CN219402281U - High-frequency vibration desanding machine for pump castings - Google Patents

Abstract

The utility model discloses a high-frequency vibration sand removing machine for pump castings, which comprises a vibrating core machine base, wherein the vibrating core machine base is provided with a vibrating core machine upper shell, the front surface of the inside of the vibrating core machine upper shell is provided with a vibrating core hammer support, the vibrating core hammer support is provided with a vibrating hammer head, and the vibrating hammer head is controlled to open and close and stretch up and down by a motor and a cylinder; the front side of the base of the vibrating core machine is connected with an air cylinder protection plate in an outward extending way; the upper end face of the base of the vibrating core machine is provided with a vibrating core moving tool, and the bottom of the vibrating core moving tool is provided with a cylinder assembly. According to the utility model, the vibrating core moving tool and the air cylinder assembly are adopted, and the pump casting is subjected to high-frequency vibration by using the high-frequency vibration principle and using the standard hammer, so that the technical problem of poor cleaning effect of the pump casting in the prior art is effectively solved, and further, the residual scrap iron such as sand core, polishing and the like in the pump casting is rapidly removed.

Description

High-frequency vibration desanding machine for pump castings

Technical Field

The utility model relates to the technical field of pump casting equipment, in particular to a high-frequency vibration sand remover for pump castings.

Background

The pump casting is a metal molded article obtained by various casting methods, namely, smelted liquid metal is poured into a casting mould prepared in advance by pouring, injection, suction or other casting methods, and the cast article with certain shape, size and performance is obtained after cooling and polishing and other subsequent processing means.

The surface of the pump casting is often stuck with a large amount of sand, the cleaning is very difficult, most of existing cleaning devices are single water washing, the efficiency is low, the cleaning effect is poor, and residual water on the surface of the casting can corrode the casting, so that the use is not facilitated.

Disclosure of Invention

The embodiment of the application solves the technical problem that the cleaning effect of the pump casting is poor in the prior art by providing the high-frequency vibration sand removing machine for the pump casting.

The embodiment of the application provides a pump foundry goods is with high frequency vibration desanding machine, including vibrating core machine base, vibrating core machine base on be provided with vibrating core machine upper portion shell, its characterized in that: the front surface of the inner part of the upper shell of the vibrating core machine is provided with a vibrating core hammer bracket, the vibrating core hammer bracket is provided with a vibrating hammer head, and the vibrating hammer head is controlled to open and close and extend up and down through a motor and a cylinder; the front side of the base of the vibrating core machine is connected with an air cylinder protection plate in an outward extending way; the upper end face of the base of the vibrating core machine is provided with a vibrating core moving tool, and the bottom of the vibrating core moving tool is provided with a cylinder assembly.

Further, the vibrating core moving tool comprises a guide rail mounting bottom plate, a guide rail, a sliding block connecting plate, a vibrating core base, a pump casting and a limiting column; the guide rail mounting bottom plate is of an I-shaped structure, guide rails are arranged on two sides of the guide rail mounting bottom plate, a plurality of groups of sliding blocks are arranged on two sides of the guide rail, a sliding block connecting plate is arranged on the outer surface of each sliding block, and the sliding blocks drive the sliding block connecting plate to move forwards and backwards along the guide rail; the sliding block connecting plate upper surface be provided with the core base that shakes, the core base that shakes in be provided with the pump foundry goods, core base rear side that shakes be provided with the fixed plate, the fixed plate on wear to be equipped with two spacing posts, spacing post front end and pump foundry goods contact and restriction pump foundry goods back-and-forth movement.

Further, the cylinder subassembly include cylinder connecting piece, cylinder fixing base and cylinder, the cylinder be connected with the cylinder connecting piece, the cylinder fixing base fix in cylinder guard plate lower extreme, cylinder connecting piece up end and the lower terminal surface of slider connecting plate fixed and drive slider connecting plate back-and-forth movement through the cylinder.

Further, a sliding groove is formed in the middle of the guide rail mounting bottom plate, and the air cylinder connecting piece moves back and forth in the sliding groove.

Furthermore, the base of the vibrating core machine is fixedly connected with the ground through angle irons.

Furthermore, the guide rail mounting bottom plate is fixedly connected with the upper end of the base of the vibrating core machine through bolts.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

because the vibrating core moving tool and the air cylinder assembly are adopted, the pump casting is vibrated at high frequency by using a standard hammer head according to the high-frequency vibration principle, the technical problem that the cleaning effect of the pump casting is poor in the prior art is effectively solved, and residual scrap iron such as sand cores and polishing inside the pump casting is further removed rapidly.

Drawings

Fig. 1 is a schematic structural diagram of an assembly of a vibrating core moving tool and a cylinder assembly according to an embodiment of the present application;

fig. 2 is a schematic diagram of a general assembly structure according to an embodiment of the present application.

