CN214928577U - Plate turning engraving mechanism - Google Patents

Abstract

The invention discloses a flap engraving mechanism, which comprises: the engraving machine comprises a rack, wherein the upper end of the rack is provided with an engraving machine, the lower end of the engraving machine is provided with a bracket, the engraving machine is connected with an XY moving shaft arranged at the upper end of the rack through the bracket, a clamping and overturning mechanism comprises a width adjusting guide rail arranged in the rack, two ends of the width adjusting guide rail are respectively provided with a fixed support plate and a moving support plate, one side of the fixed support plate close to the upper end of the moving support plate is respectively provided with a clamping mechanism, the other side of the upper ends of the fixed support plate and the moving support plate is provided with an overturning transmission motor, and a rear transmission mechanism is arranged at the other side below the engraving machine and corresponds to the clamping mechanisms; the clamping and overturning mechanism can solve the problem that double-sided products need to be carved without influencing the processing efficiency of the board surface, realizes free overturning and has high working efficiency.

Description

Plate turning engraving mechanism

Technical Field

The invention relates to the technical field of engraving equipment, in particular to a flap engraving mechanism.

Background

The sculpture equipment that uses at present, the product is carved for the single face for the majority, when needs carry out two-sided sculpture, needs the material loading to carve again, is difficult to obtain guaranteeing in production efficiency, in addition, other engravers that have two-sided sculpture function exist when the upset, can drag the circuit on the face, influence equipment normal work, cause the shortcoming such as product to drop, for this, need improve.

Disclosure of Invention

The present invention is directed to a flap engraving mechanism to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a flap engraving mechanism comprising:

the upper end of the frame is provided with an engraving machine, the lower end of the engraving machine is provided with a bracket, and the engraving machine is connected with an XY moving shaft arranged at the upper end of the frame through the bracket;

the clamping turnover mechanism is arranged on one side below the engraving machine and comprises a width adjusting guide rail arranged in the rack, a fixed support plate and a movable support plate are respectively arranged at two ends of the width adjusting guide rail, the lower end of the movable support plate is movably connected with the width adjusting guide rail and corresponds to the fixed support plate, a width adjusting motor is arranged on the fixed support plate, and the output end of the width adjusting motor is connected with the movable support plate through a width adjusting screw rod;

the clamping mechanisms are respectively arranged on one side, close to the upper end parts of the fixed supporting plate and the movable supporting plate, of the other side of the upper end parts of the fixed supporting plate and the movable supporting plate, the overturning transmission motor is installed on the other side of the upper end parts of the fixed supporting plate and the movable supporting plate, the output end of the overturning transmission motor is connected with the clamping mechanisms through an overturning central shaft, and the clamping mechanisms are provided with opening mechanisms used for releasing the clamping states of the clamping mechanisms;

and the rear transmission mechanism is arranged on the other side below the engraving machine, corresponds to the clamping mechanism and is used for storing, positioning and conveying the processed board surface.

Preferably, the clamping mechanism comprises a clamping plate connected with the output end of the turnover transmission motor, an upper clamping piece and a lower clamping piece are arranged on one side, away from the turnover transmission motor, of the clamping plate, a gap is reserved between the upper clamping piece and the lower clamping piece, a transmission belt penetrates through the gap, two ends of the transmission belt are connected with a transmission roller arranged on the clamping plate, and the transmission roller is connected with a magnetic transmission wheel arranged on the other side of the clamping plate.

The clamping plate is provided with a movable groove at one side far away from the upper clamping piece and the lower clamping piece, a clamping fixing piece connected with the upper clamping piece and the lower clamping piece is arranged in the movable groove, the upper end and the lower end of the clamping fixing piece are connected with a support fixing seat fixed on the clamping plate through springs, a transmission rod penetrates through an interval on the clamping fixing piece, the clamping fixing piece and the matching part of the transmission rod are arranged in an up-and-down symmetrical oblique angle mode, and tensioning pieces matched with the clamping fixing piece are arranged at two ends of the transmission rod.

