CN206654235U - Buffer storage bottle conveyer - Google Patents

Abstract

The utility model discloses a kind of extruding force that can be discharged in time between real bottle, the buffering storage bottle conveyer for avoiding real bottle from being deformed, including：Upper bottle delivery area, bottle outlet delivery area, storage bottle delivery area, the buffering bib mechanism of storage bottle delivery area include：The clamping chain that can be run in buffering stand upper rotary, the side that clamping chain is used for bib reality bottle form clamping chain bib portion, and the guardrail board of clamping chain bib portion inner end can be turned out making a concession by after the extruding of real bottle, and and can returns back to initial position afterwards；The partition barrier of storage bottle delivery area left bottle gap between storage bottle input area and storage bottle output area between partition and clamping chain bib portion；Buffering stand and partition are movably arranged in frame and driven by drive mechanism, and drive mechanism can drive buffering stand to move back and forth in storage bottle delivery area, and the barrier length of partition can synchronous lengthening or synchronous shortening with buffering stand movement.

Description

Buffer storage bottle conveyer

Technical field

It the utility model is related to beverage filling production lines equipment technical field, and in particular to buffering storage bottle conveyer.

Background technology

In filling production, canned real bottle is delivered in rear road station by buffering storage bottle conveyer.Buffer storage bottle conveying The structure of machine mainly includes：Upper bottle delivery area, bottle outlet delivery area, the storage bottle delivery area being arranged in frame, upper bottle delivery area and The conveying direction of bottle outlet delivery area is opposite and is located at same one end of storage bottle delivery area, and storage bottle input area and storage are divided into storage bottle conveying Bottle output area, upper bottle delivery area is connected with storage bottle input area and conveying direction is identical, bottle outlet delivery area and storage bottle output area phase Connect and conveying direction is identical, storage bottle delivery area is provided with partition and buffering bib mechanism, the structure of buffering bib mechanism Including：Buffering stand, clamping chain is installed on buffering stand, clamping chain can be run in buffering stand upper rotary, and clamping chain is used for The side of bib reality bottle forms clamping chain bib portion, and clamping chain bib portion is extended by a lateral edges broad warp of storage bottle delivery area To another lateral edges of storage bottle delivery area；Partition is one section separation of the barrier between storage bottle input area and storage bottle output area Guardrail, described separation guardrail are also mounted on buffering stand, are separated and are left bottle gap between guardrail and clamping chain bib portion； Buffering stand suspension strut is arranged in the mounting bracket above storage bottle delivery area, buffering stand and the timing belt in mounting bracket Timing belt in mechanism is connected, and described mounting bracket is fixedly connected with frame, under the driving of synchronous belt mechanism, buffering branch Frame can translate back and forth in storage bottle delivery area.During work, real bottle constantly enters to storage bottle input area, storage bottle input from upper bottle delivery area The real bottle in area constantly enters to storage bottle output area, the reality of storage bottle output area under the guiding in clamping chain bib portion from bottle gap excessively Bottle is outwards exported after moving to bottle outlet delivery area.Real bottle on the inside of clamping chain bib portion is excessive and causes the phase between real bottle When mutually extruding force is excessive, synchronous belt mechanism then can drive buffering stand to be moved to the outer end of storage bottle delivery area, until clamping chain The extruding force between real bottle on the inside of bib portion discharges completely；After real bottle on the inside of clamping chain bib portion is reduced, timing belt machine Structure drives buffering stand to be moved to the inner end of storage bottle delivery area again.

