KR101856969B1 - Wear plate assembly for concrete pump and method of manufacturing the same - Google Patents

Abstract

A wear plate assembly for a concrete pump and a manufacturing method thereof are disclosed. The wear plate assembly includes a ring friction member which is detachably fixed to a pair of communication holes of a main body having a depression at a predetermined depth, a buried friction member composed of a plurality of friction pieces assembled in a space between the ring friction members, Wherein the ring friction member includes a cylindrical fixed ring, and a brazed portion on the upper surface of the fixed ring, wherein the ring friction member includes a cylindrical fixed ring, Wherein a ring-shaped pocket portion having a width and a depth for allowing the friction ring to be inserted and seated is formed on the upper surface of the stationary ring, and the friction ring is connected to the pocket portion via a brazing metal layer And are joined together. Therefore, the wear plate assembly of the present invention is solidified in a state of being trapped in the pocket portion without leaking out the molten brazing metal, so that the friction ring is bonded to the pocket portion, and the bonding strength of the friction ring is sufficiently secured, The durability and the service life of the battery can be extended.

Description

Technical Field [0001] The present invention relates to a wear plate assembly for a concrete pump and a method of manufacturing the same,

The present invention relates to a wear plate assembly for a concrete pump, and more particularly, to a wear plate assembly for a concrete pump which can improve the joint strength of the friction ring and thereby prolong its service life, and a method of manufacturing the same.

Generally, a concrete pump truck hopper for conveying a concrete slurry (hereinafter, simply referred to as "concrete") supplied from a ready-mixed vehicle to a high place is provided with a wear plate having a pair of through- Respectively. The abrasion plate is swung in the hopper and alternately communicates with the press-feeding cylinder, so that the concrete is supplied to the abrasion plate and slidably contacts the S-shaped swinging tube to be discharged to the conveying pipe.

Here, the mutual sliding contact portion between the wear plate and the oscillating pipe and the inside of the through hole through which the concrete passes are made of a wear-resistant material so as to withstand abrasion. Particularly, the friction ring mounted on the sliding contact portion is subjected to a large impact due to the shock generated when the large crits of the oscillating pipe are compressed and the foreign materials such as sand and gravel existing in the concrete, and the wear ring is broken or dropped do. In this way, when the friction ring is dropped or broken, the life of the wear plate is shortened, and it is required to be replaced with a new wear plate. Therefore, the material, bonding state, and strength of the friction ring are important factors that determine its life.

Japanese Patent Application Laid-Open Nos. 6-213143 and 8-177726 disclose that a wear plate is made of a cemented carbide. Japanese Patent Application Laid-Open No. 1999-0078553 discloses a technique in which a friction ring made of a cemented carbide material divided into a plurality of pieces is embedded in a depression of a wear plate to absorb a difference in thermal expansion and to replace only an irregular portion.

On the other hand, Korean Patent No. 1527943 discloses a structure in which a protruding inner ring is formed on the upper surface of a retaining ring of a wear plate, an inner circumferential surface of the cemented carbide friction ring is engaged with the protruding inner ring, A technique in which a cemented carbide friction ring is attached is described. The Chinese Utility Model Announcement CN 2828383Y, as a prior art, forms a U-shaped groove in the upper part of the holding ring or moving ring of the wear plate, and the hard alloy ring is inserted and fixed by welding. A technique for forming an abrasion resistant layer by welding is disclosed.

It is difficult to secure the bonding strength of the cemented carbide rubbing ring attached to the upper surface of the holding ring or the moving ring. Particularly, the Korean Patent No. 1527943 discloses that the groove portion on which the cemented carbide friction ring is mounted has only one of the protruding inner ring and the protruded outer ring so that when the cemented carbide friction ring is joined by the brazing operation, the molten metal ) Is leaked out to the outside. Therefore, if there is a region lacking molten metal along the circumferential direction of the cemented carbide ring, the bonding strength of the cemented carbide ring is not ensured, so that the cemented carbide ring is peeled or deformed prematurely and the pumping operation is interrupted. shall. Since the replacement work of the wear plate causes a great loss in time and cost, the durability of the cemented carbide ring is a key factor for determining the life of the wear plate.

In other words, the bonding state and bonding structure of the friction ring directly connected to the life of the wear plate and the lower ring of the steel retaining ring supporting the wear ring are important. Theoretically, in order to improve the bonding state of the cemented carbide ring to the lower steel ring, the molten metal (copper or copper alloy) is uniformly distributed on the boundary surface between the stationary ring and the friction ring And should be stable. That is, when the retaining ring with the friction ring is moved in the heating furnace for brazing work, the molten metal must be sufficiently wetted uniformly over the entire interface of the friction ring and the retaining ring even if a shaking or tilting occurs, It is important to prevent this from flowing out and being lost. For this purpose, it is important to prevent the breakage and dislocation of the cemented carbide ring by filling the molten metal at the interface between the friction ring and the retaining ring in an appropriate amount without loss of molten metal during the brazing operation so as to have sufficient bonding strength do.

