CN220946722U - Device capable of preventing 3D printing mold from deforming - Google Patents

Abstract

The utility model discloses a can prevent device that 3D printed die warp relates to mould processing technology field, including bearing the seat, the top of bearing the seat is provided with the cooling seat, the top surface of cooling seat is connected with two closing plates, the both sides surface of cooling seat all is connected with cooling fan, the device can provide loading platform for the machine-shaping of machined part through the loading plate, and the cooperation of cooling seat and two cooling fans can conveniently carry out the rapid cooling to the machined part after processing to prevent the deformation that the mould produced when overheated, guarantee the quality of mould, and through the cooperation between pivot and regulating block and torsional spring and fixed block and block groove and the spacer pin, can make things convenient for the dismouting between loading plate and the cooling seat, and according to damping pole and connecting spring's cooperation, can make things convenient for the lift of cooling seat, thereby realize cooling the mould and the processing operation of machined part.

Description

Device capable of preventing 3D printing mold from deforming

Technical Field

The utility model relates to a mould processing technology field specifically is a device that can prevent that 3D from printing mould deformation.

Background

The 3D printing apparatus can print the shaping fast to the mold processing, and the 3D printing apparatus has had the high temperature in carrying out the printing shaping back of machined part, and can influence the quality of machined part under the long-time high temperature condition, for example chinese patent discloses a device (bulletin number CN 213533674U) that prevents 3D printing mold deformation, although the device can carry out the rapid cooling to the machined part, prevent the mold deformation, but when processing, cooling apparatus can influence the operating space of printing apparatus, take the cooling to the machined part round trip, can lead to the machined part surface impaired again, influence the intensity and the quality of machined part.

Disclosure of utility model

The utility model aims at providing a can prevent device that 3D printed die warp, solved the inconvenient cooling problem of machined part.

The technical scheme adopted by the utility model is as follows:

The device capable of preventing the 3D printing die from deforming comprises a bearing seat, wherein a cooling seat is arranged at the top end of the bearing seat, two sealing plates are connected to the top surface of the cooling seat, and cooling fans are connected to the surfaces of two sides of the cooling seat;

The bearing seat comprises a bottom plate, the upper surface of the bottom plate is connected with a supporting column, the top end of the supporting column is connected with a bearing plate, and two sliding blocks are connected to the surfaces of two sides of the bearing plate.

As a further technical scheme of the utility model, sliding grooves are formed at the corresponding positions of the inner side walls of the cooling seats and the sliding paths of the sliding blocks, and the output ends of the two cooling fans are arranged on the inner side walls of the cooling seats.

As a further technical scheme of the utility model, the upper surface of the bottom plate is connected with four damping rods, the outer surfaces of the four damping rods are connected with connecting springs, the bottom ends of the damping rods and the connecting springs are connected to the upper surface of the bottom plate, and the top ends of the damping rods and the connecting springs are connected to the bottom surface of the bearing plate.

As a further technical scheme of the utility model, the bottom surface of the bearing plate is connected with two rotating shafts, the outer surfaces of the two rotating shafts are connected with adjusting blocks, the outer surfaces of the rotating shafts and the top surface of the adjusting blocks are connected with torsion springs, and the bottom surfaces of the two side surfaces of the cooling seat are connected with fixing blocks.

As a further technical scheme of the utility model, clamping grooves are formed in the positions, corresponding to the sliding paths of the fixed blocks and the adjusting blocks, of the surfaces of the fixed blocks, two limiting pins are connected to the inner side walls of the clamping grooves, and limiting pin holes are formed in the surfaces of the adjusting blocks and the two limiting pins.

As a further technical scheme of the utility model, the inner diameter of the cooling seat is matched with the sliding path of the bearing plate, the inner diameter of the clamping groove is matched with the sliding path of the adjusting block, the inner diameter of the limiting pin hole is matched with the outer diameter of the limiting pin, and the adjusting block is connected with the bearing plate through the torsion spring and the rotating shaft.

