CN104386484A - Area sampling device and method - Google Patents

Area sampling device and method Download PDF

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Publication number
CN104386484A
CN104386484A CN201410635502.1A CN201410635502A CN104386484A CN 104386484 A CN104386484 A CN 104386484A CN 201410635502 A CN201410635502 A CN 201410635502A CN 104386484 A CN104386484 A CN 104386484A
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China
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lane change
sampling
device mechanism
cut
mechanism
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CN201410635502.1A
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Chinese (zh)
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CN104386484B (en
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郑效东
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上海东富龙科技股份有限公司
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Publication of CN104386484A publication Critical patent/CN104386484A/en
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Publication of CN104386484B publication Critical patent/CN104386484B/en

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Abstract

The invention provides an area sampling device. The area sampling device is used for sampling from a main transmission mesh belt, and comprises a first cut-off mechanism, a first lane changer mechanism, a second cut-off mechanism and a second lane changer mechanism, which are sequentially arranged on the main transmission mesh belt, wherein a sampling mesh belt is arranged on one side of the second cut-off mechanism and is arranged vertical to the main transmission mesh belt; a rotary lane changer mechanism is arranged at the front end of the sampling mesh belt; a first transition turntable is tangent to one side of the front end of the sampling mesh belt and the main transmission mesh belt; a second transition turntable is tangent to the other side of the front end of the sampling mesh belt and the main transmission mesh belt. The invention also provides an area sampling method. According to the device provided by the invention, the defects of the prior art are overcome; a traditional manual operation is replaced by virtue of a mechanical device; not only a traditional method for sampling products one by one can be met, but also regional batch sampling of the products can be met; the qualified products after sampling judgment can also be conveniently and rapidly fed to the production line again; therefore, the area sampling device has the characteristics of good efficiency and low cost.

Description

A kind of arda sampling device and method

Technical field

The invention belongs to food, medical packaging field, particularly relate to a kind of batch sample devices when medicine or food (hereinafter referred to as product) are carried on the transmission line and method.

Background technology

At medicine and food packaging industry, product needs processing through several operations and process usually.In the processing and manufacturing process of these operations, whether product is qualified to need on-line period to check, thus judges whether the processing of upstream process and process put in place; If process and process not in place, need to investigate fault in time, to prevent large batch of product rejection.

As shown in Figure 1, the many employings of current on-line period take out product from conveyor line manually, inspect by random samples; Or adopt manipulator to test from conveyor line taking-up product.Its process is: after product 4 exports along arrow 3 direction by upstream equipment 1, product 4 is transported to arrow 6 place by transporting reticulation belt 5, thus enters upstream device 2.Traditional sampling method is: when product transports on transporting reticulation belt 5, and it is taken out sampling from transporting reticulation belt 5 by operating personal 7 or manipulator 8.There is following defect in conventional sampling method:

1. sampling efficiency is low manually, not only adds the labour intensity of personnel, and improves the risk of human element polluted product.

2. adopt personnel or manipulator, detection can only be sampled one by one.In a large-size pipeline, if because of certain processing apparatus fault or other factors, occur that inferior product is general all in a continuous print region; Traditional sampling method can only do indivedual process to it, and major part still can flow into upstream device, needs upstream device to do further process.

3. Intelligentized manipulator and cost of labor are all higher.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of On-line Product arda sampling device and method.

In order to solve the problems of the technologies described above, technical scheme of the present invention is to provide a kind of arda sampling device, for sampling from main transporting reticulation belt, it is characterized in that: comprise the choking device mechanism be located at successively on described main transporting reticulation belt, a lane change device mechanism, No. two choking device mechanisms, No. two lane change device mechanisms, sampling guipure is located at No. two choking device mechanism sides and vertically with described main transporting reticulation belt arranges, and sampling guipure front end is provided with and rotates lane change device mechanism; Transition rotating disk and sampling side, guipure front end and main transporting reticulation belt tangent, No. two transition rotating disks and sampling guipure front end opposite side and main transporting reticulation belt tangent.

Preferably, described rotation lane change device mechanism comprises and rotates lane change guardrail, forms two bends in left and right by rotating lane change guardrail, rotates lane change guardrail and rotates lane change cylinder and be connected.

