DE19909437A1 - Free flowing material continuous flow weight determining device has section that may be introduced into shaft with recess of given volume in transportation direction and limited by side panels for setting sample - Google Patents

Abstract

A sampler (1) may be inserted into a shaft (7) via an inlet (6). A section (15) introduced into the shaft (7) has a recess (17) of a given volume in transportation direction and limited by side panels for setting a sample (16). The recess (17) may be covered by an upper slide (20) and a lower slide (21). An Independent claim is included for: (a) a method for determining a weight of free flowing material

Description

The invention relates to an apparatus and a method for determining the Bulk weight of free-flowing material.

It is often necessary, for. B. in the production of free-flowing material, in particular powdery material, from a continuous flow of bulk material at periodic intervals. Taking samples and determining the bulk weight and registering if necessary, etc. For this purpose, DIN standard 53468, edition 1960, "Determination of Bulk Density of molding compounds ".

The manual method of opening a sample shaft through a sample insert spoon, take the sample and to achieve a defined Volume of the bulk sample from the sampling spoon and Weighing the remaining sample is cumbersome and lengthy. The streak The process by hand is uncertain with regard to its exact repeatability the measurement result could be falsified.

It is therefore the task to create a possibility of the bulk weight of free-flowing goods in a safe and convenient way.

This object is achieved by an indicating weighing device which is equipped with a sampler that can be inserted through an opening into a conveyor shaft is combined, the sampler in its insertable section into the conveyor shaft in the conveying direction continuous and limited by side walls recess of Has defined volume for receiving the sample, this recess can be covered with an upper and a lower slide.

In this way it is possible to measure the bulk weight of conveyed, pourable Easy to monitor. The new device can be in un depending on the version Operate periodically and / or regularly. Samples can also be evaluated statistically, e.g. B. by forming the mean. It it is obvious that such a device for automatic work in  preferably periodic time intervals, for example for monitoring a Production, can be trained. It is also advantageous that the sample taken after determining their bulk weight is returned to the bulk material flow. In this way, the otherwise necessary disposal of the sample with their Danger of contamination. It is understood that the tolerance between the opening in the Conveyor shaft and the sampler is so narrow that even in its extended Condition the seal is guaranteed. Is particularly suitable in this Connection between the platform load cell PWSC3 from HOTTINGER BALDWIN MESSTECHNIK HBM Wägetechnik GmbH, D-64201 Darmstadt, as in the company brochure "Components for Weighing Technology", Edition 1998, F01-07.1 or w101.98-5.0 SD, on page 56.

A scraper is preferably assigned to at least the upper slide.

In this way it is prevented that sticking material on this slide Retracting the slide with is led out of the conveyor shaft and the Weighing falsified. It is understood that wipers are also suitable for the lower slide and / or provide in particular for the side walls of the insertable sampler to let.

A registration device is preferably assigned to the weighing device.

This ensures that the values determined, for example in the form of a Protocol, can be registered. Whether a running printout or a Storage by data processing is based on the type of registration given direction. Based on the determined bulk density, parameters can be determined influence the bulk weight, such as. B. auto the speed of a conveyor can be changed or adjusted mathematically.

Preferably, the new device also has an over or under Warning device responding to a tolerance range.  

Such an acoustic and / or optical warning device is particularly useful for Continuously periodically working devices an advantage, so that a permanent Presence of a supervisor is not required. Possibly. is the Warning device designed so that in extreme or malfunction, d. H. one too far Measurement that deviates from the target value switches off the conveyor or production system.

This is not a problem due to the installation of suitable electronics.

It is also advantageous to provide the sampler with an emptying device for emptying assign to the recess.

As a rule, such an emptying device should not be necessary. But if the bulk material tends to form bridges or to adhere, it is advantageous; for example in the form of a pneumatic blow-out device or Vibrating device.

The new method for determining the bulk density of a Free-flowing material conveying shaft is characterized in that a Sampler through an opening in a through a conveyor shaft Bulk material flow is introduced and an underside with a lower slide covered recess of a defined volume is filled with the sample that a the upper slide covers the recess filled with the sample and closes that the sampler is moved out of the conveyor shaft that the bulk weight it is determined by weighing that the sampler is again closed Recess is introduced into the conveyor shaft or bulk material flow that the lower slider retracted and the sample is emptied from the recess that now moved the sampler out of the delivery shaft into the basic position and the weighing device is set to "zero", then the sampler is reintroduced into the conveyor shaft that the lower slide the Recess closes and the upper slider to accommodate the next Sample is moved back, etc.

