CN212331854U

CN212331854U - Double-lifting printer

Info

Publication number: CN212331854U
Application number: CN202020156112.7U
Authority: CN
Inventors: 张杰龙
Original assignee: Shenzhen Shenlongjie Technology Co ltd
Current assignee: Shenzhen Shenlongjie Technology Co ltd
Priority date: 2020-02-08
Filing date: 2020-02-08
Publication date: 2021-01-12
Anticipated expiration: 2030-02-08

Abstract

A double-lifting printer comprises an X-axis module arranged on the Y-axis module, a Z-axis module arranged at the middle part of a base, a printing table arranged on the Z-axis module, wherein the X-axis module comprises an X-axis, X-axis supporting plates respectively arranged at the bottoms of the left end and the right end of the X-axis, X-axis lifting sliders respectively fixed at the bottoms of the supporting plates, X-axis lifting screws respectively arranged on the X-axis lifting sliders, an X-axis lifting screw driving wheel respectively arranged at the top of the X-axis lifting screw, a second lifting motor arranged at the side of the X-axis lifting screw driving wheel, and a driving wheel arranged at the end of the second lifting motor shaft, wherein the X-axis module can move back and forth along the Y-axis guide rail and can also move up and down along the X-axis lifting guide rail, thereby increasing the height at which the article to be printed is placed.

Description

Double-lifting printer

Technical Field

The utility model relates to a printer equipment especially indicates a two lift printers.

Background

The height of a printing table of the existing printer can be adjusted only in a small range, so that only objects with a small length-width ratio can be printed, if long-strip-shaped objects with a large length-width ratio are printed, the length of a Y axis must be increased to increase the distance of the X axis moving back and forth, or the height of a Z axis is increased to increase the distance of the printing table moving downwards, the length of the Y axis and the length of the Z axis are increased to increase the moving range of the X axis, although the existing printer can print the objects with the large length-width ratio, the whole volume of the printer is increased accordingly, large space is occupied, and great difficulty is brought to transportation.

Disclosure of Invention

In order to solve the problem that exists in the above technique, the utility model provides a not only the Z axle can go up and down, but also the two lift printers of X axle lift not only can not increase the relative volume of printer, can print the great article of length-width ratio moreover.

The utility model discloses a base is installed the Y axle module of the base left and right sides is installed X axle module on the Y axle module is installed beat printer head on the X axle module, installs the Z axle module at base middle part is installed print the platform on the Z axle module to and install the control box on print the platform right side.

The Z-axis module comprises four Z-axis guide rails vertically arranged in the middle of the base, four Z-axis lead screws arranged on the inner sides of the four Z-axis guide rails respectively, four Z-axis synchronizing wheels arranged at the bottoms of the four Z-axis lead screws respectively, a first lifting motor arranged among the four Z-axis synchronizing wheels, a Z-axis transmission belt arranged between the four Z-axis synchronizing wheels and the first lifting motor, and four Z-axis sliding blocks arranged on the four Z-axis lead screws respectively.

The Y-axis module comprises Y-axis guide rails arranged on the left side and the right side of the base, Y-axis transmission belts arranged on the Y-axis guide rails respectively, Y-axis sliding blocks arranged on the Y-axis guide rails in a sliding mode, Y-axis synchronous motors arranged at the bottoms of the rear ends of the Y-axis guide rails respectively, and X-axis lifting guide rails arranged on the outer sides of the Y-axis sliding blocks respectively.

The X-axis module comprises an X-axis, supporting plates, X-axis lifting slide blocks, X-axis lifting screw rods, X-axis lifting screw rod driving wheels, a second lifting motor and a driving wheel, wherein the supporting plates are respectively arranged at the bottoms of the left end and the right end of the X-axis, the X-axis lifting slide blocks are respectively fixed at the bottoms of the supporting plates, the X-axis lifting screw rods are respectively arranged on the X-axis lifting slide blocks, the X-axis lifting screw rod driving wheels are respectively arranged at the tops of the X-axis lifting screw rods, the second lifting motor.

Further, the control box is respectively and electrically connected with the first lifting motor, the second lifting motor and the Y-axis synchronous motor.

Further, the upper faces of the four Z-axis sliders support the printing table.

Furthermore, the X-axis lifting slide block is respectively fixed with the X-axis lifting guide rail in a sliding manner.

Furthermore, the X-axis module can move back and forth along the Y-axis guide rail and can also move up and down along the X-axis lifting guide rail.

Further, the print table can move up and down along the Z-axis module.

Furthermore, the Y-axis sliding blocks are movably fixed with the Y-axis guide rails respectively.

The beneficial effects of the utility model are that X axle module not only can follow Y axle module back-and-forth movement, can follow X axle elevating rail moreover and reciprocate to the height of waiting to print the article and placing has been increased.

Drawings

Fig. 1 is an appearance effect diagram of the present invention.

Fig. 2 is an installation structure view of the X-axis module, the Y-axis module and the Z-axis module of the present invention.

Fig. 3 is an exploded view of the X-axis module, the Y-axis module, and the Z-axis module according to the present invention.

Detailed Description

As shown in fig. 1, the utility model relates to a two lift printers.

