CN220995185U - 3D prints mould of processing - Google Patents

Abstract

The utility model provides a 3D printing and processing die which comprises a bottom pressing plate, a fixed male die, a stackable die frame structure, an elastic partition frame structure, a limiting upright post, a locking pressing plate, a through round hole, a feeding funnel, a quick locking frame structure, a fixed female die and an L-shaped locking groove, wherein the fixed male die is integrally arranged at the middle position of the upper part of the bottom pressing plate; the stackable mold frame structure is arranged at the upper part of the bottom pressing plate; the elastic dividing frame structure is arranged at the right upper part of the inner side of the stackable die frame structure; the limiting stand columns are respectively and integrally arranged at four corners of the upper part of the bottom pressing plate; the locking pressing plate is sleeved on the upper part of the inner side of the limiting upright post. The middle die plate, the inner die groove and the outer die are arranged, so that the middle die plate, the inner die groove and the outer die are matched with the fixed male die and the fixed female die respectively, a plurality of middle die plates can be arranged in a superposition mode, and a plurality of workpieces can be poured after one-time discharging.

Description

3D prints mould of processing

Technical Field

The utility model belongs to the technical field of mechanical equipment, and particularly relates to a 3D printing and processing die.

Background

3D printing (3 DP), a type of rapid prototyping technology, also known as additive manufacturing, is a technology that builds objects by means of layer-by-layer printing using bondable materials such as powdered metal or plastic based on digital model files, 3D printing is usually implemented using digital technology material printers, often used in the fields of mold manufacturing, industrial design, etc. to manufacture models, and then gradually used in the direct manufacture of some products, and parts have been printed using this technology. The technology has application in jewelry, footwear, industrial design, construction, engineering and construction, automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, firearms, and other fields.

However, the existing 3D printing and processing die also has the problems that a plurality of workpieces cannot be poured at one time, and after pouring, independent demolding and relatively laborious detachment of a locking structure cannot be performed.

Therefore, it is necessary to invent a 3D printing mold.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a 3D printing processing die, wherein the utility model is realized by the following technical scheme:

The 3D printing and processing die comprises a bottom pressing plate, a fixed male die, a stackable die frame structure, an elastic dividing frame structure, a limiting upright post, a locking pressing plate, a through round hole, a feeding funnel, a quick locking frame structure, a fixed female die and an L-shaped locking groove, wherein the fixed male die is integrally arranged at the middle position of the upper part of the bottom pressing plate; the stackable mold frame structure is arranged at the upper part of the bottom pressing plate; the elastic dividing frame structure is arranged at the right upper part of the inner side of the stackable die frame structure; the limiting stand columns are respectively and integrally arranged at four corners of the upper part of the bottom pressing plate; the locking pressing plate is sleeved on the upper part of the inner side of the limiting upright post; the through round holes are respectively formed at four corners of the inner side of the locking pressing plate; the feeding funnel is embedded in the middle position of the upper part of the locking pressing plate; the quick locking frame structure is arranged at the upper part of the limiting upright post; the fixed female die is connected to the lower part of the locking pressing plate through bolts; the L-shaped locking groove is formed in the front end of the upper portion of the limiting upright post.

Preferably, the upper part of the limiting upright post is inserted into the inner side of the through round hole, and the lower part of the feeding funnel penetrates through the fixed female die and is communicated with the inner side of the fixed female die.

Compared with the prior art, the utility model has the beneficial effects that:

1. According to the utility model, the middle die plate, the inner die groove and the outer die are arranged, so that the middle die plate, the inner die groove and the outer die are matched with the fixed male die and the fixed female die respectively, a plurality of middle die plates can be arranged in a superposition manner, and a plurality of workpieces can be poured in one-time discharging.

2. According to the utility model, the pouring through holes and the feeding hopper are arranged, so that materials for pouring are guided, the stacked cavities can be mutually communicated through the pouring through holes, and the materials can enter a plurality of pouring cavities at one time.

3. In the utility model, the arrangement of the rectangular sliding groove and the connecting through hole is beneficial to the installation of the movable ejector rod and the rectangular inserting block respectively, and does not influence the normal movement of the movable ejector rod and the rectangular inserting block.

