US384983A - Grain-meter - Google Patents
Grain-meter Download PDFInfo
- Publication number
- US384983A US384983A US384983DA US384983A US 384983 A US384983 A US 384983A US 384983D A US384983D A US 384983DA US 384983 A US384983 A US 384983A
- Authority
- US
- United States
- Prior art keywords
- measure
- grain
- shaft
- arms
- arm
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 238000010276 construction Methods 0.000 description 8
- 238000005259 measurement Methods 0.000 description 8
- 230000005484 gravity Effects 0.000 description 6
- 238000005303 weighing Methods 0.000 description 4
- 238000007599 discharging Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000036633 rest Effects 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C9/00—Reinforcements or ply arrangement of pneumatic tyres
- B60C9/0028—Reinforcements comprising mineral fibres, e.g. glass or carbon fibres
Definitions
- My invention has relation to improvements in means or mechanism for automatically measuring grain, and the object is to simplify and improve existing machines for that purpose; and my invention therefore consists in the novel construction of parts and their combination, as will be more fully hereinafter described, and specially as the same is pointed out in the claims.
- Figure 1 is a side view of the graiirmcter iixed up in connection to a separator with elevator-spout and a delivery-spout leading to a wagon.
- Fig. 2 is a side view of the apparatus, showing the measure down, the beam tipped, and the bottom open, a part ofthe frame being removed to better show the construction.
- Fig. E is a perspective of the sup portingshai't, the scale-beam, the arms, and the leverarms.
- Fig. at is a detail et the registering'mechanism
- Fig. 5 is a View of the lever' which closes the bottom of the measure.
- A designates the separator or other receptacle from ⁇ which the grain is to be withdrawn.
- B designates the elevator from which the grain is run to the spout leading to the measure.
- rIhese elements form no part ot' my invention, and hence may be of any approved construction.
- the measure may be used in connection with any receptacle from which the grain can be delivered to the nicasure as may suit the circumstances of the storage.
- the letter C designates the frame which supports the weighing mechanism. This consiste of substantial corner uprights, 1, girded together by crosspieees 2, arranged at the top and bottom, and when attached or connected to a separator the connectionl may consist of plate-pieces 3, braced by studs it, and at the top there may be brace-rods, as 5, the purpose in this respect being accomplished when the frame is seated firmly enough to meet the strains it maybe subjected to in the weighing process.
- a delivery spout or chute (i, which is set at a proper incline to permit the grain to descend by gravity, and arranged so that its inner end shall receive the weighted grain when dropped from the measure and that its outer end will deliver the grain to the wagon or other receptacle under it.
- the inner corner nprights are extended, as at 7, and have a cross-piece iixed thereto, on which is arranged a chute, S, to take the grain from the bin, separator, or elevator and deliver it to the measure.
- a door or valve 9,journaled in the sides ot' the chute, and a spring, 10, arranged to close the valve when the measure drops.
- the ljournal ofthe valve is formed with an arm, 11, the crank of which sets on the arm ot' the trip iixed to the measure and is raised thereby and the valve opened when the measure comes up a iter being emptied.
- the letter D designates a shaft which has itsjournals seated in bearings 12 in the upright ofthe frame. Rigidly secured to this shaft are carrying-arms 13, projected forward and provided with slotted bearings 1i in their ends to receive the trunnions ot the measure.
- the scale-beam 15 which consists of a lower bar or beam-piece, 16, and a balancerod, 17.
- the beam 1G On the beam 1G are marked measurements of weight, indicating the amount of grain let into the measure, asliding weight, 18, being arranged on the beam. I have noted measurements from one pound to eighty-rive on the beam, but other weights may indicate the amounts, according to the capacity of the measure.
- the balancerod are also indicated measurements of weight, and a sliding weight, 19, arranged thereon will by adjust ment balance the empty measure with the elements which are connected therewith, leaving the weight of the grain to be determined by the weight on the scale-beam proper.
- the letter E designates the measure, rihis IOO consists of a substantial vessel or receptacle having inclined bottom side edges and provided with a hinged bottom, 20, the hinge being at the rear, as at 21, so that the incline of the bottom shall be toward the front and downward, in order that the grainvwill drop by gravity into the chute leading to the wagon or other receptacle.
