US2495944A - Apparatus for sampling material, such as coal - Google Patents
Apparatus for sampling material, such as coal Download PDFInfo
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- US2495944A US2495944A US772650A US77265047A US2495944A US 2495944 A US2495944 A US 2495944A US 772650 A US772650 A US 772650A US 77265047 A US77265047 A US 77265047A US 2495944 A US2495944 A US 2495944A
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- sample
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- coal
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- collector
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/10—Devices for withdrawing samples in the liquid or fluent state
- G01N1/20—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
Definitions
- This invention relates, generally, to material sampling apparatus and it has particular relation to apparatus for sampling a material such as coal.
- coal is put in the generation of electricity in large central stations. It is desirable in the operation of such a generating station to check constantly its operating elliciency. This is done, in part, by taking small samples of coal that is consumed in the operation of the station and analyzing the same.
- Such apparatus should be so designed and constructed that the individual sample size and the number of samples per unit of time can be varied.
- each sample should be truly representative of all of the material passing a given point at the time that the sample is taken so that there will be no error as a result of stratication. Since the apparatus necessarily must operate in dust ladened atmosphere, it should have a minimum of moving parts. The portion of the sampler which is subjected to the abrasive action of the material being sampled should be readily detachable from the remaining mechanism so that it can be replaced quickly and economically when it becomes worn.
- samplers for this purpose have been made up of complicated mechanisms employing i motors, gear reducing units, various forms of moving scoops, screw conveyors and reversible jack shafts. Since this apparatus is required to operate in a dust laden atmosphere it requires constant maintenance to keep the same in operation.
- Figure 1 illustrates diagrammatically a conveyor system for material such as coal in which our material sampling apparatus is incorporated;
- Figures 2 and 3 illustrate, diagrammatically, various positions of the sample collector that is employed for obtaining the individual samples and illustrating its position as it swings with a pendulous motion through the falling stream of material;
- Figure 4 is a perspective View of our material sampling apparatus illustrating how it can be used in conjunction with a falling stream of material such as coal;
- Figure 5 is a longitudinal sectional view of the material sampling apparatus illustrated 1n Figure 4.
- the present invention has been referred to hereinbefore as being applicable for sampling material such as coal. While it is particularly 'applicable for use in sampling coal from a falling stream thereof, it will be understood that it can be used for sampling other material in like circumstances if desired.
- the reference character Ill designates an incoming coal conveyor which is trained over a pulley I I, magnetic or otherwise, that rotates in a clockwise direction as indicated by the arrow I2.
- the coal on the conveyor Ill is indicated at I3 and it is moved in the direction indicated by the Varrow AL4 until lit falls in a stream as indicated at i5.
- the stream I5 is generally rectangular in cross section.
- the fiap'gate Il when Vvmoved to the alternate Rosinen, directs .the .Stream l5 of wel into a that@ 23 whence .it is .Carr-led by ,a Conveyor 2.4 t .other Station bunkers as te desired.
- the 4conveyor 24 is in vthe fonrn of a bel-t which is trained over a pulley 25 that rotates in a .clochwise direction as indicated by the arrow 2t.
- the conveyor system which has been described is entirely conventional and forms no part of the present invention. Rather, the invention ⁇ resides in the construction and operation of a coal sampler which is indicated, generally, at ,do in Figure i,
- the coal sampler 3B includes a sample collector 3I which, as will appear hereinafter, is in the form of a trough which is mounted for rocking movement about its longitudinal axis.
- "I he sample collector 3l may be formed of a length of pipe which has'a longitudinally extending quarter section removed.
- the sample collector 3I may be formed of a pipe having'an ⁇ internal diameter of four inches and a length of nity three inches.
- these eifcth-eidie1ensi0ns Sei .forth herein' may be varied as circumstances may dictate.
- '1311e- Semrle collector il has an arcuate opening .3.2. which; as' indicated, iS Provided, by removing a' quarter section of the pipe employed for making the same. It is through the arcuate opening 32 that the desired sample of coal from the stream I falls into the sample collector 3I and likewise through this opening that it is deposited in a suitable Crusher, to be described, for further processing.
- the sample collector 3I is bodily mounted by a frame which is indicated at 33 and, as will appear hereinafter, comprises a generally rectangular construction which is rockably mounted at 3 4 so that the sample collector 3l can be swung, as Shawn in Figure 1, trom one side of the Stream I5 to the other and back again in order to obtain the sample which is truly representative of th?. @Qui in the stream l5.
- the length of ⁇ the frame 3,3 may be such that the, sample collector Si is swung about the center 34 at the end of a ve foot radius.
- any suitable means can be employed for. rocking the frame 33 and at the same time for rocking the sample collector 3l about its longitudinal axis.
