[0001] This invention relates to apparatus for washing sand and the like and in particular,
though not exclusively, to apparatus suitable for washing sands mixed with a lot of
soft stones, lumps of clay, lumps of tough loam, etc. in order to obtain sands for
making a high quality concrete aggregate for use in construction.
[0002] Heretofore, there has been known apparatus for washing sands mixed with soft stones,
lumps of clay, lumps of tough loam, etc. in order to remove soft stones, lumps of
clay, lumps of tough loam, etc. therefrom. This conventional apparatus is provided
at its discharge port with two cover boards or caps each formed with a hole and overlapping
one upon the other.
[0003] When in use, the caps are slidable with respect to each other to adequately vary
the hole size of the caps depending on the conditions of sands to be washed. The sands
are washed by appropriately controlling the resistance applied thereto by varying
the caps' size.
[0004] The conventional apparatus of this type, however, has a crucial disadvantage in that
a discharge port formed in the cap is frequently blocked. If more quantity of sands,
lumps of clay, etc. are mixed in the sands, the foregoing disadvantage is more easily
obtained. Thus, sands of high quality are not effectively obtained.
[0005] It is an object of the present invention to provide apparatus for washing sand and
the like, especially sand mixed with soft stones, lumps of clay, lumps of tough loam,
etc. which remedies the aforementioned disadvantage of the known apparatus.
[0006] According to the present invention apparatus for washing sand and the like is characterised
by a cylindrical body having a feed port at one end and a discharge port at the other
end, a rotatable main shaft disposed within the body, crush blade means mounted on
the main shaft and projecting therefrom, a rotary vane mounted to the front end of
the main shaft, a support arm mounted at the other end of the body, a pressure cap
having a feed water port supported by the support arm in opposed relationship to the
discharge port, and spring means acting between the pressure cap and the support arm
for biassing the pressure cap towards the discharge port.
[0007] The main advantage of the present invention is that sand and the like is effectively
crushed by the crush blade means and agitated by the rotary vane positioned in front
of the discharge port where it is thoroughly washed by water from the feed water port
in the pressure cap prior to being discharged between the discharge port and the pressure
cap under the control of the resilient biassing of the pressure cap. In this way the
risk of the apparatus becoming blocked is reduced and sand and the like of high quality
can be obtained.
[0008] Advantageously the spring means is adjustable to vary the biassing force according
to requirements thereby further contributing to the quality of sands and the like
that can be obtained.
[0009] An exemplary embodiment of the present invention will now be described in more detail
with reference to the accompanying drawings, wherein:-
Fig. 1 is a front view of apparatus for washing sand according to the present invention;
Fig. 2 is a plan view of the apparatus shown in Fig. 1;
Fig. 3 is a vertical sectional view of part of the apparatus shown in Figs. 1 & 2;
Fig. 4 is an exploded perspective view, partly cut away, showing the pressure cap
and wear plate assembly; and
Fig. 5 is a front view of the moving vane.
[0010] In the drawings, reference numeral 1 generally denotes a lateral cylindrical body
comprising upper and lower semi-cylindrical shells 4 and 5 mounted on the upper surface
of a base plate 3 supported by legs 2, 2' so as to be inclined downwardly from left
to right as viewed in Figure 1.
[0011] The shells 4,5 have opposed flanges 7,7' respectively on each side of the cylindrical
body which are releasably secured together by screws, bolts or the like and the cylindrical
body 1 has an inside panel 6 attached to its internal surface by screws to form a
two-layer structure.
[0012] The cylindrical body 1 is inclined downwardly from its rear end to its front end
and is provided on the upper surface at the rear end with a feed port 8 for feeding
sands therein. Also provided on the upper surface of the cylindrical body 1 are inspection
doors 9 for checking the interior thereof.
[0013] A cantilever rotatable main shaft 10 is disposed on the central longitudinal axis
of the body 1. One end portion of the main shaft 10 extends near to the front end
of the body 1. The other end portion of the main shaft 10 projects from the rear end
of the body 1 and is carried by spaced apart bearings 11 fixed to the upper surface
of the base plate 3. A drive motor 12 is connected to the main shaft 10 by a chain
(not shown).
