CN218578944U - Online caching device - Google Patents

Abstract

The utility model belongs to the technical field of stock equipment technique and specifically relates to indicate an online buffer memory device, including frame, buffer memory material mechanism, input mechanism and output mechanism are located buffer memory material mechanism's input and output respectively, buffer memory material mechanism includes rotation drive assembly and a plurality of buffer memory conveyer belt group, and a plurality of buffer memory conveyer belt group range upon range of sets up in the frame, rotation drive assembly is used for driving one of them buffer memory conveyer belt group and rotates, input mechanism is used for linking up the input of buffer memory conveyer belt group, output mechanism is used for linking up the output of buffer memory conveyer belt group. The utility model has the advantages of simple structure, buffer memory feed mechanism is fixed, links up with the buffer memory conveyer belt group of co-altitude position respectively through input mechanism and output mechanism to realize the buffer memory and the ejection of compact of material, improved the stability, the position precision and the efficiency of buffer memory and the ejection of compact.

Description

Online caching device

Technical Field

The utility model belongs to the technical field of stock equipment technique and specifically relates to indicate an online buffer memory device.

Background

In industrial production, materials can pass through a plurality of processing procedures in the processing process, the materials need to be transferred in different processing stations, namely, the materials processed in the previous station need to be conveyed to the next station for processing. When the last station or the next station breaks down, equipment is required to stop working to maintain the broken down station, and the materials cannot be conveyed at the moment, so that production stagnation is caused, and the production efficiency is greatly reduced. Therefore, the drawbacks are obvious, and it is highly desirable to provide a solution.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problem, an object of the present invention is to provide an online buffer device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an online buffer memory device, its includes frame, buffer material mechanism, input mechanism and output mechanism are located buffer material mechanism's input and output respectively, buffer material mechanism is including rotating drive assembly and a plurality of buffer memory conveyer belt group, and a plurality of buffer memory conveyer belt group are range upon range of to be set up in the frame, it is used for driving one of them buffer memory conveyer belt group and rotates to rotate drive assembly, input mechanism is used for linking up the input of buffer memory conveyer belt group, output mechanism is used for linking up the output of buffer memory conveyer belt group.

Furthermore, the rotation driving assembly comprises a lifting driving mechanism arranged on the rack, a rotation driver arranged at the lifting end of the lifting driving mechanism, and a first linkage joint in driving connection with the output end of the rotation driver, wherein one side of each cache conveyor belt group is connected with a second linkage joint, and the first linkage joint is detachably connected with one of the second linkage joints.

Further, the first linkage joint is provided with a connecting lug or a connecting groove, and correspondingly, the second linkage joint is provided with a connecting groove or a connecting lug; the coupling convex block is in concave-convex fit with the coupling groove.

Furthermore, the rotation driving assembly further comprises a mounting seat arranged at the output end of the lifting driving mechanism and a sensor arranged on the mounting seat, the sensor is electrically connected with the rotation driver, and the sensor is used for detecting whether the first linkage joint and the second linkage joint are connected in place.

Furthermore, the sensor is a correlation sensor, the correlation sensor is respectively positioned on two sides of the first linkage joint, the first linkage joint or the second linkage joint is provided with two coaxially communicated correlation holes, the correlation holes are communicated with the connecting groove, and the correlation sensor is in correlation with the two correlation holes through the connecting groove.

Furthermore, the number of the rotary driving assemblies is two, the plurality of buffer storage conveyor belt groups are divided into an upper half part and a lower half part, one rotary driving assembly is used for driving the buffer storage conveyor belt group of the upper half part, and the other rotary driving assembly is used for driving the buffer storage conveyor belt group of the lower half part.

Further, buffer memory conveyer belt group is including installing in the fixed frame of frame, rotate the main roller that changes in the one end of fixed frame, rotate the follow roller that connects in the other end of fixed frame and twine in the main roller that changes and from the buffer memory area of changing between the roller, the second joint is connected with the main roller that changes.

Further, the buffer conveyer belt group also comprises a plurality of guide rollers which are rotatably connected with the fixed frame, the guide rollers are positioned between the main rotating roller and the auxiliary rotating roller, and the guide rollers are positioned in the buffer belt.

Furthermore, the input mechanism comprises an input lifting component arranged on the rack and an input belt set connected with the lifting end of the input lifting component, and the input belt set is used for being connected with the input end of the cache conveyor belt set.

Furthermore, the output mechanism comprises an output lifting component arranged on the rack and an output belt group connected with the lifting end of the output lifting component, and the output belt group is used for being connected with the output end of the cache conveyor belt group.

