US1979791A - Shaking screen - Google Patents
Shaking screen Download PDFInfo
- Publication number
- US1979791A US1979791A US671313A US67131333A US1979791A US 1979791 A US1979791 A US 1979791A US 671313 A US671313 A US 671313A US 67131333 A US67131333 A US 67131333A US 1979791 A US1979791 A US 1979791A
- Authority
- US
- United States
- Prior art keywords
- screen
- hanger
- drive shaft
- base plate
- members
- 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
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/28—Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
- B07B1/286—Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens with excentric shafts
Definitions
- This invention relates to shaking screens and more particularly to shaking screens of the power type.
- The. principal objects of this invention include the provision of asturdy and durable power shaking screen wherein adjustment of the pitch of the rocking arc of the screen or screens may be made readily, easily and quickly without requiring any dismantling and reassembly operations and permitting the use of a one piece connecting rod of extremely sturdy, rigid and durable construction to transmit the screening motion from the drive shaft to the screen; and to provide a mounting for the drive shaft which is extremely sturdy and durable and efiectively withstands the shocks and thrusts to which the mounting is subjected when-the screen is operated even at very high speed.
- a further object of this invention is to provide a power shaking screen and one not only in which the pitch of the screening arc may be adjusted easily and quickly, so that the best and quickest screening of materials of different character may be had but also one which may be operated at very high speed so that an increased output results and one which stands up eiiiciently under high speed operation for an extended period of time.
- the bearing members which support the drive shaft are adjustably' mounted on a base plate so that the pitch of the rocking arc of the screens may be varied by adjusting the drive shaft and its bearing relatively to this base and to the rocking axis of the screen hangers.
- the 50 base which supports the drive shaft is inclined toward the thrust of the connecting rod and is cushioned on a frame so as to withstand the shocks and thrusts much better than it could if it were not so inclined.
- the line of thrust of the connecting rod is arranged to be delivered at approximately right angles to the longitudinal axis of the screen hangers.
- Fig. 1 is a side elevation of a shaking screen embodying this invention, certain parts being 15 broken away, others shown in section, and others indicated by dotted lines to more clearly bring out certain details of the construction;
- Fig. 2 is an elevation of the driving end of the machine, certain parts being broken away, and 30 others shown in section;
- Fig. 3 is an enlarged detail view of the drive mounting and its connection with the screens, the view being partly in section and partly broken away, and showing diagrammatically the range 35 of adjustment of the pitch of the screen hanger;
- Fig. 4 is an enlarged sectional view of a detail and is taken on the staggered line 4-4 of Fig. 3.
- the construction as shown for the purpose of illustrating certain possible embodiments of this invention includes an upper screen 10 supported by a suitable trough frame 11, and two lower screens 12 and 13, one above the other, and both supported in a suitabletrough frame 14.
- Trough 11 is supported by the upper ends of hangers 15 which at their center are secured to rocking shafts 16 rotatably supported by vertical frame members 17 of the machine.
- Frame 14 is supported by the lower ends of the hangers 15.
- the drive for the machine includes a suitable drive shaft 20 adapted to be rotated bymeansof a pair of pulley wheels 21 fixed to the shaft and driven by suitable belts 22 connected to a source of power, not shown.
- a suitable drive shaft 20 adapted to be rotated bymeansof a pair of pulley wheels 21 fixed to the shaft and driven by suitable belts 22 connected to a source of power, not shown.
- an eccentric 23 which re- 11 volves in a circular bushing 24 housed in a twoconnecting rod 26 has a rigid two-piece annular strap 27 housing a pushing 28 which surrounds a shaft ZO-supported atopposite ends in plates 30 secured to opposite sides of the frame 14.
- the bushing 28 and strap 27 are prevented from sidewlse movement 'on shaft 29 by means of collars 31 fixed on the shaft; on opposite sides of these parts.
- the mounting for the drive shaft includes a lower cross' channel 32 extending between the main side frames 33 of the machineand which inthe embodiment shown are in the form of I- beams.