The utility model provides a device capable of preventing a 3D printing die from deforming. Compared with the prior art, the method has the following beneficial effects:

can prevent device that 3D printed die warp can provide loading platform for the machine shaping of machined part through the loading board, and the cooperation of cooling seat and two cooling fans can be convenient carries out the quick cooling to the machined part after processing to prevent the deformation that the mould produced when overheated, guarantee the quality of mould.

Can prevent device that 3D printed die warp, through the cooperation between pivot and regulating block and torsional spring and fixed block and block groove and the spacer pin, can make things convenient for the dismouting between loading board and the cooling seat to according to the cooperation of damping pole and connecting spring, can make things convenient for the lift of cooling seat, thereby realize the processing operation to mould cooling and machined part.

Drawings

FIG. 1 is a schematic diagram of a device for preventing deformation of a 3D printing mold;

FIG. 2 is a left side view of an apparatus for preventing deformation of a 3D printing mold;

FIG. 3 is a cross-sectional view A-A of FIG. 2 of an apparatus for preventing deformation of a 3D printing mold;

FIG. 4 is a schematic diagram showing an exploded structure of a device for preventing deformation of a 3D printing mold;

Fig. 5 is an enlarged view of a in fig. 4 of a device for preventing deformation of a 3D printing mold.

In the figure: 1. a bearing seat; 11. a bottom plate; 12. a support column; 13. a carrying plate; 14. a slide block; 15. a damping rod; 16. a connecting spring; 17. a rotating shaft; 18. an adjusting block; 19. a torsion spring; 101. limiting pin holes; 2. a cooling seat; 21. a fixed block; 22. a clamping groove; 23. a limiting pin; 3. a closing plate; 4. a cooling fan;

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following examples. It should be understood that the following text is used to describe only one or more specific embodiments of the present invention and does not strictly limit the scope of protection of the specific claims.

Referring to fig. 1 to 4, in an embodiment of the utility model, a device capable of preventing a 3D printing mold from deforming includes a bearing seat 1, a cooling seat 2 is provided at a top end of the bearing seat 1, a top surface of the cooling seat 2 is connected with two sealing plates 3, two side surfaces of the cooling seat 2 are connected with cooling fans 4, the bearing seat 1 includes a bottom plate 11, an upper surface of the bottom plate 11 is connected with a support column 12, a top end of the support column 12 is connected with a bearing plate 13, and two side surfaces of the bearing plate 13 are connected with two sliding blocks 14.

As shown in fig. 1-3, the corresponding positions of the inner side wall of the cooling seat 2 and the sliding path of the sliding block 14 are provided with sliding grooves, and the output ends of the two cooling fans 4 are arranged on the inner side wall of the cooling seat 2, and it is to be noted that the cooling fans 4 can send low-temperature air into the cooling seat 2 and cool the printed piece on the surface of the bearing plate 13, so as to achieve the effect of rapid cooling.

As shown in fig. 4-5, the upper surface of bottom plate 11 is connected with four damping bars 15, the surface of four damping bars 15 all is connected with coupling spring 16, damping bars 15 and coupling spring 16's bottom are connected in the upper surface of bottom plate 11, damping bars 15 and coupling spring 16's top are connected in the bottom surface of loading board 13, loading board 13's bottom surface is connected with two pivots 17, the surface of two pivots 17 all is connected with regulating block 18, the surface of pivot 17 just is located regulating block 18's top surface and is connected with torsional spring 19, the bottom surface of cooling seat 2 both sides face all is connected with fixed block 21, the surface of fixed block 21 and the corresponding department of regulating block 18 sliding path all have seted up block groove 22, the inside wall in block groove 22 is connected with two spacer pin 23, the surface and the two spacer pin 23 of regulating block 18 all correspond and have seted up spacing pinhole 101, the internal diameter size of cooling seat 2 and the sliding path looks adaptation of loading board 13, the internal diameter size of spacer pin hole 101 and the sliding path looks adaptation of regulating block 18, the external diameter size looks adaptation of spacer pin 23 just is located regulating block 18, the surface and the diameter size adaptation of spacer pin 17 and the sliding block 18 of rolling block 18, the convenient for carrying out the printing device is realized with the diameter of the regulating block 17 and the bearing board 18, the convenient to separate from the printing device of the outer surface of the regulating block 2 and the corresponding to the regulating block 18, thereby the printing device is realized by the surface of the regulating block 17 and the corresponding to the regulating block 18, the required cooling block is convenient to be connected with the regulating block 17 and the regulating block 18, and the printing device is convenient for the printing device and the printing device is convenient for the printing and the printing surface and the printing device and has 18.