Following defect be present in above-mentioned buffering storage bottle conveyer：First, buffering bib mechanism can not discharge between real bottle in time Pressure, jam is easily produced in real bottle course of conveying, real bottle is easily deformed, and product qualification rate is low.2nd, delay It is longer in the distance that storage bottle delivery area moves back and forth to rush support, this requires that timing belt long length is corresponding longer, and timing belt is longer Larger sag of chain will certainly be produced, so as to easily cause buffering stand to run clamping stagnation.3rd, buffering stand suspension strut is in storage bottle In mounting bracket above delivery area, this causes the lengthy and tedious complexity of structure of whole buffering storage bottle conveyer, and installation space will Ask high, equipment installation is very inconvenient, and support is not firm.4th, separate that the length of guardrail is certain, and buffering stand is to storage bottle delivery area Outer end movement after, cross between the storage bottle input area and storage bottle output area that separate beyond guardrail on the inside of bottle gap then not every Keep off, between the real bottle in storage bottle input area and storage bottle output area in the presence of mutual extruding force, storage bottle input area and storage bottle are defeated Go out the real bottle in area to be easily accessible to the region among storage bottle input area and storage bottle output area, can then be produced when buffering stand returns Raw collision, so as to cause device damage.

Utility model content

The utility model technical issues that need to address are：Real bottle pressure can be discharged in time and can effectively prevent by providing one kind The buffering storage bottle conveyer that only real bottle is deformed.

To solve the above problems, the technical solution adopted in the utility model is：Storage bottle conveyer is buffered, including：It is arranged on Upper bottle delivery area, bottle outlet delivery area, storage bottle delivery area in frame, the conveying direction of upper bottle delivery area and bottle outlet delivery area are opposite And positioned at same one end of storage bottle delivery area, storage bottle input area and storage bottle output area, upper bottle delivery area and storage are divided into storage bottle conveying Bottle input area is connected and conveying direction is identical, and bottle outlet delivery area is connected with storage bottle output area and conveying direction is identical, storage bottle Delivery area is provided with partition and buffering bib mechanism, and the structure of buffering bib mechanism includes：Buffering stand, on buffering stand Clamping chain is installed, clamping chain can be run in buffering stand upper rotary, and the side that clamping chain is used for bib reality bottle forms clamping chain Bib portion, clamping chain bib portion extend bib to storage bottle output area, the rotation direction of clamping chain by the outward flange of storage bottle input area Ensure that clamping chain bib portion can guide real bottle to storage bottle output area direction, activity on the buffering stand of clamping chain bib portion inner end Be provided with guardrail board, conveying direction of the guardrail board from the end in clamping chain bib portion along storage bottle output area tilt extension bib to The outward flange of storage bottle output area, elastic rotation connects between guardrail board and buffering stand, and guardrail board can be from after being extruded by real bottle Initial position is rotated to storage bottle delivery area outer end direction and made a concession to extreme position, and and can returns back to initial position afterwards；Separate Mechanism barrier left bottle between storage bottle input area and storage bottle output area between the end and clamping chain bib portion of partition Gap；Buffering stand and partition are movably arranged in frame and driven by the drive mechanism being arranged in frame, drive Motivation structure can drive buffering stand to move back and forth in storage bottle delivery area, and under the driving of drive mechanism, partition is defeated in storage bottle Entering the barrier length between area and storage bottle output area can synchronously prolong as buffering stand is mobile to the outer end of storage bottle delivery area It is long, or synchronously shorten as buffering stand is mobile to the inner end of storage bottle delivery area.

Further, foregoing buffering storage bottle conveyer, wherein, described drive mechanism be by buffer motor driving, The chain run in frame that can be between storage bottle input area and storage bottle output area.

Further, foregoing buffering storage bottle conveyer, wherein, roller bearing is provided with the outside of buffering stand, is rolled Wheel bearing is supported on the support slide rail in frame, and the inboard of buffering stand is connected on chain by connecting plate, and chain is in machine Operation can drive buffering stand to move back and forth in storage bottle delivery area on frame.

Further, foregoing buffering storage bottle conveyer, wherein, partition includes：Some barriers that are used for are in storage bottle Block between input area and storage bottle output area, block are close on chain successively；Block can be transported with chain syn-chro-step OK, bottle gap, quantity and peace of the block on chain were left between the block of partition end and clamping chain bib portion Filling region ensures when buffering stand is run to the outer end of storage bottle delivery area, the storage bottle input area crossed on the inside of bottle gap and storage bottle There is block barrier between output area.

