GB1579634A

GB1579634A - Noise suppression structure for block making machinery

Info

Publication number: GB1579634A
Application number: GB2543877A
Authority: GB
Original assignee: Besser Co
Current assignee: Besser Co
Priority date: 1976-08-12
Filing date: 1977-06-17
Publication date: 1980-11-19
Also published as: CA1082108A; DE2736287C3; JPS5322518A; DE2736287B2; DE2736287A1

Description

(54) NOISE SUPPRESSION STRUCTURE FOR BLOCK MAKING MACHINERY (71) We, BESSER COMPANY, a corporation organized under the laws of the State of Michigan, United States of America, of Alpena, Michigan 49707, United States of America, do hereby declare the invention for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to apparatus for block making. The invention may be applied to a conventional concrete or the like block moulding machine of the kind having a mould open at its top and bottom and into which mouldable material such as concrete may be introduced.To provide a removable bottom for the mould, a pallet conventionalliy is supported atop a vertically movable pallet support which is carried by a vertically reciprocable frame so as to enable the pallet to be held in a position against the bottom of the mould. The conventional machine also includes a vertically movable stripper which compacts the mouldable material in the mould and subsequently ejects the compacted material from the mould by moving downwardly through the mould. As the stripper moves downwardly, the pallet support also moves downwardly so as to maintain its support for the block as it is ejected from the mould.

In the manufacture of concrete and the like blocks, it is conventional practice to vibrate the mould following introduction of the mouldable material thereto and prior to the ejection of the moulded block.

Although numerous attempts heretofore have been made to minimize noise generated as a result of the vibration of the mould, it has been exceedingly difficult to clamp the pallet sufficiently tightly against the bottom of the mould to prevent relative movement between the mould and the pallet during vibration of the mould, thereby resulting in the generation of noise above the level of that required by some statutes.

Moreover, it has been difficult heretofore to prevent some lateral or sidewise relative movement between the mould and its supporting structure, thereby resulting in the generation of additional noise as a consequence of vibration of the mould.

The present invention provides an apparatus for block marking, said apparatus comprising fixed frame means; a mould assembly normally supported on the fixed frame means, including an open-ended mould, and a pallet closing the open end of the mould; means for temporarily lifting the mould assembly with respect to said fixed frame means; vibratory means for vibrating said mould assembly; and first and second resilient vibration damping means provided in opposed relationship such that the mould assembly is floatingly supported by said first and second resilient vibration damping means when it is temporarily lifted with respect to said fixed frame means and then vibrated by said vibratory means, the first resilient vibration damping means interacting between the pallet and means for lifting the mould assembly and the second resilient vibration damping means interacting between the mould and fixed frame means.

The first and second resilient damping means act in opposition to one another so as to clamp the mould and the pallet tightly against one another and to provide a cushioned, floating suspension for the mould and pallet during vibration of the mould so as to minimize greatly noise generated as a result of mould vibration, for example, due to engagement between the mould and fixed frame means.

An embodiment of the invention will now be described with reference to the accompanying drawings, wherein: Figure 1 is a fragmentary, front elevational view of a typical concrete block making machine fittcd with apparatus constructed in accordance with the invention, certain parts being broken away for clarity; Figure 2 is a diagrammatical, side elevation view, partly in section, the section being taken along the line 2-2 of Figure 1; Figure 3 is a horizontal sectional view taken along the line 3-3 of Figure 1; Figure 4 is a view similar to Figure 1, but illustrating parts of the apparatus in adjusted positions; and Figure 5 is a view similar to Figure 2, but taken along the line 5-5 of Figure 4.

Apparatus constructed in accordance with the invention is adapted for use in conjunction with an otherwise conventional concrete block making machine having a base 1 provided with an upstanding frame, including spaced apart frame members 2 and 3 having between their upper and lower ends forwardly projecting arms 4 and 5, respectively. The frame members 2 and 3 are notched to provide throats 6 and 7 having flat, horizontal, support surfaces 8 and 9.

Spanning the throats and supported upon the surfaces 8 and 9 when at rest is a mould frame 10 on which is supported a mould member ]1 having an open top and an open bottom. The interior of the mould is shaped to correspond to the block (or plurality of blocks) of the kind to be moulded. A shroud 12 is carried by the member 10 and surrounds the open top of the mould 11 as is conventional.

At opposite ends of the mould frame 10 are secured a pair of fore and aft extending base or lower plates 13. At the forward end of each plate is fixed a bushing 14. Parallel to, but spaced above each plate 13, is a corresponding upper plate 15 at the forward end of each of which is fixed a block 16 from which depends a guide pin 17 which is snugly, but slideably, accommodated in its companion bushing 14.

