US3400493A

US3400493A - Belt sanding and polishing machine

Info

Publication number: US3400493A
Application number: US527896A
Authority: US
Inventors: William C Keyes
Original assignee: Carborundum Co
Current assignee: Unifrax 1 LLC
Priority date: 1966-02-16
Filing date: 1966-02-16
Publication date: 1968-09-10
Anticipated expiration: 1985-09-10
Also published as: FR1508927A; GB1179176A; DE1652006A1; GB1179177A

Description

Sept. 10, 1968 w. c. KEYES BELT SANDING AND POLISHING MACHINE 3 Sheets-Sheet 1 Filed Feb. 16, 1966 N ER 0N 3 on M d Nm NN.N ON Q0 N: 0- mm 2 m VN 9 on I I mw NN UN Q. Ll llll Ill 1 llamrlmm w N IF-1J1 1-1-3313] 11-33311 wIl-IJ L INVENTOR. WILLIAM C. K EYES ATTORNEY p 10, 1968 w. c. KEYES 3,400,493

BELT SANDING AND POLISHING MACHINE Filed Feb. 16, 1966 3 Sheets-Sheet 2 INVENTOR.

WILLIAM C. KEYES %d/im/ ATTORNEY Sept. 10, 1968 w. c. KEYES 3,400,493

BELT SANDING AND POLISHING MACHINE Filed Feb. 16, 1966 5 Sheets-Sheet 5 F16. 4 INVENTOR WILLIAM C. KEYES ATTORNEY United States Patent 3,400,493 BELT SANDING AND POLISHING MACHINE William C. Keyes, Euclid, Ohio, assignor to The Carborundum Company, Niagara Falls, N.Y., a corporation of Delaware Filed Feb. 16, 1966, Ser. No. 527,896 Claims. (Cl. 51-438) ABSTRACT OF THE DISCLOSURE A work positioning and aligning apparatus for a belt sanding machine having a plurality of work engageable segments depending from a support member and adapted to interrupt the advancement of a workpiece. An electrical switching means senses the presence of a workpiece and, after a time delay in which the workpiece .abuts the work engageable segments and is caused to be aligned thereby, activates a fluid power means to raise the support member and segments and allows the workpiece to pass thereunder.

This invention relates to belt sanding and polishing machines, and more particularly, to means for maintaining accurate alignment of a workpiece or workpieces regardless of the orientation or sporadic feeding of such workpieces onto the inby end of a conveyor means.

In machines of this type wherein work is fed perpendicularly to the longitudinal axis of an abrasive belt, a pressure caul is employed to bear against the abrasive belt desirably at the moment a moving workpiece is partially disposed beneath such belt a preselected distance. Otherwise, if pressure is applied to the abrasive belt as the leading edge of a veneered workpiece approaches such belt, there is a possibility of sanding through the lamination of veneer adjacent such edge. Likewise, pressure is removed from the belt by raising the pressure caul while the trailing edge of such workpiece is still disposed beneath the belt. Accordingly, if the plane of the leading edge of the workpiece is askew with respect to the longitudinal axis of the abrasive belt, portions of the leading edge and/ or trailing edge of the workpiece may be damaged. T herefore, it is desirable to orient the workpiece in such a manner that the leading edge thereof lies in a plane parallel to the longitudinal axis of the abrasive belt.

Further, it is sometimes expedient to feed two short workpieces of substantially equal widths simultaneously,

either by two workmen or by two separate intermittent conveyor feeding arrangements, thus doubling the capacity of the machine. In such operations, it is readily apparent that such sporadic feeding will result in longitudinal misalignment of the side-by-side workpieces beneath the abrasive belt causing a belated sanding operation on the first approaching workpiece, thus leaving the leading edge thereof unfinished. Alternatively, a premature sanding of the second advancing workpiece may occur in which case its trailing edge will be left unfinished.

The sanding and polishing machine of the present invention, as hereinafter described, provides a solution to the above problem by providing means for maintaining a workpiece or workpieces in alignment prior to such workpieces being advanced toward the abrasive belt.

It is, therefore, an object of the present invention to provide a new and improved sanding and polishing machine.

It is another object of the present invention to provide a new and improved sanding and polishing machine having novel work positioning or aligning means.

It is still another object of the present invention to provide a new and improved sanding and polishing machine having novel work positioning or aligning means for insuring proper orientation of workpieces prior to the advancement of such workpieces into the sanding and polishing machine.