In order to increase the life of the wear plate and the bonding strength of the friction ring directly, various proposals such as a change in the structure or material of the wear plate have been proposed. However, an economical alternative satisfactory yet has not been proposed yet. Therefore, there is a demand for development of a technique capable of extending the life of the wear plate by sufficiently ensuring the bonding strength of the friction ring uniformly without increasing the manufacturing cost.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a wear plate which can sufficiently ensure the bonding strength of the friction ring and thereby extend the durability and life of the wear plate, And to provide a wear plate assembly for a concrete pump and a method of manufacturing the same.

According to an aspect of the present invention, there is provided a wear plate assembly for a concrete pump including a ring friction member detachably fixed to a pair of flow holes of a body having a depression at a predetermined depth, A friction plate assembly for a concrete pump, comprising: an embedded friction member composed of a plurality of friction pieces assembled in a space between ring friction members; and an oscillating pipe reciprocatingly moving in sliding contact with the ring friction member and the embedded friction member, Wherein the ring friction member includes a cylindrical fixed ring and a friction ring brazed to an upper surface of the fixed ring, and a ring-shaped member having a width and a depth to allow the friction ring to be inserted and seated on an upper surface of the fixed ring And that the friction ring is bonded to the pocket portion via a brazing metal layer It shall be.

The oscillating pipe of the present invention may include a swinging friction ring in contact with the friction ring of the ring friction member, and a swinging fixed ring formed with a pocket on the upper surface to receive the swinging friction ring and braze.

Here, the pocket portion of the present invention may have a "U" -shaped section having a protruding inner ring and a protruding outer ring formed concentrically and having a bottom portion connecting the protruding inner ring and the protruding outer ring.

The protruding inner ring of the pocket portion of the present invention can be removed.

Further, the protruding outer ring of the pocket portion of the present invention can be further removed.

On the other hand, a groove having a predetermined depth is formed along the circumferential direction on the bottom surface of the pocket portion of the guide pipe of the present invention, and the cemented carbide piece can be inserted into the groove.

Another method of manufacturing an abrasion plate assembly for a concrete pump in accordance with another aspect of the present invention is a method of manufacturing an abrasion plate assembly for a concrete pump which comprises a cylindrical body having a depression at a predetermined depth and detachably fixed to a pair of communication holes of the body, And a ring-shaped friction ring is attached to the upper surface of the stationary ring of the ring friction member, the manufacturing method of the wear plate assembly for a concrete pump comprising the steps of: A protruding inner ring and a protruding outer ring are formed concentrically on the upper surface of the fixed ring and a bottom portion connecting the protruding inner ring and the protruding outer ring is formed to form a pocket portion having a U-shaped cross section, Wherein the step of attaching includes the step of forming a gap G1 between the protruding inner ring and the protruding outer ring of the friction ring and the pocket portion and a gap G2 between the bottom surface The brazing metal is applied to seat the friction ring, the holding ring with the friction ring mounted thereon is heated in a heating furnace to fill the molten brazing metal into the gaps G1 and G2, and the brazing metal is cooled to room temperature to solidify And the friction ring is joined to the pocket portion via a brazing metal.

In the present invention, copper (Cu) or copper alloy may be used as the brazing metal.

In addition, the copper alloy employed in the present invention may contain 8 to 15% by weight of phosphorus (P).

The abrasion plate assembly for a concrete pump according to the present invention having the above-described structure solidifies in a state where it is trapped in a pocket portion without leakage of molten brazing metal to join the friction ring to the pocket portion, The durability and life of the wear plate assembly can be prolonged.

The invention will be more clearly understood with reference to the accompanying drawings,
1 is a partially exploded perspective view of a wear plate assembly in accordance with an embodiment of the present invention.
2 is an assembly plan view of Fig.
3A is a sectional view taken along the line AA in Fig.
FIG. 3B is a cross-sectional view of the stationary ring with the protruding inner ring removed in FIG. 3A.
3C is a cross-sectional view of the stationary ring with the protruding outer ring removed in Fig. 3B.
4A is an exploded perspective view of a swinging tube according to an embodiment of the present invention.
4B is a cross-sectional view illustrating a modification of the "B" portion in FIG. 4A as another embodiment of the present invention.