[0014] The main shaft 10 has mounted thereon a plurality of square-shaped sleeves 13. The
sleeves 13 are provided at the outer peripheries with mounting plates 14 projecting
in a spiral form or circumferentially repeated form therefrom. The mounting plates
14 are attached each with a crush blade 15 by screws.
[0015] The main shaft 10 is provided at the front end thereof with a moving vane 16. The
moving vane 16 is attached at its front end with a square-shaped shaft plate 17 by
screws. On three sides of the shaft plate 17 are attached respective mounting plates
18 projecting therefrom so as not to interfere with the mounting operation of the
crush blade 15 provided at the front end of the main shaft 10. The mounting plates
18 are attached each with an agitation wing 19 by screws.
[0016] A spline shaft 20 is carried on a bearing 21 fixed to the flanges 7,7' on one side
of the body 1 at the front end. One end of the spline shaft 20 is connected with a
threaded rod 22. The threaded rod 22 passes through a check plate 23 secured to the
flanges 7,7'. The threaded rod 22 is threadedly engaged with nuts 24 arranged on both
sides of the check plate 22. Due to the foregoing arrangement, the spline shaft 20
is adjustable in the longitudinal direction.
[0017] The other end of the spline shaft 20 is pivotally attached to one end of a support
arm 25. The other end of the support arm 25 is formed with a fork-shaped portion 26.
This fork-shaped portion 26 receives a threaded rod 28 pivotally attached to a bracket
27 fixed to the flanges 7,7' on the other side of the body 1 at the front end. The
support arm 25 is adjustably and releasably attached to the rod 28 by a nut 29 and
handle checkscrew 30 threadedly engaged on the rod 28.
[0018] The support arm 25 is integrally provided at the intermediate portion thereof with
a triangular shaped body 31. The body 31 is provided at each corner portion thereof
with a respective threaded sleeve 32. Each threaded sleeve 32 is engaged with a respective
threaded pressure rod 33 having a handle 34. Each pressure rod 33 is engaged at the
front end thereof with a respective spring 35. The springs 35 are adapted to bias
a pressure cap 37 against a discharge port 36 of the body 1.
[0019] The pressure cap 37 is provided at the centre of the outer surface facing the support
arm 25 with a spline shaft 38 projecting therefrom and received in a bearing 40 integrally
formed at the centre of the body 31. In this way, the pressure cap 37 is slidably
supported by the support arm 25.
[0020] The spline shaft 38 is formed with a central bore providing a feed water port 39
which is connected with a feed water pipe 49. A second feed water pipe 50 is connected
to the lower rear end of the body 1.
[0021] Fig. 4 illustrates a wear plate assembly consisting of three wear plates 41,42,43
which are attached to the inner surface of the pressure cap 37 facing the discharge
port 36. The disc-shaped wear plate 41 is secured to the centre portion of the inner
surface of the pressure cap 37 by bolts received in aligned holes in the wear plate
41 and pressure cap 37. The wear plate 41 is formed with a central hole communicating
with the feed water port 39 and is provided at the periphery thereof with the wear
plates 42, 43.
[0022] The annular wear plate 42 is made up of three similar pieces 45 which engage the
inner surface of the pressure cap 37 on one side and are formed at the outer periphery
on the other side with a step portion 46 corresponding to the front end of the body
1.
[0023] The annular wear plate 43 is also made up of three similar pieces 47 and overlies
the wear plate 42 inwardly of the step portion 46. The wear plates 42,43 are secured
to the inner surface of the pressure cap 37 by bolts 48 received in aligned holes
therein. By this arrangement the ward plate 43 which is subject to the greatest wear
can be easily replaced.
[0024] When sands are washed by the apparatus according to the present invention, firstly,
the threaded pressure rods 33 are rotated by the associated handles 34 to adjust the
biassing force exerted by the springs 35 on the pressure cap 37 depending on the sands'
state. Thereafter, the drive motor 12 is actuated to rotate the main shaft 10 and
the sands are fed into the body 1 through the feed port 8. At the same time, water
is fed to the body 1 through the feed water pipes 49,50.
