CN215478031U - Transport buffer system - Google Patents
Transport buffer system Download PDFInfo
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- CN215478031U CN215478031U CN202122127303.8U CN202122127303U CN215478031U CN 215478031 U CN215478031 U CN 215478031U CN 202122127303 U CN202122127303 U CN 202122127303U CN 215478031 U CN215478031 U CN 215478031U
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Abstract
The utility model discloses a conveying cache system, which comprises: the product can move along a preset conveying direction along with the cache conveying mechanisms, wherein the cache conveying mechanisms are arranged in parallel along a first direction, the conveying directions of two adjacent cache conveying mechanisms are opposite, and the product positioned on one cache conveying mechanism can move to the other cache conveying mechanism adjacent to the cache conveying mechanism from the cache conveying mechanism in the process of being conveyed. According to the conveying caching system provided by the embodiment of the utility model, when the product is transferred between two adjacent caching conveying mechanisms, due to the existence of the guide mechanism, the time of dynamic friction between the product and the caching conveying mechanisms is shorter when the product is transferred between two adjacent caching conveying mechanisms, and the product is transferred more smoothly, so that the problem of abrasion of the product is greatly reduced.
Description
Technical Field
The utility model relates to a conveying cache line, in particular to a conveying cache system, and belongs to the technical field of machinery.
Background
With the advent of digital can printing machines, the demand for customized cans has increased. However, in order not to affect the efficiency of the filling machine, custom cans are typically filled along with conventional cans. At present, a beverage factory generally invests a large amount of manpower, different pop cans are distinguished manually and boxing work is completed, the method is extremely low in efficiency, and manual selection difficulty is extremely high due to the fact that patterns of part of customized cans are very similar; therefore, it is an urgent problem to be solved how to screen out the customized cans from a large number of filled cans and transport the same customized cans to a predetermined position for manual packaging.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to a transport buffer system to overcome the shortcomings of the prior art.
In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model comprises the following steps:
an embodiment of the present invention provides a transport cache system, including: the product can move along a preset conveying direction along with the cache conveying mechanisms, wherein the cache conveying mechanisms are arranged in parallel along a first direction, the conveying directions of two adjacent cache conveying mechanisms are opposite, and the product positioned on one cache conveying mechanism can move to the other cache conveying mechanism adjacent to the cache conveying mechanism from the cache conveying mechanism in the process of being conveyed.
Compared with the prior art, the conveying caching system provided by the embodiment of the utility model has the advantages that when the product is transferred between the two adjacent caching conveying mechanisms, due to the existence of the guide mechanism, the time of dynamic friction between the product and the caching conveying mechanisms is shorter when the product is transferred between the two adjacent caching conveying mechanisms, the transfer of the product is smoother, and the abrasion problem of the product is greatly reduced; the products are transferred and conveyed among the plurality of buffer conveying mechanisms which are arranged in parallel along the direction different from the conveying direction of the products, so that the buffer capacity of the products is improved, and the problems that the products fall off or a main line is stopped due to the fact that the products are crowded on a conveying line are avoided.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.
FIG. 1 is a schematic diagram of a transport caching system in accordance with an exemplary embodiment of the present invention;
fig. 2 is a schematic structural diagram illustrating an operation principle of a transport cache system according to an exemplary embodiment of the present invention.
Detailed Description
In view of the deficiencies in the prior art, the inventors of the present invention have made extensive studies and extensive practices to provide technical solutions of the present invention. The technical solution, its implementation and principles, etc. will be further explained as follows.
The embodiment of the utility model provides a conveying cache system, which is a cache conveying line part in a novel customized pop can sorting system, wherein a customized can be first in and first out on the cache conveying system, so that the problem that the bottom of the can is damaged due to the fact that the can (namely the product) is always rubbed on the conveying line is avoided, and meanwhile, each section of cache conveying line can cache about 8000 cans (the number of specific cache cans is determined according to the specific size of each section of cache conveying line), so that the problem that a main line of the conveying line is stopped due to the fact that the customized can is placed everywhere is avoided.
An embodiment of the present invention provides a transport cache system, including: the product conveying device comprises at least one section of cache conveying line, wherein the cache conveying line comprises a plurality of cache conveying mechanisms used for bearing and conveying products, the products can move along a preset conveying direction along with the cache conveying mechanisms, the cache conveying mechanisms are arranged in parallel along a first direction, the conveying directions of two adjacent cache conveying mechanisms are opposite, and the products positioned on one cache conveying mechanism can move to the other cache conveying mechanism adjacent to the cache conveying mechanism from the cache conveying mechanism in the conveying process.
