CN109625740B - Multilayer storage mechanism - Google Patents

Abstract

The invention belongs to the technical field of steel bar welding, and discloses a multilayer storage mechanism which comprises a vertical frame, a conveying device, a receiving device and a conveying and storing device. The conveying device is arranged on the vertical frame and used for conveying the reinforcing steel bars, the receiving device is arranged on the vertical frame and located below the conveying device, the conveying and storing devices are arranged on the vertical frame and located between the conveying device and the receiving device, a plurality of conveying and storing devices are arranged from top to bottom, the conveying device can convey the reinforcing steel bars to the uppermost conveying and storing device, and the conveying and storing devices can store the reinforcing steel bars or convey the reinforcing steel bars downwards in sequence until the reinforcing steel bars are conveyed to the receiving device. According to the invention, the supporting device on the stand and the conveying and storing device are mutually matched, the operation is simple, the steel bars with different specifications can be placed in a classified mode, the later taking is convenient, the manpower is saved, the production cost is reduced, and the production efficiency is improved.

Description

Multilayer storage mechanism

Technical Field

The invention relates to the technical field of steel bar welding, in particular to a multilayer storage mechanism.

Background

In the welding process of the three-dimensional net made of the steel bars, the stirrups and the longitudinal bars are required to be welded in a crossing way for preparation. The reinforcing steel bars prepared by the three-dimensional net have large consumption, various specifications and complicated and cumbersome classification placement, and waste of manpower.

Disclosure of Invention

The invention aims to provide a multilayer storage mechanism which is simple to operate, can be used for classifying and placing reinforcing steel bars of different specifications and types, is convenient for later taking and saves manpower.

To achieve the purpose, the invention adopts the following technical scheme:

a multi-layer storage mechanism comprising:

a vertical frame;

the conveying device is arranged on the vertical frame and is used for conveying the reinforcing steel bars;

the bearing device is arranged on the vertical frame and is positioned below the conveying device; and

the conveying and storing device is arranged on the vertical frame, is positioned between the conveying device and the bearing device, and is provided with a plurality of conveying devices from top to bottom;

the conveying device can convey the reinforcing steel bars to the uppermost conveying and storing device, and the conveying and storing device can store the reinforcing steel bars or convey the reinforcing steel bars downwards in sequence until the reinforcing steel bars are conveyed to the bearing device.

Preferably, the stand comprises two upright posts arranged vertically and a connecting cross beam erected between the two upright posts.

Preferably, the transfer device includes:

a transmission driving part which is arranged on the vertical frame;

the conveying part is arranged at the output end of the conveying driving part, a containing groove is formed in the conveying part, the steel bars can be placed in the containing groove, and the conveying driving part can drive the conveying part to rotate so that the steel bars are separated from the containing groove.

Preferably, the receiving device includes:

a receiving driving part which is arranged on the vertical frame;

the bearing driving part can drive the bearing shaft to rotate along the axis of the bearing shaft;

a receiving sprocket mounted on the receiving shaft;

the supporting plate is arranged on the vertical frame;

the bearing chain is wound on the bearing support plate and the bearing chain wheel, and a plurality of bearing baffles are uniformly distributed on the periphery of the bearing chain at intervals.

Preferably, the conveying and storing device comprises a conveying assembly and a storing assembly arranged below the conveying assembly, wherein the conveying assembly is used for conveying the reinforcing steel bars, and the storing assembly is used for storing the corresponding reinforcing steel bars.

Preferably, the conveying assembly includes:

a conveying driving part which is arranged on the vertical frame;

the conveying shaft is arranged at the output end of the conveying driving part, and the conveying driving part can drive the conveying shaft to rotate along the axis of the conveying shaft;

a conveying chain wheel which is arranged on the conveying shaft;

the conveying support plate is arranged on the vertical frame;

and the conveying chain is wound on the conveying support plate and the conveying chain wheel, and a plurality of conveying baffles are uniformly distributed on the periphery of the conveying chain at intervals.