The utility model has the advantages that: the utility model has the advantages of simple structure, buffer memory material mechanism is rigid, links up with the buffer memory conveyer belt group of co-altitude not position respectively through input mechanism and output mechanism to realize the buffer memory and the ejection of compact of material, improved stability, position accuracy and the efficiency of buffer memory and the ejection of compact. It is particularly suitable for use in the following cases: when the previous station is stopped, the buffer material mechanism can continuously discharge materials and can continuously supply materials to the next station; when the next station is stopped, the buffer material mechanism can continuously buffer the materials, and can continuously receive and buffer the materials output by the previous station; the practicability is strong, the use is ingenious, and the controllability is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the hidden frame of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of an exploded structure of the buffer conveyor belt assembly of the present invention.

Description of reference numerals:

1. a frame; 2. caching the conveyor belt group; 21. a fixing frame; 22. a main roller; 23. a secondary roller; 24. a cache zone; 25. a guide roller; 3. an input mechanism; 31. inputting a lifting component; 32. inputting a band group; 4. an output mechanism; 41. an output lifting assembly; 42. outputting the band group; 5. a rotation drive assembly; 51. a lifting drive mechanism; 52. a rotation driver; 53. a first linkage joint; 54. a mounting seat; 55. a sensor; 56. perforating; 6. a second linkage joint; 61. a coupling projection; 62. and a coupling groove.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 4, the utility model provides a pair of online buffer memory device, it includes frame 1, buffer material mechanism, input mechanism 3 and output mechanism 4 are located buffer material mechanism's input and output respectively, buffer material mechanism is including rotating drive assembly 5 and a plurality of buffer memory conveyer belt group 2, and a plurality of buffer memory conveyer belt group 2 are from last down to stack gradually and set up in frame 1, it is used for driving one of them buffer memory conveyer belt group 2 to rotate drive assembly 5, input mechanism 3 is used for linking buffer memory conveyer belt group 2's input, output mechanism 4 is used for linking buffer memory conveyer belt group 2's output.

The present embodiment is described by taking an example in which the output mechanism 4 supplies materials to the plurality of buffer conveyor belt groups 2 sequentially from bottom to top. In practical application, when a material is placed on the input mechanism 3, the output end of the input mechanism 3 is connected with the input end of the lowest-layer buffer conveyor belt group 2, the input mechanism 3 sequentially conveys the material to the lowest-layer buffer conveyor belt group 2, in the process, the rotary driving assembly 5 is in driving connection with the lowest-layer buffer conveyor belt group 2, the rotary driving assembly 5 drives the lowest-layer buffer conveyor belt group 2 to rotate, the rotary buffer conveyor belt group 2 drives the material supplied by the input mechanism 3 to move to a proper position, until the buffer conveyor belt group 2 is full of the material, the output end of the input mechanism 3 rises to be connected with the input end of the last-layer buffer conveyor belt group 2, meanwhile, the rotary driving assembly 5 is also in driving connection with the last-layer buffer conveyor belt group 2 until the last-layer buffer conveyor belt group 2 is full of the material, and the operations are repeated to sequentially fill all the buffer conveyor belt groups 2 with the material, so as to achieve buffer storage of the material, the buffer storage of the material is large, the efficiency is high, and the storage stability is good. When the material that buffer memory conveyer belt group 2 cached when needs export, output mechanism 4's input links up with the output of the buffer memory conveyer belt group 2 that corresponds the position, rotates drive assembly 5 drive buffer memory conveyer belt group 2 and rotates for buffer memory conveyer belt group 2 carries the material that it bore to output mechanism 4 in proper order, exports the material via output mechanism 4, in order to realize the ejection of compact of buffer memory material. The utility model has the advantages of simple structure, buffer memory material mechanism is rigid, links up with the buffer memory conveyer belt group 2 of different altitude positions respectively through input mechanism 3 and output mechanism 4 to realize the buffer memory and the ejection of compact of material, improved stability, position accuracy and the efficiency of buffer memory and the ejection of compact. It is particularly suitable for use in the following cases: when the previous station is stopped, the buffer material mechanism can continuously discharge materials and can continuously supply materials to the next station; when the next station is stopped, the material caching mechanism can continuously cache materials, and can continuously receive and cache the materials output by the previous station; the practicability is strong, the use is ingenious, and the controllability is good.

In this embodiment, the rotation driving assembly 5 includes a lifting driving mechanism 51 installed on the frame 1, a rotation driver 52 installed at a lifting end of the lifting driving mechanism 51, and a first linkage joint 53 in driving connection with an output end of the rotation driver 52, one side of each buffer storage conveyer belt set 2 is connected with a second linkage joint 6, and the first linkage joint 53 is used for detachably connecting with one of the second linkage joints 6; preferably, the rotary drive 52 is a motor.