Preferably, the opening mechanism comprises a motor support fixed on one side of the clamping plate, a guide rail part is fixed on the motor support, an ejection cylinder is installed on one side of the guide rail part, the output of the ejection cylinder is connected with a kinematic link through a suspension joint, the kinematic link is arranged on one side of the tensioning part and matched with the tensioning part, the lower end of the kinematic link is movably matched with the guide rail part, an opening motor is installed at the upper end of the kinematic link, a magnetic suspension wheel is arranged at the output end of the opening motor, and the magnetic suspension wheel and the magnetic transmission wheel are located on the same horizontal line.

Preferably, the rear transmission mechanism comprises an adjusting guide rail installed in the frame, a fixed plate and a movable plate are respectively arranged at two ends of the adjusting guide rail, the lower end of the movable plate is movably connected with the adjusting guide rail and corresponds to the fixed plate, an adjusting motor is installed on the fixed plate, and the output end of the adjusting motor is connected with the movable plate through an adjusting screw rod.

Preferably, the fixed plate and the movable plate are provided with transmission rails, a transmission belt is arranged in the transmission rails, two ends of the transmission belt are connected with transmission rollers, and the transmission rollers are connected with the output ends of transmission motors arranged at the bottom ends of the fixed plate and the movable plate through belt transmission.

Preferably, one end of the fixed plate close to the engraving machine is provided with a sensor, and the sensor is electrically connected with the transmission motor.

Preferably, one end of the movable plate close to the engraving machine is provided with a blocking cylinder.

Preferably, the XY moving shaft comprises an X-axis guide rail, the X-axis guide rail is fixed on two sides of the upper end of the rack, the upper end of the X-axis guide rail is matched with a Y-axis bottom plate arranged below the bracket, an X-axis motor is installed on one side of the X-axis guide rail, the output end of the X-axis motor is connected with an X-axis lead screw, and the X-axis lead screw is matched with the lower end face of the Y-axis bottom plate through a connecting piece.

Preferably, the upper end of the Y-axis bottom plate is located on two sides of the engraving machine and provided with Y-axis guide rails, the upper end of each Y-axis guide rail is provided with a Y-axis connecting piece, the Y-axis connecting pieces are fixed on two sides of the bracket, Y-axis lead screws penetrate through the Y-axis connecting pieces, and the Y-axis lead screws are connected with the output ends of Y-axis motors installed on the Y-axis bottom plate.

The invention also provides an engraving method of the flap engraving mechanism, which comprises the following steps:

the method comprises the following steps: the product is fed in and discharged out from the left side and the right side, and an opening mechanism on the clamping turnover mechanism is started to open the clamping mechanism;

step two: the opening mechanism is provided with an opening motor to drive the magnetic suspension wheel to rotate, the magnetic driving wheel on the clamping mechanism is driven to rotate, then the product is driven to flow into a designated position through the magnetic driving wheel, the opening mechanism is started in the opposite direction, and the clamping mechanism is reset and fixes the product.

Step three: the XY moving shaft drives the engraving machine to move to a working area above a corresponding product to engrave, the front face engraving is finished, the clamping and overturning mechanism is started to overturn the product, and the back face is engraved.

Step four: after the double-sided engraving is finished, the double-sided engraving material is transmitted to a rear transmission mechanism to wait for discharging.

Compared with the prior art, install on this sculpture mechanism and press from both sides tight tilting mechanism, press from both sides tight tilting mechanism and can be under the condition that does not influence face machining efficiency, solve two-sided product and need glyptic problem, realize freely overturning, press from both sides tight tilting mechanism and all be equipped with the guide rail for the regulation on the rear drive mechanism in addition, the pipe is controlled through lead screw spare, can realize that the product size is general, adaptability is wide in range, the use of XY removal axle simultaneously for the engraver carries out different positions and removes, therefore, the clothes hanger is strong in practicability.

Drawings

Fig. 1 is a schematic structural diagram of a flap engraving mechanism.

Fig. 2 is a schematic structural diagram of a rear transmission mechanism in a flap engraving mechanism.

Fig. 3 is a schematic structural diagram of a clamping and turning mechanism in a flap engraving mechanism.

Fig. 4 is a schematic structural diagram of an engraving machine in a flap engraving mechanism.

Fig. 5 is a schematic structural diagram of a clamping mechanism in a flap engraving mechanism.

Fig. 6 is a schematic structural diagram of an opening mechanism in a flap engraving mechanism.

