TWM332015U - Automatic molding machine for manufacturing foam molded parts - Google Patents

Abstract

The invention relates to an automatic molding machine (01) for manufacturing foam molded parts, wherein the automatic molding machine (01) exhibits at least one mold, and wherein the mold is formed at least from one molding element (04) of a first generic type and one molding element (05) of a second generic type, and wherein at least two molding elements (03, 04) of the first generic type are provided, and wherein the molding elements (03, 04) of the first generic type are each alternately involved in the formation of the mold.

Description

M332015 VIII. New Description [Technical Field of the Invention] The present invention relates to an automatic molding machine for producing a foamed molded article according to the preamble of the scope of the patent application. [Prior Art] A general automatic molding machine usually has a mold composed of, for example, two mold halves. Here, the two mold halves are pressed against each other during the production of the molded article. It is not easy to get the actual mold directly during processing. In order to adjust the previous machining cycle and prepare for the next machining cycle of the mold, one must first wait for the end of the current production cycle. Only when the final molded article has been removed from the mold can the mold be directly approached to adjust and/or prepare for the next or next production cycle. The time required for conditioning and/or preparation is fully included throughout the cycle time, which reduces the productivity of the automatic molding machine. ‘ 【New content】 * The purpose of the utility model is to propose a new automatic molding machine. This object is achieved in the present invention in accordance with the technical solution of the independent item of the scope of the patent application. The preferred scope of the invention is set forth in the appended claims. According to the present invention, the problem is solved in that an automatic molding machine for producing a foamed molded article has at least one mold, wherein the mold is composed of at least a -4-M332015 first type mold member and a second type mold member. At least two first type of mold elements are provided, and wherein each of the first mold elements alternately participate in forming the stamp. This saves money. The first type of mold element preferably pivots about the common axis of rotation on the automatic molding machine. • In order to more conveniently mount the automatic molding machine, in particular the first type Φ element, on the holding device, it is preferred to provide an adjustment auxiliary holding device for aligning the first type of mold element. Here, the adjustment aid may comprise an adjustment surface comprising an intermediate angle and not parallel to the longitudinal axis of the machine. When pressed together, the centering surface acts as a centering action. In a preferred embodiment, the automatic molding machine has a securing means that can be securely mated to secure the first % of the mold elements in place. ^ When making foamed molded products, the foam is often changed in the mold to help access the mold. The mold is often composed of several mold elements. The mold elements can be joined in this way to form together for molding. The negative model. Here, a single part of the mold is referred to as a "mold, and the manufactured product is referred to as a "molded product." The mold element can be designed as needed. For example, it can be the contour of the watch itself, but can also have a contour for fixing the mold. Also, there is an integrated device for guiding the intermediate medium. And one of the types of processing is set, and the surface of the mold device of the mold device is hard to hold the type of the device. The shaped pressure member is shown as a mold. Brackets -5 - ; M332015 molds usually consist of several mold elements, which can also be called variable types. The mold is then formed together by various types of mold elements. For example, a positive die can be represented as a first type and a negative die can be represented as a second type. 