt of the second substrate assembly 122. More specifically, the third inductive switch and the fourth inductive switch are both photoelectric inductive switches.

It is understood that other movements of the first elevating device 110, the second elevating device 120, and the endless transport device 130, other than the elevating movement of the transfer assembly 132, can be simultaneously activated by the second inductive switch.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A material lifting transport device, comprising:

the first lifting device and the second lifting device are respectively used for conveying materials to different heights; a kind of electronic device with high-pressure air-conditioning system

The circulating transportation device comprises a first transportation assembly, a transfer assembly and a second transportation assembly which are sequentially connected, wherein the first transportation assembly and the second transportation assembly are respectively in butt joint with the first lifting device and the second lifting device at the same height, a material box bearing materials is brought to the height of the first transportation assembly from other heights by the first lifting device, then the material box is sequentially transported on the first transportation assembly, the transfer assembly and the second transportation assembly, and finally the material box is transferred to the second lifting device;

the transfer assembly can move up and down relative to the first transport assembly, so that a material box on the transfer assembly can move up and down along with the transfer assembly to be used for taking materials; after the materials carried in the material box are taken out, the transfer assembly returns to the height of the first transport assembly, and the empty material box is transferred to the second transport assembly;

the circulating transportation device further comprises a fourth transportation assembly and/or a fifth transportation assembly, wherein the fourth transportation assembly is in butt joint with the first lifting device, and the fourth transportation assembly and the first transportation assembly are at different heights; the fifth transport assembly interfaces with the second lifting device and is at a different elevation than the second transport assembly.

2. The material lifting and transporting apparatus according to claim 1, wherein the first lifting device and the second lifting device are disposed at intervals, and the first transporting assembly and the second transporting assembly are disposed on the same side of the first lifting device and the second lifting device and are disposed in parallel.

3. The material lifting and transporting apparatus according to claim 2, wherein the circulating transporting device further comprises a third transporting assembly, the third transporting assembly is disposed between the transferring assembly and the second transporting assembly, the transporting direction of the transferring assembly is the same as the transporting direction of the first transporting assembly, and the transporting direction of the third transporting assembly is perpendicular to the transporting direction of the first transporting assembly.

4. The material lifting and transporting apparatus according to claim 3 wherein the first transporting assembly, the transferring assembly, the second transporting assembly and the third transporting assembly are all powered roller lines.

5. The material lifting and transporting device according to claim 1, wherein the transferring assembly is provided with a first inductive switch, and the first inductive switch is used for sensing the material on the transferring assembly and starting the transferring assembly to move up and down relative to the first transporting assembly so as to enable the material on the transferring assembly to be taken along with lifting.

6. The material lifting and transporting apparatus according to claim 5 wherein a second inductive switch is provided on the fourth transporting assembly, the second inductive switch being adapted to sense material on the fourth transporting assembly and to activate the fourth transporting assembly.

7. The material lifting and transporting apparatus according to claim 6 wherein the first lifting device, the second lifting device and the circulating transport device are all activated simultaneously by the second inductive switch.

8. The material lifting and transporting apparatus according to any one of claims 1 to 7, wherein the first lifting device includes a first lifting frame, a first substrate assembly, and a first lifting driving member, the first substrate assembly being disposed in the first lifting frame, the first lifting driving member being configured to drive the first substrate assembly to move up and down;

the second lifting device comprises a second lifting frame, a second substrate assembly and a second lifting driving piece, wherein the second substrate assembly is arranged in the second lifting frame, and the second lifting driving piece is used for driving the second substrate assembly to move up and down.

9. The material lifting and transporting apparatus according to claim 8, wherein the first substrate assembly and the second substrate assembly are each a conveyor belt assembly, wherein a transport direction of the conveyor belt in the first substrate assembly is a direction from the first lifting frame toward the first transport assembly, and wherein a transport direction of the conveyor belt in the second substrate assembly is a direction from the second transport assembly toward the second lifting frame.

10. The material lifting and transporting apparatus according to claim 8, wherein the first base plate assembly is provided with a third inductive switch for sensing material on the first base plate assembly and activating the conveyor belt of the first base plate assembly, and the second base plate assembly is provided with a fourth inductive switch for sensing material on the second base plate assembly and activating the conveyor belt of the second base plate assembly.