The advantages of this procedure are already related to the new one Device described.  

The advantages of preferably wiping off at least the upper slide, the Registration of the bulk weight of the sample of the bulk material and triggering an alarm when the tolerance range exceeds or falls below the limit values, and the forced emptying of the recess have already been described been. In addition to or by registering, the test result can also be done. evaluate statistically.

In the drawing, the new device is pure in one embodiment shown schematically in side view and explained in more detail below. It demonstrate:

Fig. 1 shows the apparatus with a slide recess covered by a sampler in position outside a conveying shaft,

Fig. 2 shows the apparatus with a slide recess covered by the sampler in position within the production well,

Fig. 3 is a plan view of the retractable into the delivery tray portion of a sampler with its recess,

Fig. 4 shows the device in position of the sampler within the conveyor shaft with the recess covered by the upper slide and retracted lower slide, and

Fig. 5 shows the device in position of the sampler within the conveyor shaft with the recess covered by the lower slide and retracted upper slide.

In FIGS. 1 to 5, the device comprises a sampler 1, which is arranged on a base plate 2 by means of a displacement device displaceable 3. Limit switches 4 and 5 ensure that the path of the sampler 1 is limited. The sampler 1 can be inserted through an opening 6 into a bulk material flow 8 guided through a conveyor shaft 7 . In addition, the sampler 1 is connected to a weighing device 10 via the pulse line 9 . This in turn is coupled via a pulse line 11 to a registration device 12 , which records the determined value of the bulk density on a printout report. In addition, the weighing device 10 is connected via a pulse line 13 to a warning device 14 , which responds optically and / or acoustically when the limit values of a predetermined tolerance range are exceeded or undershot and, in extreme or malfunction, switches off the production system (not shown). The sampler 1 has in its insertable into the conveyor shaft 7 section 15 for receiving a sample 16 a side walls 18 , 19 having recess 17 which can be covered by a displaceable upper slide 20 and a displaceable lower slide 21 , so that the recess 17 in covered State has a defined volume, which consequently corresponds to the volume of the sample 16 to be taken. Limit switches 23 , 24 serve to limit the travel of the upper slide 20 provided with a displacement drive 22 . A displacement drive 25 and limit switches 26 , 27 are assigned to the lower slide 21 . A rubber scraper 28 is provided in the shaft 7 for the upper slide 20 . The opening 6 is provided with an airlock as a sealing device 29 . The recess 17 has a purely schematically indicated emptying device 30 in the form of a blow-out nozzle.

Process example

The device according to the drawing is used. In the position shown in FIG. 1, a sample has already been weighed, so that the sampler 1 with the recess 17 covered on both sides can be moved through the opening 6 into the conveyor shaft 7 or into the bulk material flow 8 . The measured value is recorded by the registration device 12 in a printout report. With the recess 17 covered, the sampler 1 is moved into the conveyor shaft 7 or into the bulk material flow 8 by means of its displacement drive 3 until the limit switch 4 is reached . The lower slide 21 is retracted by means of its sliding drive 25 to the limit switch 27 and the sample 16 is blown out with the emptying device 30 . The recess 17 is then closed again from below by actuating the sliding drive 25 by moving the slide 21 inwards. The sampler 1 is then moved out of the conveying shaft 7 and out of the stream of bulk material 8 by means of a displacement drive 3 until reaching the limit switch. 5 In this basic position, the weighing device 10 is now set to "zero". Now the sampler 1 with the recess 17 covered from above is moved back into the conveyor shaft 7 or bulk material flow 8 by means of its displacement drive 3 until the limit switch 4 is reached . The upper slide 20 is now moved back to the limit switch 24 by means of its displacement drive 22 and releases the recess 17 . It now fills with the sample 16 and then the slide 20 covers the recess 17 again. Now the sampler 1 is moved out of the opening 6 of the conveyor shaft 7 to the limit switch 5 by means of its displacement device 3 and the weighing is carried out. The measured bulk weight is displayed by the weighing device 10 and recorded by the registration device 12 on a printout report. If a limit value of a predetermined tolerance range is exceeded, the warning device 12 switches on and emits an optical and an acoustic warning signal. In the event of an extreme or fault, ie if there is an unusually high deviation from the limit values, the warning device 14 switches off the system. After the measurement has taken place, the sampler 1, when the recess 17 is closed, retracts through the opening 6 into the conveyor shaft 7 . Now the lower slide 21 is moved back and the sample 16 is reintroduced into the delivery flow by means of the emptying device 30 . Subsequently, the recess 17 is closed from below with the slide 21 and the sampler 1 moves out of the conveyor shaft 7 to the limit switch 5 and the next determination of the bulk density can take place, etc. An air curtain of the sealing device 29 constantly ensures that the opening 6 seals is.