'The shape of one type of mold element cannot be determined above when compared to another type of mold element. Variable types of mold elements can be identical, ** have mirror symmetry, or design changes. The automatic molding machine according to the present invention is provided with at least two mold elements of the first type φ type. Each of these mold elements alternately participate in the formation of the mold. In other words, the type of mold components involved in mold formation are frequently used to form the mold. It is also possible to reuse other types of mold elements that participate in the formation of the stamper. Then, each of one type of mold element alternately participates in forming the mold. Thus, during the production of the foamed molded article, another portion of the mold participating in the next processing is idled, so that preparation for the next manufacturing process can be performed during the ongoing manufacturing process. When the current manufacturing process has been completed, the mold component reaches this point and participates in the formation of the next mold of the next manufacturing process to replace the same type of mold component. When the new production process begins, the first production process can be adjusted. Here you can imagine all forms of preparation and adjustment. For example, preparation may include installing an empty mold, and the adjustment may include removing the final foamed molded article. The first type of mold elements are disposed about a common axis of rotation wherein the axis of rotation pivots relative to the automatic molding machine. In this preferred mode, the mold elements -6 - : M332015 are arranged symmetrically about the axis of rotation. For example, given two mold elements of the first type, the backs of the two mold elements are disposed opposite one another. - The mold elements can be fixed as needed. If they are to be separated, the mold elements can be removed and replaced by another type of mold element to increase the adaptability of the automatic molding machine. ' If the first type of mold element is set such that the rotary shaft is pivoted relative to the self-moving press, one type of mold element can be replaced only by turning the φ rotary shaft. Specifically, the first type of mold elements that are not involved in the fabrication at any time can always reach the same position by the rotational motion around the common axis of rotation. In another form of motion, for example, in a lateral insertion motion, individual mold elements that are not involved in the fabrication process can alternately reach one side of the automatic molding machine. In the automatic molding machine according to the present invention, this will improve the working environment since the user can always be in the same position. When using an automated system for preparation and/or adjustment, the automatic compression molding machine according to the present invention is dedicated to the use of a single system. Moreover, the automatic compression molding machine according to the present invention requires only a small installation space. • In another particularly preferred embodiment, the automatic molding machine has a pivoting retaining device wherein the first type of mold element can be secured to the retaining device. Here, the holding device basically has various desired designs. For example, it may be configured with two opposing journals that are pivoted relative to the automatic molding machine. This method of changing the rotation of the mold member makes it possible to retain the structural design of the automatic molding machine which is substantially unchanged from the conventional automatic molding machine. Thus, M332015 can be improved by replacing the previous various types of mold elements with the rotating device described. In another preferred embodiment, at least the first type of mold element is disposed in a region that is conveniently accessible from the outside to the automatic molding machine. In this case, the user or the automatic preparation and/or adjustment system can conveniently access the mold elements, particularly with the sides forming the mold. Specifically, the mold can be reached in a very straightforward manner without being hindered during preparation and/or adjustment. For example, the automatic molding machine has no frame obstruction, and as a result of the rotational motion, the inside of the mold element is directed to the outside. This advantageous effect is further enhanced in the case of a combination of the mold member disposed around the rotating shaft and the rotating shaft in the region of the automatic molding machine which is easily accessible from the outside. This is because at least one of the mold elements is flipped around the axis of rotation to the outside and stops at the same position as the previous mold element. As a result, the mold can be prepared and/or adjusted in a specific work environment improvement manner at the same location that is easily accessible from the outside.

