KR101573422B1 - Parts of hardmetals for concrete pump - Google Patents

Abstract

A cemented carbide sliding part for a concrete pump according to the present invention comprises a wear plate fixed to the tip of a first piston and a second piston reciprocating in a reciprocating manner and a wear plate sliding on the wear plate at the tip of a valve pivotally moved by the driving part, Wherein the wear plate includes a first bore and a second bore corresponding to the first piston and the second piston, and a base having a stepped groove formed around the first bore and the second bore, ; And a first stationary wear ring mounted on the first bore and a second stationary wear ring mounted on the second bore, wherein the first stationary wear ring and the second stationary wear ring are configured such that an outer circumferential surface thereof is caught in the step groove A retaining ring formed therein; A first integral cemented carbide horizontal friction ring integrally formed by a cemented carbide and formed to be horizontally adherable to an upper surface of the fixed ring; A support tube attached to an inner peripheral surface of the stationary ring; And an integral cemented carbide vertical friction tube integrally formed by cemented carbide and coaxially attached to the inner circumferential surface of the support tube.

Description

[0001] PARTS OF HARDMETALS FOR CONCRETE PUMP [0002]

The present invention relates to a cemented carbide sliding part for a concrete pump and a manufacturing method thereof.

A concrete pump is a key element for conveying concrete. It is installed on a pump car and pushes concrete, which is a mixture of cement and high hardness aggregate such as gravel or sand, to high pressure and supplies it to construction site.

Generally, a concrete pump includes a pair of reciprocating pistons, and a wear plate (friction plate) is fixed to the tip of the piston. The ware plate is provided with respective openings for sucking or discharging concrete by the action of the piston. Such a wear plate is slid with a moving wear ring attached to the tip of a valve which is pivoted by a driving part. The moving wear ring is moved across the wear plate by a reciprocating cycle adapted to the motion of the pair of pistons described above to open and close the wear plate. In this process, strong friction between the wear plate and the moving wear occurs, in particular, friction with the high hardness gravel or sand. To this end, the wear plate and the moving wear ring are provided with a wear-resistant member in the sliding portion.

For this purpose, a piece of cemented carbide panel is attached around the opening (Korean Patent No. 0848135, Korean Patent No. 0318584, etc.), ceramic tile is attached (USP 7513758 etc.), abrasion plate is cast and heat treated (Korean Registered Patent No. 0854335), and the like.

However, when a piece of cemented carbide panel or ceramic tile is assembled around the opening, the preceding wear may occur between the piece and the slice. Since the improvement of wear resistance is limited only by the heat treatment of the wear plate, There is a problem that it is short.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cemented carbide sliding part for a concrete pump that maximizes the excellent wear resistance of a cemented carbide while at the same time preventing leading abrasion that might otherwise occur between the hard- And its manufacturing method is presented.

In order to solve the above problems, a cemented carbide sliding part for a concrete pump according to the present invention is characterized by comprising: a wear plate fixed to a tip end of a first piston and a second piston reciprocatingly reciprocating; And a moveable wear ring which is slidable relative to the plate and opens and closes the wear plate, the wear plate comprising a first bore and a second bore corresponding to the first piston and the second piston, A stepped groove formed in the periphery of the base; And a first stationary wear ring mounted on the first bore and a second stationary wear ring mounted on the second bore, wherein the first stationary wear ring and the second stationary wear ring are configured such that an outer circumferential surface thereof is caught in the step groove A retaining ring formed therein; A first integral cemented carbide horizontal friction ring integrally formed by a cemented carbide and formed to be horizontally adherable to an upper surface of the fixed ring; A support tube attached to an inner peripheral surface of the stationary ring; And an integral cemented carbide vertical friction tube integrally formed by cemented carbide and coaxially attached to the inner circumferential surface of the support tube.

As one example related to the present invention, a projecting inner ring is formed on the upper surface of the fixed ring, and the first integral cemented carbide horizontal friction ring can be attached so that its inner peripheral surface is caught by the projecting inner ring.

As an example related to the present invention, a step portion is formed at the lower end of the support pipe, and the integral cemented carbide vertical friction pipe can be attached so that the lower end portion thereof is caught by the step portion.

As an example related to the present invention, a plurality of segmental carbide panels formed by cemented carbide may be further attached to the region between the first bore and the second bore.

According to an embodiment of the present invention, the moving wearer includes: a fastening pipe having a seating groove on an upper surface thereof; And a second integral cemented carbide horizontal friction ring formed integrally with the cemented carbide and formed to be horizontally attachable to the seating groove.