- the opposite ends of channel 32 abut and are welded to the inside surfaces of the webs of the I-beams 33, the lower edge of the channel 32 resting on the lower interior flanges of the I- beams.
- Channel 32 is tilted as shown.
- Another inverted channel member 34 tilted to'the same degree as channel 32 and positioned so that the top surfaces of channels 32' and 34 lie in the same plane, is'secured at each end to the topof the I- beams.33 by means of plates 35, which at their upper ends flt into the channel 34 and are welded thereto and at their lower edges seat on and are welded to the tops of the I-beams 33.
- the lower edge of the channel 34 also rests on the tops of the I-beams 33.
- each base plate 38 and-39 Resiliently'mounted on channels 32 and 34 and in position to support pillow block bearings 36 and 37 on opposite sides of the'eccentric 23- and strap are base plates 38 and-39, one for .each'pillow block.
- the rear end of each base plate is resiiiently mounted on thechamiel s4" and the forward end of each'base-plateisresilientlysecured to the channel 32'. Similar connections are used at each of these-four
- a plate4o is disposed beneathbase plate-Stands.
- plate 41- is disposed beneath base plate39;-:-*-Each connection is 'made by means- 0f; &' bolt dfl extending through alined perforations minibuses-as, 4a or as, 41, through the perforationiinthetop' of the channel member and-through aperforation-in a plate 43 at the-lower -end"O f-,'the-,bolt and'engaged bythe bolt 'nut44.
- a compression spring 45 surrounds the bolt interme diate the plate and the. top of the cross channel rubber cushion 46 surrounds this spring.
- a compression spring 47 surrounds-the b'olt' intermediate the plate 43 and the top of the channeL'and an annular rubber cushion. 48 surrounds this spring.
- the mounting is such that when the machine is at rest the extension of-the parts caused by the springs and 47. is such that .a small space, say
- each base plate 38,39 is mounted a pair of complementary coacting wedge blocks 50 and 51 which have their inclined surfaces juxtaposed.
- On-each pair of wedge blocks is positioned one of the pillow blocks 36 and 37.
- Bolts 52 extending upwardly through perforations in the base plates 38, 39 and having their heads counter-sunk therein extend upwardly through I slots 53 and 54 provided in the wedge members 50 and 51 and through perforations i'n shoulders on the pillow blocks 36 and 37 and having nuts 55 whereby the pillow blocks, wedge members, and base plates may be tightly secured together.
- each end of-each base plate Adjacent each end of-each base plate is a shoulder 56.
- each rear shoulder' are two threaded perforations in which are seated adlusting screws 57 which bear against the adjacent end of the wedge members 50 of each pair, and each of these same shoulders has another threaded perforation in which is seated another adjusting screw 58 which bears against the rear edge of the pillow block.
- Each forward shoulder 56 is provided withthree similar threaded perforations, two of whichhouse adjusting screws 59 which bea'r agalnst the adjacent'surface of each wedge member 51 of each pair and the third threaded perforation housing an adjusting screw 60 which bears against the adjacent edgeof' the pillow block.
- the mounting is shown in central or median adjustment and the pitch of the hanger arm'is indicated by thesdot and dash L'ne a.
- the wedge blocks are moved inwardly of each other, thus raising the pillow blocks and projecting the drive shaft connecting rod toward the axis of the hanger arm.
- This will change the pitch of the hanger arm, for instance, into the position represented by dot and dash line b and will make the pitch of the rocking arc of the screens more vertical.
- the adjusting screws 57 and 59 are withdrawn from the positions shown in Fig. 3 and the wedge blocks 50 and 51 are separated'accordingly, the pillow blocks and the drive shaft will be drawn toward the base plates and screens to be more horizontal or flat than before.
- the connecting rod may be fastened to the upper deck screen frame instead of to the lower screen frame, thus allowing the head room required by the machine to be reduced.-
- keeping the connecting rod at approximately right angles to the longitudinal axis of the hanger reduces vibration, reduces friction on the bearings of the connecting rod and is a feature which contributes -to making high speed operation possible.