In another preferred embodiment, each of the mold elements has an intermediate medium supply for processing process media. For example, the intermediate medium supply device can be designed as a steam chamber. For example, a steam chamber is used to form a foamed molded article with a foaming mold. However, this steam chamber relies on the supply of specific processing intermediate media. Specifically, it may be necessary to supply water vapor to obtain water vapor and to obtain condensed water. In order to provide such a processing intermediate medium, each of the mold elements has an intermediate medium supply means for these processing intermediate media. The intermediate medium supply unit can also be placed around the rotary axis with each mold element or fixed -8 - M332015 to the holding device. The intermediate medium supply device belongs to a moving component group. Each component has its own intermediate medium supply. In another preferred embodiment, the automatic molding machine has an intermediate medium supply device for the intermediate medium, wherein the automatic molding machine sets the device, and wherein the connecting device can set the intermediate medium of the mold member to the automatic molding machine The intermediate medium supply device is connected. - When the mold elements are aligned, the intermediate media of the alternating mold elements can be coupled to the intermediate medium supply of the automatic molding machine. It is ensured that the intermediate medium is supplied to the alternately moving mold elements. The fixed intermediate medium supply means of the automatic molding machine can be connected by means of an intermediate medium supply means for the aligned mold elements. It can be basically any type of connecting device. However, an example of a device that should be easily and quickly separated and connected is a moving telescopic tube because of the need to relatively replace the mold member. The connecting device can basically be driven as needed. In a particular embodiment, the attachment means can be hydraulically and/or pneumatically driven. < In addition to the fact that the control of the connecting device can be combined into a complete automatic machining, the drive can quickly function and lose the ability to quickly change parts again. In another preferred embodiment, the automatic molding machine has at least two types of second mold elements, wherein each of the first type of molds can selectively participate in the first mold and/or the second mold, and the first The mold element, and/or the second type of second mold element, in each of the mold processes, is connected to the supply supply and is ready to be attached for quick access. This preference is achieved. This mold element has a second element type II - M332015 c. In this way, in an automatic molding machine having at least one added second second mold element, the automatic molding machine has a second to Type of mold element. In addition to the two common types of mold elements surrounding the common axis of rotation, which produces at least two stamper combinations formed by at least one first type of mold element and 'two types of mold elements . ~ However, the number of first type mold elements and the number of second type mold Φ can be changed as needed. Essentially any number of first components can be placed around a common axis of rotation. In the same manner, any number of second type of mold elements can be provided, specifically matching the number of first mold elements. This will form the corresponding mold. The formation of each of the first type of mold elements and the second type of mold elements and the mold. The first type of mold element is alternately combined with the second type of piece. As a result, the first mold is first formed by the second type of the first mold element and the first type of the first mold element, and the second mold 'or later by the second type of the second mold element and the first type of the first type The components are formed. Here, the number of two mold element types is only real; the mold can also have more than two mold element types. The first mold is formed from a first mold element of a second type and a second mold of a first type, while or subsequently, the second mold is formed from a second mold of the second type together with the first mold member of the first type. Assuming that each type has more than two mold elements, three or more molds can be included in the replacement cycle. Types of two of the two types of element type molds, basically speaking, the number of pieces are referred to the mold element, the mold is also the same as the two mold cases, which can be used as a component or a mold element or -10- M332015 A particular advantage of this automatic molding machine is that at least a portion of one mold is part of another mold during the production cycle of the molded article. For example, a molded article prepared or partially prepared in a first mold may be continuously attached to a portion of the first mold and further processed in another production stage with another mold member. In the process of replacing at least one of the mold elements, the previously prepared or partially prepared molded article is held in at least one of the mold elements of the first mold. φ is eliminated in this manner to eliminate the need for transfer, for example, by manually separating the prepared or prepared molded article from the first mold and introducing it into the second mold. In this way, shorter cycle times can be produced, the manufacturing process becomes safer, and the quality of the product is improved. The time sequence for forming the first and second dies can be determined as needed. In a particularly preferred embodiment, the first mold and the second mold are formed simultaneously. In this way, a particularly short period of time can be achieved. However, it is also possible to form the first mold in the first step and the second % mold in the second step. One type of mold element can be basically designed as needed. In a particularly preferred embodiment, at least two of the mold elements of one type are of a variable design, at least according to a shape variable design. As a result, the molded article prepared or partially prepared can be further processed by a mold member having a different design at least in its shape after being transferred to the second mold. For example, the variable shape of the mold element forming the second mold can create a second mold cavity that is different in shape from the first mold cavity. Thus, the second mold cavity can have a larger volume than the first mold. Then, the added capacity -11 - M332015 V, , , and product can be expanded together with the second foaming so that the formed molded article has two foamed portions. • The foamed part can be constructed as needed. The foamed portions are the same or more uniform, but may differ in, for example, density or color. Substantially the same type of mold elements as needed may be at least 'relatively different from their shape. All mould elements of the same type differ at least in their shape - but it is also possible to provide a plurality of mould elements of the same type which are identical or identical in shape φ and that other mould elements belonging to the same type differ at least in shape . In addition, it is possible to make the first type belong to the shape, and the second type to be different in other respects. Is there a difference in the first type of mold elements disposed about a common axis of rotation, or a difference in the second type of mold elements, which is substantially random. Several embodiments of the invention are illustrated in the drawings and are illustrated by the following examples.