In practical application, when the cache conveyor belt group 2 at the required height position needs to cache materials or output materials, the lifting drive mechanism 51 drives the rotary driver 52 to ascend to one side of the cache conveyor belt group 2 at the required height position, at this time, the first linkage joint 53 is connected with the second linkage joint 6, the rotary driver 52 drives the first linkage joint 53 to drive the second linkage joint 6 to rotate, the second linkage joint 6 drives the cache conveyor belt group 2 at the position to rotate, and the rotary cache conveyor belt group 2 caches or discharges the materials.

In this embodiment, the first linkage joint 53 is provided with a coupling protrusion 61 or a coupling groove 62, and correspondingly, the second linkage joint 6 is provided with a coupling groove 62 or a coupling protrusion 61; the coupling projection 61 is concave-convex fitted with the coupling groove 62. Specifically, the coupling projection 61 is non-circular, and when the first interlocking joint 53 is provided with the coupling projection 61, the second interlocking joint 6 is provided with the coupling groove 62; and vice versa. Through the concave-convex matching of the connecting convex block 61 and the connecting groove 62, the first linkage joint 53 and the second linkage joint 6 are convenient to connect, under the condition that the first linkage joint 53 can drive the second linkage joint 6 to synchronously rotate, the first linkage joint 53 and the second linkage joint 6 are connected in a non-fixed mode, the first linkage joint 53 and the second linkage joint 6 are convenient to connect and separate, and the first linkage joint 53 and any one second linkage joint 6 are favorably connected.

In this embodiment, the rotation driving assembly 5 further includes a mounting seat 54 installed at an output end of the lifting driving mechanism 51 and a sensor 55 installed on the mounting seat 54, the sensor 55 is electrically connected to the rotation driver 52, and the sensor 55 is used for detecting whether the first linkage joint 53 and the second linkage joint 6 are connected in place. When the sensor 55 detects that the coupling protrusion 61 is in concave-convex fit with the coupling groove 62, that is, the first linkage joint 53 and the second linkage joint 6 are connected in place, the sensor 55 feeds back a signal to the rotation driver 52, so that the rotation driver 52 is started and drives the first linkage joint 53 to rotate. Through sensor 55 automated inspection, it is accurate to detect, and the action is sensitive, has guaranteed that first linkage joint 53 and second linkage joint 6 accurate butt joint have improved driven stability.

In this embodiment, the sensor 55 is a correlation sensor, the correlation sensor is a photoelectric correlation sensor, the correlation sensor is respectively located at two sides of the first linkage joint 53, the first linkage joint 53 or the second linkage joint 6 is provided with two correlation holes 56 which are coaxially communicated, the correlation holes 56 are communicated with the coupling groove 62, and the correlation sensor is in correlation with the two correlation holes 56 through the coupling groove 62. When the coupling projection 61 is misaligned with the coupling groove 62, the correlation sensor performs correlation, and the rotation driver 52 does not work; when the coupling projection 61 is engaged with the coupling groove 62, the sensor 55 feeds back a signal to the rotation driver 52, so that the rotation driver 52 is started.

In this embodiment, the number of the rotation driving assemblies 5 is two, the two rotation driving assemblies 5 are vertically distributed on the rack 1, the plurality of buffer storage conveyor belt sets 2 are divided into an upper half and a lower half, one rotation driving assembly 5 is used for driving the buffer storage conveyor belt set 2 on the upper half, and the other rotation driving assembly 5 is used for driving the buffer storage conveyor belt set 2 on the lower half. The two rotary driving components 5 are used for respectively and independently controlling the upper half cache conveyor belt group 2 and the lower half cache conveyor belt group 2, the two rotary driving components do not interfere with each other, when the input mechanism 3 supplies materials to the lower half cache conveyor belt group 2, the upper half cache conveyor belt group 2 can output the materials to the output mechanism 4, so that the cache and the discharge of the materials are synchronously carried out, and the production efficiency is greatly improved. Of course, the buffer storage and the discharge of the materials can be flexibly controlled according to the actual situation.

In this embodiment, the buffer conveying belt set 2 includes a fixing frame 21 installed on the frame 1, a main rotating roller 22 rotatably connected to one end of the fixing frame 21, a sub rotating roller 23 rotatably connected to the other end of the fixing frame 21, and a buffer belt 24 wound between the main rotating roller 22 and the sub rotating roller 23, and the second coupling joint 6 is connected to the main rotating roller 22.

In practical applications, the rotation driver 52 drives the second linkage joint 6 to rotate synchronously via the first linkage joint 53, the rotating second linkage joint 6 drives the main roller 22 to rotate, the rotating main roller 22 drives the buffer belt 24 to rotate, and the rotating buffer belt 24 buffers or discharges materials.