[0025] The sands mixed with soft stones, lumps of clay, lumps of tough loam, etc. are transferred
from the rear end of the body 1 towards the discharge port 36 at the front end while
being agitated by the crush blades 15 rotating within the body 1. At the front end
of the body 1, the sands are urgedly pushed against the wear plates 41,43 by the pressure
of the succeeding sands, while at the same time being powerfully agitated by the rotary
vane 16 and washed by water fed from the feed water port 39. The washed sands are
finally discharged from the body 1 through a space created between the discharge port
36 and step portion 46 at the peripheral edge of the wear plate 42 as the pressure
cap 37 and wear plate assembly is pushed back against the biassing of the springs
35 by the sand pressure.
[0026] As a result, soft stones, lumps of clay, lumps of tough loam etc. mixed with the
sands are completely crushed by the crushing effect of the crush blades and the rotary
vane as well as the friction effect among the sands etc, and he crushed material is
washed and discharged from the front end of the body between the discharge port and
the peripheral edge of the wear plate assembly. Thus there can be effectively obtained
sands of good quality.
[0027] In addition, since the pressure of the wear plate assembly with respect to the sands
can be adequately controlled by adjusting the biassing force of the springs acting
on the pressure cap, sands of the best quality can be obtained by adjusting the pressure
as required.
[0028] Although in the above embodiment the apparatus according to the present invention
is described for washing sands, it may be effectively used for crushing a concrete
structure or a glass product. More specifically, the apparatus according to the present
invention can be used for crushing blocks, for example obtained from old structures,
into powder-like cement and the like which may be effectively reused for making a
ground bed for a buried pipe or ballast and the like which may be used for a concrete
aggregate. Likewise, glass products such as old bottles may be crushed into reusable
powder-like glass material in large quantity with ease by using the apparatus according
to the present invention.
1. Apparatus for washing sand and the like characterised by a cylindrical body (1)
having a feed port (8) at one end and a discharge port (36) at the other end, a rotatable
main shaft (10) disposed within the body (1), crush blade means (15) mounted on the
main shaft (10) and projecting therefrom, a rotary vane (16) mounted to the front
end of the main shaft (10), a support arm (25) mounted at the other end of the body
(1), a pressure cap (37) having a feed water port (39) supported by the support arm
(25) in opposed relationship to the discharge port (36), and spring means (35) acting
between the pressure cap (37) and the support arm (25) for biassing the pressure cap
(37) towards the discharge port (36).
2. Apparatus according to claim 1 characterised in that the cylindrical body (1) comprises
two semi-cylindrical shells (4,5) and has an inside panel (6) attached to the internal
surface thereof.
3. Apparatus according to claim 1 or claim 2 characterised in that the main shaft
(10) is provided with a plurality of sleeves (13) on which crush blades (15) are mounted
in a spiral form or a circumferentially repeated form.
4. Apparatus according to any one of the preceding claims characterised in that the
rotary vane (16) comprises a plurality of agitation wings (19) projecting from the
outer periphery of a shaft plate (17) therefor.
5. Apparatus according to any one of the preceding claims characterised in that the
support arm (25) is integrally provided with an angular body (31) having at each corner
a respective threaded sleeve (32) in which a threaded pressure rod (33) is engaged,
and the spring means (35) comprises a respective spring (35) acting between each pressure
rod (33) and the pressure cap (37) to bias the pressure cap (37) towards the discharge
port (36) with the pressure rods (33) each having a respective handle (34) for adjusting
the biassing force of the associated spring (35).
6. Apparatus according to any one of the preceding claims characterised in that the
pressure cap (37) is provided at the centre of the outer surface facing the support
arm (25) with a spline shaft (38) engaged in a bearing (40) on the support arm (25),
the spline shaft (38) having a central bore providing the feed water port (39).
7. Apparatus according to any one of the preceding claims characterised in that the
pressure cap (37) is provided on the inner surface facing the discharge port (36)
with a wear plate assembly (41,42,43).
8. Apparatus according to claim 7 characterised in that the wear plate assembly (41,42,43)
comprises an inner disc-shaped wear plate (41) and two outer annular wear plates (42,43)
extending around the inner wear plate (41).
9. Apparatus according to claim 9 characterised in that the wear plate (42) has a
step portion (46) at the peripheral edge thereof adapted to co-operate with the discharge
port (36).
10. Apparatus according to any one of claims 7 to 9 characterised in that the wear
plate assembly (41,42,43) is detachably mounted on the pressure cap (37).