Further, the plurality of buffer conveying mechanisms are operated independently.
Furthermore, the buffer conveying mechanisms are provided with working faces for bearing and conveying products, and the working faces of two adjacent buffer conveying mechanisms are located in the same plane.
Furthermore, the cache conveying line further comprises a guide mechanism, the guide mechanism is matched with the selected cache conveying mechanism, the guide mechanism is correspondingly arranged on a motion track of a product on the selected cache conveying mechanism, and the product can be contacted with the guide mechanism in the motion process and moves to another cache conveying mechanism adjacent to the cache conveying mechanism along the guide mechanism.
Further, the guide mechanism is arranged above the working surface of the selected cache conveying mechanism.
Further, the guide mechanism is disposed at a downstream end of the selected buffer conveyance mechanism.
Further, the guide mechanism is arranged obliquely along the conveying direction of the products.
Further, the buffer conveying mechanism comprises a buffer roller way or a conveying belt.
Further, the delivery buffer system comprises: and a plurality of buffer conveying lines are arranged along the second direction, and two adjacent buffer conveying lines are smoothly connected into a whole along the second direction through two buffer conveying mechanisms.
Furthermore, the delivery buffer system further comprises: the buffer conveying line is arranged between the two sections of conveying lines, one conveying line is connected with the upstream end of one buffer conveying mechanism, and the other conveying line is connected with the downstream end of the other buffer conveying mechanism.
As will be described in further detail with reference to the accompanying drawings, the driving mechanism, the conveyor belt, the buffer roller, etc. used in the embodiments of the present invention may be known to those skilled in the art unless otherwise specified.
Referring to fig. 1 and 2, a conveying buffer memory system includes a first buffer memory conveying line 100, a second buffer memory conveying line 200 and a third buffer memory conveying line 300 arranged between two sections of conveying lines in sequence along a second direction,
the first cache conveying line 100, the second cache conveying line 200 and the third cache conveying line 300 are sequentially connected, the first cache conveying line 100 and the third cache conveying line 300 are further respectively connected with the two sections of conveying lines, the first cache conveying line 100, the second cache conveying line 200 and the third cache conveying line 300 respectively comprise a plurality of cache conveying mechanisms used for bearing and conveying products, the conveying line products can move along a preset conveying direction along with the cache conveying mechanisms,
the plurality of buffer conveying mechanisms are arranged in parallel along a first direction, the conveying directions of two adjacent buffer conveying mechanisms are opposite, and products positioned on one buffer conveying mechanism can move from one buffer conveying mechanism to the other buffer conveying mechanism adjacent to the buffer conveying mechanism in the process of being conveyed by the buffer conveying mechanism.
Specifically, referring to fig. 1 and fig. 2, the structures of the first buffer conveyor line 100, the second buffer conveyor line 200, and the third buffer conveyor line 300 may be the same or similar, and the structure of the buffer conveyor line is described below by taking the first buffer conveyor line 100 as an example, where arrows in fig. 2 point to the movement or running direction of the corresponding buffer conveyor mechanism, and may also be understood as the conveying direction of the product:
the first cache conveying line 100 comprises a first cache conveying mechanism 110, a second cache conveying mechanism 120 and a third cache conveying mechanism 130 which are sequentially arranged in parallel along a first direction, the first cache conveying mechanism 110, the second cache conveying mechanism 120 and the third cache conveying mechanism 130 are driven by corresponding driving mechanisms to independently operate respectively, wherein the first cache conveying mechanism 110 and the third cache conveying mechanism 130 are identical in conveying direction and opposite to the conveying direction of the second cache conveying mechanism 120.
Specifically, the working surfaces of the first buffer conveying mechanism 110, the second buffer conveying mechanism 120 and the third buffer conveying mechanism 130 for carrying and conveying the products are located in the same plane, so that the products can be more stably transferred between two adjacent buffer conveying mechanisms.
Specifically, the first buffer conveying mechanism 110, the second buffer conveying mechanism 120, and the third buffer conveying mechanism 130 may be conveyor belts or buffer roller tables.
Specifically, a guide mechanism 400 is further disposed at the downstream end of the first buffer conveying mechanism 110 and the second buffer conveying mechanism 120, and the guide mechanism 400 is correspondingly disposed on the motion trajectory of the product on the selected buffer conveying mechanism (the first buffer conveying mechanism 110 and the second buffer conveying mechanism 120), and can contact with the guide mechanism and move to another buffer conveying mechanism adjacent to the buffer conveying mechanism along the guide mechanism in the process of conveying the product.