Preferably, the conveying support plate is provided with a material guiding part, and the reinforcing steel bars can be conveyed away from the conveying assembly through the material guiding part.

Preferably, the storage assembly includes:

a storage driving part for storing the data of the first and second driving parts,

the conveying part is slidably mounted on the stand and connected with the output end of the storage driving part, a conveying groove is formed in the conveying part, the storage driving part drives the conveying part to stretch out, the conveying assembly can convey the reinforcing steel bars into the conveying groove, and the conveying assembly can convey the reinforcing steel bars to the conveying assembly or the bearing device adjacent to the lower part of the conveying assembly when the storage driving part drives the conveying part to retract.

Preferably, the storage driving section includes:

a storage drive mounted on the stand;

a storage sprocket mounted at an output end of the storage driver;

and the storage chain is arranged on the conveying piece and meshed with the storage chain wheel.

Preferably, the conveying groove is rotatably provided with a material guiding pipe.

The invention has the beneficial effects that:

the supporting device and the conveying and storing device are matched with each other on the stand, so that the operation is simple, the steel bars of the specification types can be placed in a classified mode, later taking is convenient, labor is saved, production cost is reduced, and production efficiency is improved.

Drawings

FIG. 1 is a schematic view of a multi-layer storage mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic view of the storage assembly of FIG. 1 shown extended;

FIG. 3 is a right side view of a portion of the component of FIG. 1;

fig. 4 is a top view of a portion of a component of a multi-layer storage mechanism according to an embodiment of the present invention.

In the figure:

1. a vertical frame;

11. a column; 12. a connecting beam;

2. a transfer device;

21. a conveyance driving section; 22. a transfer member;

3. a receiving device;

31. a receiving drive unit; 32. a receiving shaft; 33. a receiving sprocket; 34. carrying a support plate; 35. receiving a chain; 351. a receiving baffle; 36. a receiving and conveying part;

4. a transport storage device;

41. a transport assembly; 411. a conveyance driving section; 412. a conveying shaft; 413. a conveying sprocket; 414. conveying support plates; 415. a conveyor chain;

42. a storage assembly; 421. a storage driving section; 422. and a conveying member.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, the invention provides a multi-layer storage mechanism, which comprises a stand 1, a conveying device 2, a bearing device 3 and a conveying and storing device 4. Wherein, conveyer 2 sets up on grudging post 1 for the conveying reinforcing bar, and adapting unit 3 sets up on grudging post 1, is located conveyer 2 below, and transport storage device 4 installs on grudging post 1, is located between conveyer 2 and adapting unit 3, and top-down is provided with a plurality ofly. The conveying device 2 can convey the reinforcing bars to the uppermost conveying and storing device 4, and the conveying and storing device 4 can store the reinforcing bars or convey the reinforcing bars downwards in sequence until conveying the reinforcing bars to the bearing device 3. In a specific operation, the plurality of conveying and storing devices 4 can store corresponding reinforcing bars of a plurality of different specifications respectively, the lowermost conveying and storing device 4 can store the corresponding reinforcing bars and convey other reinforcing bars to the bearing device 3 below the lowermost conveying and storing device 4 can store the corresponding reinforcing bars and convey other reinforcing bars to the adjacent conveying and storing devices 4 below the lowermost conveying and storing device 4.

According to the invention, the bearing device 3 and the conveying and storing device 4 on the stand 1 are mutually matched, the operation is simple, the steel bars with different specifications can be placed in a classified mode, the later taking is convenient, the labor is saved, the production cost is reduced, and the production efficiency is improved.

In this embodiment, the stand 1 comprises two vertically arranged uprights 11 and a connecting cross member 12 erected between the two uprights 11.

