CN216068723U - Circuit control plate structure based on 3D beats printer head - Google Patents

Abstract

The utility model provides a circuit control board structure based on a 3D printing head, which comprises a conductive brush wire module, wherein a conductive brush wire penetrates through the conductive brush wire module, one end of the conductive brush wire is connected with a conductive red copper ring in a sliding manner, the conductive red copper ring is electrically connected with a screw motor, and the other end of the conductive brush wire is electrically connected with an electric cabinet through a control board; the electric brush wire module is in a modular design, is convenient to assemble and disassemble, and can be detachably installed with the printing head body; and the problem of complex circuit is solved, and the trouble of later maintenance is solved.

Description

Circuit control plate structure based on 3D beats printer head

Technical Field

The utility model relates to the technical field of 3D printers, in particular to a circuit control board structure based on a 3D printing head.

Background

When the novel rotary driving device structure that beats printer head of 3D printer is designed, there is following problem: 1) the internal circuit of the 3D printer head on the market is complex and unreliable; 2) the 3D printing head and the body are not detachable;

3) the stability is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a circuit control board structure based on a 3D printing head, which is modularly designed and high in interchangeability.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a circuit control board structure based on a 3D printing head, which comprises a conductive brush wire module, wherein conductive brush wires penetrate through the conductive brush wire module, one end of a conductive wire brush is connected with a conductive red copper ring in a sliding mode, the conductive red copper ring is electrically connected with a screw motor, and the other end of each conductive brush wire is electrically connected with an electric cabinet through a control board.

Further, the conductive brush wire module comprises a first conductive brush wire installation seat, a second conductive brush wire installation seat covers the upper surface of the first conductive brush wire installation seat, and a conductive brush wire installation seat cover plate covers the surface, away from the first conductive brush wire installation seat, of the second conductive brush wire installation seat.

Furthermore, the first conductive brush wire mounting base comprises four square accommodating spaces arranged along the Y-axis direction, and a first brush wire hole is formed in each of the side walls of two sides of each square accommodating space.

Furthermore, a partition board is arranged between the adjacent square accommodating spaces, and the length of the partition board is larger than the depth of each square accommodating space.

Furthermore, all be equipped with first location screw on the roof of first electrically conductive brush silk mount pad and the diapire.

Furthermore, the second conductive brush wire mounting seat comprises four single seats arranged along the Y-axis direction, and two brush wire holes arranged at intervals are formed in the surface of each single seat.

Furthermore, the four single seats are respectively arranged in the four square accommodating spaces.

Furthermore, the mounting base cover plate comprises a flat plate, a plurality of convex ribs arranged at intervals are arranged on the side walls of two sides of the flat plate, and the convex ribs are inserted into the corresponding square accommodating spaces.

Furthermore, the end part and the bottom of the surface of the flat plate are provided with second positioning screw holes, and the second positioning screw holes are buckled with the first positioning screw holes through screws.

The utility model has the beneficial effects that: the electric brush wire module is in a modular design, is convenient to assemble and disassemble, and can be detachably installed with the printing head body; the problem of complex circuit is solved, and the trouble of later maintenance is solved;

the damage condition of each component can be directly detected, and a problem point can be quickly evaluated;

modularized design, interchangeability is high, can follow the components and parts that have problems and trade, does not influence the use of whole equipment.

Drawings

Fig. 1 is a schematic structural diagram of a circuit control board structure based on a 3D print head according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1, a circuit control board structure based on a 3D printing head includes a conductive brush module 1, a conductive brush 2 penetrates through the conductive brush module 1, one end of the conductive brush is slidably connected to a conductive red copper ring, the conductive red copper ring is electrically connected to a screw motor, and the other end of the conductive brush 2 is electrically connected to an electric cabinet through a control board.

The conductive brush wire module 1 comprises a first conductive brush wire installation seat 3, wherein a second conductive brush wire installation seat 4 covers the upper surface of the first conductive brush wire installation seat 3, and a conductive brush wire installation seat cover plate 5 covers the surface, away from the first conductive brush wire installation seat 3, of the second conductive brush wire installation seat 4.

The first conductive brush wire mounting base 3 includes four square accommodating spaces 301 arranged along the Y-axis direction, and each of the side walls on both sides of the square accommodating space 301 is provided with a first brush wire hole 302.

A partition plate 303 is arranged between the adjacent square accommodating spaces 301, and the length of the partition plate 303 is greater than the depth of each square accommodating space 301.

Specifically, the partition plate 303 extends out of the square accommodating space 301 and extends into the interval between the adjacent protruding ribs 502 of the mounting seat cover plate 5, thereby completing the assembly of the mounting seat cover plate 5 and the first conductive brush wire mounting seat 3.

