CN210174202U

CN210174202U - Novel desktop level 3D printer

Info

Publication number: CN210174202U
Application number: CN201920695149.4U
Authority: CN
Inventors: Yanfeng Hu; 胡延丰; Jue Zha; 查珏; Xinhe Xu; 徐新河
Original assignee: Nanchang Hangkong University
Current assignee: Nanchang Hangkong University
Priority date: 2019-05-16
Filing date: 2019-05-16
Publication date: 2020-03-24
Anticipated expiration: 2029-05-16

Abstract

The utility model discloses a novel desktop level 3D printer, including braced frame part, Y axle construction part, Z axle construction part, X axle construction part, the connection can be dismantled on X axle construction part to Y axle construction part, the connection can be dismantled at the braced frame part to Z axle construction part, the connection can be dismantled at the braced frame part to X axle construction part. The utility model discloses the advantage: the X-axis, Y-axis and Z-axis optical axis.

Description

Novel desktop level 3D printer

Technical Field

The utility model relates to a printer technical field especially relates to a novel desktop level 3D printer.

Background

The 3D printer is also called as a three-dimensional printer, is a machine of an accumulative manufacturing technology, namely a rapid prototyping technology, is a machine which is based on a digital model file, uses special bonding materials and manufactures a three-dimensional object by printing materials layer by layer, and the structure of the current 3D printer is not uniform, so that the new desktop-level 3D printer is very necessary.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a novel desktop level 3D printer.

The utility model adopts the following technical scheme: a novel desktop-level 3D printer comprises a supporting frame part, a Y-axis structure part, a Z-axis structure part and an X-axis structure part, wherein the Y-axis structure part is detachably connected to the X-axis structure part, the Z-axis structure part is detachably connected to the supporting frame part, and the X-axis structure part is detachably connected to the supporting frame part;

the supporting frame part comprises a supporting frame, a first frame aluminum profile, a second frame aluminum profile, a third frame aluminum profile and a fourth frame aluminum profile, wherein the first frame aluminum profile, the second frame aluminum profile, the third frame aluminum profile and the fourth frame aluminum profile are fixedly arranged on the supporting frame, the first frame aluminum profile and the third frame aluminum profile are respectively arranged on the front surface and the back surface of the supporting frame, the second frame aluminum profile and the fourth frame aluminum profile are respectively arranged at the left end and the right end of the supporting frame, and a first frame belt pulley, a second frame belt pulley, a third frame belt pulley and a fourth frame belt pulley are fixedly arranged on the upper surface of the third frame aluminum profile from left to right in sequence;

the X-axis structure part comprises an X-axis horizontal optical axis bracket, a first X-axis optical axis, a second X-axis optical axis, a first X-axis optical axis sliding block, a second X-axis optical axis sliding block, an X-axis stepping motor and an X-axis stepping motor belt pulley, wherein the first X-axis optical axis and the second X-axis optical axis are distributed up and down, the first X-axis optical axis and the second X-axis optical axis are horizontally and fixedly installed on the left side and the right side of the supporting frame, the X-axis horizontal optical axis bracket is fixedly installed at both ends of the first X-axis optical axis and the second X-axis optical axis, the X-axis horizontal optical axis bracket is fixedly connected with the supporting frame, the X-axis stepping motor is arranged in the supporting frame part, the X-axis stepping motor is fixedly installed at both sides of the first frame aluminum profile, the X-axis stepping motor belt pulley is connected to the X-axis stepping motor, the first X-axis optical axis sliding block is connected to the, the second X-axis optical axis sliding block is connected to the second X-axis optical axis in a sliding manner;