[Embodiment] FIG. 1 shows a perspective view of an automatic molding machine 01. The automatic molding machine 01 has a frame 02, a first type of first mold element 03, a first type of second mold element 04, and a second type of mold element 〇5. The first type of mold elements 03, 04 are disposed about a common axis of rotation 06 that pivots relative to the frame 02 of the automatic molding machine. In this exemplary embodiment, the mold element is designed to hold the contoured retaining frame and additionally has a set for guiding the intermediate medium -12-

M332015 into a device. The vertical position shown in Figure 1 is the operational position in this embodiment. Thus, the first type of second mold element 04 can be combined with the second type of mold element 05 to form a stamp. When the stamper is closed and processed, a type of first mold member 03 can be accessed from the outside without any problem. This is because the first type of mold members 03, 04 are disposed in an area where the automatic molding machine 0 1 can be accessed from the outside. The preparation can be performed on the first mold element 03 of the first type when the second mold element 04 of the first type is in the foaming process. For example, a stamper provided for foaming purposes can be fixed to the mold member. When the actual fabrication process has been completed, the mold members 04, 05 are opened. The second type of mold element 05 moves linearly rearward. The first type of mold elements 03, 04 are flipped 180° around the axis of rotation 06. The direction of rotation of the rotary shaft 06 can basically meet the requirements. The first type of prepared mold element 03 is now ready for forming a stamp at the same location as before the first type of mold element 04. To this end, the second type of mold member 05 is moved toward the first type of mold member 03 and is coupled to the mold member 03. During this time, the first type of mold element 04 approaches to the outside, at the position of the first type of mold element 〇3. The final foam compression molding can be removed during the conditioning step and the assembly can be restarted. Figure 2 shows in detail a perspective view of a first type of rotatable mold element 03. As can be seen from the figure, the mold members 03, 04, 05 each have a steam chamber as an intermediate medium supply unit. Each steam chamber has inlets and outlets for water vapor and water. The mold surrounding the rotating shaft 〇6 is in the same category as the one with the first example. The alternating rotational motion of the belt with the-13-M332015 element 〇3,04 makes it necessary to align the mold components. The port of the steam chamber is connected to the supply device 7 of the automatic molding machine 0 1 . Fig. 3 is a side view showing the automatic molding machine according to Fig. 1. The first type of mold element 04 is covered by the frame 〇2. The first type of mould elements 03 and 04 alternately rotate around the axis of rotation 6 in a known manner. The respective intermediate medium supply means 08 of one of the first type of mold elements 0 3 and 〇 4 are located directly in front of the intermediate medium supply unit 0 7 of the automatic molding machine. In other words, the respective intermediate medium supply units 之一 8 of one of the first type of mold members 03 and 04 are alternately connected with the intermediate medium supply unit 〇 7 of the automatic molding machine. The supply means of the second type of mould elements 〇 5 are connected in a known manner. Figure 4 is an intermediate medium supply device 07, 08 shown in an automatic molding machine

A specific side view of the connecting device of the automatic molding machine according to Fig. 1 between the mold member and the mold member. One of the first type of mold members 〇3 and 04 is an alignment state directly on the frame 〇2 of the automatic molding machine. As a result, in this embodiment of the present invention, the intermediate medium supply unit 7 of the automatic molding machine and the intermediate medium supply unit 0 8 of each of the mold elements are directly positioned relative to each other. The intermediate medium supply unit 07 of the automatic molding machine is designed to pass through the continuous pipe joint of the frame 02. In order to connect the intermediate medium supply means 07 of the automatic molding machine to the intermediate medium supply means 08 of the respective mold elements, the respective shiftable pipes 09 are provided as members of the connecting means. Each of the detachable tubes 09 can be moved by the drive plate 10. The drive plate 10 is driven by a hydraulic unit 11. Intermediate medium supply device 07 and various mold components of automatic molding machine -14- 12 12