- the base member for the pillow block bearings may be an undivided member instead of comprising two separate sections or members, as shown, and may be of any suitable design or construction to support the drive shaft.
- a shaking screen of the character described the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
- the combination with a hanger means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, means carried on the base plate and engaging the spacing members, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
- the combination with a hanger means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate resiliently mounted in inclined position on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
- the combination with a hanger means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, a pair of co-acting wedge members intermediate the base plate and each bearing member, and means for adjusting the wedge members of each pair relatively to each other and to the base plate to vary the spacing of the bearing members and drive shaft from the base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, wedge members and base plate tightly together in adjusted position.
- the combination with a hanger means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, a pair of co-acting wedge members intermediate the base plate and each hearing member, means for adjusting the wedge members of each pair relatively to each other and to the base plate to vary the spacing of the hearing members and drive shaft from the base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and bolts engaging said bearing members and base plate and extending through slots in said wedge members for securing all of said members tightly together in adjusted position.
- the combination with a hanger means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing.
Description
Nov. 6, 1934. D, M. BLACKBURN SHAKING SCREEN 4 Sheets-Sheet 1 Filed May 16, 1935 INVY'ENTOR W -BY ATTORNEY Nov. 6,' 1934. 0, M. BLACKBURN SHAKING SCREEN Filed May 16, 1935 4 Sheets-Sheet '2 INVENTOR BY A @1 4 TTORNEY Nov. 6, 1934. D. M. BLACKBURN SHAKING SCREEN Filed May 16, 1933 4 Sheets-Sheet 3 INVENTOR w4 m @A Ad TTORNEY Nov. 6, 1934. M. BLACKBURN 1,979,791
SHAKING SCREEN Filed May 16, 1933 4 Sheets-Sheet 4 INVENTOR BY fiflmi ATTORNEY Patented Nov. 6, 1 934 UNITED STATES PATENT OFFICE smuuno senses Application May 18, 1933, Serial No. 671,313
6 Claim.
This invention relates to shaking screens and more particularly to shaking screens of the power type.
It has been found that for the best and quickest results some materials require a more pronounced vertical movement in the screening motion than other materials and vice versa. In other words, some materials screen better and quicker with a quite pronounced vertical component in the screening motion and other materials screen better and quicker with a more horizontal or fiat screening motion.
Heretofore it has been proposed to transmit the screening motionfrom the drive shaft to the screens through connecting rods so constructed as to be extensible and thereby permit adjustment of the pitch of the screening are by varying the length of the connecting rods. Such rods, however, must comprise a plurality of parts or sections so as to be extensible and therefore have not been as strong, rigid, and durable as are connecting rods constructed in one piece. For this reason it has been suggested that a plurality of extensible connecting rods be employed.
The. principal objects of this invention include the provision of asturdy and durable power shaking screen wherein adjustment of the pitch of the rocking arc of the screen or screens may be made readily, easily and quickly without requiring any dismantling and reassembly operations and permitting the use of a one piece connecting rod of extremely sturdy, rigid and durable construction to transmit the screening motion from the drive shaft to the screen; and to provide a mounting for the drive shaft which is extremely sturdy and durable and efiectively withstands the shocks and thrusts to which the mounting is subjected when-the screen is operated even at very high speed.
A further object of this invention is to provide a power shaking screen and one not only in which the pitch of the screening arc may be adjusted easily and quickly, so that the best and quickest screening of materials of different character may be had but also one which may be operated at very high speed so that an increased output results and one which stands up eiiiciently under high speed operation for an extended period of time.
Other objects of this invention will be in part obvious and in part pointed out hereinafter.
