DE1583530A1 - Gas heating plate for heating model equipment for the mask molding process - Google Patents

Description

"Gas heating plate for heating pattern devices for the mask molding processir The invention relates to a gas heating plate for heating pattern devices for the mask molding process, which consist of code plate with models, ejector plate and ejector pins, and aims to improve the design and effectiveness of such devices especially cheap there can be applied where large amounts of heat can be obtained in a short period of time and those who work with gas-air mixtures flowing out under excess pressure have been used for a long time to heat the molds for the: mask molding process, in which thermosetting molding materials are processed into mask or shell molds, and that as a result of the chemical that occurs in it Processes require temperatures of around 500 ° C: For example, a tube burner system is known that is located below the model plate and through which the ejector pins are passed. The ejector plate is therefore below the burner device. Such an arrangement has the disadvantage that one cannot freely dispose of the attachment of the ejector pins due to the space occupied by the combustion tubes. However, in the case of the mask molding process, which is used for the production of Prd.uisionsguß, it is absolutely necessary to be able to attach the ejector pins unhindered and according to the respective shape, in order to guarantee a perfect ejection of the finished shape. In order to meet these requirements, a device was also created at. which is provided below the model plate a combustion chamber in which nozzles for the fuel mixture are attached to two opposite, sometimes even all four sides. The flames are usually directed at an angle of 30-45o towards the model plate, but horizontally arranged nozzles are also used. In these devices, the ejector pins are actuated by an ejector plate located outside the heating zone, which results in very long ejector pins and correspondingly larger machine dimensions Lifting direction required. However, the main disadvantage are ungZ- to name uniform model warming. With the flame guidance described, the masks are burnt in places, which leads to mineralization on the castings, and it is not possible for the masks to be free of tension, as is necessary for precision casting.

Next are proposals for plate burners in the form of box-shaped two-part hollow body with a number attached below the model plate Nozzles have been made, but here you have a separate unheated lift-off plate used and has moved the ejector pins to the side outside of the combustion chamber. However, it is necessary to use a blow head made of metallic materials to work that for the case of mask production in the distance of the intended Mask thickness is attached above the actual Hodell. The masks are lifted off together with the blow head, which at the same time acts as a mold shell for rear support at. Pouring is used. So the ejector pins only lift the mold shell, which serves as a blow head, together with the finished 1 'mask, so that through the actual model. In general, don't go through any ejector pins. However, this process is only economical when producing large pieces®, pay., so zaBQ in notor construction for the automotive industry, applicable. It is common there too. Shooting machines for the full shooting of the gap to use between contour plate and model: The disadvantages outlined above will be eliminated according to the invention by the gas heating plate thereby with the ejector plate is combined into one unit that the ejector pins are easily interchangeable the burner surface of the heating plate are arranged. The plate can be used as a massive plate with molded-in or subsequently drilled-in inner tubes for the Gas supply and outlet openings for the gas emanating from these, on the other hand however, it is as good as one with shaped or milled channels for the gas supply provided massive base body with cover plates carrying the outlet openings be designed for the channels. In this way one obtains a structurally simple one Device on which the ejector pins are attached in any desired position can be; i.e. when changing models, adjustments can be made extremely quickly to the new requirements possible. Thus, the system is due to its wide range of applications of very high economic efficiency. Also it is against the strong warming insensitive, i.e. the thermal expansion caused by the burning gas mixture are so insignificant that they do not impair the operation of the ejector device represent. It is also possible with the arrangement according to the invention, the required Planar parallelism between the ejector and ...: Al plate despite the high temperature must be adhered to and thus ensure that the ejector pins work properly. In order to achieve an even heating of the model or illodell plate, the outlet openings for the heating medium advantageously regularly over the heating plate surface arranged distributed. To ensure that the ejector pins are properly seated Ensure the pins are between the ejector plate and the model plate advantageous either by means of holding magnets on the Hezplatte, hälaen or by means of heat-resistant, springs acting between the burner surface and the mold plate pressed the burner surface. Since the holding magnets are larger than the pins Diameter, they cover part of the outlet openings, so that at least a direct one. targeted heating of the ejector pins and annealing of the pins underneath = remains. It has also been found that those located on the heating plate Magnets heat up to a maximum of 2000'U., While their magnetic field is up to 3000C remains unaffected; When using feathers will. one favorably accordingly the wider diameter of the holding magnets, a fire at the lower end of the pin provide, against which the spring is supported and the one to cover the next Gas outlet openings are used, so that also a direct heat influence on the Springs and thus a rapid fatigue of the same do not occur.