Preferably, a described choking device mechanism comprises a cut-off guardrail, and cut-off guardrail forms the first beeline channel in the middle of described main transporting reticulation belt, and a cut-off block is located on a cut-off guardrail, and cut-off cylinder ends block be connected with No. one.

Preferably, a described lane change device mechanism comprises a lane change guardrail, and lane change guardrail forms the second beeline channel on described main transporting reticulation belt and a change turns passage, and a lane change cylinder is connected with a lane change guardrail.

Preferably, a described choking device mechanism comprises a cut-off guardrail, and cut-off guardrail forms the first beeline channel in the middle of described main transporting reticulation belt, and a cut-off block is located on a cut-off guardrail, and cut-off cylinder ends block be connected with No. one.

Preferably, described No. two lane change device mechanisms are identical with a described lane change device mechanism structure.

Preferably, described No. two choking device mechanisms comprise No. two cut-off guardrails, the 3rd beeline channel and two articles of linking passages are formed by No. two cut-off guardrails, 3rd beeline channel is located on described main transporting reticulation belt, article two, be connected passage and be located at the left and right sides below the 3rd beeline channel respectively, left side is connected passage and turns passage for the change connected in a lane change device mechanism and rotate the left side bend in lane change device mechanism, and right side is connected passage and turns passage for the change connected in No. two lane change device mechanisms and rotate the right side bend in lane change device mechanism; No. two cut-off blocks are located on No. two cut-off guardrails, and No. two cut-off cylinders end block be connected with No. two.

Present invention also offers a kind of arda sampling method, adopt above-mentioned arda sampling device, it is characterized in that:

At conventional sense, when not needing sampling, choking device mechanism, lane change device mechanism, No. two choking device mechanisms, No. two lane change device mechanisms, rotation lane change device mechanisms are all in initial condition, and product passes through main transporting reticulation belt by linear transport to upstream device from upstream equipment;

When needs sample, a choking device institution staff, a cut-off block stretches out the product ended above, when product below continues transport and pass through a lane change device mechanism with main transporting reticulation belt, a lane change device mechanism performs lane change, rotates lane change device mechanism and also performs lane change, after lane change completes, a cut-off block of a choking device mechanism is retracted, and product enters sampling guipure through a transition rotating disk; When the product quantity entering lane change reaches setting quantity, a cut-off block of a choking device mechanism stretches out again, stop bottle above, Deng sampling product enter completely sampling guipure after, initial position is got back to by a lane change device mechanism and rotation lane change device mechanism, a cut-off block of a choking device mechanism is retracted again, and product is by original conventional sense transhipment;

When inspection by sampling judge product qualified after need again to send into transmission line time, No. two cut-off blocks of No. two choking device mechanisms stretch out, stop product above, No. two lane change device mechanisms and rotation lane change device mechanism perform lane change, sampling guipure inverted running, product is transported to main transporting reticulation belt through No. two transition rotating disks; After it all enters main transporting reticulation belt, No. two lane change device mechanisms perform lane change, and after lane change completes, No. two cut-off blocks of No. two choking device mechanisms are retracted, and product is by original conventional sense transhipment.

Preferably, when a described choking device mechanism, lane change device mechanism, No. two choking device mechanisms, No. two lane change device mechanisms, rotation lane change device mechanisms are in initial condition, the beeline channel in the second beeline channel in the first beeline channel in a choking device mechanism, a lane change device mechanism, the 3rd beeline channel in No. two choking device mechanisms and No. two lane change device mechanisms connects successively.

Preferably, when needs sample, after lane change device mechanism, a rotation lane change device mechanism all perform lane change, the left side turned in passage, No. two choking device mechanisms of the change in the first beeline channel in a choking device mechanism, a lane change device mechanism is connected passage and is connected with the left side bend rotated in lane change device mechanism.

Preferably, when inspection by sampling judge product qualified after need again to send into transmission line time, after No. two lane change device mechanisms and rotation lane change device mechanism perform lane change, the right side turned in passage, No. two choking device mechanisms of the change in No. two lane change device mechanisms is connected passage and is connected with the right side bend rotated in lane change device mechanism.