Yet further, foregoing buffering storage bottle conveyer, wherein, the outer face of the block of partition end is in outside Arc surface protruding, real bottle being guided from storage bottle input area to storage bottle output area direction.

Further, foregoing buffering storage bottle conveyer, wherein, it is provided with a pair in the frame of storage bottle delivery area outer end Laser range finder, a pair of laser range finders are respectively used to measure the distance of measurement point in buffering stand and guardrail board, buffering stand Reflector is provided with the measurement point opening position in guardrail board, two laser range finders can detect buffering stand in real time respectively , and can be respectively by the range information Real-time Feedback detected to PLC with the distance of measurement point in guardrail board.

Further, foregoing buffering storage bottle conveyer, wherein, clamping chain bib portion from storage bottle input area outward flange to Extension bib is tilted to storage bottle output area away from upper bottle delivery area direction.

Further, foregoing buffering storage bottle conveyer, wherein, the elastic rotation connection between guardrail board and buffering stand Structure includes：Guardrail board is fixedly connected with rotating shaft, and one end of rotating shaft is movably arranged on buffering stand, rotating shaft and buffering stand it Between be connected with extension spring, real bottle extruding guardrail board energy drive shaft drives guardrail board from initial position to the outer end of storage bottle delivery area Direction, which rotates, makes a concession to extreme position, and rotating shaft and can drives guardrail board to return back to initial position in the presence of extension spring afterwards.

Further, foregoing buffering storage bottle conveyer, wherein, the both sides of the edge of storage bottle delivery area are respectively arranged with shield Column.

The beneficial effects of the utility model：First, the extruding force between real bottle can be discharged in time, effectively avoid real bottle from being extruded Deformation, so as to improve production qualification rate.2nd, transfer efficiency greatly improves.3rd, prevented real bottle to drop in storage bottle input area Occur with the situation of storage bottle output area intermediate region, so that buffering stand more can swimmingly be run safely.

Brief description of the drawings

Fig. 1 is the structural representation of buffering storage bottle conveyer described in the utility model.

Fig. 2 is the structural representation of A-A section view directions in Fig. 1.

Fig. 3 is that buffering stand is run to the structural representation during outer end of storage bottle delivery area in Fig. 1.

Fig. 4 is the structural representation shown in B directions in Fig. 3.

Fig. 5 is the structural representation shown in C-C section view directions in Fig. 3.

Fig. 6 is the attachment structure schematic diagram of block and chain in Fig. 2.

Embodiment

The utility model is described in further details with optimum embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, buffering storage bottle conveyer, including：Be arranged on upper bottle delivery area 2 in frame 1, bottle outlet delivery area 3, Storage bottle delivery area 4, upper bottle delivery area 2, bottle outlet delivery area 3, storage bottle delivery area 4 are all defeated by being used on frame 1 is arranged on The transporting chain plate of real bottle is sent to be formed.The both sides of storage bottle delivery area 4 are respectively arranged with guardrail 43, and the setting of guardrail 43 can be prevented effectively Real bottle drops from storage bottle delivery area 4.The conveying direction of upper bottle delivery area 2 and bottle outlet delivery area 3 is opposite and is conveyed positioned at storage bottle The same one end in area 4, storage bottle delivery area 4 are divided for storage bottle input area 41 and storage bottle output area 42, upper bottle delivery area 2 and storage bottle input area 41 are connected and conveying direction is identical, and bottle outlet delivery area 3 is connected with storage bottle output area 42 and conveying direction is identical.Storage bottle conveys Buffering bib mechanism 6 and partition 5 are provided with area 4.