the Y-axis structure part comprises a first Y-axis optical axis, a second Y-axis optical axis, a transmission belt clamping device, a Y-axis optical axis sliding block, an extrusion head stepping motor, an extrusion head device, a first Y-axis aluminum profile, a second Y-axis aluminum profile, a third Y-axis aluminum profile, a Y-axis horizontal optical axis bracket, a first Y-axis belt pulley, a second Y-axis belt pulley, a third Y-axis belt pulley and a fourth Y-axis belt pulley, wherein the first Y-axis optical axis and the second Y-axis optical axis are connected with the Y-axis optical axis sliding block in a sliding mode, the first Y-axis optical axis and the second Y-axis optical axis are distributed side by side, two ends of the first Y-axis optical axis are flush with two ends of the second Y-axis optical axis, the first Y-axis optical axis and the second Y-axis optical axis are located at the same height, two ends of the first Y-axis optical axis and the second Y-axis optical axis are fixedly installed with the lower end of the second Y-axis aluminum profile, the first, the first Y-axis aluminum profile is arranged in front of the third Y-axis aluminum profile, two ends of the first Y-axis aluminum profile and two ends of the third Y-axis aluminum profile are fixedly connected to the upper end of the second Y-axis aluminum profile, the first Y-axis belt pulley is fixedly arranged on the left side of the first Y-axis aluminum profile, the second Y-axis belt pulley is fixedly arranged on the right side of the first Y-axis aluminum profile, the third Y-axis belt pulley is fixedly arranged on the left side of the third Y-axis aluminum profile, the fourth Y-axis belt pulley is fixedly arranged on the right side of the third Y-axis aluminum profile, the transmission belt clamping device is arranged on the upper surface of the Y-axis optical axis sliding block, the extrusion head stepping motor and the extrusion head device are fixedly arranged on the lower surface of the Y-axis optical axis sliding block, and the extrusion head;

z axle structure part includes print platform, Z axle lead screw, Z axle optical axis, Z axle step motor, the Z axle lead screw includes first Z axle lead screw, second Z axle lead screw, Z axle optical axis includes first Z axle optical axis, second Z axle optical axis, the print platform left and right sides is located to first Z axle lead screw, second Z axle lead screw symmetry, the print platform left and right sides is located to first Z axle optical axis, second Z axle optical axis symmetry, and just first Z axle optical axis, second Z axle optical axis all are equipped with two, and distribute about being, Z axle lead screw is located between the Z axle optical axis of homonymy, Z axle step motor locates Z axle lead screw lower extreme, and Z axle lead screw rotates with Z axle step motor to be connected.

Preferably, the second Y-shaped aluminum profile of the Y-axis structure part is detachably connected to the first X-axis optical axis slider and the second X-axis optical axis slider of the X-axis structure part, Y-axis horizontal optical axis brackets are fixedly mounted at two ends of the first Y-axis optical axis and the second Y-axis optical axis, the Y-axis horizontal optical axis brackets are fixedly connected with the second Y-axis aluminum profile, and the first Y-axis aluminum profile and the third Y-axis aluminum profile are fixedly connected with the second Y-axis aluminum profile through Y-axis aluminum profile corner fittings.

Preferably, the top of second frame aluminium alloy, fourth frame aluminium alloy is all located to X axle structure part's first X axle optical axis, second X axle optical axis, X axle step motor passes through X axle step motor support fixed mounting on first frame aluminium alloy.

Preferably, a Z-axis stepping motor of the Z-axis structure part is connected with the lower end of the Z-axis screw rod through a Z-axis stepping motor coupler, and the Z-axis stepping motor is connected with the lower end of the supporting frame through a Z-axis stepping motor bracket, the upper end of the first Z-axis screw rod is connected with the inner side of the second frame aluminum profile through a first Z-axis vertical screw rod bracket, the upper end of the second Z-axis screw rod is connected with the inner side of the fourth frame aluminum section through a second Z-axis vertical screw rod bracket, the lower end of the first Z-axis screw rod is connected with the supporting frame through a first Z-axis vertical optical axis bracket, the upper end of the first Z-axis screw rod is connected with the inner side of the second frame aluminum profile through the first Z-axis vertical optical axis bracket, the lower end of the second Z-axis screw rod is connected with the supporting frame through a second Z-axis vertical optical axis support, and the upper end of the second Z-axis screw rod is connected with the inner side of a fourth frame aluminum profile through the second Z-axis vertical optical axis support.