- a pneumatic cylinder mechanism 35 is illustrated which is pivotally mounted at 3E and may be rconnected by flexible nose 31 to an air supplyrand timer control mechanism which is indicated at 38.
- the timer and control mechanism 38 may be adjusted to swing the frame w33 of the coal sampler periodically.
- a preferred arrangement is to operate the coal sampler 3D once each minute at a speed such that the sampling operation is performed in about six seconds.
- the mechanism 38 can be adjusted so that the interval between operations can "be increased or decreasedand the speed ci operation of the coal sampler in each cycle can be increased or reduced.
- the sample oi coal is obtained, as indicated in Figure 2, ⁇ by rock-ing :the frame 33 in a clockwise direction as indicated b-y the arrow 3S from the right hand or normal position. In this position the arcuate opening 32 ⁇ faces downwardly; the sample in the sample collector 3l having been dumped therefrom. previously.
- the sample .collector 3l simultaneously is rocked in a clock- ,wise direction as indicated by the arr-ow is about its longitudinal axis by means which will be described hereinaiter.
- the arcuate opening 32 gradually Shifts from the complete upside clown position to a right side up position within the stream I5.
- FIG. 3 the return stroke of the sample collector 3l and frame 33 is shown.
- the frame 33 is rocked, in a counter clockwise direction as indicated by the arrow 2 and simultaneously the sample collector 3l is rocked in a counter clockwise direction, indicated by the arrow 43.
- the sample collector 3l again traverses the falling stream l5 of coal and takes a sample across its entire width from the rear portion thereof.
- the arcuate opening 32 is rocked'V so that a portion of the sample as indicated at di is returned to the main stream l5.
- the coal which remains in the sample collector 3l is representative of the coal across the entire width and depth of the stream I5 while the sampling operation was being performed.
- Av substantial portion of the sample thus crushed is returned through a chute 'i9 into the chute IB.
- a flap gate 50 which operates conjointly with the ap gate I1, controls the disposition of the surplus portion of the sample from the crusher 48.
- the flap gate 5t is operated to direct the surplus portion of the samples into a chute 5
- the desired portion of the sample on which an analysis is to be made is directed by a chute 52 into a sample bin 53 where the sample 54 is collected in a suitable container.
- the operation is such that a composite sample weighing about 40 pounds is obtained for each eight hour shift of the station operation.
- through the stream I5 is to ymount the same on the frame 33, as described, and rock the latter about the axis 34 which is parallel to the stream l5 and spaced above the same.
- the purpose of this is to have a minimum of the operating mechanism below the uppermost level of the stream l5.
- other means can be employed for moving the sample collector 3
- may be moved bodily With a translatory movement through the stream I5 in a plane either at right angles or inclined thereto. As indicated, however, it is preferred to swing it through the stream l5 for the reasons stated. Whether the sample collector 3
- be stopped with a jarring movement so as to dislodge the material therein which should at that time be emptied therefrom.
- rl ⁇ his is particularly important when a sample is being taken of relatively wet coal. Under these conditions the coal tends to pack and, if not dislodged, would remain in the sample collector 3
- a stop 55 is provided against which the sample collector 3
- the stops 55 may be in the form of channels which are mounted suitably from the building construction housing the material handling and sampling apparatus.
- Fi-gures 4 and 5 of the drawings are illustrated the preferred details of construction of the coal sampling apparatus Sil.
- the sample collector 3l has circular end plates EB secured, as by welding, to its ends and that these plates are held by bolts 59 to plates 6B.
- This construction permits the sample collector 3
- the sample collector 3l is of sufficient length so that its ends extend beyond the sides of the stream 55 of coal in order to obtain a sample thereof across its entire width.
- the plates Ell are secured, as by welding, to short shafts 8i and t2 which permit the sample collector 3
- the shafts El and b2 are rockably mounted in suitable bearings S3 that are carried at the outer ends of arms E54 which make up the frame 33 previously referred to.
- the arms 64 are tubular members having the ends ilattened as shown for mounting purposes.
- 55 are secured to brackets 65 which may be keyed to a main shaft 56 the longitudinal axis of which corresponds to the center 34 previously referred to and shown in Figure 1.
- the main shaft t5 is rockably mounted near its ends by bearings 6l which may be carried by suitable supports 88 and 69 attached to the building construction as may be desired.
- is rocked about its longitudinal axis in taking the sample as it moves transversely in the stream I5 of coal or other material to be sampled. It is desired that this rocking movement of the sample collector 3i be accomplished by the pneumatic cylinder mechanism 35 without requiring an additional power generating mechanism or a complicated system of gearing, levers, etc.
- a plate 'l0 may be secured, as by welding, to the right hand side of the support E8 and it may have secured thereto a narrow drum 'H which has a radially extending guide ilange i2.