Specifically, the conveying device 2 includes a conveying drive section 21 and a conveying member 22. Wherein, the conveying drive part 21 is installed on the stand 1, and the conveying member 22 is connected in the stand 1 in a rotating way, is installed at the output end of the conveying drive part 21, and is provided with a containing groove on the conveying member 22, and the reinforcing steel bar can be placed in the containing groove, and the conveying drive part 21 can be rotated by driving the conveying member 22, so that the reinforcing steel bar is separated from the containing groove. In the present embodiment, the conveying drive portion 21 is specifically an air cylinder, and the conveying member 22 is specifically angle steel.

More specifically, the receiving device 3 includes a receiving driving portion 31, a receiving shaft 32, a receiving sprocket 33, a receiving bracket 34, and a receiving chain 35. The bearing driving part 31 is installed on the stand 1, the bearing shaft 32 is rotatably connected to the stand 1 and is installed at an output end of the bearing driving part 31, the bearing driving part 31 can drive the bearing shaft 32 to rotate along an axis of the bearing driving part, two bearing sprockets 33 are arranged on the bearing shaft 32 at intervals, bearing support plates 34 are installed on the stand 1 and are located on one side of the bearing shaft 32, two bearing chains 35 are arranged and are matched with the two bearing sprockets 33 one by one, the bearing support plates 34 and the bearing sprockets 33 are wound on one in parallel, a plurality of bearing baffles 351 are uniformly arranged on the periphery of the bearing chains 35 at intervals, a small storage bin is formed between two adjacent bearing baffles 351 on the same bearing chain 35, and the bearing driving part 31 rotates through driving the bearing shaft 32, so that the bearing chains 35 rotate around the bearing support plates 34, and steel bars are conveyed through the bearing baffles 351. The receiving driving part 31 comprises a motor, two rotating wheels and a driving belt, wherein the two rotating wheels are matched with the motor, one rotating wheel is arranged at the output end of the motor, the other rotating wheel is fixedly connected with the receiving shaft 32, and the driving belt is wound on the two rotating wheels.

More specifically, the carrying device 3 further includes a carrying and conveying portion 36, the carrying and conveying portion 36 is disposed outside the stand 1 and below the carrying chain 35, and the reinforcing steel bars on the carrying chain 35 can fall onto the carrying and conveying portion 36, and the carrying and conveying portion 36 specifically includes a plurality of roller frames.

In this embodiment, the conveying and storing device 4 includes a conveying assembly 41 and a storing assembly 42 disposed below the conveying assembly 41, the conveying assembly 41 is used for conveying the reinforcing steel bars, and the storing assembly 42 is used for storing the corresponding reinforcing steel bars.

Specifically, the conveying assembly 41 includes a conveying drive section 411, a conveying shaft 412, a conveying sprocket 413, a conveying support plate 414, and a conveying chain 415. The conveying driving part 411 is installed on the vertical frame 1, the conveying shaft 412 is rotatably connected to the vertical frame 1, the conveying driving part 411 is installed at the output end of the conveying driving part 411, the conveying driving part 411 can drive the conveying shaft 412 to rotate along the axis of the conveying shaft 412, the conveying sprockets 413 are arranged in two, the conveying support plates 414 are installed on the vertical frame 1 at intervals and located on one side of the conveying shaft 412, the conveying chains 415 are arranged in two and are in one-to-one fit with the two conveying sprockets 413, a plurality of conveying baffles are uniformly distributed on the periphery of the conveying chains 415 at intervals, a small storage bin is formed between two adjacent conveying baffles on the same conveying chain 415, and the conveying driving part 411 rotates through the driving conveying shaft 412, so that the conveying chains 415 rotate around the conveying support plates 414, and steel bars are conveyed through the conveying baffles. The conveying driving part 411 comprises a motor, two rotating wheels and a driving belt, wherein the two rotating wheels are matched with the motor, one rotating wheel is arranged at the output end of the motor, the other rotating wheel is fixedly connected with the conveying shaft 412, and the driving belt is wound on the two rotating wheels.

Specifically, a guide portion is disposed on the conveying support plate 414, and the reinforcing steel bars can be conveyed away from the conveying assembly 41 through the guide portion, in this embodiment, the guide portion is a downward inclined guide plate disposed at one end of the conveying support plate 414 facing away from the upright 11, and the reinforcing steel bars led out from the conveying sprocket 413 slide downward on the guide plate.