- the trunnions 22 and guide-rod 28 Secured to the sides of the measure and projected at right angles therefrom are the trunnions 22 and guide-rod 28, which are arranged to slide in an opening or slot between the vertical rods 24, xed in the side cross-pieces of the frame,and the trunnion 22 also serves asthejournalsortrunnions which support the measure in the slotted bearings of the carrying-arms.
- an anti-friction roller, a On each of the trunnions and also on the guide-rod on the measure is arranged an anti-friction roller, a, to relieve as far as possible any friction in the reciprocations of the measure.
- I thus pivotally support the measure to lnove in a vertical plane, and by making the slots of the carrying-arms' project forward of the slot between the upright guides the leverage is lengthened as the measure is carried down and the reaction of the weight on the beam retarded until the measure has been emptied.
- a lever-arm, 25, has one end rigidly iiXed in the shaft D, and is brought down and turned up with its free end to press against and close the bottom of the measure. The end of this lever arm 25 is bifurcated, and has pivoted therein rollers I) to make the progress of the arm over the bottom easier.
- xed alifting device, 26 formed with a curved cross-head,-
- the operation is apparent from the foregoing description, but may be here rehearsed as follows:
- the measure being balanced on' the scale and the weight set at the number of pounds desired to be weighed at one measure, the valve may be opened and the grain be let run in the measure.
- Vhen the measure is filled with the quantity suliicicut to tip the beam, it descends by gravity, the lever-arm of j the hinged bottom receding as the measure descends, the bottom opens, and the grain is discharged.
- the upper chute is closed and the grain stopped from that source.
- What I claim is- 1.
- the combination with the frame, of the supporting-shaft journaled in the frame, carrying-arms rigidly fixed to said supporting-shaft formed with bearings in their ends, a scalebeam rigidly projected from the supportingshaft, the grain-measure having ahinged bottom and swung on trunnions arranged in the bearings of the carrying-arms, and a leverarm rigidly iixed in the supporting-shaft, arranged with its free end to press against and close the hinged bottom of the measure, substantially as described.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)
Description
2 Sheets-Sheet 1.
(No Model.)
G. H. KAMMAN.
GRAIN METER.
No. 384,988. Patented June 26,1888.
2 Sheets-Sheet 2.
(No Model.)
G. H. KAMMAN.
GRAIN METER.
No. 384,988. 4Zlyavellzer June 26,- 1888.
lulm HHH o ,zg .Z9 I) 11"'1 jagg- Jo. I 1147 za\ iff zz Z z Z3 a j O Ilu O O Inl there@ STATES PATENT rlOllG-E H. KAMMAN, OF CHAMPJJGN, llfLINOlS.
GRAlNmlVl mTER.
PECIFICATON forming part of Letters Patent No. 384,983, dated June 2G, 1888.
Serial No. 256,853. (No model.)
To @ZZ whom, it may concern;
Be it known that I, GEGRGE H. KAMMAN, a citizen ot' the United States ol' America, re siding at Champaign, in the county of Champaign, in the State ot' Illinois, have invented a new and useful Grain-Meter, of which the following` is a specification.
My invention has relation to improvements in means or mechanism for automatically measuring grain, and the object is to simplify and improve existing machines for that purpose; and my invention therefore consists in the novel construction of parts and their combination, as will be more fully hereinafter described, and specially as the same is pointed out in the claims.
I have fully illustrated my improvements in the accompanying drawings, wherein- Figure 1 is a side view of the graiirmcter iixed up in connection to a separator with elevator-spout and a delivery-spout leading to a wagon. Fig. 2 is a side view of the apparatus, showing the measure down, the beam tipped, and the bottom open, a part ofthe frame being removed to better show the construction. Fig. E is a perspective of the sup portingshai't, the scale-beam, the arms, and the leverarms. Fig. at is a detail et the registering'mechanism, and Fig. 5 is a View of the lever' which closes the bottom of the measure.
In the drawings lille parts are indicated by the same notations, and, reference being had thereto, A designates the separator or other receptacle from` which the grain is to be withdrawn. The letter B designates the elevator from which the grain is run to the spout leading to the measure. rIhese elements form no part ot' my invention, and hence may be of any approved construction. The measure may be used in connection with any receptacle from which the grain can be delivered to the nicasure as may suit the circumstances of the storage.