Device provided by the invention overcomes the deficiencies in the prior art, traditional manual operation is replaced by mechanical device, not only can meet traditional product to sample one by one, the regional batch sampling of product can also be met, can also by sampling sampling observation judge qualified after product, again send into manufacturing line quickly and easily, there is excellent in efficiency, feature that cost is low.

Accompanying drawing explanation

Fig. 1 is traditional on-line period method schematic diagram;

Fig. 2 is arda sampling device schematic diagram provided by the invention;

Fig. 3 is a choking device structural scheme of mechanism;

Fig. 4 is a lane change device structural scheme of mechanism;

Fig. 5 is No. two choking device structural scheme of mechanism;

Fig. 6 is for rotating lane change device structural scheme of mechanism;

Fig. 7 is that arda sampling device starts to sample schematic diagram;

Fig. 8 is arda sampling device sampling process schematic diagram;

Fig. 9 is that the sampling of arda sampling device terminates schematic diagram;

Figure 10 is that the inspection by sampling of arda sampling device judges that product sends into schematic diagram of transmission lines after qualified again.

Detailed description of the invention

For making the present invention become apparent, hereby with a preferred embodiment, and accompanying drawing is coordinated to be described in detail below.

Fig. 2 is arda sampling device schematic diagram provided by the invention, described arda sampling device comprises 11, No. two lane change device mechanisms 12 of 10, No. two choking device mechanisms of 9, lane change device mechanism of a choking device mechanism be located at successively on main transporting reticulation belt 5, sampling guipure 16 is located at No. two choking device mechanism 11 sides and vertically with main transporting reticulation belt 5 arranges, sampling guipure 16 front end is provided with and rotates lane change device mechanism 15, rotates lane change device mechanism 15 and is provided with two bends in left and right; Transition rotating disk 13 and main transporting reticulation belt 5 and sample side, guipure 16 front end tangent, No. two transition rotating disks 14 and main transporting reticulation belt 5 and to sample guipure 16 front end opposite side tangent.

As shown in Figure 3, a choking device mechanism 9 comprises: a cut-off guardrail 9-1, a cut-off cylinder 9-2, a cut-off block 9-3 tri-major parts.A cut-off guardrail 9-1 is located at main transporting reticulation belt 5 both sides, in the middle of main transporting reticulation belt 5, form the first beeline channel, and a cut-off block 9-3 is located on a cut-off guardrail 9-1, and cut-off cylinder 9-2 ends block 9-3 be connected with No. one.A cut-off block 9-3 can be moved back and forth along the vertical first beeline channel direction shown in arrow 24 by the effect of a cut-off cylinder 9-2, thus realizes the cutoff function to the product on the first beeline channel.

As shown in Figure 4, a lane change device mechanism 10 comprises a lane change guardrail 10-1 and the lane change cylinder 10-2 be connected to each other, a lane change guardrail 10-1 is located on main transporting reticulation belt 5, and on main transporting reticulation belt 5, form the second beeline channel and a change turns passage, a lane change guardrail 10-1 can move back and forth along arrow 24 direction under the driving of a lane change cylinder 10-2, thus realizes the second beeline channel and change and turn selection between passage.

No. two lane change device mechanisms 12 are similar with lane change device mechanism 10 26S Proteasome Structure and Function.

As shown in Figure 5, No. two choking device mechanisms 11 comprise: No. two cut-off guardrail 11-1, No. two cut-off cylinder 11-2, No. two cut-off block 11-3 tri-major parts.The 3rd beeline channel and two articles of linking passages are formed by No. two cut-off guardrail 11-1,3rd beeline channel is located on main transporting reticulation belt 5, article two, be connected passage and be located at the left and right sides below the 3rd beeline channel respectively, left side is connected passage and turns passage for the change connected in a lane change device mechanism 10 and rotate the left side bend in lane change device mechanism 15, and right side is connected passage and turns passage for the change connected in No. two lane change device mechanisms 12 and rotate the right side bend in lane change device mechanism 15.No. two cut-off block 11-3 are located on No. two cut-off guardrail 11-1, and No. two cut-off cylinder 11-2 end block 11-3 be connected with No. two.No. two cut-off block 11-3 can be moved back and forth along the vertical 3rd beeline channel direction shown in arrow 25 by the effect of No. two cut-off cylinder 11-2, thus realize the cutoff function to the product on the 3rd beeline channel.