As an example related to the present invention, the moving wear ring may further include a piece-shaped cemented carbide protection ring which is divided into a plurality of segments at the edge of the second integral cemented carbide horizontal friction ring and installed in the seating groove.

As an example related to the present invention, the moving wearer may further include a groove formed in the seating groove and formed so that the piece-piece cemented carbide protection ring can be inserted.

The cemented carbide sliding part for a concrete pump according to the present invention comprises: a wear plate fixed to a tip end of a first piston and a second piston which are reciprocatingly reciprocated; and a wear plate sliding on the wear plate at a tip end of the valve, Wherein the wear plate comprises a first bore and a second bore corresponding to the first piston and the second piston, and a stepped groove formed around the first bore and the second bore, A formed base; And a first stationary wear ring mounted on the first bore and a second stationary wear ring mounted on the second bore, wherein the first stationary wear ring and the second stationary wear ring are configured such that an outer circumferential surface thereof is caught in the step groove A retaining ring formed therein; And a first integral cemented carbide horizontal friction ring integrally formed by a cemented carbide and formed to be horizontally attached to an upper surface of the fixed ring, wherein the moving wear ring includes: a coupling pipe having a seating groove on an upper surface thereof; And a second integral cemented carbide horizontal friction ring formed integrally with the cemented carbide and formed to be horizontally attachable to the seating groove.

In one embodiment of the present invention, the first integral cemented carbide horizontal friction ring, the second integral cemented carbide horizontal friction ring, the segmented cemented carbide panel, the integral cemented carbide vertical friction tube, and the segmented cemented carbide protection ring, 15% by weight of cobalt (Co) and 85 to 90% by weight of tungsten carbide (WC).

In one embodiment of the present invention, the first integral cemented carbide horizontal friction ring, the second integral cemented carbide horizontal friction ring, the segmented cemented carbide panel, the integral cemented carbide vertical friction tube, and the segmented cemented carbide protection ring, 9 to 14% by weight of cobalt, 0.3 to 0.7% by weight of vanadium carbide (VC), 0.3 to 0.7% by weight of chromium carbide (Cr ₃ C ₂ ) and 84 to 89% by weight of tungsten carbide (WC) ≪ / RTI >

A method of manufacturing a cemented carbide sliding part for a concrete pump, comprising the steps of: assembling a wear plate fixed to a tip of a first piston and a second piston reciprocating in a reciprocating manner; And assembling a moving wear ring that is slid with respect to the wear plate at the tip of the valve pivotally moved by the driving unit and opens and closes the wear plate, and wherein the first and second pistons are fixed to the tip of the first piston and the second piston, Assembling the movable wear ring to face the wear plate at the front end of the valve pivotally moved by the driving unit and opening and closing the wear plate may include the steps of manufacturing the first integral cemented carbide horizontal friction ring And manufacturing a second integral cemented carbide horizontal friction ring, wherein the step of manufacturing the first integral cemented carbide horizontal friction ring and the manufacturing of the second integral cemented carbide horizontal friction ring comprise the steps of: Positioning a forming ring formed by the molding ring; And heating and sintering the tray and the forming ring.

Wherein the step of manufacturing the first integral cemented carbide horizontal friction ring and the step of fabricating the second integral cemented carbide horizontal friction ring comprise the steps of preheating and sintering the tray and the shaping ring, And a step of installing the carbon core.

According to the cemented carbide sliding part for a concrete pump and the method for manufacturing the cemented carbide sliding part according to the present invention, it is possible to provide a cemented carbide horizontal friction ring integrally formed around an opening of a wear plate or an opening of a moving wear ring, The prior wear is not fundamentally generated and the excellent abrasion resistance of the cemented carbide can be maintained as it is, so that the replacement time of the parts is lengthened and the inconvenience and maintenance cost due to frequent replacement can be solved.

According to one example related to the present invention, the integral cemented carbide horizontal friction ring can be applied to a wear plate or a moving wear ring, and furthermore, by providing an integral cemented carbide vertical friction tube, the wear resistance can be further improved.

According to another embodiment of the present invention, by providing a detachable carbon core in the production of the integral cemented carbide horizontal friction ring or the integral cemented carbide vertical friction tube, dimensional stability can be improved and the manufacturing process after the sintering can be omitted, It is very good in performance and cost.