The working principle of the utility model is as follows: when the cooling seat 2 is used, the printing equipment is used for carrying out processing, printing and forming on the upper surface of the bearing plate 13, after processing is finished, the adjusting blocks 18 on the outer surfaces of the two rotating shafts 17 are rotated inwards to squeeze the torsion springs 19, then the cooling seat 2 is slid upwards along the outer surface of the bearing plate 13, the damping rods 15 and the connecting springs 16 are stretched to enable the bottom surface of the bearing plate 13 to be flush with the bottom surface of the cooling seat 2, then the adjusting blocks 18 are loosened, the torsion springs 19 drive the adjusting blocks 18 to reset, one ends of the adjusting blocks 18 slide in along the clamping grooves 22 of the fixed blocks 21, so that the limiting pin holes 101 are clamped with the limiting pins 23, and the lifting of the cooling seat 2 can be completed;

closing two closing plates 3, starting two cooling fans 4 for two cooling fans 4 send the outside cold air into the inside of cooling seat 2, carry out quick cooling to the machined part, prevent the deformation of machined part.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated in the present application are all implemented by conventional means in the art unless specifically indicated and limited.

Claims (6)

1. The device capable of preventing the 3D printing die from deforming comprises a bearing seat (1), and is characterized in that a cooling seat (2) is arranged at the top end of the bearing seat (1), two sealing plates (3) are connected to the top surface of the cooling seat (2), and cooling fans (4) are connected to the surfaces of two sides of the cooling seat (2);

The bearing seat (1) comprises a bottom plate (11), a supporting column (12) is connected to the upper surface of the bottom plate (11), a bearing plate (13) is connected to the top end of the supporting column (12), and two sliding blocks (14) are connected to the two side surfaces of the bearing plate (13).

2. The device for preventing deformation of a 3D printing die according to claim 1, wherein the corresponding parts of the inner side wall of the cooling seat (2) and the sliding path of the sliding block (14) are provided with sliding grooves, and the output ends of the two cooling fans (4) are arranged on the inner side wall of the cooling seat (2).

3. Device for preventing deformation of a 3D printing die according to claim 1, characterized in that the upper surface of the bottom plate (11) is connected with four damping rods (15), the outer surfaces of the four damping rods (15) are connected with connecting springs (16), the bottom ends of the damping rods (15) and the connecting springs (16) are connected to the upper surface of the bottom plate (11), and the top ends of the damping rods (15) and the connecting springs (16) are connected to the bottom surface of the bearing plate (13).

4. Device capable of preventing deformation of a 3D printing die according to claim 1, characterized in that the bottom surface of the bearing plate (13) is connected with two rotating shafts (17), the outer surfaces of the two rotating shafts (17) are both connected with adjusting blocks (18), the outer surfaces of the rotating shafts (17) and the top surfaces of the adjusting blocks (18) are connected with torsion springs (19), and the bottom surfaces of the two side surfaces of the cooling seat (2) are both connected with fixing blocks (21).

5. The device for preventing deformation of a 3D printing die according to claim 4, wherein the surface of the fixed block (21) and the corresponding position of the sliding path of the adjusting block (18) are provided with clamping grooves (22), the inner side wall of each clamping groove (22) is connected with two limiting pins (23), and the surface of the adjusting block (18) and the two limiting pins (23) are provided with limiting pin holes (101) correspondingly.

6. The device for preventing deformation of a 3D printing die according to claim 5, wherein the inner diameter of the cooling seat (2) is matched with the sliding path of the bearing plate (13), the inner diameter of the clamping groove (22) is matched with the sliding path of the adjusting block (18), the inner diameter of the limiting pin hole (101) is matched with the outer diameter of the limiting pin (23), and the adjusting block (18) is connected with the bearing plate (13) through the torsion spring (19) and the rotating shaft (17).