Detailed Description

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

The utility model provides a pump foundry goods is with high frequency vibration desanding machine, includes core machine base 5 shakes, core machine base 5 shakes and be provided with core machine upper portion shell 4, its characterized in that shakes: the front surface of the inner part of the upper shell 4 of the vibrating core machine is provided with a vibrating core hammer bracket 7, the vibrating core hammer bracket 7 is provided with a vibrating hammer head 8, and the vibrating hammer head 8 is controlled to open and close and stretch up and down through a motor and a cylinder; the front side of the vibrating core machine base 5 is connected with an air cylinder protection plate 6 in an outward extending mode; the upper end face of the vibrating core machine base 5 is provided with a vibrating core moving tool 1, and the bottom of the vibrating core moving tool 1 is provided with an air cylinder assembly 2.

The vibrating core moving tool 1 comprises a guide rail mounting bottom plate 1.1, a guide rail 1.2, a sliding block 1.3, a sliding block connecting plate 1.4, a vibrating core base 1.5, a pump casting 3 and a limiting column 1.7;

the guide rail mounting base plate 1.1 is of an I-shaped structure, guide rails 1.2 are arranged on two sides of the guide rail mounting base plate 1.1, a plurality of groups of sliding blocks 1.3 are arranged on two sides of the guide rail 1.2, a sliding block connecting plate 1.4 is arranged on the outer surface of the sliding block 1.3, and the sliding block 1.3 drives the sliding block connecting plate 1.4 to move forwards and backwards along the guide rail 1.2; the novel vibrating core is characterized in that a vibrating core base 1.5 is arranged on the upper surface of the sliding block connecting plate 1.4, a pump casting 3 is arranged in the vibrating core base 1.5, a fixing plate 1.6 is arranged on the rear side of the vibrating core base 1.5, two limiting columns 1.7 are arranged on the fixing plate 1.6 in a penetrating mode, and the front ends of the limiting columns 1.7 are in contact with the pump casting 3 and limit the pump casting 3 to move forwards and backwards.

The cylinder assembly 2 comprises a cylinder connecting piece 2.3, a cylinder fixing seat 2.2 and a cylinder 2.1, wherein the cylinder 2.1 is connected with the cylinder connecting piece 2.3, the cylinder fixing seat 2.2 is fixed at the lower end of a cylinder protection plate 6, and the upper end face of the cylinder connecting piece 2.3 is fixed with the lower end face of a slide block connecting plate 1.4 and drives the slide block connecting plate 1.4 to move back and forth through the cylinder 2.1.

The middle of the guide rail installation bottom plate 1.1 is provided with a sliding groove, and the cylinder connecting piece 2.3 moves back and forth in the sliding groove.

The base 5 of the vibrating core machine is fixedly connected with the ground through angle irons.

The guide rail installation bottom plate 1.1 is fixedly connected with the upper end of the vibrating core machine base 5 through bolts.

Example 1

The high-frequency vibration sand removing machine for the pump castings comprises a vibrating core machine base 5, wherein a vibrating core machine upper shell 4 is arranged on the vibrating core machine base 5, a vibrating core hammer support 7 is arranged on the front surface inside the vibrating core machine upper shell 4, a vibrating hammer head 8 is arranged on the vibrating core hammer support 7, and the vibrating hammer head 8 is controlled to open and close and stretch up and down through a motor and a cylinder; the front side of the vibrating core machine base 5 is connected with an air cylinder protection plate 6 in an outward extending mode; the upper end face of the vibrating core machine base 5 is provided with a vibrating core moving tool 1, and the bottom of the vibrating core moving tool 1 is provided with an air cylinder assembly 2.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages:

the sand removing machine adopts a high-frequency vibration principle, adopts a 19KCEN-70plus standard hammer to vibrate the pump casting 3 at high frequency, so as to remove residual scrap iron and the like such as sand cores, polishing and the like in the pump casting 3, and works for 15 seconds.

Example two

The guide rail mounting base plate 1.1 is of an I-shaped structure, guide rails 1.2 are arranged on two sides of the guide rail mounting base plate 1.1, a plurality of groups of sliding blocks 1.3 are arranged on two sides of the guide rail 1.2, a sliding block connecting plate 1.4 is arranged on the outer surface of the sliding block 1.3, and the sliding block 1.3 drives the sliding block connecting plate 1.4 to move forwards and backwards along the guide rail 1.2; the novel vibrating core is characterized in that a vibrating core base 1.5 is arranged on the upper surface of the sliding block connecting plate 1.4, a pump casting 3 is arranged in the vibrating core base 1.5, a fixing plate 1.6 is arranged on the rear side of the vibrating core base 1.5, two limiting columns 1.7 are arranged on the fixing plate 1.6 in a penetrating mode, and the front ends of the limiting columns 1.7 are in contact with the pump casting 3 and limit the pump casting 3 to move forwards and backwards.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages:

through setting up shake core and remove frock 1 and play a removal, fixed spacing effect to pump foundry goods 3, ensure that pump foundry goods 3 does not take place to remove under tup 8 high frequency vibration.