1 is a perspective view showing a schematic view of a concrete pump 100 to which a sliding part related to the present invention is applied;
2 is a perspective view of a wear plate 200 according to the present invention.
3 is an exploded perspective view of the wear plate 200 of FIG.
4 is a sectional view taken along the line IV-IV in Fig. 2
5 is a sectional view taken along the line VV in Fig. 2
Figure 6 is a perspective view of a mobile wear ring 300 in accordance with the present invention.
Figure 7 is an exploded perspective view of the mobile wear ring 300 of Figure 6,
Figure 8 is a longitudinal section view of the mobile wear ring 300 of Figure 6
9 and 10 are photographs showing the process of manufacturing the integrated cemented carbide ring according to the present invention, wherein FIG. 9 is a view before sintering, FIG. 10 is a view after sintering

Hereinafter, a cemented carbide sliding component for a concrete pump and a method of manufacturing the same according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a schematic view of a concrete pump 100 to which a sliding part related to the present invention is applied.

The con- crete pump 100 according to the present invention includes parallel first and second cylinders 131 and 132 and first and second parallel cylinders 131 and 132 for sucking and conveying the concrete in the hopper 110, And a first piston 122 and a second piston 132 which reciprocate in the opposite direction. A wear plate 200 is provided at the tip of each of the pistons 122 and 132. The wear plate 200 includes a valve that is swung by the driving unit 140 and a movable wear ring attached to the tip of the discharge pipe 130 300). When the first piston 122 is retracted, the movable wear ring 300 opens the opening of the wear plate 200 connected to the first piston 122, so that the concrete in the hopper 110 is sucked. At this time, the second piston 132 is in the advanced state, and the valve and the discharge pipe 130 are communicated with the opening connected to the second piston 132 by the moving wear ring 300. Therefore, the concrete pushed by the second piston 132 is sent to the final position through the discharge pipe 130.

The wear plate 200 and the moving wear ring 300 are formed by pumping concrete by the action of the wear plate 200 and the moving wear ring 300 and the friction between the target concrete and the gravel and sand It is structured to significantly reduce wear and prolong life. Hereinafter, the configuration and operation of the wear plate 200 and the moving wearer 300 will be described in detail.

2 is a perspective view of the wear plate 200 according to the present invention, Fig. 3 is an exploded perspective view of the wear plate 200 of Fig. 2, Fig. 4 is a sectional view taken along the line IV- 2 is a sectional view taken along the line VV in Fig.

As shown in these drawings, the wear plate 200 is in the form of a base 210, a first stationary wear ring 220 and a second stationary wear ring 230, and a segmented hard surface panel 240 .

The base 210 is attached to the first cylinder 131 and the second cylinder 132 and includes a first bore 215 corresponding to the first piston 122 and a second bore 215 corresponding to the second piston 132, (Not shown). A stepped groove 212 is formed around the first bore 215 and the second bore 216 to provide a first fixed wear ring 220, a second fixed wear ring 230 and a segmented hard surface panel 240 .

The first stationary wear ring 220 is installed in the step groove 212 around the first bore 215 and the second stationary wear ring 230 is provided around the second bore 216, (Not shown). The configuration of the second fixed wearing ring 230 is the same as that of the first fixed wearing ring 220, and the configuration of the first fixed wearing ring 220 will be mainly described.

The first stationary wear ring 220 includes a stationary ring 221 formed in such a manner that an outer circumferential surface thereof can be caught in the step groove 212 and a first ring-shaped cemented carbide horizontal friction ring 222, an integral cemented carbide vertical friction tube 223, And a tube (224).

The fixed ring 221 is an element supported by the base 210 while fixing the first one-piece cemented carbide horizontal friction ring 222 and has a ring extension 221a extending in the penetrating direction of the first bore 215 And a protruding inner ring 221b is formed on the upper surface.

The first integral cemented carbide horizontal friction ring 222 is formed as an integral ring by cemented carbide and is horizontally attached to the upper surface of the fixed ring 221. The first one-piece cemented carbide horizontal friction ring 222 has excellent wear resistance through the molding and sintering process of the cemented carbide as described in FIGS. 9 and 10, which will be described later. Also, in terms of shape, the first one-piece cemented carbide horizontal friction ring 222 is not an interdigital shape but an 'integral type', and since there is no gap which is a part which is divided or separated in the middle, the leading abrasion occurring in the gap does not occur originally. Since the first integral cemented carbide horizontal friction ring 222 is attached so that its inner peripheral surface is caught by the protruding inner ring 221b formed on the upper surface of the fixed ring 221, the first integral cemented carbide horizontal friction ring 222, It is possible to reduce the exposure of the jointed state with the concrete and to prevent the progress of the wear.