The connection between the intermediate media supply unit M8 of the M332015 can be ensured by an interlock. The interlocking device 12 can have a valve, for example a pneumatic or electric actuated valve. Fig. 5 is a view showing another dynamic molding die 30 having a first mold 31 and a second mold 32. Further, the automatic molding machine 30 has a first mold member 33 of a first type and a second mold member 34 of a first type, which are disposed around the same rotary shaft 35, wherein the rotary shaft 35 is relatively opposed to the automatic press brake The shaft rotates. The mold elements 33, 34 can be coupled to the rotating shaft 35 with reference to all of the paragraphs in Figures 1 through 4. Further, the automatic molding machine 30 has a first mold element 36 of a second type and a second mold element 37 of a second type. At least one of each of the first type of mold member and the second type of mold member participates in the formation of the stampers 31 and 32. The mould elements are arranged in such a way that the mould elements 3, 3 7 are moved laterally towards the mould elements 3 3, 34 into two stampers 31, 32. The mold elements 3 3, 3 4 can be repositioned by being rotated about their axis of rotation 35. As a result, the mold member 36 alternated with the mold member 33 or 34 is formed with the first mold 31, and the member 37 alternated with the mold member 34 or 33 participates in the formation of the second mold 32. The stamps 3 1, 3 2 may be formed at the same time, i.e., simultaneously, or at a pressure of 3 1,3 2 at different times. For example, this can be achieved by time-delaying lateral movement of the mold elements 3 6, 3 7 . The direction of rotation of the mold elements 3 3, 34 around the axis of rotation 35 is substantially satisfactory. The mold elements 3 3, 3 4 can surround the rotating shaft 3 5 consecutive white total 30 pieces of the variable deformation model can be rotated -15- M332015 hour hand, rotating around the rotating shaft 35 continuously counterclockwise 'but can also be The circumferential rotation axis 35 is alternated between clockwise rotation and counterclockwise rotation. Fig. 6 shows the mold elements 33' 3 4, 3 6, 3 7 of the automatic molding machine 30 according to Fig. 5. The connected rotatable mold elements 3 3, 3 4 are designed as female molds, and each has a cover 38. In contrast, the mold elements 36, 37 are designed as male molds and have cores 39,40. The first core 39 of the mold member 36 is different in shape from the second core 40 of the mold member 37. Therefore, the second type of mold members 36, 37 have a change with respect to the shape. In contrast, in this exemplary embodiment, the cover members 38 of the mold members 3 3, 34 are identical in shape. The automatic molding machine can basically have two identical cores and two different covers. Further, the cover or core may be rotatably disposed in the middle of the structure if desired.

In this exemplary embodiment, the different shapes of the cores 39 and 40 create different cavity volumes in the stamps 31 and 32. In this exemplary embodiment, the volume of the stamper 31 is smaller than the volume of the stamper 32. Therefore, the stamper 3 1 is suitable for making the first mold article portion 41. Due to the different cores 40, the second mold 32 has a larger volume than the stamper 31 and is suitable for making the second mold article portion 42. The molded article portions 41, 42 may vary in connection, density and color, for example, rigidly connected to each other. 7 to 14 show the manufacturing process of such a molded article having two molded article portions 41, 42. Figure 7 is a view showing the already foamed first mold article portion 41 in the cover 38 of the mold member 34. The first mold product part 4 1 has been -16-