- A. flexible tension member in the form of a wire rope T3 is trained over the narrow drum ll and is securely fastened thereto.
- is mounted around the shaft Et, it is stationary with respect to the same.
- the flexible tension member 73 is connected by turnbuckles l! to the ends of another flexible tension member 'l5 which likewise is in the form of a Wire rope and preferably is wrapped two and one half times around a. pulley I6 which is fast on shaft 6
- the ilexible tension member l5 is fastened to the pulley lt.
- the construction may be such that the sample collector 3
- the main shaft S5 has a sleeve 'l1 secured thereon by a key.
- the sleeve 'Il' has a crank arm 'i8 extending therefrom which may be connected by a pin 'I9 to a clevis 86 at the end of a connecting rod 8
- Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough rockably mounted about its longitudinal axis, a generally rectangular frame for supporting said sample collector and rockably mounted along one side to swing said sample collector in a pendulous fashion transversely through said stream, and means for rocking said frame and simultaneously therewith said sample collector about its longitudinal axis to obtain a sample across the full width of said stream.
- Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough .rockably mounted about its longitudinal aXis, a generally rectangular frame for supporting said sample collector and rockably mounted along one side to swing said sample collector in a pendulous fashion transversely through said stream, means for rocking said frame, and means operatively interconnecting said frame and said sample collector to rock the latter relative to the former to taire the sample as the sarn ple collector Vis swung through said stream.
- Apparatus for obtaining a sample of material such as coal from a falling stream thereof having a generally rectangular cross section comprising, in combination, a shaft rockably mounted parallel to a pulley axis, a pair of arms extending radially from and movable with said shaft past opposite sides of said stream, a sample collector in the form of a trough rockably mounted about its longitudinal axis at the outer ends of said arms and bodily movable transversely of said stream when said arms are rocked, linkage means operatively interconnecting said shaft and said sample collector to cause the latter to roel;
- linkage means comprises a stationary drum surrounding the shaft, a pulley rockable with the sample collector, and a exible tension member is trained over and fastened to said drum and said pulley.
- exible' tension member comprises a wire rope which is crossed between the drum and pulley to rock the sample collector in the same direction that the shaft is rocked.
- Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough rockably mounted about its longitudinal axis, means for moving said sample collector transversely of said stream and simultaneously rocking the same about said axis from an upside down position on one side of the stream to a right side up position within the stream, then to a partial upside down position on the other side of said stream and then back to its initial upside down position, and stop means for arresting the motion of the sample collector with a shock at the ends of its movement through the stream to dislodge particles of material that otherwise would remain therein.
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Description
Wm my W5@ W. H. PLETTA ETAL., 294959944' APPARATUS FOR SAMPLING MATERIAL, SUCH AS COAL Filed Sept. 8, 1947 5 Sheets-Sheet l Jm, @5U W. H. PLETTA ET AL 2,495,944
APPARATUS FOR SAMPLING MATERIAL, SUCH As COAL Filed Sept. 8, 194'? 3 Sheets-Sheet 2' @y @Ww/M,
17mm EL W5@ W. H. PLETTA ET AL 2,495,944
APPARATUS FOR SAMPLING MATERIAL, SUCH As COAL Filed Sep. 8, 1947 .'5 Sheets-Sheet 3 Patented Jan.. 31, 1950 HTED STATS ATEiiT OFFICE APPARATUS FUR SAMPLING MATERIAL, SUCH AS COAL William H. Pletta, Forest Park, and Robert E. Freston, Oak Park, Ill.
This invention relates, generally, to material sampling apparatus and it has particular relation to apparatus for sampling a material such as coal.
One use to which coal is put is in the generation of electricity in large central stations. It is desirable in the operation of such a generating station to check constantly its operating elliciency. This is done, in part, by taking small samples of coal that is consumed in the operation of the station and analyzing the same.
For this purpose a large number of small prtions of the coal are obtained and combined into a single sample for test purposes. In order that the eiliciency calculations may be accurate it is essential that the ultimate sample be representative of all the coal that is delivered during a given period, such as an eight hour shift. At the same time the ultimate sample must be small enough to be handled conveniently in the laboratory where the analysis is made. The present invention has to do particularly with an approved apparatus for obtaining the ultimate sample.
Such apparatus should be so designed and constructed that the individual sample size and the number of samples per unit of time can be varied. In addition each sample should be truly representative of all of the material passing a given point at the time that the sample is taken so that there will be no error as a result of stratication. Since the apparatus necessarily must operate in dust ladened atmosphere, it should have a minimum of moving parts. The portion of the sampler which is subjected to the abrasive action of the material being sampled should be readily detachable from the remaining mechanism so that it can be replaced quickly and economically when it becomes worn.