In the figure: 1. a frame; 2. a rear drive mechanism; 21. a drive rail; 22. adjusting the motor; 23. adjusting the screw rod; 24. a blocking cylinder; 25. adjusting the guide rail; 26. a sensor; 27. a conveyor belt; 28. a conveying roller; 29. a transfer motor; 3. clamping and turning over the mechanism; 31. a turnover transmission motor; 32. fixing the support plate; 33. turning over the central shaft; 34. adjusting a width screw rod; 35. moving the support plate; 36. adjusting the width of the guide rail; 37. a width adjusting motor; 4. an XY moving axis; 41. an X-axis guide rail; 42. a Y-axis base plate; 43. a Y-axis motor; 44. a Y-axis lead screw; 45. an X-axis motor; 46. an X-axis lead screw; 47. a Y-axis guide rail; 48. a Y-axis connector; 5. an engraving machine; 6. a clamping mechanism; 61. a transmission roller; 62. an upper and a lower clamping member; 63. a drive belt; 64. a support fixing seat; 65. a transmission rod; 66. a tensioning member; 67. a magnetic transmission wheel; 68. clamping the fixing piece; 69. a spring; 7. an opening mechanism; 71. a magnetic suspension wheel; 72. a kinematic link; 73. a suspension joint; 74. ejecting out the cylinder; 75. turning on the motor; 76. a rail member; 77. a motor support.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, in an embodiment of the present invention, a flap engraving mechanism includes:

the upper end of the frame 1 is provided with an engraving machine 5, the lower end of the engraving machine 5 is provided with a bracket, and the engraving machine 5 is connected with an XY moving shaft 4 arranged at the upper end of the frame 1 through the bracket;

the clamping and overturning mechanism 3 is arranged on one side below the engraving machine 5, the clamping and overturning mechanism 3 comprises a width adjusting guide rail 36 arranged in the rack 1, a fixed support plate 32 and a movable support plate 35 are respectively arranged at two ends of the width adjusting guide rail 36, the lower end of the movable support plate 35 is movably connected with the width adjusting guide rail 36 and corresponds to the fixed support plate 32, a width adjusting motor 37 is arranged on the fixed support plate 32, and the output end of the width adjusting motor 37 is connected with the movable support plate 35 through a width adjusting screw rod 34; the width adjusting screw rod 34 is in threaded fit with the movable supporting plate 35, the width adjusting motor 37 works to drive the width adjusting screw rod 34 to rotate, and the width adjusting screw rod 34 drives the movable supporting plate 35 to move on the width adjusting guide rail 36 in rotation, so that the width distance between the fixed supporting plate 32 and the movable supporting plate 35 is adjusted, and the product size is universal.

One side of the fixed supporting plate 32 close to the upper end of the movable supporting plate 35 is respectively provided with a clamping mechanism 6, the other side of the upper end of the fixed supporting plate 32 and the upper end of the movable supporting plate 35 is provided with an overturning transmission motor 31, the output end of the overturning transmission motor 31 is connected with the clamping mechanism 6 through an overturning central shaft 33, and the clamping mechanism 6 is provided with an opening mechanism 7 for releasing the clamping state of the clamping mechanism 6; the turnover transmission motor 31 is connected with a turnover center shaft 33 to drive the clamping mechanism 6 to turn over and adjust the surface, the clamping mechanism 6 fixes the surface in the turnover process, and after the turnover process is finished, the clamping mechanism 6 releases the clamping state through the opening mechanism 7 and conveys the surface to the lower part of the engraving machine 5 for processing.

And the rear transmission mechanism 2 is arranged on the other side below the engraving machine 5, corresponds to the clamping mechanism 6 and is used for storing, positioning and conveying the processed board surface.

The clamping mechanism 6 comprises a clamping plate connected with the output end of the turnover transmission motor 31, an upper clamping piece 62 and a lower clamping piece 62 are arranged on one side of the clamping plate, which is far away from the turnover transmission motor 31, a gap is reserved on the upper clamping piece 62 and the lower clamping piece 62, a transmission belt 63 is arranged in the gap in a penetrating manner, two ends of the transmission belt 63 are connected with a transmission roller 61 arranged on the clamping plate, and the transmission roller 61 is connected with a magnetic transmission wheel 67 arranged on the other side of the clamping plate;