Preferably, the X-axis stepping motor belt pulley located on the left side is connected with the first frame belt pulley, the third frame belt pulley, the fourth Y-axis belt pulley, the transmission belt clamping device and the first Y-axis belt pulley in sequence through a belt, and the X-axis stepping motor belt pulley located on the right side is connected with the second Y-axis belt pulley, the transmission belt clamping device, the third Y-axis belt pulley, the second frame belt pulley and the fourth frame belt pulley in sequence through a belt.

Compared with the prior art, the utility model has the advantages of: the X-axis, Y-axis and Z-axis optical axis.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of a portion of the support frame of the present invention.

Fig. 3 is a schematic view of a Y-axis structure part of the present invention.

Fig. 4 is a schematic view of a Z-axis structure part of the present invention.

1, a support frame part 2, a Y-axis structure part 3, a Z-axis structure part 4, an X-axis structure part 101, a first frame belt pulley 102, a second frame belt pulley 103, a third frame belt pulley 104, a fourth frame belt pulley 105, a first frame aluminum profile 106, a second frame aluminum profile 107, a third frame aluminum profile 108, a fourth frame aluminum profile 201, a first Y-axis optical axis 202, a second Y-axis optical axis 203, a transmission belt clamping device 204, a Y-axis optical axis slider 205, an extrusion head stepping motor 206, an extrusion head device 207, a first Y-axis aluminum profile 208, a second Y-axis aluminum profile 209, a third Y-axis aluminum profile 210, a Y-axis horizontal optical axis support 211, a first Y-axis belt pulley 212, a second Y-axis belt pulley 213, a third Y-axis belt pulley 214, a fourth Y-axis belt pulley 301, a third Y-axis aluminum profile 301, a third Y-axis, The printing platform 302, a Z-axis stepping motor 303, a first Z-axis lead screw 304, a second Z-axis lead screw 305, a first Z-axis optical axis 306, a second Z-axis optical axis 307 and a Z-axis stepping motor coupler.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1, 2, 3 and 4, a novel desktop-level 3D printer includes a supporting frame portion (1), a Y-axis structure portion (2), a Z-axis structure portion (3) and an X-axis structure portion (4), wherein the Y-axis structure portion (2) is detachably connected to the X-axis structure portion (4), the Z-axis structure portion (3) is detachably connected to the supporting frame portion (1), and the X-axis structure portion (4) is detachably connected to the supporting frame portion (1);

the support frame part (1) comprises a support frame, a first frame aluminum section (105), a second frame aluminum section (106), a third frame aluminum section (107) and a fourth frame aluminum section (108), the first frame aluminum profile (105), the second frame aluminum profile (106), the third frame aluminum profile (107) and the fourth frame aluminum profile (108) are all fixedly arranged on the supporting frame, and the first frame aluminum section (105) and the third frame aluminum section (107) are respectively arranged on the front surface and the back surface of the supporting frame, the second frame aluminum section (106) and the fourth frame aluminum section (108) are respectively arranged at the left end and the right end of the supporting frame, a first frame belt pulley (101), a second frame belt pulley (102), a third frame belt pulley (103) and a fourth frame belt pulley (104) are fixedly mounted on the upper surface of the third frame aluminum profile (107) from left to right in sequence;

the X-axis structure part (4) comprises an X-axis horizontal optical axis bracket, a first X-axis optical axis, a second X-axis optical axis, a first X-axis optical axis sliding block, a second X-axis optical axis sliding block, an X-axis stepping motor and an X-axis stepping motor belt pulley, wherein the first X-axis optical axis and the second X-axis optical axis are distributed up and down, the first X-axis optical axis and the second X-axis optical axis are horizontally and fixedly installed on the left side and the right side of the supporting frame, the X-axis horizontal optical axis bracket is fixedly installed at both ends of the first X-axis optical axis and the second X-axis optical axis, the X-axis horizontal optical axis bracket is fixedly connected with the supporting frame, the X-axis stepping motor is arranged in the supporting frame part (1), the X-axis stepping motor is fixedly installed at both sides of the first frame aluminum profile (105), the X-axis stepping motor belt pulley is connected with the X-axis stepping motor, and the first X-axis optical axis sliding block is connected on the first X-, the second X-axis optical axis sliding block is connected to the second X-axis optical axis in a sliding manner;