M332015 l. 'Foaming and stable. As shown in Fig. 8, the stamper 3 1 ' 3 2 is then closed at the same time. The S mold elements 3 3, 3 4 laterally move the mold elements 3 6, 3 7 to achieve 3 i formed by the mold elements 3 3, 3 6 and the stamp 3 2 formed by the mold elements 37. In Fig. 9, the stampers 3 1 and 3 2 are closed. However, there is no overall view to indicate. Here, the shape can be distinguished from the different cores 39, 40 by the differently shaped die cavities. The stamps 3 1, 3 2 are foamed when closed. The right stamper 3 1 starts; i 倂 foams the first mold article portion 41. The left stamper 3 2 starts _ a mold product portion 4 1, and then, the second mold product is foamed]. Due to the flat die design of the core 40, a larger volume chamber is formed in the die 3 2 . When the two stamps 3 1, 3 2 have been foamed and stabilized, 1 〇 is turned on again. The first molded article 刚 which has just been produced is retained in the cover 38 of the mold member 33, while the first molded article portion 41 and the second molded article portion 42 bonded to the left are retained in the mold member. In the core 40. The mold members 3 6 and 3 7 move laterally away from the mold member 33 and release the stamps 3 1, 3 2 again. As shown in Fig. 11, the mold members 3 3, 34 rotate together with the first mold article portion 41 which is always located in the cover 38 of the mold 33. The mold article portion 41 and the second mold article portion 42 are comprised in the core 40 of the mold member 37. [by to 〖. Die 34, [for better. Variable hollowed out, (filled with the first part 42 has its composition as shown in Figure 41 32, from the first element [the body -17- M332015 as shown in Figure 12] mold element 3 3, 3 4 rotates together with the first mold article portion 4 1 always in the cover 38 of the mold member 3 3. The connector composed of the first mold article portion 41 and the second mold article portion 42 remains in the mold In the core 40 of the member 37. As shown in Fig. 13, the mold member 3 3, 34 rotates together with the first mold article portion 41 which is always located in the cover 38 of the mold member 33. From the first mold article portion 4 1 The connector formed with the second mold article portion 42 remains in the core 40 of the mold member 37. At the end of the rotation 'as shown in Fig. 14, the mold member 33 is at the position of the mold member 34, and vice versa. As shown in Fig. 7, at the beginning of the manufacturing process, the first mold article portion 4 1 in the cover 38 of the mold member 3 3 replaces the first mold article portion 141 and is in the next step according to Fig. 8.

Further processing is carried out in the step. The connector 40 of the core 40 of the mold member 37 is composed of a first mold article portion 41 and a second mold article portion 42. In the next step, the first mold 31 is formed by the mold members 3 4 and 3 6 , and in the subsequent program step, the stamp 3 2 is formed by the mold members 3 3 and 37. Therefore, the formation of the stampers 3 1, 3 2 is constantly alternated in this manner. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a first automatic molding machine; FIG. 2 is a perspective view showing a rotation holding device of the automatic molding machine according to FIGS. 1 and 5; 4 is a side view showing the connecting device -18 - M332015 of the automatic molding machine according to FIGS. 1 and 5; FIG. 5 is a side view showing the second automatic molding machine; 6 is a view showing a mold member of the press-molded article having the automatic molding machine according to Fig. 5; Fig. 7 is a view showing the mold member according to Fig. 6 in the first portion of the press-molded article manufacturing process; Fig. 8 is a view In the second part of the process of making a molded article, 'view of the mold member according to Fig. 6; Fig. 9 is a view showing the mold member according to Fig. 6 in the third part of the process of making a molded article; Fig. 1 A view of the mold member according to Fig. 6 is shown in the fourth part of the press molding process; Fig. 11 is a view showing the mold member according to Fig. 6 in the fifth part of the press molding process;

Figure 12 is a view showing the mold member according to Figure 6 in the sixth part of the molding process of the molded article; Figure 13 is a view showing the mold member according to Figure 6 in the seventh part of the process of manufacturing the molded article. Figure 14 is a view showing the mold member according to Figure 6 in the eighth part of the molding process. [Explanation of main component symbols] 0 1 : Automatic molding machine 02: Frame -19- M332015 03: First mold element 04 of the first type: Second mold element 05 of the first type: Mold element 06 of the second type: Rotary shaft 07: Intermediate medium supply device 08 for automatic molding machine: Intermediate medium supply device 09 for mold elements: Removable tube 1 0: Drive plate 1 1 : Hydraulic unit 1 2 : Interlock device 3 0 : Other automatic Molding machine 3 1 : first mold 32 : second mold 3 3 : first mold element 34 of the first type: second mold element of the first type

