KR200234336Y1 - Mold for split forming of septic tank - Google Patents

Abstract

The present invention relates to a mold for manufacturing a split body constituting a septic tank, and more specifically, a mold for manufacturing a split body 60 of a septic tank is divided into an upper mold 10 and a lower mold 20 to allow the upper mold 10 to be formed. The protrusion 20a of the lower mold 20 is introduced into the recessed part 10a of the bottom, and the cylinder 30 is inclined in three directions except for the direction of opening of the product on the upper surface of the upper mold 10. On the rod 32 of the cylinder 30 which penetrates below the upper plate mold 12, a wall mold 40 having a joint part forming part 42 and a force forming part 44 is installed, and the outer side of the wall mold 40 is provided. The inclined guide 50 is integrally formed on the bottom surface of the upper plate mold 12 so that the wall mold 40 of the upper mold 10 lower by the cylinder 30 is inclined upwardly and inclined outwardly, so that the number of cylinders according to the mold production is increased. And the capacity can be reduced, which not only greatly reduces the mold manufacturing cost but also To the advantage that can directly to prevent the load is applied to significantly improve the service life and durability of the hameuroseo prevent failures of the cylinder mold.

Description

Mold for split forming of septic tank

The present invention relates to a mold for manufacturing a split body constituting a septic tank. More specifically, the mold is divided into an upper mold and a lower mold for the manufacture of a split body in which a protruding portion and a force is integrally formed on the wall mold. By increasing the inclined upward and outward by the inclined cylinder is to minimize the number of cylinders required for the mold to significantly reduce the cost of mold production and to prevent the failure of the cylinder due to overload.

In general, a septic tank refers to a manure treatment facility for purifying manure discharged from a toilet in a general household or a place where a sewage treatment facility is not installed and draining it to the sewage system. Instead, they are made mainly of synthetic resin.

However, since the general septic tank reaches several m3, the strength of the main body is strengthened by integrally forming a force body on the outside of the body to withstand the pressure of contaminants contained therein. The mold is made to surround all sides of the septic tank, but the mold is also divided into several pieces so that the mold of each piece can be extended in a separate direction by the cylinder to produce a septic tank body in which the force is integrally formed.

Therefore, in order to manufacture a general septic tank, a mold that extends in all directions, and a cylinder for extending these molds is required, which requires a large number of cylinders. In general, the mold is located in the direction in which the pressure is applied to the outside of the product, so a large capacity cylinder must be used to withstand this pressure, which not only increases the mold manufacturing cost but also the outside of the product. When the fatigue is added to the cylinder by the pressure applied there is a problem that shorten the life of the cylinder or cause frequent failures.

The present invention was devised to solve the above-mentioned problems. In order to reduce the size of the mold, the septic tank is divided into several pieces and manufactured into a divided body. The divided mold is divided into an upper mold and a lower mold. The wall mold is installed on the rod of the cylinder penetrated to the lower part of the upper mold, and the inclined guide is formed integrally with the upper mold so that the wall mold is raised and lowered outwardly by the cylinder. The number of cylinders for operating a mold required for the production of the split body formed integrally with the joint part and the force bar may be significantly reduced, which will be described in detail with reference to the accompanying drawings.

1 is a front view of the present invention

2 is a side view of the present invention

Figure 3 is an illustration of the bottom of the upper mold of the present invention

Figure 4 is an exemplary cross-sectional view of the main portion of the upper mold and the lower mold is coupled state

5 is separated from the upper mold and the lower mold of the subject innovation separated

Cross section example showing state

6 is an exemplary bottom view showing a state in which a wall mold is divided into a plurality;

7 is an exemplary view showing a partition manufactured by the mold of the present invention.

8 is an exemplary view showing a septic tank completed by thermal bonding between the divided bodies.

* Explanation of symbols for the main parts of the drawings

10: upper mold 10a: recessed part

12: upper mold 20: lower mold

20a: projection 30: cylinder

32: rod 40: wall mold

42: joint forming part 44: force forming part

50: inclined guide 60: split

62: protrusion junction 64: strength

The mold for manufacturing the partition 60 of the septic tank is divided into the upper mold 10 and the lower mold 20 so that the protrusion 20a of the lower mold 20 is formed in the recess 10a of the bottom of the upper mold 10. The upper surface of the upper mold 10 is inclined to install the cylinder 30 in three directions except for the direction of opening of the product to the rod 32 of the cylinder 30 penetrated below the upper mold 12 A wall mold 40 having a joint part forming part 42 and a force killing part 44 is installed, and an inclined guide 50 is integrally formed on the bottom surface of the upper plate mold 12 outside the wall mold 40 to form a cylinder. The wall mold 40 in the lower portion of the upper mold 10 is raised and lowered outwardly by the upper mold 10. The wall mold 40 is divided into a plurality of wall molds in each direction, and each divided wall mold is divided. It is also possible to install the cylinder 30 individually at 40 '.

