DE829772C - Core blowing machine - Google Patents

Description

(WlGBL p. 175)

ISSUED JANUARY 28, 1952

R3i62VIa / 3ib

Core blowing machine

Many types of core blowing machines have been proposed in the prior art and such core blowing machines are widely used in industry today. These are quite large machines, with which containers for the sand supply and distributor heads for distributing the sand to the cavities of the core mold or the Find molding box use.

These core blowing machines still have certain shortcomings, and so is the aim of the invention consists in eliminating them. One of these shortcomings is that the sand distribution head equipped with different base plates for the different types of core shapes have to be. These plates have to be used every time

be exchanged when a different type of core shape is blown and require a time consuming one Adjustment of the machine to accommodate core shapes of different heights. A Another serious deficiency has resulted from the fact that the device is too humid of the sand is unable to form suitable cores. Only sand with a very low moisture content can be used when blowing more complicated cores can be used. For example, if the sand has a moisture content of has more than 2%, the sand is not in the usual execution of the core blowing machine effectively promoted to the core form. It is believed that this is due to excessive diffusion the air flow is based, which the possibility

has to expand and lose its propulsive power, especially in core blowing machines which have a core blowing head in the usual, downwardly extended design.
In the machine according to the invention it is not necessary to keep the moisture content within such narrow limits. Rather, sand can be used without difficulty, the moisture content of which exceeds 2% and is up to about 5%.

According to the invention it is proposed to use a sleeve which is only used for the discharge Contains the amount of sand that is required for a core shape. There's one at the bottom Widening or a base to bridge the openings leading into the core shape. A quantity of sand is compacted in this base, which prevents the diffusion of the air currents. This holds the air together and causes the sand in this narrow chamber, which serves to bridge the core mold openings, to be pressed together tightly. The airflow arl> eit here according to the piston propulsion principle and not in the sense of a flushing of the sand, as it corresponds to the working principle of the previously known core blowing machines.

In the case of the core blowing machine according to the invention, the moisture content of the sand is therefore not so critical, as is the case with conventional core blowing machines. Sand with more than 2% up to 5% and more moisture can be used with success.

The machine is small and simple; it is a hand-operated machine that operates on a Workbench can be provided and requires little experience to operate it. Storage container and distribution tanks with valves, controls and the like are not required. It is only one hand-controlled air tank is available, which can be raised or lowered with one hand while the outlet valve of the container is opened with the other hand to to let the air flow out. The sand sleeve and the one bridging the core mold openings The base is made of metal and can be assembled from metal parts or made as a cast piece be.

Instead of the core mold carrier in the usual way mechanically or with the application of a liquid pressure to lift, a stationary core mold carrier is provided on the new machine, which can rest immediately on the workbench. The relative movement that is necessary to the air supply device, the sand supply and the core mold come together by simply lifting and lowering the air tank, namely by manual operation, via a rack and pinion drive or any other conventional mechanical device is transmitted. The sand container or sleeve is placed in a pile of sand on the work table submerged when a new batch or filling is required. With that there is great simplicity achieved and at the same time the supply and handling of the core sand simplified.

The machine according to the invention is illustrated in the drawing in one embodiment; it shows

Fig. Ι a side view of the machine, the sand container and the core shape partially in the Section are shown,

Fig. 2 is a view with the air container clamped on the sand container or the sand sleeve is,

Fig. 3 is a front view of the machine, Fig. 4 is a section along line IV-IV of Fig. 1, Fig. 5 is a section along line V-V of Fig. 2,

Fig. 6 is a perspective view of the sand sleeve.

On the platform 1 at the base of the machine sits the vertical stand 2 on which the Arm 3 can be adjusted by means of a bolt 4 which reaches through a clamping sleeve. The arm carries at the outer end a sleeve 5 in which the cylinder 6 is slidably guided is; the cylinder 6 carries a lateral rack 7 which meshes with a pinion 8 on the shaft 9 stands. The pinion 8 can be set in rotation by means of a crank 10. A driver locking device 11 rests against the round head piece 12, which has holes 13 for inserting the Crank 10 is provided.

The cylinder 6 forms an air tank, at the bottom of which there is a valve 14. This The valve carries a guide sleeve 15, which the valve in the opening of the provided with internal thread Cap 17 leads at the end of the cylinder. The valve has a flange 18 with openings 19. The flange is arranged so that it fits onto the flange seal 20 at the bottom End of the cylinder touches down and by the air pressure and by the coil spring 21 in this Location is held. When the valve is raised by depressing the lever 22, so the air flow passes through the openings 19 and the openings 23. A valve stem 24 connects the valve with the lever 22. This particular design of the valve and the valve, actuation mechanism is of course not essential to the invention; but at least they have each other Proven to be useful.

The core shape is denoted by C and is provided with several cavities 25 which are accessible through openings 26.

The usual core blowing machine has a rather large sand distribution head which is extended downwards to fit over the core shape, to bridge the openings in the core shape and to form a tight seal with the core shape. Usually must every time When the core shape is changed, a heavy slab is removed from the bottom of the sand spreader head and exchanged for another plate, the openings of which are distributed so that they coincide with the openings in the new version of the core shape. It can also be the case

occur that the machine parts have to be rearranged or regulated in order to accommodate the differently sized core shapes of perhaps different heights can.
To avoid this it is proposed to use a small sleeve containing the sand and to equip this sleeve at its lower end with a laterally extending base of limited dimensions to keep the air flow together so that it compacts the sand in the base ; in this way the sand is conveyed like a piston into the openings of the cavities of the core mold. The actual sleeve is denoted by 27.