Specifically, referring to fig. 2, taking the first buffer conveying line 100 as an example, the guide mechanism 400 is disposed at the downstream end of each of the first buffer conveying mechanism 110 and the second buffer conveying mechanism 120.
Specifically, the guide mechanism 400 is disposed above the working surface of the selected buffer conveyance mechanism in an inclined manner along the conveyance direction of the product (which may be understood as the movement direction of the buffer conveyance mechanism), that is, it is understood that the guide mechanism 400 and the selected buffer conveyance mechanism have a distance in a direction perpendicular to the working surface of the buffer conveyance mechanism, the guide mechanism 400 and the selected buffer conveyance mechanism do not directly contact with each other, and the distance is smaller than the height of the product, and the inclined angle of the guide mechanism 400 may be adjusted according to specific situations, and is not limited in this respect.
Specifically, the guide mechanism 400 includes a guide member 410 disposed obliquely above the working surface of the selected buffer conveyance mechanism and a blocking member 420 disposed at the upstream end of another buffer conveyance mechanism adjacent to the selected buffer conveyance mechanism.
Specifically, referring to fig. 2, taking the guiding mechanism 400 cooperating with the second buffer conveying mechanism 120 and the third buffer conveying mechanism 130 as an example, the guiding element 410 of the guiding mechanism 400 is obliquely disposed above the working surface at the downstream end of the second buffer conveying mechanism 120 along the moving direction of the second buffer conveying mechanism 120, the blocking element 420 is disposed above the working surface at the upstream end of the third buffer conveying mechanism 130, and the guiding element 410 and the blocking element 420 may be connected to each other or may be relatively independent.
Specifically, the products located on the second buffer conveying mechanism 120 contact with the obliquely arranged guide 410 during the process of moving along with the second buffer conveying mechanism 120, the products move to the adjacent third buffer conveying mechanism 130 along the guide 410 at least under the driving action of the second buffer conveying mechanism 120, and the blocking member 420 can prevent the products from falling or dumping during the process of transferring from the second buffer conveying mechanism 120 to the third buffer conveying mechanism 130; thus, the product may or may not contact the stop 420 during the transfer from the second cache conveyor 120 to the third cache conveyor 130.
Specifically, in order to better transfer the product from the second buffer conveyor 120 to the third buffer conveyor 130, the guide 410 and the blocking member 420 are connected and arranged at an obtuse angle.
Specifically, the two ends of the guide 410 and the blocking member may extend to the edge region of the buffer conveying mechanism.
Specifically, referring to fig. 1 and fig. 2 again, the structures of the second cache conveyor line 200 and the third cache conveyor line 300 are substantially the same as the first cache conveyor line 100, the second cache conveyor line 200 includes a fourth cache conveyor mechanism 210, a fifth cache conveyor mechanism 220, and a sixth cache conveyor mechanism 230, which are sequentially arranged in parallel along a first direction, the fourth cache conveyor mechanism 210, the fifth cache conveyor mechanism 220, and the sixth cache conveyor mechanism 230 are driven by corresponding driving mechanisms to independently operate, respectively, wherein the fourth cache conveyor mechanism 210 and the sixth cache conveyor mechanism 230 have the same conveying direction, and the conveying direction is opposite to the conveying direction of the fifth cache conveyor mechanism 220.
Specifically, the sixth buffer conveying mechanism 230 corresponds to the third buffer conveying mechanism 130 in the second direction, the sixth buffer conveying mechanism 230 and the third buffer conveying mechanism 130 have the same running direction, and the sixth buffer conveying mechanism 230 is smoothly connected to the third buffer conveying mechanism 130, so that the product on the third buffer conveying mechanism 130 can be directly conveyed and transferred to the sixth buffer conveying mechanism 230, and of course, the sixth buffer conveying mechanism 230 may also be integrally disposed with the third buffer conveying mechanism 130.
Specifically, the first buffer conveying mechanism 110 is further connected to a conveying line, and the products conveyed by the conveying line can enter or be transferred to the conveying buffer system through the first buffer conveying mechanism 110.
Specifically, taking the transport cache system shown in fig. 2 as an example, the working principle of the transport cache system is described as follows: products conveyed via a section of the conveyor line first enter or are transferred via the first buffer conveyor 110 to a conveyor buffer system, in which the products are transferred in turn between a plurality of independently operating buffer conveyors and then back onto the conveyor line.
In particular, the first and second directions are angularly disposed, for example, the first and second directions may be perpendicular.
It should be noted that, the transportation buffer system in the drawings in the embodiment of the present invention only shows a case where three buffer transportation lines are provided, and each buffer transportation line includes three buffer transportation mechanisms arranged along the first direction, which is just one specific implementation case of the present invention, where the number of buffer transportation lines, the number of buffer transportation mechanisms included in each buffer transportation line, and the like can be adjusted according to specific requirements.