the Y-axis structure part (2) comprises a first Y-axis optical axis (201), a second Y-axis optical axis (202), a transmission belt clamping device (203), a Y-axis optical axis sliding block (204), an extrusion head stepping motor (205), an extrusion head device (206), a first Y-axis aluminum profile (207), a second Y-axis aluminum profile (208), a third Y-axis aluminum profile (209), a Y-axis horizontal optical axis support (210), a first Y-axis belt pulley (211), a second Y-axis belt pulley (212), a third Y-axis belt pulley (213) and a fourth Y-axis belt pulley (214), wherein the first Y-axis optical axis (201) and the second Y-axis optical axis (202) are respectively connected with the Y-axis optical axis sliding block (204) in a sliding manner, the first Y-axis optical axis (201) and the second Y-axis optical axis (202) are distributed side by side, two ends of the first Y-axis (201) are flush with two ends of the second Y-axis optical axis (202), and the first Y-axis (, Second Y axle optical axis (202) is located same height, the both ends of first Y axle optical axis (201), second Y axle optical axis (202) all with the lower extreme fixed mounting of second Y axle aluminium alloy (208), first Y axle aluminium alloy (207), third Y axle aluminium alloy (209) are and distribute side by side, third Y axle aluminium alloy (209) the place ahead is located in first Y axle aluminium alloy (207), and first Y axle aluminium alloy (207) both ends, third Y axle aluminium alloy (209) both ends all fixed connection in the upper end of second Y axle aluminium alloy (208), first Y axle belt pulley (211) fixed mounting is in the left side of first Y axle aluminium alloy (207), second Y axle belt pulley (212) fixed mounting is on the right side of first Y axle aluminium alloy (207), third Y axle belt pulley (213) fixed mounting is in the left side of third Y axle aluminium alloy (209), fourth Y axle belt pulley (214) fixed mounting is in the right side of third Y axle aluminium alloy (209), the driving belt clamping device (203) is arranged on the upper surface of the Y-axis optical axis sliding block (204), the extrusion head stepping motor (205) and the extrusion head device (206) are fixedly arranged on the lower surface of the Y-axis optical axis sliding block (204), and the extrusion head stepping motor (205) is rotatably connected with the extrusion head device (206);

the Z-axis structure part (3) comprises a printing platform (301), a Z-axis screw rod, a Z-axis optical axis and a Z-axis stepping motor (302), the Z-axis screw rod comprises a first Z-axis screw rod (303) and a second Z-axis screw rod (304), the Z-axis optical axes include a first Z-axis optical axis (305), a second Z-axis optical axis (306), the first Z-axis screw rod (303) and the second Z-axis screw rod (304) are symmetrically arranged at the left side and the right side of the printing platform (301), the first Z-axis optical axis (305) and the second Z-axis optical axis (306) are symmetrically arranged at the left side and the right side of the printing platform (301), and the first Z-axis optical axis (305) and the second Z-axis optical axis (306) are both provided with two, and the Z-axis screw rods are distributed up and down, the Z-axis screw rods are arranged between the Z-axis optical shafts at the same side, the Z-axis stepping motors (302) are arranged at the lower ends of the Z-axis screw rods, and the Z-axis screw rods are rotationally connected with the Z-axis stepping motors (302).

Preferably, the second Y-shaped aluminum profile of the Y-axis structure part (2) is detachably connected to a first X-axis optical axis sliding block and a second X-axis optical axis sliding block of the X-axis structure part (4), two ends of a first Y-axis optical axis (201) and a second Y-axis optical axis (202) are fixedly provided with a Y-axis horizontal optical axis support (210), the Y-axis horizontal optical axis support (210) is fixedly connected with a second Y-axis aluminum profile (208), and the first Y-axis aluminum profile (207) and the third Y-axis aluminum profile (209) are fixedly connected with the second Y-axis aluminum profile (208) through Y-axis aluminum type corner fittings.