As shown in Fig. 1, Fig. 3, Fig. 5, the structure of buffering bib mechanism 6 includes：Buffering stand 61, install on buffering stand 61 There is clamping chain 62, clamping chain 62 can be run in the upper rotary of buffering stand 61, and the side that clamping chain 62 is used for bib reality bottle forms folder Hold chain bib portion 621, clamping chain bib portion 621 by storage bottle input area 41 outward flange along storage bottle input area 41 conveying direction Extension bib is tilted to storage bottle output area 42.The rotation direction of clamping chain 62 ensures that clamping chain bib portion 621 can be by real bottle to storage The guiding of the bottle direction of output area 42.In the present embodiment, conveying direction of the clamping chain bib portion 621 along storage bottle input area 41, which tilts, to be set The purpose put is：Real bottle can be guided to the direction of storage bottle output area 42 along the input direction of real bottle, it is defeated so as to improve real bottle The stability and transfer efficiency sent.In order to prevent scratch reality bottle outer wall, clamping chain 62 uses rubber clamping chain in the present embodiment.Folder Hold and guardrail board 64 is movably set with the buffering stand 61 of the inner end of chain bib portion 621, guardrail board 64 is from clamping chain bib portion 621 Conveying direction of the end along storage bottle output area 42 tilts extension bib to the outward flange of storage bottle output area 42, and guardrail board 64 is with delaying Elastic rotation connects between rushing support 61, and guardrail board 64 can be from initial position 601 to storage bottle delivery area 4 after being extruded by real bottle Outer end direction rotation yielding to extreme position 602, afterwards and can returns back to initial position 601.Guardrail board 64 in the present embodiment The concrete structure that elastic rotation between buffering stand 61 is connected includes：Guardrail board 64 is fixedly connected with rotating shaft 66, rotating shaft 66 One end be movably arranged on buffering stand 61, be connected with extension spring 65 between rotating shaft 66 and buffering stand 61, real bottle extrudes guardrail Plate 64 can drive shaft 66 drive outer end direction of the guardrail board 64 from initial position 601 to storage bottle delivery area 4 rotate make a concession to Extreme position 602, the and can of rotating shaft 66 drives guardrail board 64 to return back to initial position 601 in the presence of extension spring 65 afterwards.Guardrail The advantages of plate 64 is connected with the elastic rotation of buffering stand 61 is：After being extruded by real bottle, guardrail board 64 can at once be rotated and made a concession, So as to discharge the extruding force between real bottle at once, so real bottle can be highly desirable prevented to be deformed.

As shown in Fig. 1, Fig. 3, Fig. 4, the barrier of partition 5 separates between storage bottle input area 41 and storage bottle output area 42 Bottle gap 7 was left between the end and clamping chain bib portion 621 of mechanism 5.Buffering stand 61 and the activity of partition 5 are set Driven in frame 1 and by the drive mechanism being arranged in frame 1, drive mechanism can drive buffering stand 61 defeated in storage bottle Area 4 is sent to move back and forth, under the driving of drive mechanism, partition 5 is between storage bottle input area 41 and storage bottle output area 42 Barrier length can and synchronous lengthening mobile to the outer end of storage bottle delivery area 4 with buffering stand 61, or with buffering stand 61 to The inner end of storage bottle delivery area 4 is mobile and synchronously shortens.In the present embodiment, described drive mechanism to be driven by buffer motor 8, can be The chain 9 run in frame 1 between storage bottle input area 41 and storage bottle output area 42, the mounting structure of chain 9 is mechanical field In common structure, will not be repeated here.The outside of buffering stand 61 is provided with roller bearing 67, and roller bearing 67 is supported on machine On support slide rail 11 on frame 1, the inboard of buffering stand 61 is connected on chain 9 by connecting plate 68, and chain 9 is in frame 1 Operation can drive buffering stand 61 to move back and forth in storage bottle delivery area 4.Buffering stand 6 passes through chain 9 and support slide rail 11 Support is in frame 1, and such structure is that buffering stand 61 provides firm support so that the knot of whole storage bottle buffer conveyor Structure greatly simplifies, and not only substantially reduces equipment occupation space, while also substantially increases the stability of the operation of buffering stand 61.