The upper plates 15 are secured to the lower ends of vertical supports 18 which constitute parts of the machine frame and form slideable guides for a stripper frame 19 which is vertically reciprocable by means yet to be described. The frame 19 supports a stripper head 20 which is of such size and shape as to fit snugly, but slidcably, within the mould 11.

The mould frame 10, as stated earlier, normally rcsts upon the surfaces 8 and 9 of the throats 6 and 7, but the mould frame is capable of vertical movement and is guided in such movement by the guide pins 17.

Upward movement of the mould frame relative to the stripper frame is opposed by yieldably compressible force applying means 21 comprising a plurality of gas filled, expansible and contractile bags 22 interposed between the lower and upper plates 13 and 15, respectively. The extent to which the mould frame 10 can move upward relative to the stripper frame is determined by the compressibility of the bags 22 and by the upward force applied to frame 10. For purposes of the invention, it is sufficient if the mould frame 10 is capable of movement toward the stripper frame a distance of about 3/4 inch so as to provide gas G (see Figure 2) of about 3/4 inch between the throat surface 8 and 9 and the bottom of the frame 10.

As is conventional, the mould frame 10 is fitted with motor driven vibrators, diagrammatically shown at 23 in Figures 1 and 3, for the purpose of vibrating the frame 10 and the mould 11. The vertical amplitude of vibrating movement of the mould frame should be less than the height of the gap G so as to avoid engagement between the frame 10 and the throat surfaces 8 and 9 during vibration of the frame.

As is conventional, the moulding machine includes a pallet support 25 comprising an upper plate 26 fitted with rubbery pads 27 atop which a metal pallet 28 may be supported to form a removable bottom for the mould 11. The upper plate 26 has a depending skirt 29 within which is accommodated the upper ends of a pair of downwardly tapering support arms 30. The upper ends of the arms are fixed to the plate 26 and the lower ends of the arms are welded to a transverse beam 31 which spans the frame members 2 and 3 at the front of the machine. The arms 30 and the beam 31 thus are movable vertically as a unit in a manner and for a purpose presently to be explained.

Straddling the beam 31 is a pallet support lifter frame 32 constituting motion transmitting means for the beam 31 and its associated structure. The lifter frame comprises a pair of spaced apart members 33 joined at their ends by cross members 34 (see Figures 2 and 4). Each member 33 has fixed thereto a bar 35 to which is anchored the lower ends of a pair of struts 36, the upper ends of which are fixed to a horizontal pressure plate 37. The construction is such that the lifter frame 32 and the pressure plate 37 are vertically movable as a unit.

Fitted atop the pressure plate 37 is yieldably compressible force applying means 38 comprising a gas filled, expansible and contractile bag 39 encirculed at its center by a ring 40. The bag bears at its upper end against the bottom of the pallet support plate 26. The bag 39 thus constitutes the support for the transverse beam 31 and, since the bag is compressible, it forms a lost motion coupling between the lifter frame 32 and the pallet support 25 which enables relative vertical movement therebetween.

Relative movement between the beam 31 and the lifter frame 32 results in relative movement between the pallet support 25 and the pressure plate 37. The extend of downward movement of the pressure plate 37 relative to the pallet support 25 may be regulated by means of a plurality of adjustable positioning screws, two of which are shown at 41 in Figures 1 and 4, which are threadedly mounted in lugs 42 carried by the support arms 30. The screws 41 are adjustable for the purpose of ensuring a parallel relation between the plane of the mould 11 and the plane of the pallet support plate 26 when the gap G has been eliminated.

The vertical movements of the stripper frame 19 and the pallet lifter frame 32 are effected by cam controlled conventional drive means illustrated diagrammatically in Figures 2 and 5. The drive means for the stripper frame comprises a pair of motor driven cams 43 and 44 which are engageable and disengageable with a pair of followers 45 and 46, respectively, journaled at one end of a bell crank 47 that is pivoted as at 48 to the machine frame. The opposite end of the crank is pivotally connected by linkage 49 to the stripper frame 19 to effect vertical movements of the latter according to the contour of the cams.

The drive means for the pallet lifter frame 32 comprises a motor driven cam 50 in engagement with a follower 51 journaled at one end of a bell crank 52 that is pivoted to the machine frame at 53. The opposite end of the crank 52 is connected by linkage 54 to the lifter frame cross member 34. The contours of the cams are so related to one another as to effect precise conjoint and relative movement of the stripper frame 19 and the lifter frame 32 for a purpose to be explained.

As is conventional the stripper frame 19 and the lifter frame 32 are provided with confronting pairs of adjustable stops 55 and 56 operable to limit relative movement of such frames toward one another for the purpose of controlling the height of the block formed in the mould 11.