Hereinafter, a wear plate assembly for a concrete pump according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, a detailed description of well known functions or configurations of the concrete pump and the wear plate assembly will be omitted for the sake of clarity of the present invention.

FIG. 1 is a perspective view illustrating the components of a wear plate 10 according to an embodiment of the present invention. A wear plate 10, which is fastened to an inner wall surface of a hopper (not shown) and makes sliding contact with a reciprocating S-shaped swivel tube (1), is provided with a pair of concrete flow holes 12, A pair of ring friction members 16 detachably coupled to the respective flow holes 12 and a buried friction member 18 disposed between the ring friction members 16 . Only one ring friction member 16 coupled to the left flow hole 12 is shown in the figure for convenience of explanation.

As shown in Fig. 1, the main body 14 is formed with depressed portions 20, which are machined to a predetermined depth around the pair of flow holes 12. That is, a pair of ring friction members 16 and a buried friction member 18 are assembled to the depressed portion 20 so that the upper surfaces of the members 16 and 18 are reciprocatingly rotating reciprocating pipe 1 and The concrete pumping operation is performed while sliding contact.

The buried friction member 18 according to an embodiment of the present invention includes a friction piece 18a made of a plurality of divided pieces for the convenience of processing and assembly and a friction piece 18a fixedly supporting the friction piece 18a, And a supporting member 18b for bolt-fastening the bolt 20 to the bolt. The friction piece 18a is preferably made of a material having high abrasion resistance, such as a hard metal or a ceramic material, but is not limited thereto. The fixing operation of the friction piece 18a to the receiving member 18b is preferably performed by welding such as brazing, but not limited thereto, and other joining methods such as soldering, fusion bonding and adhesion may be used. Needless to say, as a modified example of the present invention, the buried friction member 18 may be manufactured as a single piece.

The main body 14 may be made of cast iron, non-ferrous or non-metallic materials, but is not limited thereto. Bolt holes 22 are formed around the main body 14 at predetermined intervals to bolt the wear plate 10 to a hopper (not shown).

The ring friction member 16 of the present invention includes an inner ring 24 and a stationary ring 26 and a friction ring 28 that are sequentially assembled to the flow hole 12 of the body 14. The inner ring 24 is preferably made of high chrome steel, but may be made of other compositions. The inner ring 24 is coupled to the flow hole 12 of the body 14 in an assembled structure or by heat shrinking.

The retaining ring 26 is cylindrical and has a concave pocket portion 30 formed along the circumferential direction for seating and fixing the friction ring 28 on the upper surface.

The pocket portion 30 includes a protruding inner ring 30a and a protruding outer ring 30b formed in a ring shape concentrically and having a bottom portion 30c connecting the protruding inner ring 30a and the protruding outer ring 30b, U "shape.

Here, the size of the pocket portion 30 is determined in consideration of the difference in thermal expansion at a high temperature between the fixing ring 26 made of a steel material and the friction ring 28 made of a cemented carbide material. The inner diameter of the pocket portion 30 formed on the fixed ring 26 employed in the embodiment of the present invention (the inner surface of the protruded inner ring 30a) is 191 mm and the outer diameter (the inner surface of the protruded outer ring 30b) And the depth of the pocket portion 30 (the height of the upper surface of the protruding inner ring or protruding outer ring 30a, 30b from the bottom surface 30c) is 3 mm. The inner diameter of the friction ring 28 is 193 mm, the inner diameter is 241 mm, and the thickness is 5 mm. Therefore, the clearance G1 is about 2 mm, and the clearance G2 is 1 mm or less.

The above description concerns the coupling structure of the stationary ring 26 and the friction ring 28 coupled to the wear plate 10. The same structure is also applicable to the oscillatory tube 1 swinging in sliding contact with the wear plate 10 Can be applied.

2 or 4A, the swivel pipe 1 of the present invention is configured so that the loci T1, T2, and P3 in the predetermined angular range about the pivotal point P1 connecting the centers P2, P3 of the flow hole 12, T2 of the ring friction member 16 and rotates repeatedly along the ring friction member 16 and the segment friction member 18. The basic structure of the guide pipe 1 is the same as that of the ring friction member 16 described above, .

That is, the oscillating pipe 1 is provided with a swinging friction ring 2 for contacting the friction ring 28 of the ring friction member 16, a pocket portion 3 (not shown) for receiving and brazing the swinging friction ring 2, And a swinging inner ring 5 made of a high chrome steel material and coupled to an inner circumferential surface of the swinging ring 4. [

The pocket portion 3 of the rocking retaining ring 4 has a U-shaped cross section with the protruding inner ring 3a and the protruding outer ring 3b formed concentrically and having the bottom surface 3c. A swinging friction ring 2 is seated and brazed to the pocket portion 3 via a brazing metal (for example, copper or copper alloy).