In accordance with this invention instead of providing extensible connecting rods, whereby the pitch of the rocking arc of the screens may 5 be varied, the bearing members which support the drive shaft are adjustably' mounted on a base plate so that the pitch of the rocking arc of the screens may be varied by adjusting the drive shaft and its bearing relatively to this base and to the rocking axis of the screen hangers. The 50 base which supports the drive shaft is inclined toward the thrust of the connecting rod and is cushioned on a frame so as to withstand the shocks and thrusts much better than it could if it were not so inclined. Also the line of thrust of the connecting rod is arranged to be delivered at approximately right angles to the longitudinal axis of the screen hangers.
In order that a clearer understanding of this invention may be had, attention is hereby directed to the accompanying drawings forming a part of this application and illustrating certain possible embodiments of this invention and in which:
Fig. 1 is a side elevation of a shaking screen embodying this invention, certain parts being 15 broken away, others shown in section, and others indicated by dotted lines to more clearly bring out certain details of the construction;
Fig. 2 is an elevation of the driving end of the machine, certain parts being broken away, and 30 others shown in section;
Fig. 3 is an enlarged detail view of the drive mounting and its connection with the screens, the view being partly in section and partly broken away, and showing diagrammatically the range 35 of adjustment of the pitch of the screen hanger; and
Fig. 4 is an enlarged sectional view of a detail and is taken on the staggered line 4-4 of Fig. 3.
Similar reference characters refer to similar parts throughout the several views of the drawmgs.
Referring to the drawings, the construction as shown for the purpose of illustrating certain possible embodiments of this invention, includes an upper screen 10 supported by a suitable trough frame 11, and two lower screens 12 and 13, one above the other, and both supported in a suitabletrough frame 14. Trough 11 is supported by the upper ends of hangers 15 which at their center are secured to rocking shafts 16 rotatably supported by vertical frame members 17 of the machine. Frame 14 is supported by the lower ends of the hangers 15.
The drive for the machine includes a suitable drive shaft 20 adapted to be rotated bymeansof a pair of pulley wheels 21 fixed to the shaft and driven by suitable belts 22 connected to a source of power, not shown. Toward or at the center of shaft 20 is secured an eccentric 23 which re- 11 volves in a circular bushing 24 housed in a twoconnecting rod 26 has a rigid two-piece annular strap 27 housing a pushing 28 which surrounds a shaft ZO-supported atopposite ends in plates 30 secured to opposite sides of the frame 14. The bushing 28 and strap 27 are prevented from sidewlse movement 'on shaft 29 by means of collars 31 fixed on the shaft; on opposite sides of these parts.
The mounting for the drive shaft includes a lower cross' channel 32 extending between the main side frames 33 of the machineand which inthe embodiment shown are in the form of I- beams. The opposite ends of channel 32 abut and are welded to the inside surfaces of the webs of the I-beams 33, the lower edge of the channel 32 resting on the lower interior flanges of the I- beams. Channel 32 is tilted as shown. Another inverted channel member 34, tilted to'the same degree as channel 32 and positioned so that the top surfaces of channels 32' and 34 lie in the same plane, is'secured at each end to the topof the I- beams.33 by means of plates 35, which at their upper ends flt into the channel 34 and are welded thereto and at their lower edges seat on and are welded to the tops of the I-beams 33. The lower edge of the channel 34 also rests on the tops of the I-beams 33.
Resiliently'mounted on channels 32 and 34 and in position to support pillow block bearings 36 and 37 on opposite sides of the'eccentric 23- and strap are base plates 38 and-39, one for .each'pillow block. The rear end of each base plate is resiiiently mounted on thechamiel s4" and the forward end of each'base-plateisresilientlysecured to the channel 32'. Similar connections are used at each of these-four A plate4o is disposed beneathbase plate-Stands. plate 41- is disposed beneath base plate39;-:-*-Each connection is 'made by means- 0f; &' bolt dfl extending through alined perforations minibuses-as, 4a or as, 41, through the perforationiinthetop' of the channel member and-through aperforation-in a plate 43 at the-lower -end"O f-,'the-,bolt and'engaged bythe bolt 'nut44. .A compression spring 45 surrounds the bolt interme diate the plate and the. top of the cross channel rubber cushion 46 surrounds this spring. A compression spring 47 surrounds-the b'olt' intermediate the plate 43 and the top of the channeL'and an annular rubber cushion. 48 surrounds this spring. Preferably the mounting is such that when the machine is at rest the extension of-the parts caused by the springs and 47. is such that .a small space, say
about i, or of an inch, is left between the top of-each cushion and-the adjacent surface. The purpose of thesespaces isthat when the machine is operating the pull and thrust will first act on one of the springs 45 or 4'1 and then be taken up by the cushions 46 or 48 in the manner of shock absorbers.