As shown in Figure 6, rotate lane change device mechanism 15 and comprise the rotation lane change guardrail 15-1 and rotation lane change cylinder 15-2 that are connected to each other, two bends in left and right are formed by rotating lane change guardrail 15-1, rotate lane change guardrail 15-1 to swing back and forth along about arrow 22 direction under the driving rotating lane change cylinder 15-2, thus realize rotating lane change function.When rotating lane change device mechanism 15 and being flapped toward left side, the bend left side connected in No. two choking device mechanisms 11 in left side is connected the product channels on passage and sampling guipure 16; When rotating lane change device mechanism 15 and being flapped toward right side, the bend right side connected in No. two choking device mechanisms 11 in right side is connected the product channels on passage and sampling guipure 16.

When arda sampling device provided by the invention uses, completed the transfer of product 4 by main transporting reticulation belt 5, sampling guipure 16, transition rotating disk 13, No. two transition rotating disks 14; By 11, No. two lane change device mechanisms 12 of 10, No. two choking device mechanisms of 9, lane change device mechanism of a choking device mechanism, rotate lane change device mechanism 15 to product 4 appointment transfer track, to reach the object of product 4 arda sampling.

Its concrete sampling method is as follows:

At conventional sense, when not needing sampling, a choking device mechanism 9, a lane change device mechanism 10, No. two choking device mechanisms 11, No. two lane change device mechanisms 12, rotate lane change device mechanism 15 and be all in initial condition shown in Fig. 2, the first beeline channel in a choking device mechanism 9, the second beeline channel in a lane change device mechanism 10, beeline channel in the 3rd beeline channel in No. two choking device mechanisms 11 and No. two lane change device mechanisms 12 connects successively, after product 4 exports from upstream equipment 1 along arrow 3 direction, arrow 6 place is transported to by transporting reticulation belt 5, thus enter upstream device 2.

As shown in Figure 7 and Figure 8, when needs sample, a choking device mechanism 9 works, cut-off block 9-3 stretches out the product 4 ended on the first beeline channel above, when product 4 below continues transport and pass through a lane change device mechanism 10 with main transporting reticulation belt 5, a lane change device mechanism 10 performs lane change, rotate lane change device mechanism 15 and also perform lane change, the left side turned in passage, No. two choking device mechanisms 11 of the change in the first beeline channel namely in a choking device mechanism 9, a lane change device mechanism 10 is connected passage and is connected with the left side bend rotated in lane change device mechanism 15; After lane change completes, a cut-off block 9-3 of a choking device mechanism 9 retracts, and product can by the path after lane change, and through lane change guardrail, a transition rotating disk 13 enters sampling guipure 16.Composition graphs 9, when product 4 quantity entering lane change reaches requirement, a cut-off block 9-3 of a choking device mechanism 9 stretches out again, stop bottle above, Deng sampling product enter completely sampling guipure 16 after, its initial position is got back to by a lane change device mechanism 10 and rotation lane change device mechanism 15, and a cut-off block 9-3 of a choking device mechanism 9 retracts again.Product is by original conventional sense transhipment.

Figure 10 shows that the inspection by sampling of arda sampling device judges that product sends into schematic diagram of transmission lines after qualified again.No. two cut-off block 11-3 of No. two choking device mechanisms 11 stretch out, stop product above, No. two lane change device mechanisms 12 and rotation lane change device mechanism 15 perform lane change, namely the right side turned in passage, No. two choking device mechanisms 11 of the change in No. two lane change device mechanisms 12 is connected passage and is connected with the right side bend rotated in lane change device mechanism 15, arrow 23 inverted running pressed by sampling guipure 16, product, through No. two transition rotating disks 14, is transported to main transporting reticulation belt 5; After it all enters main transporting reticulation belt 5, No. two lane change device mechanisms 12 perform lane change, and after lane change completes, No. two cut-off block 11-3 of No. two choking device mechanisms 11 retract.Product is by original conventional sense transhipment.