It is a specific object of the present invention to provide a new and improved sanding and polishing machine having a novel stop gate assembly for precluding the advancement of workpieces into the sanding and polishing machine until the leading edges of such workpieces are properly oriented with respect to an abrasive belt of the sanding and polishing machine.

These and other objects of this invention will become more apparent upon consideration of the following detailed description thereof when taken in conjunction with the following drawings, in which:

FIGURE 1 is a top plan view, with parts broken away, of a sanding and polishing machine in which a preferred illustrative embodiment of the invention is incorporated;

FIGURE 2 is a front elevational view of the sanding and polishing machine of FIGURE 1;

FIGURE 3 is an enlarged front elevational view of the stop gate assembly;

FIGURE 4 is an enlarged side elevational view of the stop gate assembly, showing portions rearwardly thereof schematically;

FIGURE 5 is a diagrammatic view illustrating the pneumatic circuit for the stop gate assembly; and

FIGURE 6 is an electrical circuit diagram for the stop gate assembly.

With reference to FIGURES 1 and 2 of the drawings, it will be seen that a sanding and polishing machine constructed in accordance with the principles of this invention comprises a suitable elongated horizontal frame, generally designated 10, suitably supported by a base comprising vertically extending

pedestals

12 and 14. Journaled for rotation in suitable bearings on frame 10 are a pair of back-up belt pulleys 16 and 13 around which endless backup belt 20 is trained for movement in an orbital path. Also journaled for rotation in suitable bearings on frame 10 are a pair of

abrasive belt pulleys

22 and 24 around which an endless abrasive belt 26 is trained for movement in an orbital path. A suitable motor 28, mounted in pedestal 14, drives

pulleys

18 and 24 in the same direction through suitable gear reduction and drive connections, not shown but well-known in the art. The back-up belt 20 is driven at approximately /2 the linear speed of the abrasive belt 26.

A conveyor frame, generally designated 30, disposed beneath frame It) is supported by a pair of

screw jacks

32 and 34 located on the

pedestals

12 and 14, respectively, and may be selectively raised or lowered through a suitable gear reduction means (not shown) by motor 36 mounted in pedestals 12. Conveyor frame 30 is provided with

rollers

38 and 40 journaled for rotation in suitable bearings at opposite ends of frame 30 and endless conveyor belt 42 is trained about such rollers for the purpose of advancing workpieces beneath abrasive belt 26 in the direction of the arrow shown in FIGURE 1. A base plate 44 (FIGURE 4) is suitably mounted on frame 30 and provides a flat rigid support for the active or upper run of conveyor belt 42. The conveyor belt is driven by any suitable means, such as an electric motor by way of example, at a uniform speed.

A caul assembly, well-known in the art and generally indicated as 46, suitably mounted on from 10, urges the active or lower runs or back-up belt 20 and abrasive belt 26 against a workpiece. Caul assembly 46 and

belts

20 and 26 are enclosed within a housing 48 for collecting the dust generated during the sanding and polishing operation, the dust laden air being drawn out of the housing through spaced outlets 50 and 52 disposed at opposite ends of housing 48 by means of any conventional dust removal equipment.

The mechanical means for raising and lowering caul assembly 46 comprises a suitable hydraulic caul cylinder 54 mounted on frame .10 and operatively connected to an elongated horizontally extending bar 56 having elongated horizontally extending levers 58 secured to the opposite ends thereof and disposed normal thereto. Levers 58 are mounted for pivotal movement in bearings 60, respectively, on frame and have their ends remote from bar 56 connected to brackets 62, respectively, extending upwardly from the caul assembly 46. Thus, when fluid under pressure is properly supplied to the caul cylinder 54 to lower or raise bar 56 the remote ends of levers 58 may be swung either upwardly or downwardly, respectively, about their pivots in bearings 60 to raise or lower caul assembly 46.

A work guide fence 64 (FIGURE 1) is secured on the conveyor frame 30 and extends transversely of the run of abrasive belt 26 for guiding the advance of the workpiece on the conveyor belt 42. A similar work guide fence (not shown) may be disposed on conveyor frame 30 on the opposite end thereof (left hand side as viewed in FIG- URE 1) for maintaining workpieces Within prescribed paths under the caul assembly. A plurality of vertically adjustable rollers 66 are mounted along the front and rear of housing 48 for urging workpieces against conveyor belt 42.

In order to insure that the leading edge of a workpiece or workpieces will be in alignment in a direction parallel to the longitudinal axis of abrasive belt 26, a work positioning or aligning stop gate assembly, generally indicated as 68, is provided, said stop gate assembly being mounted between a pair of

end brackets

70 and 72, rigidly secured to frame 10 and spaced upwardly from conveyor belt 42.