When the machine is conditioned for the molding of a block, the parts will occupy the position illustrated in Figures 1 and 2 in which the stripper frame 19 is elevated to permit mouldable material to be introduced to the mold 11. A pallet 28 will be supported on the pallet support 25 and will engage the bottom of the mould 11 to form a removable bottom for the latter. The lifter frame 32 also will be in an elevated position, thereby holding the pressure plate 37 at a level above that of the positioning screws 41.

Movement of the pressure plate 37 off the screws 41 causes an upward force to be applied by the bag 39 to the pallet support 25 so as to cause the plate 26 to clamp the pallet 28 tightly against the mould 11 and lift the mould frame 10 upwardly off the throat surfaces 8 and 9 to form the gap G. The upward movement of the mould frame 10 causes the lower plates 13 to move upwardly relative to the fixed plates 15, thereby effecting compression of the gas filled bags 22. The bags 22 thus apply a compressive force on the mould frame 10 in opposition to the force applied by the bag 39, and the gas content of the respective bags is so selected that the opposing forces are equal, whereby the mould frame 10 is yieldably suspended between the throat surface 8 and 9 and the upper plate 15.

The upward movement of the pallet support 25 causes corresponding movement of the beam 31 and of the positioning screws 41, but such movement is insufficient to effect reengagement of the screws with the pressure plate 37 because of the opposition force applied on the pallet support 25 via the members 22. There thus will be provided a gap G' between the pressure plate 37 and the screws 41 and the height of such gap should be greater than the amplitude of vertical movement of the mould during the vibration.

During the filling of the mould, the clamping of the pallet 28 to the bottom of the mould, and the lifting of the mould off the throats, the vibrators 23 are operated to vibrate the mould frame, thereby effecting even distribution and compaction of the mouldable material throughout the mould.

During the vibration of the mould frame the stripper frame 19 is lowered by its drive means so as to cause the stripper head 20 to enter the mould 11 to the level permitted by the stop members 55 and 56. Upon engagement of the stop members 55 and 56 vibration of the mould is discontinued, as is conventional.

In conventional block molding machinery, it is customary to strip the moulded block from the mold immediately following termination of vibration of the mould by effecting simultaneous downward movement of the stripper head and the pallet support a distance sufficient to enable the moulded block to be pushed through the mould to a level below that of the bottom of the mould. Moulded blocks are stripped from the mould 11 of the present construction by movement of the stripper head through the mould, but the force exerted on the pallet support 25 by the bag 39 must be relieved shortly after the application of stripping force on the moulded block from the mould to avoid crumbling of the block.

The desired result is achieved by lowering the mould frame 10 to eliminate the gap G, thereby relocating the mould frame on the throat surfaces 8 and 9, and by simultaneously eliminating the gap G' between the pressure plate 37 and the screws 41.

Closing of the gaps G and G' is effected by the driving mechanisms for the stripper frame 19 and the pallet lifter frame 32. The cams 43 and 44 for controlling the movements of the stripper frame 19 are so contoured that the stripper frame is lowered relatively to the lifter frame 32 to a level in which the cooperable stops 55 and 56 engage one another, as stated previously.

During such movement of the stripper frame the pallet lifter frame 32 remains stationary. The stripper frame driving cam 43 and liftcr frame driving cam 50 are so contoured, howevcr, that, following en engagement of the cooperable stop members 55 and 56, the stripper frame 19 and the lifter frame 32 commence downward movement to free the moulded block in the mould. Thereafter the cams 43 and 50 drive the stripping frame 19 and the lifter frame 32 downwardly and at the same speed, thereby maintaining the relative positions of the stripper frame 19 and the lifter frame 32, but effecting lowering of the mould member 10 into seating engagement on the throat surfaces 8 and 9, so as to eliminate the gap G.Downward movement of the lifter frame 32 will cause the pressure plate 37 to seat on the positioning screws 41, thereby eliminating the gap G'.

Following engagement of the pressure plate 37 with the positioning screws 41, further rotation of the cam 50 effects further downward movement of the lifter frame 32 and such movement of the lifter frame is transmitted to the beam 31 via the pressure plate 37 and the screws 41 so as to effect simultaneous downward movement of the pallet support 25. Thereafter, the stripper frame 19 and the lifter frame 32 continue to move downwardly at the same rate of speed so as to enable the moulded block to be pushed downwardly through the mould 11 and ejected from the latter. During the ejection of the moulded block from the mould 11, the bag 39 is maintained in a compressed state, but the engagement be tween the pressure plate 37 and the screws 41 prevents upward movement of the pallet support 25 relative to the lifter frame.As a consequence, the pallet support 25 does not exert any force on the block being stripped from the mould 11.