The product accumulation area confined 17 in Figure 10 and confine when 19 regions are lane change buffering.In actual production process, this zone length determines the position of arda sampling device on conveyor line.The arda sampling sampling observation district that 18 regions are product is confined in Figure 10.

Claims (10)

1. an arda sampling device, for sampling from main transporting reticulation belt (5), it is characterized in that: comprise the choking device mechanism (9) be located at successively on described main transporting reticulation belt (5), a lane change device mechanism (10), No. two choking device mechanisms (11), No. two lane change device mechanisms (12), sampling guipure (16) is located at No. two choking device mechanism (11) sides and vertically with described main transporting reticulation belt (5) is arranged, and sampling guipure (16) front end is provided with and rotates lane change device mechanism (15); Transition rotating disk (13) and sampling guipure (16) side, front end and main transporting reticulation belt (5) tangent, No. two transition rotating disks (14) and sampling guipure (16) front end opposite side and main transporting reticulation belt (5) tangent.
2. a kind of arda sampling device as claimed in claim 1, it is characterized in that: described rotation lane change device mechanism (15) comprises rotation lane change guardrail (15-1), forming two bends in left and right by rotating lane change guardrail (15-1), rotating lane change guardrail (15-1) and being connected with rotation lane change cylinder (15-2).
3. a kind of arda sampling device as claimed in claim 1, it is characterized in that: a described choking device mechanism (9) comprises a cut-off guardrail (9-1), a cut-off guardrail (9-1) forms the first beeline channel in the middle of described main transporting reticulation belt (5), cut-off block (9-3) is located on a cut-off guardrail (9-1), and cut-off cylinder (9-2) is ended block (9-3) be connected with No. one.
4. a kind of arda sampling device as claimed in claim 2, it is characterized in that: a described lane change device mechanism (10) comprises a lane change guardrail (10-1), a lane change guardrail (10-1) becomes at upper formation second beeline channel of described main transporting reticulation belt (5) and one and turns passage, and a lane change cylinder (10-2) is connected with a lane change guardrail (10-1).
5. a kind of arda sampling device as claimed in claim 4, is characterized in that: described No. two lane change device mechanisms (12) are identical with described lane change device mechanism (10) structure.
6. a kind of arda sampling device as claimed in claim 5, it is characterized in that: described No. two choking device mechanisms (11) comprise No. two cut-off guardrails (11-1), the 3rd beeline channel and two articles of linking passages are formed by No. two cut-off guardrails (11-1), 3rd beeline channel is located on described main transporting reticulation belt (5), article two, be connected passage and be located at the left and right sides below the 3rd beeline channel respectively, left side is connected the left side bend that passage turns passage for the change connected on a lane change device mechanism (10) and rotates in lane change device mechanism (15), right side is connected the right side bend that passage turns passage for the change connected on No. two lane change device mechanisms (12) and rotates in lane change device mechanism (15), No. two cut-offs block (11-3) are located on No. two cut-off guardrails (11-1), and No. two cut-offs cylinder (11-2) are ended block (11-3) be connected with No. two.
7. an arda sampling method, adopts the arda sampling device as described in any one of claim 1 ~ 6, it is characterized in that:
At conventional sense, when not needing sampling, choking device mechanism (9), lane change device mechanism (10), No. two choking device mechanisms (11), No. two lane change device mechanisms (12), rotate lane change device mechanism (15) and be all in initial condition, product (4) from upstream equipment (1) by main transporting reticulation belt (5) by linear transport to upstream device (2);
When needs sample, choking device mechanism (9) job, cut-off block (9-3) stretches out the product ended above, when product below continues transport and pass through a lane change device mechanism (10) with main transporting reticulation belt (5), a lane change device mechanism (10) performs lane change, rotate lane change device mechanism (15) and also perform lane change, after lane change completes, cut-off block (9-3) of a choking device mechanism (9) is retracted, and product enters sampling guipure (16) through a transition rotating disk (13); When product (4) quantity entering lane change reaches setting quantity, cut-off block (9-3) of a choking device mechanism (9) is stretched out again, stop bottle above, after sampling product enters sampling guipure (16) completely, initial position is got back in a lane change device mechanism (10) and rotation lane change device mechanism (15), cut-off block (9-3) of a choking device mechanism (9) is retracted again, and product is by original conventional sense transhipment;
When inspection by sampling judge product qualified after need again to send into transmission line time, No. two cut-offs block (11-3) of No. two choking device mechanisms (11) are stretched out, stop product above, No. two lane change device mechanisms (12) and rotation lane change device mechanism (15) perform lane change, sampling guipure (16) inverted running, product is transported to main transporting reticulation belt (5) through No. two transition rotating disks (14); After it all enters main transporting reticulation belt (5), No. two lane change device mechanisms (12) perform lane change, after lane change completes, No. two cut-offs block (11-3) of No. two choking device mechanisms (11) are retracted, and product is by original conventional sense transhipment.
8. a kind of arda sampling method as claimed in claim 7, it is characterized in that: when a described choking device mechanism (9), lane change device mechanism (10), No. two choking device mechanisms (11), No. two lane change device mechanisms (12), rotations lane change device mechanism (15) are in initial condition, the beeline channel on the second beeline channel on the first beeline channel on a choking device mechanism (9), a lane change device mechanism (10), the 3rd beeline channel on No. two choking device mechanisms (11) and No. two lane change device mechanisms (12) connects successively.
9. a kind of arda sampling method as claimed in claim 7, it is characterized in that: when needs sample, after lane change device mechanism (10), rotation lane change device mechanism (15) all perform lane change, the left side turned on passage, No. two choking device mechanisms (11) of the change on the first beeline channel on a choking device mechanism (9), a lane change device mechanism (10) is connected passage and is connected with the left side bend rotated in lane change device mechanism (15).
10. a kind of arda sampling method as claimed in claim 7, it is characterized in that: when inspection by sampling judge product qualified after need again to send into transmission line time, after No. two lane change device mechanisms (12) and rotation lane change device mechanism (15) perform lane change, the right side turned on passage, No. two choking device mechanisms (11) of the change on No. two lane change device mechanisms (12) is connected passage and is connected with the right side bend rotated in lane change device mechanism (15).
CN201410635502.1A 2014-11-12 2014-11-12 A kind of arda sampling device and method CN104386484B (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108801312A (en) * 2018-07-11 2018-11-13 怀宁县鑫盛制冷设备有限公司 Sampling detecting device in a kind of production of refrigeration equipment part

