阅读说明：本技术 一种3d打印用原料调节装置 (3D prints and uses raw materials adjusting device ) 是由 王刚 于 2020-12-27 设计创作，主要内容包括：本发明涉及一种3D打印用原料调节装置,包括：竖杆,固定在所述竖杆一侧顶部的升降部,与所述升降部一侧适配的两传动杆,以及设置在所述竖杆顶部的调节部；两所述传动杆适于连接所述升降部和所述调节部；其中,所述升降部通过传动杆顶起所述调节部以松紧原料,本发明的伺服电机在启动后,伺服电机带动丝杆进行旋转,旋转的丝杆带动驱动块使驱动块上的升降块上下升降,而降块上的传动杆得以对在调节槽内部滑动,进而抬起或下拉调节杆对穿过中空板的原料进行紧松。(The invention relates to a raw material adjusting device for 3D printing, which comprises: the lifting part is fixed at the top of one side of the vertical rod, the two transmission rods are matched with one side of the lifting part, and the adjusting part is arranged at the top of the vertical rod; the two transmission rods are suitable for connecting the lifting part and the adjusting part; after the servo motor is started, the servo motor drives the screw rod to rotate, the rotating screw rod drives the driving block to enable the lifting block on the driving block to lift up and down, the transmission rod on the lifting block can slide in the adjusting groove, and the adjusting rod is lifted up or pulled down to tighten or loosen the raw materials passing through the hollow plate.)

1. The utility model provides a 3D prints and uses raw materials adjusting device which characterized in that includes: the lifting mechanism comprises a vertical rod (2), a lifting part (3) fixed at the top of one side of the vertical rod (2), two transmission rods (4) matched with one side of the lifting part (3), and an adjusting part (5) arranged at the top of the vertical rod (2);

the two transmission rods (4) are suitable for connecting the lifting part (3) and the adjusting part (5); wherein

The lifting part (3) jacks up the adjusting part (5) through the transmission rod (4) to loosen and tighten the raw materials.

2. A material adjusting apparatus for 3D printing according to claim 1,

the lifting part (3) comprises two servo motors (33) arranged at the top of one side of the vertical rod (2), two screw rods (32) fixedly connected to output shafts of the two servo motors (33), and a driving block (31) sleeved on the outer walls of the screw rods (32); wherein

The servo motor (33) can drive the screw rod (32), and the screw rod (32) lifts the adjusting part (5) by lifting the driving block (31).

3. A material adjusting apparatus for 3D printing according to claim 2,

the top end of the interior of the vertical rod (2) is respectively provided with two lifting grooves (21) corresponding to the lifting parts (3);

the lifting part (3) further comprises a lifting block (34) fixed on one side of the driving block (31), and the lifting block (34) penetrates through the lifting groove (21) to be rotatably connected with the transmission rod (4); wherein

The lifting block (34) slides in the lifting groove (21) to jack up the vertical rod (2).

4. A material adjusting apparatus for 3D printing according to claim 3,

the inner walls of the two lifting grooves (21) are tightly attached to the two lifting blocks (34); wherein

The two lifting blocks (34) are vertically limited to lift in the two lifting grooves (21).

5. A material adjusting apparatus for 3D printing according to claim 4,

an adjusting block (41) is arranged at one end, far away from the lifting block (34), of the transmission rod (4);

the adjusting part (5) comprises an adjusting rod (52) hinged to the top of the vertical rod (2) and an adjusting groove (51) formed in the adjusting rod (52); wherein

When the adjusting block (41) slides in the adjusting groove (51), the adjusting rod (52) is lifted at the top of the vertical rod (2).

6. A material adjusting apparatus for 3D printing according to claim 5,

a sliding rod (42) is arranged between the adjusting blocks (41), and the vertical section of the sliding rod (42) is smaller than that of the adjusting blocks (41).

7. A material adjusting apparatus for 3D printing according to claim 6,

a hollow plate (1) is arranged at the bottom of one side of the adjusting rod (52); wherein

The raw materials can sequentially penetrate through the middle parts of the hollow plate (1) and the vertical rod (2).