Next, a method of fixing the friction ring 28 of the wear plate 10 and the swing friction ring 2 of the oscillating tube 1 by brazing will be described. Since the processes of brazing these friction rings 2 and 28 are the same, for convenience of description, the operation of brazing the friction ring 28 to the pocket portion 30 of the wear plate 10 will be described as an example .

3, between the protruding inner ring 30a and the protruding outer ring 30b of the pocket portion 30 of the retaining ring 26 and the inner and outer surfaces 28a and 28b of the friction ring 28, And the gap G2 is maintained between the lower surface 28c of the friction ring 28 and the bottom surface 30c of the pocket portion 30 by applying the brazing metal M The ring 28 is seated.

 At this time, copper or copper alloy is used for the brazing metal M, and the shape of the brazing metal M is applied to the gaps G1 and G2 in the form of powder, plate or wire.

The friction ring 28 is inserted into the heating ring maintained in the reducing atmosphere by the fixing ring 26 attached via the brazing metal M to heat the brazing metal M to a temperature higher than the melting point of the alloy, .

The molten brazing metal M is uniformly and uniformly filled in the gaps G1 and G2 by the capillary phenomenon caused by the surface tension between the friction ring 28 and the pocket portion 30 in the pocket portion 30. [ At this time, in the present invention, the required amount of the brazing metal (M) required for the bonding operation is calculated and applied from the dimensions of the pocket portion (30) and the friction ring (28) There will be no overflow.

The friction ring 28 is fixedly joined in the pocket portion 30 of the stationary ring 26 via the brazing metal M filled in the gaps G1 and G2. Therefore, the friction ring 28 of the present invention secures the bonding strength because the entire area of the lower surface 28b thereof is fixed to the bottom surface 30c of the pocket portion 30 via the brazing metal M.

At least about half of the inner and outer surfaces 28a and 28b of the friction ring 28 are connected to the protruding inner ring and the protruding outer ring 30a and 30b of the pocket portion 30 via the brazing metal M The bonding strength is further secured.

As a result, the present invention is advantageous in that the molten brazing metal M confined in the pocket portion 30 of the retaining ring 26 is pressed against the inner and outer side surfaces 28a, 28b and the lower surface 28c of the friction ring 28, The bonding strength of the friction ring 28 is sufficiently secured and the service life of the wear plate is greatly improved since it is cooled and solidified with the gaps G1 and G2 in a state of being evenly contacted over an area.

The above description describes preferred embodiments of the present invention, and the present invention is not limited thereto. It should be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

For example, as shown in Fig. 3B, the protruding inner ring 30a can be removed by cutting in the pocket portion 30 of the retaining ring 26 of the present invention, if necessary. Thus, the friction ring 28 is supported by bonding the outer side surface 28b to the projecting outer ring 30b via the brazing metal M which is melted.

3C, the protruded inner ring 30a and the protruded outer ring 30b may be all removed from the pocket portion 30 of the fixed ring 26. [ So that the friction ring 28 is joined to the bottom surface 30c of the pocket portion 30 via the brazing metal M with only the lower surface 28c of the friction ring 28 melted.

As described above, the present invention is a method of melting the brazing metal (M) to the pocket portion (30) of the stationary ring (26) and joining the cover and the friction ring (28), thereby removing the protruding inner ring (30a) It was confirmed that even when the protruding outer ring 30a and the protruding outer ring 30b were all removed, the bonding strength of the friction ring 28 was secured and the durability thereof was not affected.

In the above description, the friction ring 28 is fixed to the pocket portion 30 of the stationary ring 26 by brazing. However, the present invention is not limited to this, and other joining methods such as soldering, welding, and bonding may be used.

In addition, the brazing metal (M) of the present invention has been described to use copper or copper alloy. Particularly, copper alloy containing 8 to 15% by weight of phosphorus (P) can be used. In this case, the addition of phosphorus lowers the melting point of the brazing metal (M) to 800 占 폚 or less, thereby saving energy required for the heating operation.

If the amount of phosphorus added is less than 8 wt%, the amount of eutectic phase structure is small and the amount of melted brazing metal (M) is insufficient to decrease the bonding ability. If the amount of phosphorus is more than 15 wt% The flowability of the brazing metal (M) becomes excessive and the bonding property becomes weak, which is not suitable. As described above, when the copper alloy is employed, the brazing operation is performed by heating to a lower temperature, so that distortion and deformation at the high temperature of the friction ring 28 and the channel portion 30 of different materials are reduced. Therefore, Thereby simplifying the process and reducing energy consumption.