Suitably rigidly secured to

end brackets

70 and 72 are a pair of

pneumatic cylinders

74 and 76, respectively, having

movable piston rods

78 and 80 which are secured as by means of

lock nuts

82 and 84 to the opposite ends of an elongated support member 86 which extends substantially along the width of conveyor belt 42 and has a substantially rectangular cross section as shown in FIG- URE 4. The other ends of

rods

78 and 80 are, of course, attached to pistons (not shown) to which are further attached elongated

cylindrical plungers

88 and 90 which extend through the upper ends of

cylinders

74 and 76, respectively. Collars 92 and 94 are aflixed to the plungers and are provided with

beveled shoulders

96 and 98 at their upper ends for a purpose to be hereinafter more fully explained.

Support member 86 is provided with a longitudinal slot 100 along the bottom thereof extending substantially the length of member 86 for receiving a plurality of rectangular, relatively thin, vertically depending segments or stop bars 102. Integral shoulders or protuberance 104 are provided on stop bars 102 adjacent the upper ends thereof for engagement with the bottom of support member 86 to limit the extent of downward travel of such stop bars. It should be noted that the stop bars 102 may be moved vertically with respect to the support member 86 for a purpose to be hereinafter explained.

An elongated structural channel member 106 of a U- shaped cross section and an elongated structural member 108 of an inverted L-shaped cross section extend along the bottom of the stop gate assembly and are suitably rigidly secured at their opposite ends to

end brackets

70 and 72. The bight portion of member 106 and the longer leg of member 108 are disposed in a back-to-back spaced relationship to form a slot for accommodating the stop bars .102.

An elongated guide rail 110 secured to the edge of the shorter leg of member 108 extends along the length of the stop gate assembly 68 and carries a pair of

brackets

112 and 114, said brackets being selectively positioned along the length of the guide rail and held in the selected position by means of suitable shoulder screws 116.

Rigidly secured as by any suitable means to

brackets

112 and 114 are pneumatic actuating cylinders .118 and 4 p having

piston rods

122 and 124, respectively, longitudinally movable relative thereto and having

abutment rollers

126 and 128 rotatably secured to the lower ends of said rods, respectively. The other ends of

rods

122 and 124 are connected within their respective cylinders to pistons (not shown) which have elongated cylindrical plungers 130 and .132 extending upwardly therefrom and through the uppers ends of

cylinders

118 and 120. Collars 134 and 136, aflixed to stems 130 and 132 are provided with

beveled shoulders

138 and 140, respectively, at their upper ends for a purpose hereinafter explained.

Suitably rigidly secured to brackets 112 and .114 on the sides opposite the cylinders are a pair of limiting

switches

142 and 144 having

pivotable levers

146 and 148 provided with

rollers

150 and 152 at their free ends, respectively. Vertical movement of

plungers

130 and 132

swing levers

146 and 148 upwardly about their respective pivot axes due to the camming action of their respective beveled shouldered collars so as to close the normally open limit switches .142 and 144, respectively.

In like manner, a pair of limiting

switches

154 and 156, rigidly secured to end

brackets

70 and 72 are provided with pivotable levers 158 having rollers 160 (see FIGURE 4) disposed at their free ends, respectively.

Switches

154 and 156 are closed in the same manner as

switches

142 and 144 through their respective plunger and lever arrangements.

Referring now to the diagrammatic showing of the pneumatic system in FIGURE 5, it will be observed that a pressure supply conduit 162 connected to a suitable source of fluid pressure (not shown) directs fluid under pressure to

conduits

164 and 166. Conduit 164 is connected to a suitable pressure reducing valve 168 which in turn is connected to a directional valve 170 by means of conduit 172. A pressure gauge 174 is tapped into conduit 172 for indicating the pressure supply to directional valve 170. Leading from valve 170 is a conduit 176 connected to the upper sides of the pistons in

cylinders

74 and 76 by means of

conduits

178 and 180, respectively. Also leading from valve 170 is a conduit 182 connected to the lower sides of the pistons in

cylinders

74 and 76 by means of conduits 184 and .186, respectively. Directional valve 170 is provided with a spool valve and the position of such spool valve is controlled by a solenoid 188 and a spring 190.