A support tube 224 may be provided on the inner circumferential surface of the fixing ring 221 for attachment of the integral cemented carbide vertical friction tube 223. The supporting pipe 224 is provided with a step portion 224a at the lower end and the integral cemented carbide vertical friction pipe 223 is attached by the step portion 224a so that the lower end thereof is caught. The integral cemented carbide vertical friction tube 223 may be integrally formed of a cemented carbide such as the first integral cemented carbide horizontal friction ring 222 and the concrete pushed by the piston may be formed by the first fixed wear ring 220 and the moving wear ring 300 to minimize erosion or abrasion of the inner circumferential surface and prolong the overall service life.

In the area between the first bore 215 and the second bore 216, a plurality of segmental carbide panels 240 formed by cemented carbide are attached. The sectioned hard surface panel 240 is provided with a panel fixing member 241 for attachment. 3 to 5, the panel fixing member 241 to which the segmental-shaped cemented carbide panel 240 is attached is fixed by using a fastening hole 213 and a screw 250 formed in the stepped groove 212 . The segmental cemented panel 240 has an arc shape as a whole along the trace of the moving wear ring 300 and has a plurality of slices that can be fastened by elements such as a screw so as to maintain wear resistance and bonding force constant do.

Figure 6 is a perspective view of a mobile wear ring 300 in accordance with the present invention, Figure 7 is an exploded perspective view of the mobile wear ring 300 of Figure 6, and Figure 8 is a longitudinal section view of the mobile wear ring 300 of Figure 6.

As shown in these drawings, the moving wear ring 300 includes a fastening pipe 310 having a seating groove 311 on its upper surface, a second integral cemented carbide horizontal friction ring 320, a reinforcing ring 330, And a protective ring 340 is provided.

The clamping pipe 310 is a part connected to the valve and the discharge pipe 130 while fixing the second integral cemented carbide horizontal friction ring 320 and has a seating groove for installing the second integral cemented carbide horizontal friction ring 320 311, a groove 312 for inserting the segmental cemented carbide protection ring 340, a ring extension 313, and a projecting outer ring 314.

The second one-piece cemented carbide horizontal friction ring 320 may also be integrally formed with the first one-piece cemented carbide horizontal friction ring 222, which may prevent prior wear from occurring in comparison with the conventional technology of the segmented cemented carbide horizontal friction ring.

The reinforcing ring 330 reinforces the ring extension portion 313 of the coupling pipe 310 and increases the joint area of the second integral cemented carbide horizontal friction ring 320 to prolong the wear life.

The cemented cemented carbide protection ring 340 is divided into a plurality of segments at the edge of the second one-piece cemented carbide horizontal friction ring 320 and is installed in the seating groove 311. In the seating groove 311, Grooves 312 are formed so that the grooves 340 can be inserted. The parting cemented carbide protection ring 340 is formed of a cemented carbide and wears on the joint of the second integral cemented carbide horizontal friction ring 320 and the coupling pipe 310 by the concrete when the moving wearer 300 reciprocates Thereby preventing the bonding force from dropping. The periphery of the segmental cemented carbide protection ring 340 is protected by a protruding outer ring 314 and a chamfer 314a is applied to the upper end of the protruding outer ring 314 for smooth movement.

The first integral cemented carbide horizontal rubbing ring 222, the integral cemented carbide vertical friction tube 223, the segmented cemented carbide panel 240, the second integral cemented carbide horizontal friction ring 320, the segmented cemented carbide protection ring 340, etc. Is formed by cemented carbide.

For this purpose, cobalt (Co) and 85 to 90% by weight of tungsten carbide (WC) may be added in an amount of 10 to 15% by weight to enhance the anti-tensile strength and abrasion resistance. As another example, these elements may comprise 9 to 14 wt% cobalt (Co), 0.3 to 0.7 wt% vanadium carbide (VC), 0.3 to 0.7 wt% chromium carbide (Cr ₃ C ₂ ), and 84 to 89 wt% Of tungsten carbide (WC), it is possible to further increase the anti-resisting property and abrasion resistance.

FIGS. 9 and 10 are photographs showing a process of manufacturing an integral cemented carbide ring according to the present invention, wherein FIG. 9 shows a state before sintering, and FIG. 10 shows a state after sintering.