a movable groove is formed in one side, away from the upper clamping piece 62, of the clamping plate, a clamping fixing piece 68 connected with the upper clamping piece 62 and the lower clamping piece 62 is arranged in the movable groove, the upper end and the lower end of the clamping fixing piece 68 are connected with a support fixing seat 64 fixed on the clamping plate through springs 69, transmission rods 65 penetrate through intervals on the clamping fixing piece 68, the clamping fixing piece 68 and the transmission rods 65 are matched in an up-down symmetrical oblique angle mode, and tensioning pieces 66 matched with the clamping fixing piece 68 are arranged at two ends of each transmission rod 65; tensioning pieces 66 are arranged at two ends of the transmission rod 65 and matched with the opening mechanism 7, a fixed seat is used in the middle of the transmission rod 65, a linear bearing is arranged at the same time to limit the transmission rod 65, so that the transmission rod 65 can slide smoothly, when the clamping fixing piece 68 is an inclined surface, no mechanism pulls the tensioning piece 66, the tensioning piece 66 is pushed out of the movable groove, and the spring 69 presses the clamping fixing piece 68 to drive the upper clamping piece 62 and the lower clamping piece 62 to clamp a product.

The opening mechanism 7 comprises a motor supporting piece 77 fixed on one side of the clamping plate, a guide rail piece 76 is fixed on the motor supporting piece 77, an ejection air cylinder 74 is installed on one side of the guide rail piece 76, the output of the ejection air cylinder 74 is connected with a kinematic link piece 72 through a suspension joint 73, the kinematic link piece 72 is arranged on one side of the tensioning piece 66 and matched with the tensioning piece 66, the lower end of the kinematic link piece 72 is movably matched with the guide rail piece 76, an opening motor 75 is installed at the upper end of the kinematic link piece 72, a magnetic suspension wheel 71 is arranged at the output end of the opening motor 75, and the magnetic suspension wheel 71 and the magnetic transmission wheel 67 are in the same horizontal line; an ejection cylinder 74 on the opening mechanism 7 extends to drive a moving link 72 to push a tensioning piece 66 to open the clamping mechanism 6, a magnetic suspension wheel 71 is matched with a magnetic transmission wheel 67, an opening motor 75 on the opening mechanism 7 drives the magnetic suspension wheel 71 to rotate, the magnetic suspension wheel 71 drives the magnetic transmission wheel 67 on the clamping mechanism 6 to rotate, and the magnetic transmission wheel 67 drives the conveying roller 28 to rotate and enables a transmission belt 63 to drive a product to flow into a specified position.

The rear transmission mechanism 2 comprises an adjusting guide rail 25 arranged in the frame 1, a fixed plate and a movable plate are respectively arranged at two ends of the adjusting guide rail 25, the lower end of the movable plate is movably connected with the adjusting guide rail 25 and corresponds to the fixed plate, an adjusting motor 22 is arranged on the fixed plate, and the output end of the adjusting motor 22 is connected with the movable plate through an adjusting screw 23;

the fixed plate and the movable plate are provided with a transmission rail 21, a transmission belt 27 is arranged in the transmission rail 21, two ends of the transmission belt 27 are connected with a transmission roller 28, and the transmission roller 28 is connected with the output end of a transmission motor 29 arranged at the bottom end of the fixed plate and the movable plate through belt transmission;

a sensor 26 is arranged at one end of the fixed plate close to the engraving machine 5, and the sensor 26 is electrically connected with a transmission motor 29; one end of the movable plate close to the engraving machine 5 is provided with a blocking cylinder 24; when a sensor 26 senses that a product comes, a conveying motor 29 rotates to drive a conveying belt 27 to move, the product is placed on the conveying belt and can be conveyed backwards, an adjusting motor 22 rotates to drive an adjusting screw rod 23 to rotate, a fixing plate on the adjusting screw rod 23 is installed on an adjusting guide rail 25 and can be adjusted in width, and a blocking cylinder 24 is used for blocking the product on the turnover mechanism and preventing the product from being conveyed out of place.