Conduit 166 is connected to a directional valve 192 having a spool valve therein, the position thereof being controlled by a solenoid 194 and a spring 196. A conduit 198 connects the directional valve 192 to a pressure reducing valve 200. Leading from the pressure reducing valve 200 is a conduit 202 connected to the upper side of the pistons in

cylinders

118 and 120 by means of

conduits

204 and 206, respectively. A pressure gauge 208 is tapped into conduit 202 for ascertaining the amount of pressure supplied to said conduit and thereby to the

cylinders

118 and 120. The lower portions of

cylinders

118 and 120 are vented to exhaust to preclude pressure build-up therein.

With reference to FIGURES 5 and 6, the mode of operation is as follows: a workpiece, such as a veneered Wood panel, is placed on conveyor belt 42 and is advanced toward the sanding machine. Assuming the leading edge of the workpiece is not parallel with the stop gate assembly, a portion of the leading edge of the workpiece will contact one of the abutment rollers and raise it slightly to actuate its respective plunger and thereby trip the corresponding limit switch. When the other abutment roller is engaged by another portion of the front edge of the workpiece, it will affect closing of its respective limit switch, which is in series with the other switch, to complete a circuit through conductor 208 to energize timer 210, thus maintaining the stop gate assembly 68 down for a predetermined time until the workpiece abuts stop bars 102, which form an aligning gate for the leading edge of the workpiece, thereby allowing the workpiece to align itself. It should be noted that the exciting current for the circuit shown in FIGURE 6 is supplied from a suitable source (not shown) through

input terminals

212 and 214.

At the end of this predetermined time, time delay relay 216 closes to energize solenoid 188. When the solenoid 188 is energized, the spool valve within directional valve 170 is displaced to align conduit 176 with exhaust so that the upper side of the pistons Within

cylinders

74 and 76 will be vented by means of

conduits

178 and 180. Conduit 172 will then be in communication with conduit 182 to direct fluid pressure to the underside of the pistons within

cylinders

74 and 76 for the purpose of elevating support member 86 and stop bars 102 thus allowing the workpiece to advance toward and beneath the abrasive belt 26.

Actuation of

cylinders

74, 76,

trip limit switches

154, 156, which are in series, to complete a circuit through conductor 214 to energize solenoid 194 and control relay 216. Energization of solenoid 194 displaces the spool valve therein to direct fluid under pressure from conduit 166 to 198 and then to the upper sides of the pistons in

cylinders

118 and 120 to exert pressure on the workpiece against the moving conveyor belt 42 so as to maintain the alignment of the workpiece effected by the stop gate assembly 68.

Energization of the control relay 216 and its attendant circuitry (not shown) is effective in responding to the linear rate of travel of conveyor belt 42 for controlling the exact instant of caul assembly lowering in order to insure that the workpiece is properly located beneath the abrasive belt 26. As this caul .assembly control mechanism is conventional and has been widely used in known commercial structures by applicants assignee, no further explanation or amplification is believed necessary.

As the

abutment rollers

126, 128 drop off the trailing edge of the workpiece,

limit switches

142, 144 are opened to interrupt the circuit in line 208, thereby de-energizing solenoid 188. As solenoid 188 is de-energized, spring 190 displaces the spool valve in directional valve 170 to exhaust pressure from the lower sides of the pistons of

cylinders

74 and 76 through

conduits

184, 186 and 182 (see FIGURE 5) while fluid under pressure is directed to the upper sides of the pistons to lower member 86 and stop bars 102. However, since the workpiece is still partially beneath the stop bars 102 and because they are vertically movable with respect to support member 86, they merely ride on top of the workpiece until such workpiece passes thereby at which time the bars descend by gravity to their down position in readiness for the next workpiece.

Lowering of the support member 86 opens

limit switches

154 and 156 to interrupt the circuit in line 214 which effects de-energization of solenoid 194. Spring 1% displaces the spool valve within directional valve 192 to exhaust pressure from the upper sides of the pistons in

cylinders

118 and 120 so that the next workpiece can easily raise the abutment rollers. The apparatus is now conditioned for a repetition of the above described cycle.

It should be appreciated that two workpieces of shorter lengths and substantially equal widths may be aligned in a side-by-side relationship by means of the stop gate assembly prior to approaching the caul as sembly in a manner similar to that described above in connection with a single workpiece since the cycle will not be initiated until both series-connected

switches

142, 144 are activated.

The principles of this invention contemplate the utilization of only one limit switch, if desired. In such an arrangement, either switch 142 or 144 would be electrically connected in line 208 to initiate the above-described cycle. Moreover, it should be realized that other types of electrical switches, such as static switches for example, may be employed in lieu of the mechanical switches 6 shown within the purview of the principles of this invention.