The first integral cemented carbide horizontal rubbing ring 222, the integral cemented carbide vertical friction tube 223 and the second integral cemented carbide horizontal friction ring 320 are separated before sintering to reduce dimensional instability and post- Carbon cores can be installed.

9, the shaping rings 222 'and 320' molded by the powder of the cemented carbide are disposed on the tray 400 having the vertical walls 410, and then the carbon cores 510 and 520 The sintering furnace is disposed in the sintering furnace with a predetermined contraction margin (S). 10, the contracted first cemented carbide horizontal friction ring 222 or second cemented carbide horizontal friction ring 320 has a naturally stable dimension by the carbon cores 510 and 520, The segmented curved core 510 is also easily separated from the sintered first one-piece cemented carbide horizontal friction ring 222 or the second one-piece cemented carbide horizontal friction ring 320. The manufacturing method of the first integral cemented carbide horizontal friction ring 222 or the second integral cemented carbide horizontal friction ring 320 can be omitted because the process for adjusting the dimensions after sintering can be omitted, .

The cemented carbide sliding part for a concrete pump and the method of manufacturing the same are not limited to the construction and operation of the embodiments described above. The above embodiments may be configured so that all or some of the embodiments may be selectively combined to make various modifications.

100: concrete pump 140:
200: Wear plate 210: Base
211, 213: fastening hole 212: stepped groove
220: first stationary wear ring 221: stationary ring
221a: ring extension part 221b:
222: First integral cemented carbide horizontal friction ring
223: Integrated cemented carbide vertical friction tube
224: support tube 224a:
230: second stationary wear ring 240: segmented carbide panel
241: Panel fixing member 250: Screw
300: moving wear 310: fastening pipe
311: seating groove 312: groove
313: ring extension part 314:
314a: chamfer
320: 2nd integral cemented carbide horizontal friction ring
330: reinforcement ring
340: Cemented carbide protection ring

Claims (10)

A ware plate fixed to a tip of a first piston and a second piston reciprocating in a cross direction; And
And a movable wear ring that is slid on the wear plate at the tip of the valve pivotally moved by the driving unit and opens and closes the wear plate,
The wear plate includes:
A first bore and a second bore corresponding to the first piston and the second piston; a base having a stepped groove formed around the first bore and the second bore; And
A first stationary wear ring mounted on the first bore and a second stationary wear ring mounted on the second bore,
The first stationary wearer and the second stationary wearer may include:
A retaining ring formed so that an outer circumferential surface can be caught in the step groove;
A first integral cemented carbide horizontal friction ring integrally formed by a cemented carbide and formed to be horizontally attachable to an upper surface of the fixed ring; And
And a plurality of segmental carbide panels formed by cemented carbide in a region between the first bore and the second bore,
A protruding inner ring is formed on an upper surface of the stationary ring,
The first integral cemented carbide horizontal friction ring is attached by the projecting inner ring so that its inner peripheral surface is caught,
The moving wearer,
A fastening pipe provided with a seating groove on an upper surface thereof;
A reinforcement ring coaxially attached to an inner circumferential surface of the fastening tube; And
A cemented carbide sliding part for a concrete pump, comprising a second one-piece cemented carbide horizontal friction ring integrally formed by a cemented carbide and formed to be horizontally attachable to the seating groove.
The method according to claim 1,
Wherein the stepped groove is formed around the first bore and the second bore such that the first fixedware ring, the second fixedware ring, and the segmented carbide panel can be installed.
The method according to claim 1,
Wherein the retaining ring comprises a ring extension extending in the first bore penetration direction.
The method according to claim 1,
Further comprising a panel fixing member for fixing the piece-shaped cemented carbide panel,
Wherein the panel fixing member is fixed by a fastening hole and a screw formed in the stepped groove, the cemented carbide sliding part for a concrete pump
The method according to claim 1,
Further comprising a support tube attached to an inner circumferential surface of the stationary ring.
6. The method of claim 5,
Further comprising an integral cemented carbide vertical friction tube fixed to the support tube.
delete The method according to claim 1,
The moving wearer,
Further comprising a segmented cemented carbide protection ring divided into a plurality of segments at an edge of the second one-piece cemented carbide horizontal friction ring and installed in the seating groove.
The method according to any one of claims 1 to 6 and 8,
Wherein the first integral cemented carbide horizontal friction ring, the second integral cemented carbide horizontal friction ring,
A cemented carbide sliding part for a concrete pump, comprising 10 to 15% by weight of cobalt (Co) and 85 to 90% by weight of tungsten carbide (WC).
delete

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