The narrow! Delimited base that the core mold openings bridged, is denoted by 28. The bottom 30 of the base has openings 29, which coincide with the openings 26 in the core shape. When the operator pulls the crank 10

ao pushes down, the cylinder 6 is placed on the upper end of the sleeve 27, where the sealing ring 31 forms an airtight seal. Then the operator pushes the lever 22 down with the other hand. The air valve is then opened. The one in the sleeve Sand charge is carried down into the base 28, and in this narrow chamber is the air while avoiding diffusion, as was the case with earlier versions of core blowing machines existed, held together and serves to compact the sand in the base of the sleeve. The sand coming from the part of the sleeve containing the sand charge is passed through openings 29 is blown into the sanded base in the manner of a piston advance and arrives while doing so in the openings of the core mold. After the blowing process, compacted sand remains in the extended base, as illustrated in FIG. The air passes through lattice-shaped ventilation openings in the core form, which are not illustrated in the drawing because their Arrangement is generally known per se.

In practical operation it has been shown that the size of the cylindrical or the charge containing Part of the sleeve only needs to be large enough to hold a batch of sand for the core mold. The sleeve can of course be made larger; but it turned out that it is better if they essentially match the volume of the core mold cavities and the associated adjusts openings. If the sleeve is chosen to be smaller than the volume of the core shape corresponds, some of the sand in the base is transferred into the core form, whereby the Machine loses its effectiveness.

Instead of filling funnels, which are located between the machine and large sand storage containers Must be transported back and forth, whereby it is necessary at regular intervals the container Refilling by pumping the sand up to the top of the machine is limited the sand supply of the machine according to the invention on a pile of loose sand on the work table. After each blowing process has been completed, the operator lifts the air tank. Fulfills the sleeve all over again by simply pushing the sleeve into the pile of sand on the side of the machine. Another core shape is placed on the platform, which becomes the refilled sleeve inserted between the air tank and the core mold and airtight between the air tank and the core shape clamped. Then a new flow of air is introduced into the sleeve in order to avoid the to empty the sand located in the upper chamber containing the batch. It has shown, that the diameter of the tubular filling part of the sleeve is expediently about six times as large like the diameter of the valve opening in the air tank. These measurements are intended for the Invention have no limiting meaning; they are only given as useful information.

It is desirable to always keep a remainder of sand in the base of the sleeve, because this sand is one Protective wad of compacted sand forms, which holds the contents of the core shape and the core shape itself protects against the flow of compressed air. If there is no suitable protective plug, it blows Air passes through the bottom of the sand container or sleeve and forms the core mold in the sand Crater. This is of course highly undesirable.

This interchangeable sleeve can be used for sandblasting of almost any type, size and shape Find core shapes use without changing the setup of the machine needs. All you have to do is take the correct sleeve for the core shape and place it between the new one Core mold and the air tank. With the machines in use today, this usually requires the replacement of the plate bridging the core mold openings at the bottom of the sand filling containing container to bring the openings to coincide; that can still be a A number of cumbersome adjustments have to ensue in order to get the parts to the correct height bring, which is needed for the treatment of the new core shape.

The machine according to the invention is particularly useful when filling core molds for complicated cores. This work is often done by hand. When installing the machine on the work table has been shown that an operator with the help of this simple machine four times as many cores as it is possible for him if he is filling the core form with the hand must make.

Looking at a side view of the sleeve of FIGS. 1 and 2 it can be seen that the general Limitation of the sleeve is that of an inverted T, or if one has a middle cut puts through the sleeve, in a plane in the longitudinal direction of the base or in the longitudinal direction of the sleeve, the longitudinal section would be T-shaped. This explanation is given with caution to the reference to this indicator in

given the claims to describe the sleeve in more detail and it from the previously known Stand out from the state of the art.

When reference is made in the claims to the core form, it will be understood that the Core shape can have one or more cavities. The drawings illustrate a core shape with multiple cores. On the other hand, different core shapes could be strung together be and be held in this position for a blowing process with the aid of a sleeve; these Possibilities are to be covered within the scope of the invention.

Claims (6)

PATENT CLAIMS: i. Core sandblowing machine with a sleeve containing the sand filling, which is between an air supply chamber with a valve-controlled outlet opening and a core shape as well as a supporting platform can be interposed, characterized in that that the sleeve consists of an upper part with a practically uniform cross-section and a socket as assets, which are essentially for the Batch is sufficient for only one blow molding, and consists of a hollow sand distribution base part, which sharply widens the sleeve at the end of the upper part, the shape of the core and its openings bridged 'and has only a small height, the sleeve in side view or in longitudinal section practically the shape of a. turned T, whose vertical bar from the upper part and whose cross bar from the hollow base are formed. 2. Machine according to claim 1, characterized in that that the upper part of the sleeve receiving the charge is columnar. 3. Machine according to claim 1 or 2, characterized in that the hollow base part has openings in its bottom, which correspond to the flow openings in the core shape cover. 4. Machine according to claim 1, 2 or 3, characterized in that the height of the The base or the crosspiece of the T is significantly smaller than the height of the upper part or the vertical T-bar. 5. Machine according to one of the preceding claims, characterized in that the Sleeve designed as an independent, portable part that can be easily removed for the filling and that the distance between the air supply chamber and that on the base resting core shape can be changed for the purpose of easy removal and installation of the sleeve. 6. Machine according to one of the preceding claims, characterized by its design as a unit that can be set up on the work table. 1 sheet of drawings 2939 1.52