Preferably, first X-axis optical axis (402) and second X-axis optical axis of the X-axis structural part (4) are arranged above the second frame aluminum profile (106) and the fourth frame aluminum profile (108), and the X-axis stepping motor is fixedly installed on the first frame aluminum profile (105) through an X-axis stepping motor support.

Preferably, a Z-axis stepping motor (302) of the Z-axis structural part (3) is connected with the lower end of a Z-axis lead screw through a Z-axis stepping motor coupler (307), the Z-axis stepping motor (302) is connected with the lower end of a supporting frame through a Z-axis stepping motor (302) bracket, the upper end of a first Z-axis lead screw (303) is connected with the inner side of a second frame aluminum profile (106) through a first Z-axis vertical lead screw bracket, the upper end of a second Z-axis lead screw (304) is connected with the inner side of a fourth frame aluminum profile (108) through a second Z-axis vertical lead screw bracket, the lower end of the first Z-axis lead screw (303) is connected with the supporting frame through a first Z-axis vertical optical axis bracket, the upper end of the first Z-axis lead screw (303) is connected with the inner side of the second frame aluminum profile (106) through a first Z-axis vertical optical axis bracket, and the lower end of the second Z-axis lead screw (304) is connected with the supporting frame through, the upper end of the second Z-axis screw rod (304) is connected with the inner side of the fourth frame aluminum profile (108) through a second Z-axis vertical optical axis support.

Preferably, the X-axis stepping motor pulley located on the left side is sequentially connected with the first frame pulley (101), the third frame pulley (103), the fourth Y-axis pulley (214), the transmission belt clamping device (203) and the first Y-axis pulley (211) through a belt, and the X-axis stepping motor pulley (407) located on the right side is sequentially connected with the second Y-axis pulley (212), the transmission belt clamping device (203), the third Y-axis pulley (213), the second frame pulley (102) and the fourth frame pulley (104) through a belt.

The utility model discloses a realize like this: the printing material is printed into the extrusion head by heating, after a certain temperature is reached, the extrusion head stepping motor (205) works to send the filamentous printing material into the printer extrusion head, the Z axis, the X axis and the Y axis move according to the calculated path of a computer, and the melted viscous printing material is stacked to form a three-dimensional model.

Without being limited thereto, any changes or substitutions which are not thought of through creative efforts should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims

1. The novel desktop-level 3D printer is characterized by comprising a supporting frame part (1), a Y-axis structure part (2), a Z-axis structure part (3) and an X-axis structure part (4), wherein the Y-axis structure part (2) is detachably connected to the X-axis structure part (4), the Z-axis structure part (3) is detachably connected to the supporting frame part (1), and the X-axis structure part (4) is detachably connected to the supporting frame part (1);