4. According to the utility model, the movable ejector rod, the rectangular insert and the conical cutting plate are arranged, so that the rectangular insert is impacted by the movable ejector rod, and the connecting parts of a plurality of materials are impacted by matching with the conical end of the conical cutting plate, so that the materials are separated singly and then are convenient to demould.

5. According to the utility model, the compression spring and the movable button are arranged, so that the movable ejector rod can be moved, impact force is applied to the rectangular inserting block, and the rectangular inserting block can be automatically reset due to the elasticity of the compression spring.

6. According to the utility model, the arrangement of the top pressing plate, the locking spring and the annular pressing plate is beneficial to the fact that the locking spring pushes the annular pressing plate to move downwards through the elasticity of the locking spring, and downward pressure is applied to the locking pressing plate, so that a plurality of middle die plates can be tightly attached together.

7. According to the utility model, the groove connecting cap and the rotary moving rod are arranged, so that the rotary moving rod is convenient to hold to rotate the groove connecting cap, and the groove connecting cap is convenient to detach.

8. According to the utility model, the arrangement of the limiting clamping column and the L-shaped locking groove is beneficial to the rapid disassembly of the groove connecting cap from the upper part of the limiting upright column through the mutual matching of the limiting clamping column and the L-shaped locking groove, so that the demolding time consumption is shortened.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the stackable mold frame structure of the instant utility model.

Fig. 3 is a schematic structural view of the elastic dividing frame structure of the present utility model.

Fig. 4 is a schematic structural view of the quick lock bracket structure of the present utility model.

In the figure:

1. A bottom platen; 2. fixing the male die; 3. a stackable mold frame structure; 31. an intermediate mold plate; 32. a female die groove; 33. a convex mold; 34. pouring the through hole; 35. a rectangular sliding groove; 36. a connecting through hole; 4. an elastic dividing frame structure; 41. moving the ejector rod; 42. rectangular inserting blocks; 43. a conical cutting plate; 44. a compression spring; 45. moving the button; 5. a limit upright post; 6. locking the pressing plate; 7. a through round hole; 8. a feed hopper; 9. a rapid locking frame structure; 91. the groove is connected with the cap; 92. rotating the moving rod; 93. limiting clamping columns; 94. a top platen; 95. a locking spring; 96. an annular pressing plate; 10. fixing the female die; 11. l-shaped locking groove.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

Examples:

As shown in fig. 1 and 2, the 3D printing and processing die comprises a bottom pressing plate 1, a fixed male die 2, a stackable die frame structure 3, an elastic dividing frame structure 4, a limiting upright post 5, a locking pressing plate 6, a through round hole 7, a feeding funnel 8, a quick locking frame structure 9, a fixed female die 10 and an L-shaped locking groove 11, wherein the fixed male die 2 is integrally arranged at the upper middle position of the bottom pressing plate 1; the stackable mold frame structure 3 is arranged at the upper part of the bottom pressing plate 1; the elastic dividing frame structure 4 is arranged at the right upper part of the inner side of the stackable die frame structure 3; the limiting stand columns 5 are respectively and integrally arranged at four corners of the upper part of the bottom pressing plate 1; the locking pressing plate 6 is sleeved on the upper part of the inner side of the limiting upright post 5; the through round holes 7 are respectively formed at four corners of the inner side of the locking pressing plate 6; the feeding funnel 8 is embedded in the middle position of the upper part of the locking pressing plate 6; the quick locking frame structure 9 is arranged at the upper part of the limiting upright post 5; the fixed female die 10 is connected to the lower part of the locking pressing plate 6 through bolts; the L-shaped locking groove 11 is formed in the front end of the upper part of the limiting upright post 5; the stackable mold frame structure 3 comprises a middle mold plate 31, an inner female mold groove 32, an outer convex mold 33, a pouring through hole 34, a rectangular sliding groove 35 and a connecting through hole 36, wherein the inner female mold groove 32 is formed in the lower part of the inner side of the middle mold plate 31; the outer convex mold 33 is integrally arranged at the upper middle position of the middle mold plate 31; the pouring through holes 34 are respectively formed in the middle position of the inner side of the middle die plate 31 and the middle position of the inner side of the outer convex die 33; the rectangular sliding groove 35 and the connecting through hole 36 are respectively arranged at the right upper part of the inner side of the middle die plate 31; the middle mold plate 31 is superimposed on the upper part of the bottom press plate 1, and the fixed male mold 2 and the male mold 33 are inserted inside the female mold groove 32 and inside the fixed female mold 10, respectively, at which time the pouring through hole 34 communicates with the cavity inside.