The letter C designates the frame which supports the weighing mechanism. This consiste of substantial corner uprights, 1, girded together by crosspieees 2, arranged at the top and bottom, and when attached or connected to a separator the connectionl may consist of plate-pieces 3, braced by studs it, and at the top there may be brace-rods, as 5, the purpose in this respect being accomplished when the frame is seated firmly enough to meet the strains it maybe subjected to in the weighing process.
To the lower l'ront part ot' the frame is secured a delivery spout or chute, (i, which is set at a proper incline to permit the grain to descend by gravity, and arranged so that its inner end shall receive the weighted grain when dropped from the measure and that its outer end will deliver the grain to the wagon or other receptacle under it. The inner corner nprights are extended, as at 7, and have a cross-piece iixed thereto, on which is arranged a chute, S, to take the grain from the bin, separator, or elevator and deliver it to the measure. In the mouth of this chute is a door or valve, 9,journaled in the sides ot' the chute, and a spring, 10, arranged to close the valve when the measure drops. The ljournal ofthe valve is formed with an arm, 11, the crank of which sets on the arm ot' the trip iixed to the measure and is raised thereby and the valve opened when the measure comes up a iter being emptied.
The letter D designates a shaft which has itsjournals seated in bearings 12 in the upright ofthe frame. Rigidly secured to this shaft are carrying-arms 13, projected forward and provided with slotted bearings 1i in their ends to receive the trunnions ot the measure.
Rigidly secured to and projected from the shaft D in opposite direction to the carrying arms 13 is the scale-beam 15, which consists of a lower bar or beam-piece, 16, and a balancerod, 17. On the beam 1G are marked measurements of weight, indicating the amount of grain let into the measure, asliding weight, 18, being arranged on the beam. I have noted measurements from one pound to eighty-rive on the beam, but other weights may indicate the amounts, according to the capacity of the measure. Ou the balancerod are also indicated measurements of weight, and a sliding weight, 19, arranged thereon will by adjust ment balance the empty measure with the elements which are connected therewith, leaving the weight of the grain to be determined by the weight on the scale-beam proper.
The letter E designates the measure, rihis IOO consists of a substantial vessel or receptacle having inclined bottom side edges and provided with a hinged bottom, 20, the hinge being at the rear, as at 21, so that the incline of the bottom shall be toward the front and downward, in order that the grainvwill drop by gravity into the chute leading to the wagon or other receptacle. Secured to the sides of the measure and projected at right angles therefrom are the trunnions 22 and guide-rod 28, which are arranged to slide in an opening or slot between the vertical rods 24, xed in the side cross-pieces of the frame,and the trunnion 22 also serves asthejournalsortrunnions which support the measure in the slotted bearings of the carrying-arms. On each of the trunnions and also on the guide-rod on the measure is arranged an anti-friction roller, a, to relieve as far as possible any friction in the reciprocations of the measure. I thus pivotally support the measure to lnove in a vertical plane, and by making the slots of the carrying-arms' project forward of the slot between the upright guides the leverage is lengthened as the measure is carried down and the reaction of the weight on the beam retarded until the measure has been emptied. A lever-arm, 25, has one end rigidly iiXed in the shaft D, and is brought down and turned up with its free end to press against and close the bottom of the measure. The end of this lever arm 25 is bifurcated, and has pivoted therein rollers I) to make the progress of the arm over the bottom easier.
To the side of the measure is xed alifting device, 26, formed with a curved cross-head,-
27, on which the arm of the valve in the upper chute rests. Vhen the valve is closed by the spring and weight of the arm and the measure has been carried down and emptied, the upward movement takes place, and the curved crosshead will lift the arm ofthe valve and open it to admit another quantity of grain. On the side of the upper delivery-spout are pivotally mounted tally-wheels 28, graduated to indicate measurements of the grain delivered to the measure. These tally-sheets are actuated by means of a pawl, 29, on the shaft of the valve, so arranged that when the valve opens the first wheel is turned one notch and the other arranged to register in ratio ot tens.
It will be observed that all the main operative elements are combined with and operated by the movements of the single supporting-shaft D, which gives a simple, certain, and durable 'construction attended with results as nearly correct and accurate as have been reached in the art.