In the past samplers for this purpose have been made up of complicated mechanisms employing i motors, gear reducing units, various forms of moving scoops, screw conveyors and reversible jack shafts. Since this apparatus is required to operate in a dust laden atmosphere it requires constant maintenance to keep the same in operation.
Such apparatus has been unsatisfactory because it has required a great deal of time and eifort in order to adjust the same so that the ultimate sample which is obtained is truly representative of the coal that has been consumed by the stae tion.
Accordingly, among the objects of our invention are to provide an apparatus for sampling material such as coal which shall be simple and efficient in operation and which may be readily r and economically manufactured and installed.
Other objects are: To provide for sampling a falling stream of material such as coal in such manner that a truly representative sample is obtained: to obtain a sample of the material in ther stream along the entire width thereof beginning at one side, to return a portion of this sample to the stream, and to obtain an additional sample along the entire Width of the stream beginning near the other side thereof so that the composite sample which is obtained is representative of the entire width and thickness of the stream along a relative short length thereof; to obtain a sample by swinging a sample collector in the shape of a trough with a pendulous movement through the stream While the sample collector is rocked simultaneously about its longitudinal axis; to arrest the motion of the sample collector atthe ends of the forward and reverse movements thereof with a jar so as to dislodge the material therein; and to provide a construction wherein the sample collector is the only part of the sampler mechanism which is subjected to the abrasive action of the material with the sample collector being arranged to be replaced readily when it becomes worn.
Other objects of our invention will, in part, be obvious and in part appear hereinafter.
Our invention is disclosed in the embodiment thereof as shown in the accompanying drawings and it comprises the features of construction, combination of elements, arrangement of parts and method of operation which will be exemplified in the construction hereinafter set forth and the scope of the application of which will be indicated in the appended claims.
For a more complete understanding of the nature and scope of our invention reference may be had to the following detailed description, taken together with the accompanying drawings, in which:
Figure 1 illustrates diagrammatically a conveyor system for material such as coal in which our material sampling apparatus is incorporated;
Figures 2 and 3 illustrate, diagrammatically, various positions of the sample collector that is employed for obtaining the individual samples and illustrating its position as it swings with a pendulous motion through the falling stream of material;
Figure 4 is a perspective View of our material sampling apparatus illustrating how it can be used in conjunction with a falling stream of material such as coal; and
Figure 5 is a longitudinal sectional view of the material sampling apparatus illustrated 1n Figure 4.
The present invention has been referred to hereinbefore as being applicable for sampling material such as coal. While it is particularly 'applicable for use in sampling coal from a falling stream thereof, it will be understood that it can be used for sampling other material in like circumstances if desired.
Referring now particularly to Figure 1 of the drawings, it will be observed that the reference character Ill designates an incoming coal conveyor which is trained over a pulley I I, magnetic or otherwise, that rotates in a clockwise direction as indicated by the arrow I2. The coal on the conveyor Ill is indicated at I3 and it is moved in the direction indicated by the Varrow AL4 until lit falls in a stream as indicated at i5. The stream I5 is generally rectangular in cross section.
It is desirable to obtain a sample of the coal in the stream I5 which is representative of the coal not only across the entire widthoi the stream I5 at right angles to the plane oi the paper but also is representative of the coal for the full depth of the stream I5 from one side to the other. A vmethod and apparatus will lbe described hereinafter for obtaining such a representative sample.
AThe ,Stream i5 Y.falls .into a hopper :i6 Where e .ap gate Il directs it into a chute i3 that opens onto an outgoing conveyor I9 in the form of a belt that is trained over Aa pulley 2li which rotates in a counter clockwise direction as indicated by the arrow 2L The conveyor .Carries the coal as indicated bythe arrow 22 to certain ofthe station bunkers or to other repositories for the same, as will be understood readily,
The fiap'gate Il, when Vvmoved to the alternate Rosinen, directs .the .Stream l5 of wel into a that@ 23 whence .it is .Carr-led by ,a Conveyor 2.4 t .other Station bunkers as te desired. The 4conveyor 24 is in vthe fonrn of a bel-t which is trained over a pulley 25 that rotates in a .clochwise direction as indicated by the arrow 2t.
The conveyor system which has been described is entirely conventional and forms no part of the present invention. Rather, the invention `resides in the construction and operation of a coal sampler which is indicated, generally, at ,do in Figure i, The coal sampler 3B includes a sample collector 3I which, as will appear hereinafter, is in the form of a trough which is mounted for rocking movement about its longitudinal axis. "I he sample collector 3l may be formed of a length of pipe which has'a longitudinally extending quarter section removed. For illustrative purposes it is pointed out that the sample collector 3I may be formed of a pipe having'an `internal diameter of four inches and a length of nity three inches. However, it will be understood that these eifcth-eidie1ensi0ns Sei .forth herein' may be varied as circumstances may dictate.