The XY moving shaft 4 comprises an X-axis guide rail 41, the X-axis guide rail 41 is fixed on two sides of the upper end of the rack 1, the upper end of the X-axis guide rail 41 is matched with a Y-axis bottom plate 42 arranged below the bracket, an X-axis motor 45 is installed on one side of the X-axis guide rail 41, the output end of the X-axis motor 45 is connected with an X-axis lead screw 46, and the X-axis lead screw 46 is matched with the lower end face of the Y-axis bottom plate 42 through a connecting piece; the X-axis lead screw 46 is in threaded fit with the connecting piece, the connecting piece is fixed on the lower end face of the Y-axis bottom plate 42, the X-axis motor 45 is started to drive the X-axis lead screw 46 to rotate, the X-axis lead screw 46 drives the Y-axis bottom plate 42 to move on the X-axis guide rail 41 through the connecting piece in the rotation process, and the position of the engraving machine 5 on the X axis is adjusted.

Y-axis guide rails 47 are arranged at the upper ends of the Y-axis bottom plates 42 and positioned at two sides of the engraving machine 5, Y-axis connecting pieces 48 are arranged at the upper ends of the Y-axis guide rails 47, the Y-axis connecting pieces 48 are fixed at two sides of the bracket, Y-axis lead screws 44 penetrate through the Y-axis connecting pieces 48, and the Y-axis lead screws 44 are connected with the output ends of Y-axis motors 43 arranged on the Y-axis bottom plates 42; the Y-axis screw 44 is in threaded fit with the Y-axis connecting piece 48, the Y-axis motor 43 is started to drive the Y-axis screw 44 to rotate, the Y-axis screw 44 drives the Y-axis connecting piece 48 to move on the Y-axis guide rail 47 in the rotation, and the position of the engraving machine 5 on the Y axis is adjusted.

The working principle of the invention is as follows: the product is fed in and discharged from the left side and the right side, an opening mechanism 7 on a clamping turnover mechanism 3 is started to open a clamping mechanism 6, an opening motor 75 on the opening mechanism 7 drives a magnetic suspension wheel 71 to rotate to drive a magnetic transmission wheel 67 on the clamping mechanism 6 to rotate, then the product is driven to flow into a designated position through the magnetic transmission wheel 67, the opening mechanism 7 is started in the opposite direction, the clamping mechanism 6 is reset and fixes the product, an XY moving shaft 4 drives an engraving machine 5 to move to a working area above the corresponding product for engraving, the front face engraving is finished, the clamping turnover mechanism 3 is started to turn over the product and engrave the back face, and after the double-face engraving is finished, the product is transmitted to a rear transmission mechanism 2 to wait for discharging; install on this sculpture mechanism and press from both sides tight tilting mechanism 3, press from both sides tight tilting mechanism 3 and can solve two-sided product and need glyptic problem under the condition that does not influence face machining efficiency, realize freely overturning, work efficiency is high-efficient.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

Claims (9)

1. A flap engraving mechanism, comprising:

the carving machine comprises a rack (1), wherein a carving machine (5) is installed at the upper end of the rack (1), a bracket is arranged at the lower end of the carving machine (5), and the carving machine (5) is connected with an XY moving shaft (4) arranged at the upper end of the rack (1) through the bracket;

the clamping and turning mechanism (3) is arranged on one side below the engraving machine (5), the clamping and turning mechanism (3) comprises a width adjusting guide rail (36) installed in the rack (1), two ends of the width adjusting guide rail (36) are respectively provided with a fixed support plate (32) and a movable support plate (35), the lower end of the movable support plate (35) is movably connected with the width adjusting guide rail (36) and corresponds to the fixed support plate (32), a width adjusting motor (37) is installed on the fixed support plate (32), and the output end of the width adjusting motor (37) is connected with the movable support plate (35) through a width adjusting screw rod (34);

one side of the fixed supporting plate (32) close to the upper end of the movable supporting plate (35) is provided with a clamping mechanism (6), the other side of the upper end of the fixed supporting plate (32) and the other side of the upper end of the movable supporting plate (35) are provided with a turnover transmission motor (31), the output end of the turnover transmission motor (31) is connected with the clamping mechanism (6) through a turnover central shaft (33), and the clamping mechanism (6) is provided with an opening mechanism (7) for releasing the clamping state of the clamping mechanism (6);

and the rear transmission mechanism (2) is arranged on the other side below the engraving machine (5), corresponds to the clamping mechanism (6), and is used for storing, positioning and conveying the processed board surface.