Technical Field

The invention relates to a raw material adjusting device for 3D printing.

Background

Along with present 3D prints the continuous rise in field for 3D prints development very rapidly, wherein, using 3D to print the in-process, need using 3D to print the raw materials, often in the in-process that uses, the raw materials if appear too tightly or too loosely, all can be the deviation of printing, and produce the risk of jam to printer head easily, consequently, the urgent need for a 3D prints and adjusts with raw materials adjusting device.

Disclosure of Invention

The invention aims to provide a raw material adjusting device for 3D printing.

In order to solve the above technical problem, the present invention provides a raw material adjusting device for 3D printing, including: the lifting part is fixed at the top of one side of the vertical rod, the two transmission rods are matched with one side of the lifting part, and the adjusting part is arranged at the top of the vertical rod; the two transmission rods are suitable for connecting the lifting part and the adjusting part; the lifting part jacks the adjusting part through a transmission rod to loosen and tighten the raw materials.

Furthermore, the lifting part comprises two servo motors arranged at the top of one side of the vertical rod, two lead screws fixedly connected to output shafts of the two servo motors, and a driving block sleeved on the outer walls of the lead screws; the servo motor can drive the screw rod, and the screw rod lifts the driving block to jack up the adjusting part.

Furthermore, two lifting grooves corresponding to the lifting parts are respectively formed in the top end of the inner part of the vertical rod; the lifting part also comprises a lifting block fixed on one side of the driving block, and the lifting block penetrates through the lifting groove to be rotationally connected with the transmission rod; wherein, the lifting block slides in the lifting groove to jack up the vertical rod.

Furthermore, the inner walls of the two lifting grooves are tightly attached to the two lifting blocks; wherein, two the elevator blocks are in two the lifting inslot portion is spacing lift from top to bottom.

Furthermore, an adjusting block is arranged at one end, far away from the lifting block, of the transmission rod; the adjusting part comprises an adjusting rod hinged to the top of the vertical rod and an adjusting groove formed in the adjusting rod; when the adjusting block slides in the adjusting groove, the adjusting rod is lifted at the top of the vertical rod.

Furthermore, a sliding rod is arranged between the adjusting blocks, and the vertical section of the sliding rod is smaller than that of the adjusting blocks.

Furthermore, a hollow plate is arranged at the bottom of one side of the adjusting rod; wherein, the raw materials can pass through the middle parts of the hollow plate and the vertical rod in sequence.

The invention has the beneficial effects that after the servo motor is started, the servo motor drives the screw rod to rotate, the rotating screw rod drives the driving block to enable the lifting block on the driving block to lift up and down, the transmission rod on the lifting block can slide in the adjusting groove, and the adjusting rod is lifted up or pulled down to tighten the raw materials passing through the hollow plate.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a 3D printing material conditioner of the present invention;

FIG. 2 is a schematic front view of a preferred embodiment of a 3D printing material conditioning apparatus of the present invention;

FIG. 3 is a block diagram of the preferred embodiment of the present invention enlarged at A in FIG. 1;

FIG. 4 is a schematic side view of a preferred embodiment of the elevator portion of the present invention;

in the figure:

a hollow plate 1, a vertical rod 2 and a lifting groove 21;

the lifting part 3, a driving block 31, a screw rod 32, a servo motor 33 and a lifting block 34;

the transmission rod 4, the adjusting block 41 and the sliding rod 42;