On each base plate 38,39 is mounted a pair of complementary coacting wedge blocks 50 and 51 which have their inclined surfaces juxtaposed. On-each pair of wedge blocks is positioned one of the pillow blocks 36 and 37. Bolts 52 extending upwardly through perforations in the base plates 38, 39 and having their heads counter-sunk therein extend upwardly through I slots 53 and 54 provided in the wedge members 50 and 51 and through perforations i'n shoulders on the pillow blocks 36 and 37 and having nuts 55 whereby the pillow blocks, wedge members, and base plates may be tightly secured together.
Adjacent each end of-each base plate is a shoulder 56. In each rear shoulder' are two threaded perforations in which are seated adlusting screws 57 which bear against the adjacent end of the wedge members 50 of each pair, and each of these same shoulders has another threaded perforation in which is seated another adjusting screw 58 which bears against the rear edge of the pillow block. Each forward shoulder 56 is provided withthree similar threaded perforations, two of whichhouse adjusting screws 59 which bea'r agalnst the adjacent'surface of each wedge member 51 of each pair and the third threaded perforation housing an adjusting screw 60 which bears against the adjacent edgeof' the pillow block.
As represented in Fig. 3, the mounting is shown in central or median adjustment and the pitch of the hanger arm'is indicated by thesdot and dash L'ne a. By loosening the bolts 52 and screwing up on the adjusting screws 57 and 59 the wedge blocks are moved inwardly of each other, thus raising the pillow blocks and projecting the drive shaft connecting rod toward the axis of the hanger arm. This will change the pitch of the hanger arm, for instance, into the position represented by dot and dash line b and will make the pitch of the rocking arc of the screens more vertical. Conversely, if the adjusting screws 57 and 59 are withdrawn from the positions shown in Fig. 3 and the wedge blocks 50 and 51 are separated'accordingly, the pillow blocks and the drive shaft will be drawn toward the base plates and screens to be more horizontal or flat than before.
' From the above it will be readily apparent that use.
When the loading on different decks becomes unequal, a slight jar is apt to be imparted to the drive shaft. This, however, is absorbed by the resilient drive'mounting.
The construction illustrated is obviously susceptible to considerable modification without departing from the scope of the invention. For instance, the connecting rod may be fastened to the upper deck screen frame instead of to the lower screen frame, thus allowing the head room required by the machine to be reduced.- However, keeping the connecting rod at approximately right angles to the longitudinal axis of the hanger reduces vibration, reduces friction on the bearings of the connecting rod and is a feature which contributes -to making high speed operation possible. Instead of three screens, one, two or any desired number may be provided. Also, the base member for the pillow block bearings may be an undivided member instead of comprising two separate sections or members, as shown, and may be of any suitable design or construction to support the drive shaft.
As many changes could be made in the above construction and as many apparently widely different embodiments of this invention could be made without departing from the scope thereof, it is understood that all matter contained in the above description or shown in the accompanying drawings be interpreted as illustrative and not in a limiting sense.
What I claim is:
1. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
2. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, means carried on the base plate and engaging the spacing members, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
3. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate resiliently mounted in inclined position on the support, bearing members for the drive shaft, adjustable spacing members intermediate the bearing members and base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, spacing members and base plate tightly together in adjusted position.
4. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, a pair of co-acting wedge members intermediate the base plate and each bearing member, and means for adjusting the wedge members of each pair relatively to each other and to the base plate to vary the spacing of the bearing members and drive shaft from the base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and means for securing the bearing members, wedge members and base plate tightly together in adjusted position.
5. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing members for the drive shaft, a pair of co-acting wedge members intermediate the base plate and each hearing member, means for adjusting the wedge members of each pair relatively to each other and to the base plate to vary the spacing of the hearing members and drive shaft from the base plate, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, and bolts engaging said bearing members and base plate and extending through slots in said wedge members for securing all of said members tightly together in adjusted position.
6. In a shaking screen of the character described, the combination with a hanger, means rockably supporting the hanger and a screen supported by the hanger to rock therewith, of a drive shaft having an eccentric, a connecting rod engaging said eccentric and connected to the screen whereby the screen and hanger are rocked as said shaft revolves, and a mounting for the drive shaft including a support, a base plate mounted on the support, bearing. members for the drive shaft, a pair of co-acting wedge members intermediate the base member and each bearing member, and means for adjusting the wedge members of each pair relatively to each other and to the base member to vary the spacing of the bearing members and drive shaft from the base member, whereby the bearing members and drive shaft may be adjusted on the base plate toward and away from the rocking axis of the hanger to vary the rocking pitch of the hanger and to vary the swing of the screen accordingly, said means including adjusting screws adjustably carried on the base member and engaging the wedge members, and other adjusting screws adjustably carried on the base member and engaging the bearing members, whereby the bearing members may be centered on the'base
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US671313A US1979791A (en) | 1933-05-16 | 1933-05-16 | Shaking screen |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US671313A US1979791A (en) | 1933-05-16 | 1933-05-16 | Shaking screen |
Publications (1)
Publication Number | Publication Date |
---|---|
US1979791A true US1979791A (en) | 1934-11-06 |
Family
ID=24693979
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US671313A Expired - Lifetime US1979791A (en) | 1933-05-16 | 1933-05-16 | Shaking screen |
Country Status (1)
Country | Link |
---|---|
US (1) | US1979791A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2725984A (en) * | 1949-06-17 | 1955-12-06 | Ludwig Binder & Co | Vibratory conveyors |
US2784842A (en) * | 1953-03-19 | 1957-03-12 | Cover Ralph | Cut corn de-silking apparatus |
-
1933
- 1933-05-16 US US671313A patent/US1979791A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2725984A (en) * | 1949-06-17 | 1955-12-06 | Ludwig Binder & Co | Vibratory conveyors |
US2784842A (en) * | 1953-03-19 | 1957-03-12 | Cover Ralph | Cut corn de-silking apparatus |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US1979791A (en) | Shaking screen | |
US1923229A (en) | Screening apparatus | |
US2071373A (en) | Vibratory apparatus | |
US2279742A (en) | Balanced screening structure | |
US2208596A (en) | Reciprocating screen | |
US3101315A (en) | Gyrating screen | |
CN208494926U (en) | A kind of vibrating screen | |
US2285348A (en) | Material separator apparatus | |
US2308572A (en) | Rod screen | |
US3202282A (en) | Vibratory screen | |
US2042072A (en) | Screening apparatus | |
US2316725A (en) | Vibrating screen | |
US2102826A (en) | Vibratory apparatus | |
US2477123A (en) | Gyratory vibration screen apparatus | |
US2133459A (en) | Printing press | |
US2176376A (en) | Inclined vibrating screen | |
US2069331A (en) | Vibratory screen | |
US2223455A (en) | Fruit and vegetable grader | |
US1721802A (en) | Vibratory screen | |
US1993615A (en) | Mounting of oscillating apparatus | |
US2216504A (en) | Roller conveyer | |
US2999651A (en) | Single stage rock crusher | |
US1500856A (en) | Vibrating screen | |
US859412A (en) | Gyrating machine. | |
US3176834A (en) | Vibrating conveyor with suspended adjusting frame and cantilever supported unbalancing rotor |