More specifically, the storage assembly 42 includes a storage driving portion 421 and a transport 422. The conveying member 422 is slidably mounted on the stand 1 and connected to the output end of the storage driving part 421, a conveying groove is formed in the conveying member 422, when the storage driving part 421 drives the conveying member 422 to extend, the conveying assembly 41 can convey reinforcing steel bars into the conveying groove, and when the storage driving part 421 drives the conveying member 422 to retract, the conveying assembly 41 can convey reinforcing steel bars to the conveying assembly 41 or the receiving device 3 adjacent to the lower part of the conveying assembly. The conveying member 422 is specifically formed by welding two angle steel arranged in parallel and a cross beam erected between the two angle steel.

In the present embodiment, the storage driving section 421 includes: a storage drive, a storage sprocket and a storage chain. Wherein, the storage driver is the motor, installs on grudging post 1, stores the sprocket and installs in the output of storage driver, stores the chain and installs on the conveyer 422, meshes with the sprocket mutually. The storage drive drives the transport 422 to extend or retract in the sliding direction through the cooperation of the storage sprocket and the storage chain.

Specifically, the conveying groove is rotatably provided with a material guide pipe, and the steel bars can freely move on the material guide pipe.

More specifically, two conveying and storing devices 4 are arranged, and the two conveying and storing devices 4 and the bearing device 3 sequentially protrude outwards from top to bottom.

In the orientation shown in fig. 1, the multi-layer storage mechanism of the present invention is operative:

the uppermost conveying device 2 is used for containing the reinforcing steel bars, and after the containing groove is filled, the conveying driving part 21 drives the conveying piece 22 to turn over, so that the reinforcing steel bars fall onto the conveying assembly 41 of the conveying and storing device 4 of the first layer from top to bottom.

If the steel bar specification corresponds to the first layer of conveying and storing device 4, the conveying piece 422 of the storage component 42 of the first layer of conveying and storing device 4 extends out, the steel bar falls into the conveying groove, and if the steel bar specification is inconsistent with the first layer of conveying and storing device 4, the conveying piece 422 of the storage component 42 of the first layer of conveying and storing device 4 retracts, and the steel bar falls into the conveying component 41 of the next layer.

And so on, the final reinforcing steel bars fall onto the bearing device 3, so that various reinforcing steel bars with different specifications fall onto different conveying pieces 422, later taking is convenient, and labor is saved.

In addition to the above operation method, after the steel bars fall into the conveying assemblies 41 of each layer, the conveying members 422 may be driven to extend, so that the steel bars on the conveying assemblies 41 of each layer fall into the conveying grooves. Taking a three-dimensional net comprising three dimensional steel bars as an example, the uppermost part of the steel bar net is 6mm steel bars, the middle part is 4mm steel bars, the lowermost part is 10mm steel bars, the three dimensional steel bars after straightening respectively enter a conveying member 22 of a conveying device 2 (firstly conveying the 10mm steel bars of the lowermost part, then conveying the 4mm steel bars of the middle part and finally conveying the 6mm steel bars of the uppermost part), a conveying driving part 21 drives the conveying member 22 to overturn, the steel bars fall into a conveying component 41 of a first layer and then are sequentially conveyed, and finally, the three dimensional steel bars are respectively stored on a storage bin of the conveying component 41 of the first layer, a storage bin of the conveying component 41 of a second layer and a storage bin of a receiving chain 35 of the receiving device 3 of the lowermost layer, wherein the storage bins refer to intervals between conveying baffles and intervals between receiving baffles 351. After the completion, the storage driving part 421 of the first and second storage units 42 drives the conveying member 422 to extend, and guides the 6mm reinforcing bars to the first storage unit 42, the 4mm reinforcing bars to the second storage unit 42, and the 10mm reinforcing bars to the lowest receiving and conveying part 36. Finally, the rebar is free to be conveyed forward by the conveyor 422 and the receptacle conveyor 36.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (7)