an adjusting part 5, an adjusting groove 51 and an adjusting rod 52.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1, fig. 1 is a perspective view of a preferred embodiment of a raw material adjusting device for 3D printing according to the present invention; referring to fig. 2, fig. 2 is a schematic front view of a material adjusting device for 3D printing according to a preferred embodiment of the present invention; as shown in fig. 1 and 2, the present invention provides a raw material adjusting apparatus for 3D printing, comprising: the lifting mechanism comprises a vertical rod 2, a lifting part 3 fixed at the top of one side of the vertical rod 2, two transmission rods 4 matched with one side of the lifting part 3, and an adjusting part 5 arranged at the top of the vertical rod 2; the two transmission rods 4 are suitable for connecting the lifting part 3 and the adjusting part 5; wherein, the lift portion 3 jacks up through transfer line 4 regulation portion 5 is with the elasticity raw materials, and is concrete, and when the in-process that lift portion 3 descends on montant 2, lift portion 3 slides right through two transfer lines 4 in the inside of regulation portion 5, makes regulation portion 5 upwards lifting to tighten up the raw materials, when the in-process that lift portion 3 ascended on montant 2, lift portion 3 slides left through two transfer lines 4 in the inside of regulation portion 5, makes regulation portion 5 pull down, thereby relaxes the raw materials.

The invention can adsorb dust and static on the surface of the raw material in the process of conveniently loosening and tightening the raw material, and is very convenient and fast in the using process.

Referring to fig. 4, fig. 4 is a schematic side view of a preferred embodiment of the lifter of the present invention; as shown in fig. 1, fig. 2 and fig. 4, optionally, the lifting part 3 includes two servo motors 33 arranged at the top of one side of the vertical rod 2, two lead screws 32 fixedly connected to output shafts of the two servo motors 33, and a driving block 31 sleeved on the outer wall of the lead screw 32; specifically, as the inner surface of the driving block 31 and the outer surface of the screw rod 32 are matched with each other, when the servo motor 33 is started, the servo motor 33 drives the screw rod 32 to rotate at the output end thereof, and at this time, the driving block 31 can move up and down on the surface of the screw rod 32.

Optionally, two lifting grooves 21 corresponding to the lifting portions 3 are respectively formed at the top end inside the vertical rod 2; the lifting part 3 further comprises a lifting block 34 fixed on one side of the driving block 31, and the lifting block 34 penetrates through the lifting groove 21 to be rotatably connected with the transmission rod 4; wherein, the lifting block 34 is in slide in the lifting groove 21 in order to jack up the montant 2, specifically, when the in-process that the drive block 31 was going up and down, the drive block 31 drove the lifting block 34 who rotates to be connected with it and goes up and down in the inside of lifting groove 21, makes the lifting block 34 can not take place the skew when going up and down, and lifting groove 21 plays the effect of spacing lift to, the transfer line 4 is being connected to one side of lifting block 34, and transfer line 4 can slide in regulating part 5 is inside.

Referring to fig. 3, fig. 3 is a diagram of an enlarged preferred embodiment of a portion a of fig. 1 according to the present invention; as shown in fig. 1 to 4, optionally, an adjusting block 41 is disposed at one end of the transmission rod 4 away from the lifting block 34; the adjusting part 5 comprises an adjusting rod 52 hinged at the top of the vertical rod 2 and an adjusting groove 51 arranged inside the adjusting rod 52; when the adjusting blocks 41 slide in the adjusting grooves 51, the adjusting rods 52 are lifted up from the tops of the vertical rods 2, a sliding rod 42 is arranged between the adjusting blocks 41, the vertical section of the sliding rod 42 is smaller than that of the adjusting block 41, and the bottom of one side of each adjusting rod 52 is provided with a hollow plate 1; the raw materials can sequentially penetrate through the hollow plate 1 and the middle part of the vertical rod 2, specifically, when the transmission rods 4 are driven by the lifting block 34, the transmission rods 4 penetrate through the adjusting grooves 51, at the moment, the transmission rods 4 slide left and right in the adjusting grooves 51, the length of the transmission rods 4 is matched with the width of the adjusting grooves 51, so that no error occurs in the moving process, when the transmission rods 4 drive the adjusting rods 52 to lift, the adjusting rods 52 rotate on the vertical rod 2, the length of the adjusting grooves 51 is equal to the length of the screw rods 32, and the moving range of the adjusting rods 52 is further specified.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.