'1311e- Semrle collector il has an arcuate opening .3.2. which; as' indicated, iS Provided, by removing a' quarter section of the pipe employed for making the same. It is through the arcuate opening 32 that the desired sample of coal from the stream I falls into the sample collector 3I and likewise through this opening that it is deposited in a suitable Crusher, to be described, for further processing.
The sample collector 3I is bodily mounted by a frame which is indicated at 33 and, as will appear hereinafter, comprises a generally rectangular construction which is rockably mounted at 3 4 so that the sample collector 3l can be swung, as Shawn in Figure 1, trom one side of the Stream I5 to the other and back again in order to obtain the sample which is truly representative of th?. @Qui in the stream l5. The length of` the frame 3,3 may be such that the, sample collector Si is swung about the center 34 at the end of a ve foot radius.
Any suitable means can be employed for. rocking the frame 33 and at the same time for rocking the sample collector 3l about its longitudinal axis. For illustrative purposes a pneumatic cylinder mechanism 35 is illustrated which is pivotally mounted at 3E and may be rconnected by flexible nose 31 to an air supplyrand timer control mechanism which is indicated at 38. It will be understood that other means than the pneumatic cylinder `mechanism can be used to move the sample Acollector 3l as described. The timer and control mechanism 38 may be adjusted to swing the frame w33 of the coal sampler periodically. A preferred arrangement is to operate the coal sampler 3D once each minute at a speed such that the sampling operation is performed in about six seconds. Obviously the mechanism 38 can be adjusted so that the interval between operations can "be increased or decreasedand the speed ci operation of the coal sampler in each cycle can be increased or reduced.
The sample oi coal is obtained, as indicated in Figure 2, `by rock-ing :the frame 33 in a clockwise direction as indicated b-y the arrow 3S from the right hand or normal position. In this position the arcuate opening 32 `faces downwardly; the sample in the sample collector 3l having been dumped therefrom. previously. As the frame 33 is rocked in, a clockwise direction, the sample .collector 3l simultaneously is rocked in a clock- ,wise direction as indicated by the arr-ow is about its longitudinal axis by means which will be described hereinaiter. As the sample collector SI rotates, the arcuate opening 32 gradually Shifts from the complete upside clown position to a right side up position within the stream I5. It is filled with coal shortly after it enters the middle ci stream I5 land remains so until it passes 'oe-- yond the rear of the stream as illustrated where the arcuate opening 32 occupies a vertical position and some o the coal, as indicated at il, is returned to .the main stream I5. The reason for returning a portion of the sample already obtained is to provide a space for obtaining a sam-- ple from the rear part of the stream i5 so that the final sample, which remains in the sample collector 3l, will be truly representative of the coal across the entire cross section of the stream I5 at the time that the sample is taken.
In Figure 3 the return stroke of the sample collector 3l and frame 33 is shown. The frame 33 is rocked, in a counter clockwise direction as indicated by the arrow 2 and simultaneously the sample collector 3l is rocked in a counter clockwise direction, indicated by the arrow 43. The sample collector 3l again traverses the falling stream l5 of coal and takes a sample across its entire width from the rear portion thereof. When the sample collector 3| is moved out of the stream I5 toward the initial or normal position, the arcuate opening 32 is rocked'V so that a portion of the sample as indicated at di is returned to the main stream l5. However, the coal which remains in the sample collector 3l is representative of the coal across the entire width and depth of the stream I5 while the sampling operation was being performed. When the sample collector 3i is returned to the initial or normal position as shown in Figure 3, the contents thereof are dumped as indicated at :i5 to the right hand side of a wear plate et, Figure l, into a hopper @l leading into a sample Crusher 43 where the sample isV crushed to the desired iineness.
Av substantial portion of the sample thus crushed is returned through a chute 'i9 into the chute IB. A flap gate 50, which operates conjointly with the ap gate I1, controls the disposition of the surplus portion of the sample from the crusher 48. When the stream l5 ows into the chute 23, the flap gate 5t is operated to direct the surplus portion of the samples into a chute 5| which opens into the chute 23.
The desired portion of the sample on which an analysis is to be made is directed by a chute 52 into a sample bin 53 where the sample 54 is collected in a suitable container. The operation is such that a composite sample weighing about 40 pounds is obtained for each eight hour shift of the station operation. By taking the sample in the manner described, it has been found that it is truly representative of the coal that has been consumed during the corresponding period. This amount, while small, still makes it possible to run the necessary analysis quickly and en'iciently.