As shown in Figure 1, Figure 2, Figure 6 shows, in the present embodiment, the structure of partition 5 includes：It is some defeated in storage bottle for barrier Enter the block 51 between area 41 and storage bottle output area 42, close arrangement is arranged on chain 9 block 51 successively, and block 51 can be with Chain 9 is run simultaneously, and bottle gap 7, block 51 were left between the block 51 of the end of partition 5 and clamping chain bib portion 621 Ensure in the quantity on chain 9 and installation region when buffering stand 61 moves to the outer end of storage bottle delivery area 4, cross between bottle There is the barrier of block 51 between the storage bottle input area 41 and storage bottle output area 42 of the inner side of gap 7.In the present embodiment, the end of partition 5 The outer face of the block 51 in portion is in outwardly, can guide real bottle from storage bottle input area 41 to the direction of storage bottle output area 42 Arc surface 511, the setting of arc surface 511 can effectively improve smooth degree of the real bottle by bottle gap 7 excessively.If set on chain 9 Dry block 51 and the partition 5 formed, such clever structure, can ensure that the He of storage bottle input area 41 of the inner side of bottle gap 7 All the time there is the barrier of block 51 between storage bottle output area 42, this has just prevented the reality on storage bottle input area 41 and storage bottle output area 42 Bottle enters to storage bottle input area 41 and the situation of the intermediate region of storage bottle output area 42 occurs, so as to avoid buffering stand 61 and reality The accident that bottle produces collision occurs, and this causes the stability that buffering stand 61 is run to greatly improve.

As shown in Fig. 1, Fig. 3, Fig. 5, a pair of laser range finders are provided with the frame 1 of the outer end of storage bottle delivery area 4 --- First laser rangefinder 12 and second laser rangefinder 13, first laser rangefinder 12 and second laser rangefinder 13 are respectively used to Measure the distance of measurement point in buffering stand 61 and guardrail board 64, the measurement point opening position on buffering stand 61 and guardrail board 64 is equal Reflector is provided with, first laser rangefinder 12 can detect the distance of measurement point on buffering stand 61 in real time, and second laser is surveyed Distance meter 13 can detect the distance of measurement point in guardrail board 64, first laser rangefinder 12 and the energy of second laser rangefinder 13 in real time Respectively by the range information Real-time Feedback detected to PLC.In the present embodiment, measurement point position on buffering stand 61 in Face on the connecting plate 68 of first laser rangefinder 12, the measurement point in guardrail board 64 faces second laser rangefinder 13 and set Put, during guardrail board 64 turns to extreme position 602 from initial position 601 to the outer end direction of storage bottle delivery area 4, the The difference for the distance value that the distance value that dual-laser rangefinder 13 measures measures with first laser rangefinder 12 constantly reduces.In order to just In description, PLC is surveyed according to the distance value that the second laser rangefinder 13 obtained in real time measures and first laser below The difference that the distance value that distance meter 12 measures is made is referred to as real-time difference.A mark is preset with real work, in PLC Quasi- value, the standard value are the distance value that second laser rangefinder 13 measures and the when being located at critical localisation 60 by guardrail board 64 The difference for the distance value that one laser range finder 12 measures, the critical localisation 60 be located at initial position 601 and extreme position 602 it Between, critical localisation 60 can determine according to being actually needed.Real bottle start conveying when, PLC by constantly by real-time difference with Standard value is compared, and when real-time difference is less than standard value, it is super that guardrail board 64 then extrudes rotation by real bottle by initial position 601 Critical localisation 60 is crossed, now PLC can then control buffer motor 8, drive chain 9 to drive buffering stand 61 to be conveyed to storage bottle The outer end direction motion in area 4, so as to discharge the He of storage bottle input area 41 in clamping chain bib portion 621 and the inner side of guardrail board 64 rapidly The extruding force of real bottle on storage bottle output area 42；Then when real-time difference is more than standard value, guardrail board 64 is then by extreme position 602 Critical localisation 60 is rotated beyond to the direction of initial position 601, now the storage bottle of clamping chain bib portion 621 and the inner side of guardrail board 64 is defeated Enter on area 41 and storage bottle output area 42 that real bottle is less, PLC can then control buffer motor 8, drive chain 9 to drive buffering branch Frame 61 moves to the inner end direction of storage bottle delivery area 4, can so shorten real bottle on storage bottle input area 41 and storage bottle output area 42 The distance of operation, so that it is guaranteed that the transfer efficiency of real bottle.By the comparison of real-time difference and standard value, PLC can be rapid Make buffering stand 61 whether to move and the judgement of the moving direction of buffering stand 61, this causes the spirit of whole buffering stand 61 Sensitivity greatly improves, and from the extruding force that can not only be discharged in time between real bottle, avoids real bottle from being deformed, moreover it is possible to effectively to ensure Real bottle ground transfer efficiency.