The disclosed embodiment is representa tive of a presently preferred form of the invention, but is intended to be illustrative rather than definitive thereof. The invention is defined in the claims.

WHAT WE CLAIM IS: 1. Apparatus for block making, said apparatus comprising fixed frame means; a mould assembly normally supported on the fixed frame means, including an open-ended mould, and a pallet closing the open end of the mould; means for temporarily lifting the mould assembly with respect to said fixed frame means; vibratory means for vibrating said mould assembly; and first and second resilient vibration damping means provided in opposed relationship such that the mould assembly is floatingly supported by said first and second resilient vibration damping means when it is temporarily lifted with respect to said fixed frame means and then vibrated by said vibratory means, the first resilient vibration damping means interacting between the pallet and means for lifting the mould assembly and the second resilient vibration damping means interacting between the mould and fixed frame means.

2. The apparatus as set forth in claim 1, in which said means for temporarily lifting the mould assembly with respect to said fixed frame means includes a rotatable cam and a cam follower and link mechanism.

3. The apparatus as set forth in claim 1, in which said second resilient vibration damping means comprises gas-filled bags.

4. The apparatus as set forth in claim 3 in which the first resilient vibration damping means includes a gas-filled bag assembly.

5. Apparatus for block making substantially as herein described with reference to the accompanying drawings.

**WARNING** end of DESC field may overlap start of CLMS **.

Claims

**WARNING** start of CLMS field may overlap end of DESC **.

by the driving mechanisms for the stripper frame 19 and the pallet lifter frame 32. The cams 43 and 44 for controlling the movements of the stripper frame 19 are so contoured that the stripper frame is lowered relatively to the lifter frame 32 to a level in which the cooperable stops 55 and 56 engage one another, as stated previously.

During such movement of the stripper frame the pallet lifter frame 32 remains stationary. The stripper frame driving cam 43 and liftcr frame driving cam 50 are so contoured, howevcr, that, following en engagement of the cooperable stop members 55 and 56, the stripper frame 19 and the lifter frame 32 commence downward movement to free the moulded block in the mould. Thereafter the cams 43 and 50 drive the stripping frame 19 and the lifter frame 32 downwardly and at the same speed, thereby maintaining the relative positions of the stripper frame 19 and the lifter frame 32, but effecting lowering of the mould member 10 into seating engagement on the throat surfaces 8 and 9, so as to eliminate the gap G.Downward movement of the lifter frame 32 will cause the pressure plate 37 to seat on the positioning screws 41, thereby eliminating the gap G'.

Following engagement of the pressure plate 37 with the positioning screws 41, further rotation of the cam 50 effects further downward movement of the lifter frame 32 and such movement of the lifter frame is transmitted to the beam 31 via the pressure plate 37 and the screws 41 so as to effect simultaneous downward movement of the pallet support 25. Thereafter, the stripper frame 19 and the lifter frame 32 continue to move downwardly at the same rate of speed so as to enable the moulded block to be pushed downwardly through the mould 11 and ejected from the latter. During the ejection of the moulded block from the mould 11, the bag 39 is maintained in a compressed state, but the engagement be tween the pressure plate 37 and the screws

41 prevents upward movement of the pallet support 25 relative to the lifter frame.As a consequence, the pallet support 25 does not exert any force on the block being stripped from the mould 11.

The disclosed embodiment is representa tive of a presently preferred form of the invention, but is intended to be illustrative rather than definitive thereof. The invention is defined in the claims.

WHAT WE CLAIM IS: 1. Apparatus for block making, said apparatus comprising fixed frame means; a mould assembly normally supported on the fixed frame means, including an open-ended mould, and a pallet closing the open end of the mould; means for temporarily lifting the mould assembly with respect to said fixed frame means; vibratory means for vibrating said mould assembly; and first and second resilient vibration damping means provided in opposed relationship such that the mould assembly is floatingly supported by said first and second resilient vibration damping means when it is temporarily lifted with respect to said fixed frame means and then vibrated by said vibratory means, the first resilient vibration damping means interacting between the pallet and means for lifting the mould assembly and the second resilient vibration damping means interacting between the mould and fixed frame means.
2. The apparatus as set forth in claim 1, in which said means for temporarily lifting the mould assembly with respect to said fixed frame means includes a rotatable cam and a cam follower and link mechanism.
3. The apparatus as set forth in claim 1, in which said second resilient vibration damping means comprises gas-filled bags.
4. The apparatus as set forth in claim 3 in which the first resilient vibration damping means includes a gas-filled bag assembly.
5. Apparatus for block making substantially as herein described with reference to the accompanying drawings.