2. The flap engraving mechanism according to claim 1, wherein the clamping mechanism (6) comprises a clamping plate connected with the output end of the turning transmission motor (31), one side of the clamping plate, which is far away from the turning transmission motor (31), is provided with an upper clamping member (62) and a lower clamping member (62), a gap is reserved on the upper clamping member and the lower clamping member (62), a transmission belt (63) is arranged in the gap in a penetrating way, two ends of the transmission belt (63) are connected with a transmission roller (61) arranged on the clamping plate, and the transmission roller (61) is connected with a magnetic transmission wheel (67) arranged on the other side of the clamping plate;

the utility model discloses a clamp plate, including the grip block, the grip block is equipped with the clamp fixing part (68) that is connected with upper and lower clamping piece (62), the clamp fixing part (68) is gone up the lower extreme and is connected with support fixing base (64) of fixing on the grip block through spring (69) in the activity inslot, wear to be equipped with transfer line (65) in the interval on the clamp fixing part (68), clamp fixing part (68) become the setting of longitudinal symmetry oblique angle with the cooperation department of transfer line (65), transfer line (65) both ends are equipped with and press from both sides tight mounting (68) matched with tensioning piece (66).

3. The flap engraving mechanism according to claim 2, characterized in that the opening mechanism (7) comprises a motor support (77) fixed on one side of the clamping plate, a guide rail piece (76) is fixed on the motor supporting piece (77), an ejection cylinder (74) is arranged on one side of the guide rail piece (76), the output of the ejection cylinder (74) is connected with a kinematic link (72) through a suspension joint (73), the kinematic link (72) is disposed on one side of the tension member (66) and engages the tension member (66), the lower end part of the kinematic link (72) is movably matched with the guide rail piece (76), an opening motor (75) is arranged at the upper end part of the kinematic link (72), a magnetic suspension wheel (71) is arranged at the output end of the opening motor (75), the magnetic suspension wheel (71) and the magnetic transmission wheel (67) are positioned on the same horizontal line.

4. The flap engraving mechanism according to claim 1, wherein the rear transmission mechanism (2) comprises an adjusting guide rail (25) installed in the frame (1), a fixed plate and a movable plate are respectively arranged at two ends of the adjusting guide rail (25), the lower end of the movable plate is movably connected with the adjusting guide rail (25) and corresponds to the fixed plate, an adjusting motor (22) is installed on the fixed plate, and the output end of the adjusting motor (22) is connected with the movable plate through an adjusting screw rod (23).

5. The flap engraving mechanism according to claim 4, wherein the fixed plate and the movable plate are provided with a transmission rail (21), a transmission belt (27) is arranged in the transmission rail (21), two ends of the transmission belt (27) are connected with transmission rollers (28), and the transmission rollers (28) are connected with the output end of a transmission motor (29) arranged at the bottom ends of the fixed plate and the movable plate through belt transmission.

6. The flap engraving mechanism according to claim 4, wherein a sensor (26) is arranged at one end of the fixed plate close to the engraving machine (5), and the sensor (26) is electrically connected with a transmission motor (29).

7. A flap engraving mechanism according to claim 4, characterized in that the end of the moving plate next to the engraver (5) is provided with a blocking cylinder (24).

8. The flap engraving mechanism according to claim 1, wherein the XY moving shaft (4) comprises an X-axis guide rail (41), the X-axis guide rail (41) is fixed on two sides of the upper end of the frame (1), the upper end of the X-axis guide rail (41) is matched with a Y-axis bottom plate (42) arranged below the bracket, an X-axis motor (45) is installed on one side of the X-axis guide rail (41), an X-axis lead screw (46) is connected to the output end of the X-axis motor (45), and the X-axis lead screw (46) is matched with the lower end surface of the Y-axis bottom plate (42) through a connecting piece.

9. The flap engraving mechanism according to claim 8, wherein the upper end of the Y-axis bottom plate (42) is provided with Y-axis guide rails (47) at two sides of the engraving machine (5), the upper ends of the Y-axis guide rails (47) are provided with Y-axis connectors (48), the Y-axis connectors (48) are fixed at two sides of the bracket, Y-axis screws (44) penetrate through the Y-axis connectors (48), and the Y-axis screws (44) are connected with the output ends of a Y-axis motor (43) installed on the Y-axis bottom plate (42).

Images