As shown in fig. 3, in the above embodiment, specifically, the elastic dividing frame structure 4 includes a movable push rod 41, a rectangular insert block 42, a conical cutting plate 43, a compression spring 44 and a movable button 45, where the rectangular insert block 42 is screwed on the left side of the movable push rod 41; the conical cutting plate 43 is integrally arranged on the left side of the rectangular insertion block 42; the compression spring 44 is sleeved on the right side of the outer part of the movable ejector rod 41; the movable button 45 is in threaded connection with the right side of the movable ejector rod 41; the moving button 45 is pressed, the rectangular insert block 42 is pushed to move leftwards by the moving ejector rod 41, and the conical cutting plate 43 impacts the materials at the connecting position, so that the connecting position is disconnected.

As shown in fig. 4, in the above embodiment, specifically, the quick locking frame structure 9 includes a groove connection cap 91, a rotary moving rod 92, a limiting clamping post 93, a top pressing plate 94, a locking spring 95 and an annular pressing plate 96, where the rotary moving rod 92 is integrally disposed on the right side of the groove connection cap 91; the limiting clamping column 93 is integrally arranged at the front end of the lower part of the inner side of the groove connecting cap 91; the top pressing plate 94 is integrally arranged at the lower part of the groove connecting cap 91; the locking spring 95 is glued to the lower part of the top pressure plate 94; the annular pressing plate 96 is glued to the lower part of the locking spring 95; the limiting clamping column 93 is inserted into the inner side of the L-shaped locking groove 11, and the locking spring 95 pushes the annular pressing plate 96 to move downwards, so that downward pressure is applied to the locking pressing plate 6.

In the above embodiment, specifically, the rectangular sliding groove 35 is disposed inside the pouring through hole 34, so as to facilitate the stacking of the plurality of middle mold plates 31.

In the above embodiment, specifically, the left side of the inside of the connecting through hole 36 is communicated with the right side of the inside of the rectangular sliding groove 35, so as to ensure that a plurality of workpieces can be formed after the materials are poured once.

In the above embodiment, in particular, the intermediate mold plates 31 are provided in plurality and are respectively disposed to be superimposed on each other.

In the above embodiment, specifically, the male mold 33 is inserted inside the female mold cavity 32.

In the above embodiment, specifically, the fixing male die 2 is inserted into the lower inner portion of the female die groove 32, and the fixing female die 10 is sleeved on the upper outer portion of the male die 33.

In the above embodiment, specifically, the movable jack 41 is inserted inside the connecting through hole 36.

In the above embodiment, specifically, the rectangular insert 42 is inserted into the inner side of the rectangular sliding groove 35 and is disposed on the right side of the pouring through hole 34.

In the above embodiment, specifically, the left side of the compression spring 44 is attached to the right side of the middle mold plate 31, and the right side is attached to the left side of the moving button 45.

In the above embodiment, specifically, the groove connection cap 91, the locking spring 95 and the annular pressing plate 96 are respectively sleeved on the upper outer side of the limiting post 5.

In the above embodiment, specifically, the annular pressing plates 96 are respectively disposed at four corners of the upper portion of the locking pressing plate 6, and the limiting clamping posts 93 are inserted into the inner sides of the L-shaped locking grooves 11.

Principle of operation

In the utility model, when in use, the middle die plate 31 is overlapped and placed on the upper part of the bottom pressing plate 1, the fixed male die 2 and the male die 33 are respectively inserted into the inner side of the inner female die groove 32 and the inner side of the fixed female die 10, the pouring through hole 34 is communicated with the cavity on the inner side, then the groove connecting cap 91 is sleeved on the upper part of the limiting upright post 5 by holding the rotary moving rod 92, the locking spring 95 and the annular pressing plate 96 are respectively sleeved on the outer upper part of the limiting upright post 5, the limiting clamping post 93 is inserted into the inner side of the L-shaped locking groove 11, the locking spring 95 pushes the annular pressing plate 96 to move downwards, downward pressure is applied to the locking pressing plate 6 to clamp the overlapped middle die plate 31, then materials enter the cavity through the feeding funnel 8 and the pouring through hole 34, after the workpiece is formed, the moving button 45 is pressed, the rectangular inserting block 42 is pushed to move leftwards by moving the ejector rod 41, and the conical cutting plate 43 impacts the materials at the joint, so that the joint is broken, and the independent demoulding is facilitated.