It is understood that the product track in the conveying buffer system may be a serpentine track, such as an S-shaped or W-shaped track.
According to the conveying caching system provided by the embodiment of the utility model, when the product is transferred between two adjacent caching conveying mechanisms, due to the existence of the guide mechanism, the time of dynamic friction between the product and the caching conveying mechanisms is shorter when the product is transferred between two adjacent caching conveying mechanisms, and the product is transferred more smoothly, so that the problem of abrasion of the product is greatly reduced; the products are transferred and conveyed among the plurality of buffer conveying mechanisms which are arranged in parallel along the direction different from the conveying direction of the products, so that the buffer capacity of the products is improved, and the problems that the products fall off or a main line is stopped due to the fact that the products are crowded on a conveying line are avoided.
It should be understood that the above-mentioned embodiments are merely illustrative of the technical concepts and features of the present invention, which are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and therefore, the protection scope of the present invention is not limited thereby. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (10)
1. A transport cache system, comprising: the product can move along a preset conveying direction along with the cache conveying mechanisms, wherein the cache conveying mechanisms are arranged in parallel along a first direction, the conveying directions of two adjacent cache conveying mechanisms are opposite, and the product positioned on one cache conveying mechanism can move to the other cache conveying mechanism adjacent to the cache conveying mechanism from the cache conveying mechanism in the process of being conveyed.
2. The transport cache system of claim 1, wherein: the plurality of buffer conveying mechanisms are operated independently.
3. The transport cache system of claim 1, wherein: the buffer conveying mechanisms are provided with working faces for bearing and conveying products, and the working faces of two adjacent buffer conveying mechanisms are positioned in the same plane.
4. The transport cache system of claim 3, wherein: the cache conveying line further comprises a guide mechanism, the guide mechanism is matched with the selected cache conveying mechanism, the guide mechanism is correspondingly arranged on a motion track of a product on the selected cache conveying mechanism, and the product can be in contact with the guide mechanism in the motion process and moves to another cache conveying mechanism adjacent to the cache conveying mechanism along the guide mechanism.
5. The transport cache system of claim 4, wherein: the guide mechanism is arranged above the working surface of the selected buffer conveying mechanism.
6. The transport cache system of claim 5, wherein: the guide mechanism is disposed at a downstream end of the selected buffer conveyance mechanism.
7. The transport cache system of claim 5, wherein: the guide mechanism is arranged obliquely along the conveying direction of the product.
8. The transport cache system of claim 1, wherein: the buffer conveying mechanism comprises a buffer roller way or a conveying belt.
9. The transport cache system of claim 1, comprising: and a plurality of buffer conveying lines are arranged along the second direction, and two adjacent buffer conveying lines are smoothly connected into a whole along the second direction through two buffer conveying mechanisms.
10. The transport cache system of claim 1, further comprising: the buffer conveying line is arranged between the two sections of conveying lines, one conveying line is connected with the upstream end of one buffer conveying mechanism, and the other conveying line is connected with the downstream end of the other buffer conveying mechanism.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202110524962 | 2021-05-13 | ||
| CN2021105249627 | 2021-05-13 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215478031U true CN215478031U (en) | 2022-01-11 |
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Family Applications (3)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122127303.8U Active CN215478031U (en) | 2021-05-13 | 2021-09-03 | Transport buffer system |
| CN202122326330.8U Active CN215664308U (en) | 2021-05-13 | 2021-09-24 | Customized zip-top can sorting system |
| CN202122324300.3U Active CN215794900U (en) | 2021-05-13 | 2021-09-24 | Sorting and packaging system for product conveying |
Family Applications After (2)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122326330.8U Active CN215664308U (en) | 2021-05-13 | 2021-09-24 | Customized zip-top can sorting system |
| CN202122324300.3U Active CN215794900U (en) | 2021-05-13 | 2021-09-24 | Sorting and packaging system for product conveying |
Country Status (1)
| Country | Link |
|---|---|
| CN (3) | CN215478031U (en) |
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2021
- 2021-09-03 CN CN202122127303.8U patent/CN215478031U/en active Active
- 2021-09-24 CN CN202122326330.8U patent/CN215664308U/en active Active
- 2021-09-24 CN CN202122324300.3U patent/CN215794900U/en active Active
Also Published As
| Publication number | Publication date |
|---|---|
| CN215664308U (en) | 2022-01-28 |
| CN215794900U (en) | 2022-02-11 |
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