the Y-axis structure part (2) comprises a first Y-axis optical axis (201), a second Y-axis optical axis (202), a transmission belt clamping device (203), a Y-axis optical axis sliding block (204), an extrusion head stepping motor (205), an extrusion head device (206), a first Y-axis aluminum profile (207), a second Y-axis aluminum profile (208), a third Y-axis aluminum profile (209), a Y-axis horizontal optical axis support (210), a first Y-axis belt pulley (211), a second Y-axis belt pulley (212), a third Y-axis belt pulley (213) and a fourth Y-axis belt pulley (214), wherein the first Y-axis optical axis (201) and the second Y-axis optical axis (202) are respectively connected with the Y-axis optical axis sliding block (204) in a sliding manner, the first Y-axis optical axis (201) and the second Y-axis optical axis (202) are distributed side by side, two ends of the first Y-axis (201) are parallel and level with two ends of the second Y-axis optical axis (202), and the first Y-axis, Second Y axle optical axis (202) is located same height, the both ends of first Y axle optical axis (201), second Y axle optical axis (202) all with the lower extreme fixed mounting of second Y axle aluminium alloy (208), first Y axle aluminium alloy (207), third Y axle aluminium alloy (209) are and distribute side by side, third Y axle aluminium alloy (209) the place ahead is located in first Y axle aluminium alloy (207), and first Y axle aluminium alloy (207) both ends, third Y axle aluminium alloy (209) both ends all fixed connection in the upper end of second Y axle aluminium alloy (208), first Y axle belt pulley (211) fixed mounting is in the left side of first Y axle aluminium alloy (207), second Y axle belt pulley (212) fixed mounting is on the right side of first Y axle aluminium alloy (207), third Y axle belt pulley (213) fixed mounting is in the left side of third Y axle aluminium alloy (209), fourth Y axle belt pulley (214) fixed mounting is in the right side of third Y axle aluminium alloy (209), the driving belt clamping device (203) is arranged on the upper surface of the Y-axis optical axis sliding block (204), the extrusion head stepping motor (205) and the extrusion head device (206) are fixedly arranged on the lower surface of the Y-axis optical axis sliding block (204), and the extrusion head stepping motor (205) is rotatably connected with the extrusion head device (206);

2. The novel desktop-level 3D printer according to claim 1, wherein a second Y-shaped aluminum profile of the Y-axis structure portion (2) is detachably connected to a first X-axis optical axis sliding block and a second X-axis optical axis sliding block of the X-axis structure portion (4), Y-axis horizontal optical axis supports (210) are fixedly mounted at two ends of the first Y-axis optical axis (201) and the second Y-axis optical axis (202), the Y-axis horizontal optical axis supports (210) are fixedly connected with a second Y-axis aluminum profile (208), and the first Y-axis aluminum profile (207) and a third Y-axis aluminum profile (209) are fixedly connected with the second Y-axis aluminum profile (208) through Y-axis aluminum angle pieces.

3. The novel desktop-level 3D printer according to claim 1, wherein the first X-axis optical axis and the second X-axis optical axis of the X-axis structure part (4) are both arranged above the second frame aluminum profile (106) and the fourth frame aluminum profile (108), and the X-axis stepping motor is fixedly mounted on the first frame aluminum profile (105) through an X-axis stepping motor support.

4. The novel desktop-level 3D printer according to claim 1, wherein the Z-axis stepping motor (302) of the Z-axis structure part (3) is connected with the lower end of the Z-axis lead screw through a Z-axis stepping motor coupler (307), the Z-axis stepping motor (302) is connected with the lower end of the support frame through a Z-axis stepping motor (302) bracket, the upper end of the first Z-axis lead screw (303) is connected with the inner side of the second frame aluminum profile (106) through a first Z-axis vertical lead screw bracket, the upper end of the second Z-axis lead screw (304) is connected with the inner side of the fourth frame aluminum profile (108) through a second Z-axis vertical lead screw bracket, the lower end of the first Z-axis lead screw (303) is connected with the support frame through a first Z-axis vertical optical axis bracket, the upper end of the first Z-axis lead screw (303) is connected with the inner side of the second frame aluminum profile (106) through a first Z-axis vertical optical axis bracket, the lower end of the second Z-axis screw rod (304) is connected with the supporting frame through a second Z-axis vertical optical axis support, and the upper end of the second Z-axis screw rod (304) is connected with the inner side of the fourth frame aluminum profile (108) through the second Z-axis vertical optical axis support.

5. The novel desktop-level 3D printer according to claim 1, wherein the X-axis stepping motor pulley on the left side is sequentially connected with the first frame pulley (101), the third frame pulley (103), the fourth Y-axis pulley (214), the transmission belt clamping device (203) and the first Y-axis pulley (211) through a belt, and the X-axis stepping motor pulley on the right side is sequentially connected with the second Y-axis pulley (212), the transmission belt clamping device (203), the third Y-axis pulley (213), the second frame pulley (102) and the fourth frame pulley (104) through a belt.