As a result of this invention, an improved belt sanding and polishing machine is provided for polishing veneered workpieces in an improved and more efficient manner. By the provision of a stop gate assembly incorporating a plurality of segments or stop bars, the workpieces are restricted in their advancement toward the sanding machine until the leading edges thereof are in alignment, thereby insuring that the leading edges of such workpieces will be properly disposed parallel to the longitudinal axis of the abrasive belt. Because a workman need not exercise time-consuming care in depositing workpieces on the conveyor belt, increased production is obtained. Moreover, the workpieces may be transferred to the conveyor belt by any mechanical means of conveyance without any concern for the precise orientation of the leading edges of said workpieces.

A preferred embodiment of this invention having been described and illustrated, it is to be realized that modifications thereof may be made without departing from the broad sphere and scope of this invention as defined in the appended claims.

I claim:

1. A sanding and polishing machine comprising: a base; an upper frame mounted on said base; an abrasive belt mounted for movement on said upper frame; a lower frame mounted on said base and spaced beneath said upper frame; said lower frame supporting a conveyor means for advancing a workpiece through a path of travel toward said abrasive belt and normal to said movement of such abrasive belt; aligning means mounted on said upper frame forwardly of said abrasive belt and extending transversely of said path of travel for interrupting the advancement of said workpiece until the leading edge thereof abuts said aligning means and is disposed parallel thereto; and power means for elevating said aligning means to allow the workpiece to pass thereby.

2. A sanding and polishing machine as defined in claim 1 having means mounted forwardly of said aligning means for sensing the presence of a workpiece; and control means responsive to said sensing means after a time delay for actuating said power means to elevate said aligning means out of the path of travel of said workpiece.

3. A sanding and polishing machine as defined in claim 2 wherein said aligning means comprises a substantially vertically movable support member operatively connected to said power means and having a plurality of aligned work engageable segments supported thereby and substantially vertically movable relative thereto.

4. A sanding and polishing machine as defined in claim 3 wherein said sensing means comprises at least one movable member having a portion engageable by an approaching workpiece; said control means activated in response to vertical movement of said movable member for initiating actuation of said power means.

5. A sanding and polishing machine as defined in claim 4 having pressure means operatively connected to said movable member for urging said workpiece against said conveyor means; said control means including first electrical switching means for initiating actuation of said power means, time delay means for delaying the actuation of said power means momentarily, and second electrical switching means for actuating said pressure means after the leading edge of said workpiece has advanced beyond said movable member.

6. A work positioning and aligning apparatus comprising: a frame; an aligning means mounted on said frame forwardly of a work station and normally disposed transversely of the path of travel of a workpiece approaching said work station for interrupting advancement of said workpiece until the leading edge thereof abuts said aligning means and is disposed parallel thereto; power means for elevating said aligning means; means mounted on the frame forwardly of said aligning means for sensing the 7 presence of a workpiece; and control means responsive to said sensing means after a time delay for actuating said power means to elevate said aligning means out of the path of travel of said workpiece.

7. A work positioning and aligning apparatus as defined in claim 6 wherein said aligning means comprises an elongated substantially vertically displaceable support member having a plurality of aligned work engageable segments supported thereby and substantially vertically movable relative thereto; said work engageable segments disposed in a side-by-side relationship along the length of said support member.

8. A Work positioning and aligning apparatus as defined in claim 7 wherein said support member is of a rectangular cross section having a slot extending longitudinally of said support member along the bottom wall thereof; said work engageable segments having upper portions provided with protuberances, respectively, supported by said bottom wall and portions extending downwardly through and beyond said slot.

9. A work positioning and aligning apparatus as defined in claim 7 wherein said sensing means comprises at least one movable member having a portion engageable by an approaching workpiece; said control means having electrical switching means activated in response to vertical movement of said movable member for initiating actuation of said power means; said control means including time delay means for delaying the actuation of said power means a sufficient period of time to allow the alignment of the leading edge of said work-piece with said plurality of work engageable segments.

10. A work positioning and aligning apparatus as defined in claim 9 having a pressure means for urging said movable member against said workpiece; said control means including other electrical switching means for actuating said pressure means after the leading edge of said workpiece has advanced beyond said movable member.

References Cited UNITED STATES PATENTS 8/1966 Schrempp 27160 X JAMES L. JONES, JR., Primary Examiner.