The operation is apparent from the foregoing description, but may be here rehearsed as follows: The measure being balanced on' the scale and the weight set at the number of pounds desired to be weighed at one measure, the valve may be opened and the grain be let run in the measure. Vhen the measure is filled with the quantity suliicicut to tip the beam, it descends by gravity, the lever-arm of j the hinged bottom receding as the measure descends, the bottom opens, and the grain is discharged. At the same time that the descent is commenced the upper chute is closed and the grain stopped from that source. When the measure is emptied, the. weight on the beam acts, lifting the measure to its normal position, the lever-arm shuts the bottom, and the lift opens the valve in the upper chute and registers on the tally-wheels, and the operations of filling, descending, discharging, and returning are repeated.
What I claim is- 1. The combination, with the frame, of the supporting-shaft journaled in the frame, carrying-arms rigidly fixed to said supporting-shaft formed with bearings in their ends, a scalebeam rigidly projected from the supportingshaft, the grain-measure having ahinged bottom and swung on trunnions arranged in the bearings of the carrying-arms, and a leverarm rigidly iixed in the supporting-shaft, arranged with its free end to press against and close the hinged bottom of the measure, substantially as described.
2. The combination, with the frame provided with vertical guide-rods at its sides and a supporting-shaft mounted in the frame provided with carrying-arms having elongated bearings, of the grain-measure having a hinged bottom and supported on trunnions in the slotted bearings of the carrying-arms, and said trunnions being extended and arranged between -the vertical guiderods and having guide-arms near the bottom of the measure to slide betweenthe said guide-rods, and the scalebeam rigidly fixed in the supporting-shaft and arranged with its free end to press against and close the hinged bottom of' the measure, substantially'as described.
3. The combination of the frame provided with vertical guide-rods, a supporting-shaft journaled in the frame, the grain-measure having horizontal guide-arms projected from its sides provided with anti-friction rollers to iit within the way between the vertical guiderods of the frame, and carryingarms rigidly secured to and projected from the supportingshaft and provided with slotted bearings in which the guide-arms of the measure rest, substantially as described.
41. The combination, in a grain-measuring machine, ofa suitably-supported shaft, a graduated beam fixed to the shaft, arms projected from the shaft to support the measure, and a lever-arm on said shaft to close the bottom of the measure after its contents have been discharged, and whereby the said beam, supporting-arms, and lever-arm are operated by the same movement of the shaft, substantially as described.
5. The combination, with the delivery-spout provided with tallying mechanism and the IIO IZO
In witness whereof I have hereunto set my grain-measure having a lift device attached to hand in the presence of two attesting wiband extended above the side thereof, of a valve journaled to set across the mouth of the spout nesses.
and having its journal formed to engage the I GEORGE H. KAMMAN.
Att-est:
5 lift on the measure, and a paWl fixed on said journal to move the tally mechanism, as described.
JAMES BOURNE, WM. H. PARKER.
Publications (1)
Publication Number | Publication Date |
---|---|
US384983A true US384983A (en) | 1888-06-26 |
Family
ID=2453967
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US384983D Expired - Lifetime US384983A (en) | Grain-meter |
Country Status (1)
Country | Link |
---|---|
US (1) | US384983A (en) |
-
0
- US US384983D patent/US384983A/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US384983A (en) | Grain-meter | |
US440794A (en) | Grain-weighing machine | |
US1014717A (en) | Automatic weighing-machine. | |
US706442A (en) | Automatic grain-weigher. | |
US377606A (en) | Automatic grain-scale | |
US378363A (en) | Automatic grain-scale | |
US554029A (en) | Automatic weighing-machine | |
US585974A (en) | Weighing-machine | |
US493275A (en) | Half to edward h | |
US375163A (en) | Grain-weighing apparatus | |
US226511A (en) | Grain-meter | |
US941725A (en) | Weighing-scale. | |
US589287A (en) | Weighing and bagging machine | |
US632284A (en) | Automatic weighing-machine. | |
US349971A (en) | Grain weighing and registering apparatus | |
US976069A (en) | Automatic weighing-cabinet. | |
US289784A (en) | stokeb | |
US440355A (en) | Automatic grain-scales | |
US218594A (en) | Improvement in grain-meters | |
US994265A (en) | Grain-weighing scale. | |
US1243791A (en) | Automatic scale. | |
US376965A (en) | reisert | |
US424483A (en) | Grain-meter | |
US244006A (en) | Grain-meter | |
US1342670A (en) | Automatic scale |