On the other hand, in the present invention, as shown in FIG. 4A, the outer circumferential surface of the oscillator tube 1 may be provided with a brevity weld 6 for improving abrasion resistance against contact with concrete slurry.

As shown in the cross-sectional view in FIG. 4B, a groove (not shown) having a predetermined depth along the circumferential direction is formed on the bottom surface 3c of the pocket portion 3 as a modification of the present invention with respect to the "B" And the cemented carbide pieces 7 are inserted into the grooves 3d so that the abrasion resistance of the oscillating tube 1 can be further reinforced.

1: motive pipe 10: wear plate
16: ring friction member 18: buried friction member
26: Retaining ring 28: Friction ring
30: pocket portion 30a: protruding inner ring
30b: protruding outer ring 30c: bottom surface

Claims (9)

A ring friction member which is detachably fixed to a pair of communication holes of a main body having a depression at a predetermined depth and a plurality of friction pieces which are assembled in a space between the ring friction members, 1. A wear plate assembly for a concrete pump, comprising an oscillating tube reciprocatingly reciprocating in sliding contact with a buried friction member,
Wherein the ring friction member includes a cylindrical fixed ring and a friction ring brazed to an upper surface of the fixed ring,
And a ring-shaped pocket portion having a width and a depth of "U" -shaped cross section for allowing the friction ring to be seated is formed on the upper surface of the stationary ring,
The oscillating pipe includes a swinging friction ring in contact with the friction ring of the ring friction member, a swinging fixed ring having a ring-shaped pocket portion having a U-shaped cross section on its upper surface for receiving and brazing the swinging friction ring ≪ / RTI &
Wherein the " U "-shaped pocket portion of the retaining ring and the pivotal retaining ring is provided with a protruding inner ring and a protruding outer ring formed concentrically, and having a bottom portion connecting the protruding inner ring and the protruding outer ring,
Wherein the friction ring and the swinging friction ring are seated with the gaps G1 and G2 in the pocket portion of the "U" -shaped shape to be bonded via the brazing metal layer filled in the gaps G1 and G2. A wear plate assembly for a pump. delete delete The method according to claim 1,
Wherein the protruding inner ring of the pocket portion is removed. 5. The method of claim 4,
Wherein the protruding outer ring of the pocket portion is further removed. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
Wherein a groove having a predetermined depth is formed along a circumferential direction on a bottom surface of a pocket portion of the guide pipe, and a cemented carbide piece is inserted into the groove. A pair of main bodies each having a depression at a predetermined depth are manufactured by making a swinging inner ring ring coupled to an inner circumferential surface of a swinging fixed ring and a swinging friction ring attached to an upper surface thereof while reciprocating in a hopper filled with a concrete slurry, And a ring-shaped friction ring is attached to the upper surface of the stationary ring of the ring friction member so as to form a ring-shaped friction ring, A method of manufacturing an abrasion plate assembly for a concrete pump,
Wherein the step of fabricating the rocking retaining ring includes a step of forming a projecting inner ring and a projecting outer ring on the upper face of the rocking retaining ring and forming a U- Forming a pocket portion,
The step of fabricating the stationary ring may include forming a protruding inner ring and a protruding outer ring on the upper surface of the stationary ring and forming a bottom portion connecting the protruding inner ring and the protruding outer ring to form a pocket having a U- Forming a part,
Wherein the step of attaching the friction ring and the swinging friction ring includes the steps of providing a gap G1 between the outer peripheral surface of the friction ring and the outer peripheral surface of the swinging friction ring between the projecting inner ring and the projecting outer ring of the pocket portion of the & A brazing metal is applied so that a gap (G2) is maintained between bottom portions of the lower surface of the swinging friction ring to seat the friction ring and the swinging friction ring, and the fixed ring and the swinging fixed ring on which the friction ring and the swinging friction ring are mounted The brazing metal is heated at a heating furnace so that the molten brazing metal is filled in the gaps G1 and G2, and the brazing metal is cooled to room temperature to form the friction ring and the swinging friction ring in a "U" Wherein the pockets are joined to the pocket portions. 8. The method of claim 7,
Wherein the brazing metal is copper or a copper alloy. ≪ RTI ID = 0.0 > 11. < / RTI > 9. The method of claim 8,
Wherein the copper alloy comprises 8 to 15 weight percent phosphorus (P). ≪ RTI ID = 0.0 > 11. < / RTI >

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