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Publication number Priority date Publication date Assignee Title
JPH05722A (en) * 1991-06-07 1993-01-08 Tsubakimoto Chain Co Article sorting conveyor
JPH0761576A (en) * 1993-08-26 1995-03-07 Japan Tobacco Inc Article distributing conveying device
CN1349463A (en) * 1999-05-06 2002-05-15 杰维斯·B·韦布国际公司 Conveyor system switch using tubular linear induction motor
CN103538914A (en) * 2013-09-29 2014-01-29 衡山信联食品饮料有限公司 Empty bottle collecting and conveying method and system
CN204250909U (en) * 2014-11-12 2015-04-08 上海东富龙科技股份有限公司 A kind of arda sampling device

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH05722A (en) * 1991-06-07 1993-01-08 Tsubakimoto Chain Co Article sorting conveyor
JPH0761576A (en) * 1993-08-26 1995-03-07 Japan Tobacco Inc Article distributing conveying device
CN1349463A (en) * 1999-05-06 2002-05-15 杰维斯·B·韦布国际公司 Conveyor system switch using tubular linear induction motor
CN103538914A (en) * 2013-09-29 2014-01-29 衡山信联食品饮料有限公司 Empty bottle collecting and conveying method and system
CN204250909U (en) * 2014-11-12 2015-04-08 上海东富龙科技股份有限公司 A kind of arda sampling device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108801312A (en) * 2018-07-11 2018-11-13 怀宁县鑫盛制冷设备有限公司 Sampling detecting device in a kind of production of refrigeration equipment part

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