The preferred manner of moving the sample collector 3| through the stream I5 is to ymount the same on the frame 33, as described, and rock the latter about the axis 34 which is parallel to the stream l5 and spaced above the same. The purpose of this is to have a minimum of the operating mechanism below the uppermost level of the stream l5. However, other means can be employed for moving the sample collector 3| transversely of the stream l5. For example, the sample collector 3| may be moved bodily With a translatory movement through the stream I5 in a plane either at right angles or inclined thereto. As indicated, however, it is preferred to swing it through the stream l5 for the reasons stated. Whether the sample collector 3| is moved with a pendulous movement or with a translatory movement, it is rocked about its longitudinal axis in order to obtain the truly representative sample as described.
At each end of the forward and reverse strokes it is desired that the sample collector 3| be stopped with a jarring movement so as to dislodge the material therein which should at that time be emptied therefrom. rl`his is particularly important when a sample is being taken of relatively wet coal. Under these conditions the coal tends to pack and, if not dislodged, would remain in the sample collector 3|, thus preventing the taking of the desired sample. For this purpose a stop 55 is provided against which the sample collector 3| is caused to strike at each end of its movement. The stops 55 may be in the form of channels which are mounted suitably from the building construction housing the material handling and sampling apparatus.
In Fi-gures 4 and 5 of the drawings are illustrated the preferred details of construction of the coal sampling apparatus Sil. It will be observed that the sample collector 3l has circular end plates EB secured, as by welding, to its ends and that these plates are held by bolts 59 to plates 6B. This construction permits the sample collector 3| to be removed readily from the frame 33 and to be replaced if necessary when it becomes worn. The sample collector 3l is of sufficient length so that its ends extend beyond the sides of the stream 55 of coal in order to obtain a sample thereof across its entire width.
The plates Ell are secured, as by welding, to short shafts 8i and t2 which permit the sample collector 3| be accomplished by the pneumatic as described. The shafts El and b2 are rockably mounted in suitable bearings S3 that are carried at the outer ends of arms E54 which make up the frame 33 previously referred to. As shown, the arms 64 are tubular members having the ends ilattened as shown for mounting purposes. At their upper ends the arms |55 are secured to brackets 65 which may be keyed to a main shaft 56 the longitudinal axis of which corresponds to the center 34 previously referred to and shown in Figure 1.
The main shaft t5 is rockably mounted near its ends by bearings 6l which may be carried by suitable supports 88 and 69 attached to the building construction as may be desired.
It will be recalled that the sample collector 3| is rocked about its longitudinal axis in taking the sample as it moves transversely in the stream I5 of coal or other material to be sampled. It is desired that this rocking movement of the sample collector 3i be accomplished by the pneumatic cylinder mechanism 35 without requiring an additional power generating mechanism or a complicated system of gearing, levers, etc. With this in mind a plate 'l0 may be secured, as by welding, to the right hand side of the support E8 and it may have secured thereto a narrow drum 'H which has a radially extending guide ilange i2. A. flexible tension member in the form of a wire rope T3 is trained over the narrow drum ll and is securely fastened thereto. V/'hile the drum '1| is mounted around the shaft Et, it is stationary with respect to the same. The flexible tension member 73 is connected by turnbuckles l!! to the ends of another flexible tension member 'l5 which likewise is in the form of a Wire rope and preferably is wrapped two and one half times around a. pulley I6 which is fast on shaft 6|. The ilexible tension member l5 is fastened to the pulley lt.
When the frame 33 is rocked, as described hereinbefore, in a clockwise direction, the sample collector 3l is likewise rocked in this direction since the ends of the exible tension member 'l5 are crossed as illustrated in Figure 4. By adjusting the turnbuckles 'I4 it is possible to adjust the position of the arcuate opening 32 as may be desired and thus govern the individual sample size. The extent of rocking movement of' the sample collector 3| can be varied by varying the diameter of the narrow drum 1| and the diameter of the pulley "It as will be understood readily. It will be understood that other means such :as a cam and track arrangement can be used to rock the sample collector 3|. The construction may be such that the sample collector 3| rocks slowly through a given period of its cycle, rapidly through another period and, if desired, it can be stopped momentarily at a point other than the end points, Provision can be made at each end of the stroke to discharge the sample collector 3|.
As illustrated in Figures 4 and 5 the main shaft S5 has a sleeve 'l1 secured thereon by a key. The sleeve 'Il' has a crank arm 'i8 extending therefrom which may be connected by a pin 'I9 to a clevis 86 at the end of a connecting rod 8| which extends from the pneumatic cylinder mechanism 35 and is moved in a forward and reverse direction as described hereinbefore.
Since further changes can be made in the foregoing construction and different embodiments of the invention can be made without departing from the spirit and scope thereof, it is intended that all matters shown in the accompanying drawings and described hereinbefore shall be interrupted as illustrative and not in a limiting sense.