In this embodiment, the buffer conveyor belt set 2 further includes a plurality of guide rollers 25 rotatably connected to the fixed frame 21, the plurality of guide rollers 25 are located between the main roller 22 and the sub roller 23, and the plurality of guide rollers 25 are located in the buffer belt 24. The middle part of the buffer belt 24 is supported by a plurality of guide rollers 25, so that the stability of the buffer belt 24 for bearing materials is improved.

In this embodiment, the input mechanism 3 includes an input lifting assembly 31 installed on the frame 1 and an input belt set 32 connected to the lifting end of the input lifting assembly 31, and the input belt set 32 is used for being connected to the input end of the buffer conveyor belt set 2. In practical applications, the input lifting assembly 31 drives the input belt set 32 to lift, so that the input belt set 32 is lifted to engage with the input end of one of the buffer conveyor belt sets 2.

In this embodiment, the output mechanism 4 includes an output lifting assembly 41 installed on the rack 1 and an output belt set 42 connected to the lifting end of the output lifting assembly 41, and the output belt set 42 is used to be connected to the output end of the buffer conveyor belt set 2. In practical applications, the output lifting assembly 41 drives the output belt set 42 to lift, so that the output belt set 42 is lifted to be connected with the output end of one of the buffer conveyor belt sets 2.

All technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. An online cache device, comprising: including frame, buffer memory material mechanism, input mechanism and output mechanism are located buffer memory material mechanism's input and output respectively, buffer memory material mechanism is including rotating drive assembly and a plurality of buffer memory conveyer belt group, and a plurality of buffer memory conveyer belt group are range upon range of to be set up in the frame, it is used for driving one of them buffer memory conveyer belt group and rotates to rotate drive assembly, input mechanism is used for linking up the input of buffer memory conveyer belt group, output mechanism is used for linking up the output of buffer memory conveyer belt group.

2. The online caching device of claim 1, wherein: the rotation driving assembly comprises a lifting driving mechanism arranged on the rack, a rotation driver arranged at the lifting end of the lifting driving mechanism and a first linkage joint in driving connection with the output end of the rotation driver, wherein one side of each cache conveyor belt group is connected with a second linkage joint, and the first linkage joint is used for being detachably connected with one of the second linkage joints.

3. An online caching device according to claim 2, wherein: the first linkage joint is provided with a connecting convex block or a connecting groove, and correspondingly, the second linkage joint is provided with a connecting groove or a connecting convex block; the connecting convex blocks are matched with the connecting grooves in a concave-convex mode.

4. An online caching device according to claim 2, wherein: the rotation driving assembly further comprises a mounting seat arranged at the output end of the lifting driving mechanism and a sensor arranged on the mounting seat, the sensor is electrically connected with the rotation driver, and the sensor is used for detecting whether the first linkage joint and the second linkage joint are connected in place.

5. The online caching device of claim 4, wherein: the sensor is a correlation sensor, the correlation sensor is respectively positioned on two sides of the first linkage joint, the first linkage joint or the second linkage joint is provided with two correlation holes which are coaxially communicated, the correlation holes are communicated with the connecting grooves, and the correlation sensor is in correlation with the two correlation holes through the connecting grooves.

6. An online caching device according to any one of claims 1 to 5, wherein: the number of the rotary driving assemblies is two, the plurality of the buffer storage conveying belt sets are divided into an upper half part and a lower half part, one rotary driving assembly is used for driving the buffer storage conveying belt set of the upper half part, and the other rotary driving assembly is used for driving the buffer storage conveying belt set of the lower half part.

7. An online caching device according to claim 2, wherein: buffer memory conveyer belt group is including installing in the fixed frame of frame, rotating the main roller of changeing in the one end of fixed frame, rotating the buffer memory area of connecting in the follow roller of the other end of fixed frame and twining in the main roller of changeing and from changeing between the roller, the second joint is connected with the main roller of changeing.

8. The online caching device of claim 1, wherein: the buffer storage conveyor belt group further comprises a plurality of guide rollers which are rotatably connected to the fixed frame, the guide rollers are located between the main rotating roller and the auxiliary rotating rollers, and the guide rollers are located in the buffer storage belt.

9. The online caching device of claim 1, wherein: the input mechanism comprises an input lifting component arranged on the rack and an input belt set connected with the lifting end of the input lifting component, and the input belt set is used for being connected with the input end of the cache conveyor belt set.

10. The online caching device of claim 1, wherein: the output mechanism comprises an output lifting component arranged on the rack and an output belt group connected with the lifting end of the output lifting component, and the output belt group is used for being connected with the output end of the buffer storage conveyor belt group.

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