In order to avoid the ejector pins when lifting the model plate falling randomly into the device, the pins are preferably at their upper end provided with a diametrical hole for receiving pins, by means of which si * can be held in the holes in the model plate.

If necessary, the fan that blows the combustion air into the heating system can lead additional combustion air via secondary lines directly into the space between the heating plate and the model plate or into the heating hood, i.e. into the room via: the model plate: The invention will now be based on the in the 'drawings shown presented, working examples - more closely: are explained., Violin:. _ Fg.-2 a section through an inventive appropriate device.-. - _ and - .. . -: _ -Fig. "2 a top view of the gas heating plate: Fig. 1 shows the gas heating plate 1 = as a massive body is trained. The plate 1 is inside of gas = - channels 21-through. These channels 21 can either be used as Pipes * poured into the gas heating plate or after slow% h be drilled in, whereby one - the side openings through `- Stopper resealed, or she. can be used for over- cover as channels open at the top also already in the To water @ provided or just as well subsequently by 'machined loose or machined shaping-to-be-produced. The gas is fed in via a line 22 and arrives through holes 23 in the plate surface to the exit, where it will be ignited, @ as in Pig: '1 by the flames 24 is indicated. Here are the holes - P-3, 'around' an a'- .. to ensure wall-free gas flow, advantageous than Nozzles formed and regular over the surface four Gas heating plate 1 distributed. When using cover -:. . i plates 11 in r.di, e holes in the cover plates 11 - ._ ._ _:. .. ...,. arranges', The respective requirements are on plate 1. fits, the evaluation pins 31, 32 arranged, -and two ent- neither magnetic ejector parts7.31, the. with help of a Holding magnets are attached to the plate surface. or spring pins 32, which by springs. against the plate 1 be pressed. The influence of heat on the pins, magnets and feathers. is kept in the Rabmen of, - permissible:?. depending on the size u, deragmete .. @; tnd. the: te of holes 23 a. or = several. Holes, 23 - from, Ydem, .- r4agpet, - foot 311. are covered, -so that..the: heating of the: magnets - always below: the_-critical .limit- of. 300 ° G remains. -.while for the spring pins: -32 -ein -Bund 32Z-.provided, .is;, -. against which the -spring _322: supports and, which: also, -. one: Ab- Coverage of one .or: -multiple holes-. 25th Above the gas heating plate, there are - in. with model. 5 arranged:, where -Model plate; A and .gege_- if necessary. - also, - Nodel1 -5 - @ with: - Dofirung9n for the ejector pins 31, 32 are provided. Lifting; the. .Plate = 1. in Direction of arrow 6, which schematically shows the effect; of the stroke cylinder, the pins lift the finished fora from - the model - 4: - from. , The ejector pins 31 "-, 32 = ° are at their top with rather a cross hole - '33 provided. This, hole. has the purpose that before changing the model equipment after - lei: ch- tem lifting the ejector plate in a pin or cotter pin they can introduce, thereby avoiding that the: throwing pins when lifting the model equipment: into the. ' Fall into the machine.

Claims (4)

P a t e n t ans p r ü c h e-1) Gas heating plate for heating model furnishings for the mask molding process, consisting of model plate with models, ejector plate and ejector pins, characterized in that the gas heating plate is united with the ejector plate to form a unit that the ejector pins are arranged easily exchangeable on the burner surface of the heating plate. 2) Gas heating plate according to claim 1, dadureh indicates that the plate is a solid plate with inner channels for the gas supply and outlet openings for the gas emanating from these is trained. 3) gas heating plate according to claim 1, characterized in -that the Plate as a base body provided with channels for - the gas supply with several the outlet openings supporting cover plates is formed. 4) Gas heating plate according to claim 2 or 3, characterized in that the outlet openings are regular The following are distributed over the surface of the plate: 5) Gas heating plate after one or more of claims 1 to 4, characterized in that the ejector pins by means of gripper magnets be kept on the hot plate. 6) Gas heating plate after a or more of Claims 1 to 4, characterized in that the ejector pins by means of heat-resistant springs acting between the burner surface and the mold plate against the burner surface. are pressed, 7) gas heating plate according to claim 5 or 6, characterized in that the ejector pins at their upper end with a diametrical hole ° to accommodate pins.