36: a first type of first mold element 37: a second type of second mold element 38: a cover 3 9: a first core 40 of the mold element 36: a second core 4 of the mold element 37: first Mold article portion 42: second mold article portion -20-

Claims (1)

, 30, 30 M332015 IX. Patent Application No. 1 · An automatic molding machine (ο 1 ) for producing a foamed molded article, wherein the automatic molding machine (01, 30) has at least one pressure 31), characterized in that The stamper (31) is formed of at least one mold element of a first type, 33) and a mold element of the second type (〇5, 36), wherein at least two mold elements of the first type are provided (03, 04, 34), and each of the first type of mold elements (03, 04, 33) alternately participates in forming a stamper (31). 2. The automatic molding machine according to claim 1, wherein 5 the first type of mold elements (03, 04, 33, 34) are provided with the same rotating shaft (06, 35), wherein The rotating shaft (06, which is pivotable with respect to the automatic molding machine (0 1,300). The automatic molding machine according to claim 1 or 2, wherein the automatic molding The machine (01, 30) has a rotatably mounted device, wherein the first type of mold element (03, 04, 33, can be fixed to the holding device. 4. Automatic as described in claim 3 a molding machine, wherein the holding device is provided with an adjustment aid for aligning the first type of modules (03, 04, 33, 34). (04, and 33, , 34 around a total of 35 The automatic molding machine of claim 4, wherein the adjustment aid comprises an adjustment surface, wherein the adjustment surface comprises an intermediate angle and is not parallel to The longitudinal axis of the automatic molding machine (〇1, 30). The automatic molding machine according to Item 3, wherein the automatic molding machine has a fixing device that can be reliably engaged with the holding device to fix the first type of mold member (03, 04, 33, The automatic molding machine according to claim 2, wherein the rotating shaft (06, 35) is at a level. 8. The automatic stamping as described in claim 1 Machine, where At least the first type of mold element (03, 04, 33, 34) is disposed in a region that is easily accessible from the outside to the automatic molding machine (0 1,300). As claimed in claim 1 The automatic molding machine, wherein at least the first type of mold elements (03, 04, 33, 34) can be alternately rotated in and out of an area that is easily accessible from the outside to the automatic molding machine (〇1, 30) . 1 〇. The automatic molding machine according to claim 1, -22- M332015, wherein each of the mold elements (03, 04, 33, 3) has a supply device for processing the intermediate medium ( The automatic molding machine according to claim 10, wherein the automatic molding machine (〇1, 3 〇) has a supply device (07) for processing an intermediate medium, wherein The automatic molding machine (01, 30) is provided with a connecting device (09, 1), and wherein the connecting device (〇9, 1〇) can supply the feeding device (〇8) of the mold member with the The automatic molding machine of the automatic molding machine (0 1 ' 3 0 ) is connected. The automatic molding machine according to claim 11, wherein the connecting device (0 9,1 〇) It can be hydraulically and/or pneumatically driven. 1 3 · The automatic molding machine according to claim 1, wherein The automatic molding machine (30) has at least one second mold element (37) of the second type, and wherein the first mold element (36) of the second type and/or the second mold element of the second type ( 37) Each of the first type of mold elements (33, 34) incorporated is involved in the formation of the first mold (31) and/or the second mold (32). The automatic molding machine of claim 13, wherein the first mold (3 1 ) and the second mold (32) are simultaneously formed. 1 5 - The automatic molding machine as described in the patent application No. 13 or 14, -23- M332015 wherein at least two mold members (3, 3 7 ) belonging to the same type differ in shape.