The top wall and the bottom wall of the first conductive brush wire mounting seat 3 are both provided with a first positioning screw hole 304.

The first conductive brush wire mounting base 3 and the conductive brush wire mounting base cover plate 5 are buckled, and the plurality of first positioning screw holes 304 and the plurality of second positioning screw holes 502 are installed in a one-to-one correspondence manner through screws, so that the installation of the conductive brush wire module is completed.

The second conductive brush wire mounting seat 4 comprises four single seats 401 arranged along the Y-axis direction, and two brush wire holes 402 arranged at intervals are formed in the surfaces of the single seats 401.

The brush wire holes 402 are used for penetrating the conductive brush wires 2, and the conductive brush wires 2 respectively penetrate through the first brush wire holes 302 on two sides of the first conductive brush wire mounting seat 3 after penetrating through the two brush wire holes 402, so as to be respectively connected with the control board and the screw motor.

The four single seats 401 are respectively placed in the four square accommodating spaces 301.

The mounting seat cover plate 5 comprises a flat plate 501, a plurality of ribs 502 arranged at intervals are arranged on the side walls of two sides of the flat plate 501, and the ribs 502 are inserted into the corresponding square accommodating spaces 301.

The end and the bottom of the surface of the flat plate 501 are provided with second positioning screw holes 502, and the second positioning screw holes 502 are buckled with the first positioning screw holes 304 through screws.

During assembly, each single seat 401 is respectively placed into the corresponding square accommodating space 301, and the first conductive brush wire mounting seat 3 and the second conductive brush wire mounting seat 4 are mounted;

the convex ribs 502 of the conductive brush wire mounting seat cover plate 5 extend into the corresponding square accommodating spaces 301 respectively, the partition plate 303 extends into the space between the adjacent convex ribs 502, so that the conductive brush wire mounting seat cover plate 5 and the first conductive brush wire mounting seat 3 are buckled and mounted, and the screws extend into the first positioning screw holes 304 and the second positioning screw holes 503, so that the whole conductive brush wire module is locked.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The utility model provides a circuit control plate structure based on 3D beats printer head which characterized in that: including electrically conductive brush silk module (1), wear to be equipped with electrically conductive brush silk (2) in the electrically conductive brush silk module (1), the one end and the electrically conductive red copper circle sliding connection of electrically conductive brush silk (2), electrically conductive red copper circle is connected with the screw motor electricity, the other end of electrically conductive brush silk (2) passes through the control panel and is connected with the electricity cabinet electricity.

2. A 3D print head based circuit control board structure according to claim 1, characterized in that: the conductive brush wire module (1) comprises a first conductive brush wire mounting seat (3), wherein a second conductive brush wire mounting seat (4) covers the upper surface of the first conductive brush wire mounting seat (3), and the second conductive brush wire mounting seat (4) covers a conductive brush wire mounting seat cover plate (5) with the separated surface of the first conductive brush wire mounting seat (3).

3. A 3D print head based circuit control board structure according to claim 2, characterized in that: the first conductive brush wire mounting seat (3) comprises four square accommodating spaces (301) arranged along the Y-axis direction, and first brush wire holes (302) are formed in the side walls of two sides of each square accommodating space (301).

4. A 3D print head based circuit control board structure according to claim 3, characterized in that: a partition plate (303) is arranged between the adjacent square accommodating spaces (301), and the length of the partition plate (303) is larger than the depth of each square accommodating space (301).

5. A 3D print head based circuit control board structure according to claim 3, characterized in that: and the top wall and the bottom wall of the first conductive brush wire mounting seat (3) are respectively provided with a first positioning screw hole (304).

6. A3D print head based circuit control board structure according to claim 5, characterized in that: the second conductive brush wire mounting seat (4) comprises four single seats (401) arranged along the Y-axis direction, and two brush wire holes (402) arranged at intervals are formed in the surface of each single seat (401).

7. The 3D print head based circuit control board structure of claim 6, wherein: the four single seats (401) are respectively arranged in the four square accommodating spaces (301).

8. A 3D print head based circuit control board structure according to claim 7, wherein: the mounting seat cover plate (5) comprises a flat plate (501), a plurality of ribs (502) arranged at intervals are arranged on the side walls of two sides of the flat plate (501), and the ribs (502) are inserted into the corresponding square accommodating spaces (301).

9. A 3D print head based circuit control board structure according to claim 8, wherein: the end part and the bottom of the surface of the flat plate (501) are provided with second positioning screw holes (503), and the second positioning screw holes (503) are buckled with the first positioning screw holes (304) through screws.

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