1. A multilayer storage mechanism, characterized by comprising:

a vertical frame (1);

the conveying device (2) is arranged on the vertical frame (1) and is used for conveying the reinforcing steel bars;

the bearing device (3) is arranged on the vertical frame (1) and is positioned below the conveying device (2); and

the conveying and storing device (4) is arranged on the vertical frame (1) and positioned between the conveying device (2) and the bearing device (3), and a plurality of conveying and storing devices are arranged from top to bottom;

the conveying device (2) can convey the reinforcing steel bars to the uppermost conveying and storing device (4), and the conveying and storing device (4) can store the reinforcing steel bars or convey the reinforcing steel bars downwards in sequence until being conveyed to the bearing device (3);

the conveying and storing device (4) comprises a conveying assembly (41) and a storing assembly (42) arranged below the conveying assembly (41), the conveying assembly (41) is used for conveying the reinforcing steel bars, and the storing assembly (42) is used for storing the corresponding reinforcing steel bars;

the transport assembly (41) comprises:

a transport driving unit (411) mounted on the stand (1);

a conveying shaft (412) mounted at an output end of the conveying driving part (411), wherein the conveying driving part (411) can drive the conveying shaft (412) to rotate along an axis thereof;

a conveying sprocket (413) mounted on the conveying shaft (412);

a conveying support plate (414) which is arranged on the vertical frame (1);

a conveying chain (415) is wound on the conveying support plate (414) and the conveying chain wheel (413), and a plurality of conveying baffles are uniformly distributed on the periphery of the conveying chain (415) at intervals;

the storage assembly (42) includes:

a storage driving section (421),

conveying member (422), slidable mounting in on grudging post (1), connect in store the output of drive division (421), be provided with the conveyer trough on conveying member (422), store the drive division (421) drive when conveying member (422) stretch out, conveying assembly (41) can with the reinforcing bar is carried to in the conveyer trough, store the drive division (421) drive when conveying member (422) withdraw, conveying assembly (41) can with the reinforcing bar is carried to its below is adjacent conveying assembly (41) or on adapting unit (3).

2. The multilayer storage mechanism according to claim 1, characterized in that the stand (1) comprises two vertically arranged uprights (11) and a connecting cross beam (12) erected between the two uprights (11).

3. The multilayer storage mechanism according to claim 1, characterized in that the conveyor (2) comprises:

a transport drive unit (21) mounted on the stand (1);

the conveying part (22) is arranged at the output end of the conveying driving part (21), a containing groove is formed in the conveying part (22), the steel bars can be placed in the containing groove, and the conveying driving part (21) can drive the conveying part (22) to rotate so that the steel bars are separated from the containing groove.

4. The multilayer storage mechanism according to claim 1, characterized in that the receiving means (3) comprise:

a receiving drive unit (31) mounted on the stand (1);

a receiving shaft (32) mounted at an output end of the receiving driving part (31), wherein the receiving driving part (31) can drive the receiving shaft (32) to rotate along an axis thereof;

a receiving sprocket (33) mounted on the receiving shaft (32);

a supporting plate (34) mounted on the stand (1);

and the bearing chain (35) is wound on the bearing support plate (34) and the bearing chain wheel (33), and a plurality of bearing baffles (351) are uniformly distributed on the periphery of the bearing chain (35) at intervals.

5. The multilayer storage mechanism according to claim 1, characterized in that the conveying support plate (414) is provided with a guide portion through which the reinforcing steel bars can be conveyed away from the conveying assembly (41).

6. The multi-layered storage mechanism according to claim 1, wherein the storage driving section (421) includes:

a storage drive mounted on the stand (1);

a storage sprocket mounted at an output end of the storage driver;

and a storage chain mounted on the conveying member (422) and meshed with the storage sprocket.

7. The multi-layered storage mechanism of claim 1, wherein the feed trough is rotatably mounted with a feed tube.