By using the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the utility model.

Claims (6)

1. The 3D printing processing die is characterized by comprising a bottom pressing plate (1), a fixed male die (2), a stackable die frame structure (3), an elastic partition frame structure (4), a limiting upright post (5), a locking pressing plate (6), a through round hole (7), a feeding funnel (8), a quick locking frame structure (9), a fixed female die (10) and an L-shaped locking groove (11), wherein the fixed male die (2) is integrally arranged at the upper middle position of the bottom pressing plate (1); the stackable mold frame structure (3) is arranged at the upper part of the bottom pressing plate (1); the elastic dividing frame structure (4) is arranged at the right upper part of the inner side of the stackable die frame structure (3); the limiting stand columns (5) are respectively integrally arranged at four corners of the upper part of the bottom pressing plate (1); the locking pressing plate (6) is sleeved at the upper part of the inner side of the limiting upright post (5); the through round holes (7) are respectively arranged at four corners of the inner side of the locking pressing plate (6); the feeding funnel (8) is embedded in the middle position of the upper part of the locking pressing plate (6); the quick locking frame structure (9) is arranged at the upper part of the limiting upright post (5); the fixed female die (10) is connected to the lower part of the locking pressing plate (6) through bolts; the L-shaped locking groove (11) is formed in the front end of the upper portion of the limiting upright post (5).
2. 2. The 3D printing processing mold according to claim 1, wherein the stackable mold frame structure (3) comprises a middle mold plate (31), an inner female mold groove (32), an outer male mold (33), a pouring through hole (34), a rectangular sliding groove (35) and a connecting through hole (36), wherein the inner female mold groove (32) is formed at the inner lower part of the middle mold plate (31); the outer convex mold (33) is integrally arranged at the upper middle position of the middle mold plate (31); the pouring through holes (34) are respectively formed in the middle position of the inner side of the middle die plate (31) and the middle position of the inner side of the outer convex die (33); the rectangular sliding groove (35) and the connecting through hole (36) are respectively arranged at the right upper part of the inner side of the middle die plate (31).
3. 3. The 3D printing processing mold according to claim 1, wherein the elastic dividing frame structure (4) comprises a movable ejector rod (41), a rectangular insert block (42), a conical cutting plate (43), a compression spring (44) and a movable button (45), wherein the rectangular insert block (42) is in threaded connection with the left side of the movable ejector rod (41); the conical cutting plate (43) is integrally arranged on the left side of the rectangular inserting block (42); the compression spring (44) is sleeved on the right side of the outer part of the movable ejector rod (41); the movable button (45) is connected to the right side of the movable ejector rod (41) in a threaded mode.
4. 4. The 3D printing processing mold according to claim 1, wherein the quick locking frame structure (9) comprises a groove connecting cap (91), a rotary moving rod (92), a limiting clamping column (93), a top pressing plate (94), a locking spring (95) and an annular pressing plate (96), and the rotary moving rod (92) is integrally arranged on the right side of the groove connecting cap (91); the limiting clamping column (93) is integrally arranged at the front end of the lower part of the inner side of the groove connecting cap (91); the top pressing plate (94) is integrally arranged at the lower part of the groove connecting cap (91); the locking spring (95) is glued at the lower part of the top pressing plate (94); the annular pressing plate (96) is glued at the lower part of the locking spring (95).
5. 5. The 3D printing processing mold according to claim 2, wherein the rectangular sliding groove (35) is provided inside the pouring through hole (34), and the inner left side of the connecting through hole (36) is communicated with the inner right side of the rectangular sliding groove (35).
6. 6. The 3D printing mold according to claim 2, wherein a plurality of intermediate mold plates (31) are provided and are respectively stacked on each other, and the male mold (33) is inserted into the inner side of the female mold groove (32).