As shown in fig. 3 and 2, the utility model discloses a base 1 installs the Y axle module 4 of the base 1 left and right sides is installed X axle module 5 on the Y axle module 4 is installed beat printer head 6 on the X axle module 5, installs the Z axle module 3 at base 1 middle part is installed print table 2 on the Z axle module 3 to and install the control box 7 on the print table right side. The Z-axis module 3 comprises four Z-axis guide rails 33 vertically arranged in the middle of the base 1, four Z-axis screw rods 32 respectively arranged on the inner sides of the four Z-axis guide rails 33, four Z-axis synchronizing wheels 35 respectively arranged at the bottom ends of the four Z-axis screw rods 32, a first lifting motor 36 arranged in the middle of the four Z-axis synchronizing wheels 35, a Z-axis transmission belt 34 arranged between the four Z-axis synchronizing wheels 35 and the first lifting motor 36, and four Z-axis sliders 31 respectively arranged on the four Z-axis screw rods 32. The Y-axis module 4 comprises Y-axis guide rails 45 arranged on the left side and the right side of the base 1, Y-axis transmission belts 42 respectively arranged on the Y-axis guide rails 45, Y-axis sliders 41 slidably arranged on the Y-axis guide rails 45, Y-axis synchronous motors 44 respectively arranged at the bottoms of the rear ends of the Y-axis guide rails 45, and X-axis lifting guide rails 43 respectively arranged on the outer sides of the Y-axis sliders 41. The X-axis module 5 comprises an X-axis 56, X-axis 56 supporting plates 55 respectively arranged at the bottoms of the left end and the right end of the X-axis 56, X-axis lifting slide blocks 54 respectively fixed at the bottoms of the supporting plates 55, X-axis lifting screw rods 52 respectively arranged on the X-axis lifting slide blocks 54, X-axis lifting screw rod transmission wheels respectively arranged at the tops of the X-axis lifting screw rods 52, second lifting motors 53 arranged on the side surfaces of the X-axis lifting screw rod transmission wheels, and driving wheels arranged at the shaft ends of the second lifting motors 53. The control box is electrically connected to the first elevation motor 36, the second elevation motor 53, and the Y-axis synchronous motor 44, respectively. The upper faces of the four Z-axis sliders 31 support the printing table 2. The X-axis lifting sliders 54 are slidably fixed to the X-axis lifting guide rails 43, respectively. The X-axis module 5 can move back and forth along the Y-axis guide rail 45 and can also move up and down along the X-axis elevating guide rail 43. The print table 2 can move up and down along the Z-axis module 3. The Y-axis sliders 41 are movably fixed to the Y-axis guide rails 45, respectively.

When an object with a large length-width ratio is printed, the object to be printed is placed on the printing table 2, or the distance between the upper plane of the printing table 2 and the printing head is not enough to place the object to be printed,

the print table 2 can be lowered to a minimum and the X-axis module 5 raised upwards so that printing on top of a higher item can be performed. When printing is completed, the X-axis module 5 is returned to the original position.

Claims

1. A double-lifting printer is characterized by comprising a base, Y-axis modules arranged on the left side and the right side of the base, an X-axis module arranged on the Y-axis module, a printing head arranged on the X-axis module, a Z-axis module arranged in the middle of the base, a printing table arranged on the Z-axis module, and a control box arranged on the right side of the printing table, wherein the Z-axis module comprises four Z-axis guide rails vertically arranged in the middle of the base, four Z-axis lead screws respectively arranged on the inner sides of the four Z-axis guide rails, four Z-axis synchronizing wheels respectively arranged at the bottom ends of the four Z-axis lead screws, a first lifting motor arranged among the four Z-axis synchronizing wheels, a Z-axis transmission belt arranged between the four Z-axis synchronizing wheels and the first lifting motor, four Z-axis sliding blocks respectively arranged on the four Z-axis lead screws, and the X-axis module comprises an, the X-axis lifting guide rail mechanism comprises X-axis supporting plates, X-axis lifting slide blocks, X-axis lifting screw rods, X-axis lifting screw rod transmission wheels, a second lifting motor and a driving wheel, wherein the X-axis supporting plates are respectively arranged at the bottoms of the left end and the right end of an X axis, the X-axis lifting slide blocks are respectively fixed at the bottom of the supporting plates, the X-axis lifting screw rods are respectively arranged on the X-axis lifting slide blocks, the X-axis lifting screw rod transmission wheels are respectively arranged at the tops of the X-axis lifting screw rods, the second lifting motor is arranged on the side faces of the X-axis lifting screw rod transmission wheels, the driving wheel is arranged at the shaft end of the second lifting motor, the Y-axis module comprises Y-axis guide rails arranged at the left side and the right side of a.

2. The dual lift printer of claim 1, wherein said control box is electrically connected to said first lift motor, said second lift motor and said Y-axis synchronous motor, respectively.

3. The printer of claim 1, wherein the upper surface of said four Z-axis sliders supports the printing table.

4. The dual lift printer of claim 1, wherein said X-axis lift sliders are slidably secured to the X-axis lift rails, respectively.

5. The dual lift printer of claim 1, wherein said X-axis module is movable back and forth along a Y-axis guide and up and down along an X-axis lift guide.

6. The dual lift printer of claim 1, wherein said print table is movable up and down along a Z axis module.

7. The dual lift printer of claim 1, wherein said Y-axis sliders are movably secured to the Y-axis guides, respectively.