We claim as our invention:
1. Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough rockably mounted about its longitudinal axis, a generally rectangular frame for supporting said sample collector and rockably mounted along one side to swing said sample collector in a pendulous fashion transversely through said stream, and means for rocking said frame and simultaneously therewith said sample collector about its longitudinal axis to obtain a sample across the full width of said stream.
l2. Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough .rockably mounted about its longitudinal aXis, a generally rectangular frame for supporting said sample collector and rockably mounted along one side to swing said sample collector in a pendulous fashion transversely through said stream, means for rocking said frame, and means operatively interconnecting said frame and said sample collector to rock the latter relative to the former to taire the sample as the sarn ple collector Vis swung through said stream.
3. Apparatus for obtaining a sample of material such as coal from a falling stream thereof having a generally rectangular cross section comprising, in combination, a shaft rockably mounted parallel to a pulley axis, a pair of arms extending radially from and movable with said shaft past opposite sides of said stream, a sample collector in the form of a trough rockably mounted about its longitudinal axis at the outer ends of said arms and bodily movable transversely of said stream when said arms are rocked, linkage means operatively interconnecting said shaft and said sample collector to cause the latter to roel;
about its longitudinal axis to obtain a sample across the full width of said stream when said shaft is rocked, and means for rocking said shaft periodically.
4. The invention, as set forth in claim 3, wherein the linkage means comprises a stationary drum surrounding the shaft, a pulley rockable with the sample collector, and a exible tension member is trained over and fastened to said drum and said pulley.
5. The invention, as set forth in claim 4, wherein the exible' tension member comprises a wire rope which is crossed between the drum and pulley to rock the sample collector in the same direction that the shaft is rocked.
6. Apparatus for obtaining a sample of material such as coal from a stream thereof comprising, in combination, a sample collector in the form of a trough rockably mounted about its longitudinal axis, means for moving said sample collector transversely of said stream and simultaneously rocking the same about said axis from an upside down position on one side of the stream to a right side up position within the stream, then to a partial upside down position on the other side of said stream and then back to its initial upside down position, and stop means for arresting the motion of the sample collector with a shock at the ends of its movement through the stream to dislodge particles of material that otherwise would remain therein.
7. rl'he invention, as set forth in claim 3, wherein a short shaft is journaled at the outer end of each of the arms, a plate is secured to the inner end of each shaft, the sample collector has a plate at each end, and means are provided to detachably interconnect the juxtaposed plates whereby the sample collector can be replaced without requiring that the remaining part of the apparatus be dismantled.
WILLIAIVI H. PLETTA. ROBERT B. PRESTON.
REFERENCES CITEE The following references are of record in the 'file of this patent:
UNITED STATES PATENTS Number Name Date 384,420 Bradford June 12, 1838 1,063,494 Bardill June 3, 1913 1,088,638 Urquhart Feb. 24, 1914 1,890,199 Thorsten Dec. 6, 1932 2,352,204 Jordan June 27, 1944
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US772650A US2495944A (en) | 1947-09-08 | 1947-09-08 | Apparatus for sampling material, such as coal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US772650A US2495944A (en) | 1947-09-08 | 1947-09-08 | Apparatus for sampling material, such as coal |
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US2495944A true US2495944A (en) | 1950-01-31 |
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US772650A Expired - Lifetime US2495944A (en) | 1947-09-08 | 1947-09-08 | Apparatus for sampling material, such as coal |
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Cited By (20)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2650498A (en) * | 1951-08-13 | 1953-09-01 | Spreckels Sugar Company | Sampling machine |
US2654249A (en) * | 1949-10-12 | 1953-10-06 | Directie Staatsmijnen Nl | Sampling apparatus |
US2683373A (en) * | 1952-08-13 | 1954-07-13 | Us Agriculture | Grain sampler |
US2727390A (en) * | 1951-12-12 | 1955-12-20 | Kaiser Aluminium Chem Corp | Sampler |