Example III

The cylinder assembly 2 comprises a cylinder connecting piece 2.3, a cylinder fixing seat 2.2 and a cylinder 2.1, wherein the cylinder 2.1 is connected with the cylinder connecting piece 2.3, the cylinder fixing seat 2.2 is fixed at the lower end of a cylinder protection plate 6, and the upper end face of the cylinder connecting piece 2.3 is fixed with the lower end face of a slide block connecting plate 1.4 and drives the slide block connecting plate 1.4 to move back and forth through the cylinder 2.1.

The cylinder assembly 2 adopts the working principle of a cylinder, and moves the pump casting 3 back and forth through a telescopic rod, wherein the cylinder assembly 2 can also adopt a manual mode, and the forward and backward movement of the pump casting 3 can also be realized by controlling and utilizing the forward and backward pushing of the handle by personnel.

The specific implementation method comprises the following steps:

firstly, a pump casting 3 is placed in a vibrating core base 1.5 and limited by a limiting column 1.7, then a button of a cylinder assembly 2 is pressed to start a cylinder 2.1, the cylinder 2.1 stretches forwards to drive the pump casting 3 to move backwards, at the moment, a cylinder button of a hammer head 8 is pressed, the hammer head 8 moves downwards to vibrate the pump casting 3 at high frequency, after 15s, the cylinder button of the hammer head 8 is loosened, the hammer head moves upwards, finally, the button of the cylinder assembly 2 is pressed to drive the pump casting 3 to move forwards, the limiting column 1.7 is loosened, and the pump casting 3 is taken out to finish sand removal.

While preferred embodiments of the present utility model have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. The utility model provides a pump foundry goods is with high frequency vibration desanding machine, includes core machine base (5) that shakes, core machine base (5) that shakes on be provided with core machine upper portion shell (4), its characterized in that: the front surface of the inner part of the upper shell (4) of the vibrating core machine is provided with a vibrating core hammer bracket (7), the vibrating core hammer bracket (7) is provided with a vibrating hammer head (8), and the vibrating hammer head (8) is controlled to open and close and stretch up and down through a motor and a cylinder; the front side of the vibrating core machine base (5) is connected with an air cylinder protection plate (6) in an outward extending way;

the vibrating core machine is characterized in that a vibrating core moving tool (1) is arranged on the upper end face of the vibrating core machine base (5), and an air cylinder assembly (2) is arranged at the bottom of the vibrating core moving tool (1).

2. A high frequency vibration desander for pump castings according to claim 1, wherein: the vibrating core moving tool (1) comprises a guide rail mounting bottom plate (1.1), a guide rail (1.2), a sliding block (1.3), a sliding block connecting plate (1.4), a vibrating core base (1.5), a pump casting (3) and a limiting column (1.7);

the guide rail mounting base plate (1.1) is of an I-shaped structure, guide rails (1.2) are arranged on two sides of the guide rail mounting base plate (1.1), a plurality of groups of sliding blocks (1.3) are arranged on two sides of the guide rail (1.2), a sliding block connecting plate (1.4) is arranged on the outer surface of the sliding block (1.3), and the sliding blocks (1.3) drive the sliding block connecting plate (1.4) to move forwards and backwards along the guide rails (1.2); the novel vibrating core is characterized in that a vibrating core base (1.5) is arranged on the upper surface of the sliding block connecting plate (1.4), a pump casting (3) is arranged in the vibrating core base (1.5), a fixing plate (1.6) is arranged on the rear side of the vibrating core base (1.5), two limiting columns (1.7) are arranged on the fixing plate (1.6) in a penetrating mode, and the front ends of the limiting columns (1.7) are in contact with the pump casting (3) and limit the pump casting (3) to move back and forth.

3. A high-frequency vibration desanding machine for pump castings according to claim 2, wherein: the cylinder assembly (2) comprises a cylinder connecting piece (2.3), a cylinder fixing seat (2.2) and a cylinder (2.1), wherein the cylinder (2.1) is connected with the cylinder connecting piece (2.3), the cylinder fixing seat (2.2) is fixed at the lower end of a cylinder protection plate (6), and the upper end face of the cylinder connecting piece (2.3) is fixed with the lower end face of a sliding block connecting plate (1.4) and drives the sliding block connecting plate (1.4) to move back and forth through the cylinder (2.1).

4. A high frequency vibration desanding machine for pump castings according to claim 3, wherein: a sliding groove is arranged in the middle of the guide rail mounting bottom plate (1.1), and the air cylinder connecting piece (2.3) moves back and forth in the sliding groove.

5. A high frequency vibration desander for pump castings according to claim 1, wherein: the base (5) of the vibrating core machine is fixedly connected with the ground through angle irons.

6. A high frequency vibration desander for pump castings according to claim 4, wherein: the guide rail installation bottom plate (1.1) is fixedly connected with the upper end of the vibrating core machine base (5) through bolts.