It is within the scope of the invention that the upper slide 20 can also be withdrawn first for sampling, only then to close the recess 17 with the slide 21 from below. If the recess 17 is filled with a new sample 16 , the recess 17 is also closed again by means of the upper slide 20 .

Reference list Fig. 1 to 5

1

Sampler

2nd

Base plate (for

1

)

3rd

Sliding device (for

1

)

4th

Limit switch (for

1

)

5

Limit switch (for

1

)

6

Opening (in

7

)

7

Production shaft (for

8th

)

8th

Bulk flow

9

Impulse line (from

1

to

10th

)

10th

Weighing device

11

Impulse line (from

10th

to

11

)

12th

Registration facility

13

Impulse line (from

10th

to

14

)

14

Warning device

15

Section (of

1

)

16

Sample (in

17th

)

17th

Recess (in

1

)

18th

Sidewall (from

17th

)

19th

Sidewall (from

17th

)

20th

upper slide (to

1

respectively.

17th

)

21

lower slider (to

1

respectively.

17th

)

22

Displacement drive (from

20th

)

23

Limit switch (too

20th

)

24th

Limit switch (too

20th

)

25th

Displacement drive (from

21

)

26

Limit switch (too

21

)

27

Limit switch (too

21

)

28

Scraper (for

21

)

29

Sealing device (from

6

)

30th

Emptying device (from

17th

)

Claims (10)

1. Device for determining the bulk weight of free-flowing material, characterized by an indicating weighing device ( 10 ), which is combined with a sampler ( 1 ) that can be inserted through an opening ( 6 ) into a conveyor shaft ( 7 ), the sampler ( 1 ) in its section ( 15 ) which can be inserted into the conveyor shaft ( 7 ) has a recess ( 17 ) of defined volume for receiving the sample ( 16 ) which is continuous in the conveying direction and delimited by side walls ( 18 , 19 ), this recess ( 17 ) having a upper slide ( 20 ) and a lower slide ( 21 ) can be covered. 2. Device according to claim 1, characterized in that at least the upper slide ( 20 ) is assigned a wiper ( 28 ). 3. Apparatus according to claim 1 or 2, characterized in that the weighing device ( 10 ) is assigned a registration device ( 12 ). 4. Device according to one of claims 1, 2 or 3, marked by an additional warning device ( 14 ) which responds when the limit values of a tolerance spectrum are exceeded or undershot. 5. Device according to one of claims 1 to 4, characterized in that the sampler ( 1 ) is associated with an emptying device ( 30 ) for emptying the recess ( 17 ). 6. A method for determining the bulk weight of free-flowing material guided through a conveyor shaft, characterized in that a sampler ( 1 ) is introduced through an opening ( 6 ) into a bulk material flow ( 8 ) guided through a conveyor shaft ( 7 ), and one on the underside a lower slide ( 21 ) covered recess ( 17 ) of a defined volume is filled with a sample ( 16 ) such that an upper slide ( 20 ) covers the recess ( 17 ) filled with the sample ( 16 ) so that the sampler ( 1 ) is moved out of the conveyor shaft ( 7 ), that the bulk weight is determined by weighing, that the sampler ( 1 ) is again inserted with the recess ( 17 ) closed into the conveyor shaft ( 7 ) or bulk material flow ( 8 ), that the lower slide ( 21 ) moved back and the sample ( 16 ) is emptied from the recess ( 17 ), so that the sampler ( 1 ) from the conveyor shaft ( 7 ) into the bottom position driven and the weighing device ( 10 ) is set to "zero", that the sampler ( 1 ) is then reinserted into the conveyor shaft ( 7 ), that the lower slide ( 21 ) closes the recess ( 17 ) again and the upper slide ( 20 ) to take the next sample ( 16 ) back, etc. 7. The method according to claim 6, characterized in that at least the upper slide ( 20 ) is stripped when driving back. 8. The method according to claim 6 or 7, characterized in that the determined value of the bulk density of the sample ( 16 ) is registered. 9. The method according to any one of claims 6, 7 or 8, characterized in that when a tolerance range is exceeded or fallen below Alarm is triggered. 10. The method according to any one of claims 6 to 9, characterized in that the emptying of the recess ( 17 ) is forcibly carried out.