US2738679A (en) * | 1952-07-18 | 1956-03-20 | Walter T Senkowski | Solids sampling apparatus |
US2900115A (en) * | 1957-05-24 | 1959-08-18 | Worthington Corp | Liquid measuring device |
DE1077461B (en) * | 1956-08-25 | 1960-03-10 | Ind G M B H | Device for taking samples from a freely falling bulk material flow |
US2977800A (en) * | 1956-04-14 | 1961-04-04 | Birmingham Small Arms Co Ltd | Means for sampling bulk material |
DE1119233B (en) * | 1960-06-21 | 1961-12-14 | Maschf Augsburg Nuernberg Ag | Device for taking samples from a falling stream of bulk material |
DE1150826B (en) * | 1958-06-16 | 1963-06-27 | Steeler Maschinenfabrik Franz | Device for taking samples from a bulk material flow, such as coke, coal and ore |
US3128629A (en) * | 1961-01-10 | 1964-04-14 | Int Minerals & Chem Corp | Material sampling apparatus |
US3252328A (en) * | 1963-11-27 | 1966-05-24 | Galigher Company | Multiple stage sampler |
DE1266999B (en) * | 1959-07-21 | 1968-04-25 | Boliden Ab | Device for taking samples from a stream of freely falling particles |
US3457789A (en) * | 1966-12-29 | 1969-07-29 | Hewitt Robins Inc | Arcuate path diverter with dust closure thereon |
US3541862A (en) * | 1967-12-28 | 1970-11-24 | Birmingham Small Arms Co Ltd | Means for sampling bulk materials |
US4156507A (en) * | 1976-11-05 | 1979-05-29 | Glowne Biuro Studiow I Projektow Przerobki Wegla Separator | Apparatus for removing samples of stream of granular material and for preparing analytical samples therefrom |
US4326425A (en) * | 1980-10-08 | 1982-04-27 | Sverdrup & Parcel And Associates, Inc. | Drive control arrangement for swing arm material sampler |
US4641540A (en) * | 1985-05-01 | 1987-02-10 | Ellis Jack J | Bulk material sampling apparatus |
US5385058A (en) * | 1992-09-08 | 1995-01-31 | General Signal Corporation | Method and apparatus for sampling particulate material falling from a belt conveyor |
US5413004A (en) * | 1993-07-23 | 1995-05-09 | Johnson Industries, Inc. | Method and apparatus for sampling coal |
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US1088638A (en) * | 1913-05-14 | 1914-02-24 | Charles E Knox | Ore-sampler. |
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Cited By (21)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2654249A (en) * | 1949-10-12 | 1953-10-06 | Directie Staatsmijnen Nl | Sampling apparatus |
US2650498A (en) * | 1951-08-13 | 1953-09-01 | Spreckels Sugar Company | Sampling machine |
US2727390A (en) * | 1951-12-12 | 1955-12-20 | Kaiser Aluminium Chem Corp | Sampler |
US2738679A (en) * | 1952-07-18 | 1956-03-20 | Walter T Senkowski | Solids sampling apparatus |
US2683373A (en) * | 1952-08-13 | 1954-07-13 | Us Agriculture | Grain sampler |
DE1165906B (en) * | 1956-04-14 | 1964-03-19 | Birmingham Small Arms Co Ltd | Device for taking material samples from bulk goods |
US2977800A (en) * | 1956-04-14 | 1961-04-04 | Birmingham Small Arms Co Ltd | Means for sampling bulk material |
DE1077461B (en) * | 1956-08-25 | 1960-03-10 | Ind G M B H | Device for taking samples from a freely falling bulk material flow |
US2900115A (en) * | 1957-05-24 | 1959-08-18 | Worthington Corp | Liquid measuring device |
DE1150826B (en) * | 1958-06-16 | 1963-06-27 | Steeler Maschinenfabrik Franz | Device for taking samples from a bulk material flow, such as coke, coal and ore |
DE1266999B (en) * | 1959-07-21 | 1968-04-25 | Boliden Ab | Device for taking samples from a stream of freely falling particles |
DE1119233B (en) * | 1960-06-21 | 1961-12-14 | Maschf Augsburg Nuernberg Ag | Device for taking samples from a falling stream of bulk material |
US3128629A (en) * | 1961-01-10 | 1964-04-14 | Int Minerals & Chem Corp | Material sampling apparatus |
US3252328A (en) * | 1963-11-27 | 1966-05-24 | Galigher Company | Multiple stage sampler |
US3457789A (en) * | 1966-12-29 | 1969-07-29 | Hewitt Robins Inc | Arcuate path diverter with dust closure thereon |
US3541862A (en) * | 1967-12-28 | 1970-11-24 | Birmingham Small Arms Co Ltd | Means for sampling bulk materials |
US4156507A (en) * | 1976-11-05 | 1979-05-29 | Glowne Biuro Studiow I Projektow Przerobki Wegla Separator | Apparatus for removing samples of stream of granular material and for preparing analytical samples therefrom |
US4326425A (en) * | 1980-10-08 | 1982-04-27 | Sverdrup & Parcel And Associates, Inc. | Drive control arrangement for swing arm material sampler |
US4641540A (en) * | 1985-05-01 | 1987-02-10 | Ellis Jack J | Bulk material sampling apparatus |
US5385058A (en) * | 1992-09-08 | 1995-01-31 | General Signal Corporation | Method and apparatus for sampling particulate material falling from a belt conveyor |
US5413004A (en) * | 1993-07-23 | 1995-05-09 | Johnson Industries, Inc. | Method and apparatus for sampling coal |
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