Operation principle is as follows：Real bottle is constantly entered in storage bottle input area 41 from upper bottle delivery area 2, storage bottle input area 41 Interior real bottle constantly enters to storage bottle output area 42, storage bottle output area under the guiding in clamping chain bib portion 621 from bottle gap 7 excessively Real bottle in 42 constantly moves under the guiding of guardrail board 64 to the direction of bottle outlet delivery area 3, moves to the real bottle of bottle outlet delivery area 3 Then constantly can outwards it be exported.In real bottle course of conveying, once the storage bottle of clamping chain bib portion 621 and the inner side of guardrail board 64 is defeated The real bottle entered in area 41 and storage bottle output area 42 is excessive, and real bottle can then extrude guardrail board 64, and guardrail board 64 will convey to storage bottle The outer end direction in area 4, which rotates, makes a concession and discharges the extruding force between real bottle at once, so as to effectively prevent real bottle to be deformed. First laser rangefinder 12 and second laser rangefinder 13 are by the measurement on the buffering stand 61 and guardrail board 64 that detect simultaneously The distance value Real-time Feedback of point to PLC, PLC then can be poor in real time by real-time difference compared with standard value When value is less than standard value, PLC can then control the outer end that buffer motor 8 drives buffering stand 61 to storage bottle delivery area 4 Direction is moved, until fully discharging the extruding force between real bottle, then when real-time difference is more than standard value, PLC is then Buffer motor 8 can be controlled to drive buffering stand 61 to be moved to the inner end direction of storage bottle delivery area 4, shorten real bottle in storage bottle input area 41 and storage bottle delivery area 42 run distance, it is ensured that the transfer efficiency of real bottle.In the moving process of above-mentioned buffering stand 61, Barrier length of the block 51 between storage bottle input area 41 and bottle outlet output area 42 on chain 9 can be with the shifting of buffering stand 61 Move and synchronously change, opened all the time by barrier between the storage bottle input area 41 and storage bottle output area 42 crossed on the inside of bottle gap 7, storage bottle is defeated Enter the real bottle in area 41 and storage bottle output area 42 not falling out between the two, this enables the more safety of buffering stand 61 smooth Run on ground.

Claims (9)