The present invention as described above is to insert the projection (20a) of the lower mold 20 to the recessed portion (10a) of the upper mold 10 as shown in Figure 1 to feed the material to form a partition (60). When the molding of the partition is completed, the upper mold 10 and the lower mold 20 are separated, and then the wall mold installed below the upper mold 10 by using the cylinder 30 installed on the upper mold 10 ( 40) can be detached from the mold by lowering the inclined downward to the outer side and the protruding joint 62 is integrally formed at the upper edge and the lower edge, and the plurality of forcers 64 are integrally formed in the transverse direction. Will be.

That is, when the upper mold 10 and the lower mold 20 are combined as shown in the accompanying drawings, and the material of the product is put into the inner space, the material is hardened to complete the partition 60 constituting the septic tank. Since the sieves 60 are thermally bonded to each other to constitute a septic tank, the protruding joints 62 are formed integrally with the main body of the split body 60 in the transverse direction at the upper and lower edges for the thermal bonding. In the wall mold 40 constituting the split body 60 for strength reinforcement, a plurality of force bars 64 are integrally molded in the longitudinal direction.

As described above, in the case of molding a divided body formed integrally with the main body in which the protruding joint portion 62 protruding in the transverse direction and the force 64 protruding in the longitudinal direction are formed into a mold, the wall mold 40 of the mold is generally formed. The product can be separated from the mold by horizontally extending in the horizontal direction, but in the present invention, the cylinder 30 is inclined on the upper surface of the upper mold 10, and the rod 32 of the cylinder 30 has the upper mold ( Since the wall mold 40 is installed at the end of the rod 32 by penetrating the lower portion of the upper mold 12 of 10), the wall mold 40 installed at the lower portion of the upper mold 10 by the operation of the cylinder 30. ) Are not horizontally stretched horizontally but are inclined downward.

When the wall mold 40 is inclined downward in an outward direction, the protruding joint 62 is formed at the upper and lower edge portions of the partition body 60 by the joint forming parts 42 formed on the upper and lower portions of the wall mold 40. Since the wall mold 40 is lowered even though the molded part is formed, the protruding joint 62 formed at the upper edge portion of the partition 60 is not only affected by the lowering of the wall mold 40 but also the partition ( In the case of the protruding joint portion 62 formed at the lower edge portion of the 60, the partition 60, which is already completed in the recess 10a of the upper mold 10, with the lowering of the wall mold 40, is recessed. Since the wall mold 40 is inclined downward to the outside because it is a time point to be separated from (10a), the partition 60 is also discharged downwardly from the recess 10a of the upper mold 10 and thus the wall mold 40 Easily out of the mold without being affected by the descent of the Will be able to escape.

On the other hand, when the wall mold 40 is inclined downward to the outside by the cylinder 30 installed to be inclined on the upper mold 10, the inclined guide 50 on the outside of the wall mold 40, the upper plate mold 12 Since it is integrally formed on the bottom, it not only maintains the angle of descent accurately when the wall mold 40 descends, but also internal pressure when forming the partition 60 into the upper mold 10 and the lower mold 20. Even when applied to the wall mold 40, the inclined guide 50 formed on the bottom surface of the upper mold 12 not only firmly supports the wall mold 40, but in this case, the cylinder 30 is applied to the wall mold 40. Since it is installed in a direction different from the direction of the losing pressure, the load of the cylinder 30 does not occur directly due to the pressure, so that the failure of the cylinder 30 due to the high load can be prevented. Showing another embodiment of the invention By forming a plurality of wall molds 40 'in each direction, the divided wall molds 40' are individually operated by the cylinder 30, which can also achieve the same effect as the present invention. I want to clarify in advance.

As such, the present invention allows the cylinder 30 to be installed in the mold to be inclined to the upper portion of the mold, and the wall mold 40 to be elevated by the cylinder 30 to be inclined to be inclined. It is possible to reduce the mold production cost significantly, and to prevent the failure of the cylinder 30 by not directly applying a load to the cylinder 30, thereby greatly improving the service life and durability of the mold. There is this.

Claims (2)

The mold for manufacturing the partition 60 of the septic tank is divided into the upper mold 10 and the lower mold 20 so that the protrusion 20a of the lower mold 20 is formed in the recess 10a of the bottom of the upper mold 10. The upper surface of the upper mold 10 is inclined to install the cylinder 30 in three directions except for the direction of opening of the product to the rod 32 of the cylinder 30 penetrated below the upper mold 12 A wall mold 40 having a joint part forming part 42 and a force killing part 44 is installed, and an inclined guide 50 is integrally formed on the bottom surface of the upper plate mold 12 outside the wall mold 40 to form a cylinder. The division manufacturing die of the septic tank which made the wall mold 40 of the upper mold 10 lower part obliquely elevate outwardly by the 30. The method according to claim 1, wherein the wall mold 40 is divided into a plurality of wall molds in each direction to install the cylinder 30 for each divided wall mold (40 ') mold manufacturing die of the septic tank.