1. storage bottle conveyer is buffered, including：Upper bottle delivery area, bottle outlet delivery area, the storage bottle delivery area being arranged in frame, upper bottle The conveying direction of delivery area and bottle outlet delivery area is opposite and is located at same one end of storage bottle delivery area, and it is defeated that storage bottle is divided into storage bottle conveying Enter area and storage bottle output area, upper bottle delivery area is connected with storage bottle input area and conveying direction is identical, bottle outlet delivery area and storage bottle Output area is connected and conveying direction is identical, and storage bottle delivery area is provided with partition and buffering bib mechanism, it is characterised in that： The structure of buffering bib mechanism includes：Buffering stand, clamping chain is installed on buffering stand, clamping chain can be in buffering stand last time Transhipment row, the side that clamping chain is used for bib reality bottle form clamping chain bib portion, and clamping chain bib portion is by the outer of storage bottle input area Edge extends bib to storage bottle output area, and the rotation direction of clamping chain ensures that clamping chain bib portion can be by real bottle to storage bottle output area Direction guides, and is movably set with guardrail board on the buffering stand of clamping chain bib portion inner end, and guardrail board is from clamping chain bib portion Conveying direction of the end along storage bottle output area tilts extension bib to the outward flange of storage bottle output area, guardrail board and buffering stand Between elastic rotation connect, guardrail board can be rotated from initial position to storage bottle delivery area outer end direction and moved back after being extruded by real bottle Allow to extreme position, and can returns back to initial position afterwards；Partition barrier between storage bottle input area and storage bottle output area, Bottle gap was left between the end and clamping chain bib portion of partition；Buffering stand and partition are movably arranged on machine Driven on frame and by the drive mechanism that is arranged in frame, drive mechanism can drive buffering stand in storage bottle delivery area back and forth Mobile, under the driving of drive mechanism, barrier length of the partition between storage bottle input area and storage bottle output area can be with Buffering stand is mobile to the outer end of storage bottle delivery area and synchronous lengthening, or as buffering stand moves to the inner end of storage bottle delivery area Move and synchronously shorten.

2. buffering storage bottle conveyer according to claim 1, it is characterised in that：Described drive mechanism is by buffer motor The chain run in frame drive, can be between storage bottle input area and storage bottle output area.

3. buffering storage bottle conveyer according to claim 2, it is characterised in that：Roller shaft is provided with the outside of buffering stand Hold, roller bearing is supported on the support slide rail in frame, and the inboard of buffering stand is connected on chain by connecting plate, chain Operation can drive buffering stand to move back and forth in storage bottle delivery area in frame.

4. the buffering storage bottle conveyer according to Claims 2 or 3, it is characterised in that：Partition includes：It is some be used for every The block kept off between storage bottle input area and storage bottle output area, block are close on chain successively；Block can be with chain Bar is run simultaneously, and bottle gap, number of the block on chain were left between the block of partition end and clamping chain bib portion Amount and installation region ensure that when buffering stand is run to the outer end of storage bottle delivery area the storage bottle crossed on the inside of bottle gap inputs There is block barrier between area and storage bottle output area.

5. buffering storage bottle conveyer according to claim 4, it is characterised in that：The outer face of the block of partition end In arc surface that is outwardly, can guiding real bottle from storage bottle input area to storage bottle output area direction.

6. the buffering storage bottle conveyer according to claim 1 or 2 or 3, it is characterised in that：The machine of storage bottle delivery area outer end A pair of laser range finders are provided with frame, a pair of laser range finders are respectively used to measure measurement point in buffering stand and guardrail board Distance, the measurement point opening position on buffering stand and guardrail board are provided with reflector, and two laser range finders can be real-time respectively The distance of measurement point in buffering stand and guardrail board is detected, and can be respectively by the range information Real-time Feedback detected to PLC Controller.

7. the buffering storage bottle conveyer according to claim 1 or 2 or 3, it is characterised in that：Clamping chain bib portion is defeated by storage bottle The outward flange for entering area tilts extension bib to storage bottle output area to away from upper bottle delivery area direction.

8. the buffering storage bottle conveyer according to claim 1 or 2 or 3, it is characterised in that：Between guardrail board and buffering stand Elastic rotation attachment structure include：Guardrail board is fixedly connected with rotating shaft, and one end of rotating shaft is movably arranged on buffering stand, is turned Extension spring is connected between axle and buffering stand, real bottle extruding guardrail board energy drive shaft drives guardrail board from initial position to storage bottle The outer end direction of delivery area, which rotates, makes a concession to extreme position, and rotating shaft and can drives guardrail board to reply in the presence of extension spring afterwards To initial position.

9. the buffering storage bottle conveyer according to claim 1 or 2 or 3, it is characterised in that：The both sides of the edge of storage bottle delivery area It is respectively arranged with guardrail.