CN212386219U - Plate embossing servo adjusting device of composite plate production line - Google Patents

Abstract

The utility model relates to a panel knurling servo adjusting device of composite sheet production line. It includes knurling frame, panel knurling mechanism and panel thickening mechanism, panel knurling mechanism includes knurling driving motor, knurling lift servo motor, knurling lift slide, goes up the embossing roller and embosses the roller down, the knurling lift slide slides from top to bottom and locates on the knurling frame, knurling lift servo motor locates on the knurling frame to drive knurling lift slide slides from top to bottom, it rotates the setting on knurling lift slide to go up the embossing roller level. The utility model discloses a corotation of control servo motor or reversal drive the embossing roller lift to embossing roller and lower embossing roller's clearance is gone up in the control, thereby realizes the embossing degree of depth of servo regulation panel, consequently, manual regulation relatively, the utility model discloses an adjust the precision height, fast, efficient, thereby improved the production efficiency of production line.

Description

Plate embossing servo adjusting device of composite plate production line

Technical Field

The utility model relates to a technical field of composite sheet production line, in particular to panel knurling servo adjusting device of composite sheet production line.

Background

In order to enhance the strength of the composite board, a board manufacturer often adopts a mode of embossing on the surface of the board, such as extruding protrusions and grooves, but in the embossing device of the existing composite board production line, the embossing depth is manually adjusted, the manual adjustment efficiency is low, and the precision is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adopt servo motor to adjust the degree of depth of knurling, adjust the panel knurling servo adjusting device of high, fast, the efficient composite sheet production line of precision.

The purpose of the utility model is realized like this:

the utility model provides a servo adjusting device of panel knurling of composite sheet production line, includes knurling frame, panel knurling mechanism and panel thickening mechanism set up in the knurling frame in tandem, panel knurling mechanism includes knurling driving motor, knurling lift servo motor, knurling lift slide, goes up the embossing roller and emboss roller down, the knurling lift slide slides from top to bottom and locates in the knurling frame, knurling lift servo motor locates in the knurling frame to drive knurling lift slide and slide from top to bottom, it rotates to go up the embossing roller level and sets up on knurling lift slide to be located the top of embossing roller down, it rotates to push down the embossing roller level and sets up in the knurling frame, knurling driving motor locates in the knurling frame to the drive is embossed roller down and is rotated. The utility model discloses a corotation of control servo motor or reversal drive the embossing roller lift to embossing roller and lower embossing roller's clearance is gone up in the control, thereby realizes the embossing degree of depth of servo regulation panel, consequently, manual regulation relatively, the utility model discloses an adjust the precision height, fast, efficient, thereby improved the production efficiency of production line.

The utility model can be further improved as follows.

The surface of the upper embossing roller is provided with a plurality of embossing protrusions, and the surface of the lower embossing roller is provided with a plurality of embossing grooves corresponding to the embossing protrusions.

The one end of knurling roller is equipped with the knurling driving gear down, the one end of going up the knurling roller corresponds the knurling driving gear and is equipped with knurling driven gear, knurling driving gear and knurling driven gear meshing, be equipped with knurling drive gear on knurling driving motor's the motor shaft, knurling drive gear and knurling driving gear meshing.

The diameter of knurling driving gear is the same with knurling driven gear's diameter size to make the rotational speed of knurling driving gear unanimous with knurling driven gear's rotational speed, and then make the rotational speed of last embossing roller unanimous with lower embossing roller, when going up embossing roller and lower embossing roller and rotating, go up a plurality of embossing protrusion of embossing roller and a plurality of embossing groove position alignment of lower embossing roller, and can mesh and emboss.

The embossing lifting servo motor is in transmission connection with the embossing lifting slide base screw rod, the screw rod is high in transmission precision and high in speed, and therefore the adjusting precision and efficiency of embossing are improved.

The embossing machine is characterized in that the embossing lifting servo motor and the embossing lifting sliding seat are arranged on two sides of the embossing rack, two ends of the upper embossing roller are respectively arranged on the embossing lifting sliding seats on two sides of the embossing rack, and the embossing lifting servo motors drive the embossing lifting sliding seats corresponding to the embossing lifting servo motors to slide up and down, so that the upper embossing roller is high in lifting precision and high in embossing adjusting precision.

The embossing machine is characterized in that the two sides of the embossing rack are provided with first lifting slide rails corresponding to the embossing lifting slide seats, the embossing lifting slide seats are arranged on the first lifting slide rails in a vertically sliding mode, the two sides of the embossing rack are provided with second lifting slide rails corresponding to the thickness-adjusting lifting slide seats, and the thickness-adjusting lifting slide seats are arranged on the second lifting slide rails in a vertically sliding mode, so that the upper embossing rollers are stable in lifting.

The plate thickness adjusting mechanism comprises a thickness adjusting lifting servo motor, a thickness adjusting driving motor, a thickness adjusting lifting sliding seat, a thickness adjusting upper roller and a thickness adjusting lower roller, the thickness adjusting lifting sliding seat is arranged on the embossing machine frame in a vertically sliding mode, the thickness adjusting lifting servo motor is arranged on the embossing machine frame in a vertically sliding mode and drives the thickness adjusting lifting sliding seat to vertically slide, the thickness adjusting upper roller is horizontally rotated and arranged on the thickness adjusting lifting sliding seat and located above the thickness adjusting lower roller, the thickness adjusting lower roller is horizontally rotated and arranged on the embossing machine frame, the thickness adjusting driving motor is arranged on the embossing machine frame and drives the thickness adjusting lower roller to rotate, and the thickness adjusting upper roller and the thickness adjusting lower roller press the flat plates up and down so that the thicknesses of all the positions of the plates are consistent.

The utility model has the advantages as follows:

the utility model discloses a corotation of control servo motor or reversal drive the embossing roller lift to embossing roller and lower embossing roller's clearance is gone up in the control, thereby realizes the embossing degree of depth of servo regulation panel, consequently, manual regulation relatively, the utility model discloses an adjust the precision height, fast, efficient, thereby improved the production efficiency of production line.

Drawings

Fig. 1 is a schematic structural view of a plate embossing servo adjusting device of a composite plate production line of the present invention.

Fig. 2 is a schematic structural view of another angle of the plate embossing servo adjusting device of the present invention.

Fig. 3 is a right side view of the plate embossing servo adjusting device of the present invention.

Fig. 4 is a front view of the servo adjusting device for embossing plate material of the present invention.

Fig. 5 is a top view of the plate embossing servo adjusting device of the present invention.

Fig. 6 is a rear view of the plate embossing servo adjusting device of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Embodiment one, as shown in fig. 1 to 6, a plate embossing servo adjusting device 8 of a composite board production line includes an embossing frame 81, a plate embossing mechanism 82 and a plate thickness adjusting mechanism 83, wherein the plate embossing mechanism 82 and the plate thickness adjusting mechanism 83 are disposed on the embossing frame 81 in tandem, the plate embossing mechanism 82 includes an embossing driving motor 85, two embossing lifting servo motors 84, two embossing lifting slides 810, an upper embossing roller 87 and a lower embossing roller 88, the two embossing lifting slides 810 are respectively disposed on the left and right sides of the embossing frame 81 in a vertical sliding manner, the two embossing lifting servo motors 84 are respectively disposed on the left and right sides of the embossing frame 81, the two embossing lifting servo motors 84 respectively drive the corresponding embossing lifting slides 810 to slide vertically, two ends of the upper embossing roller 87 are horizontally and rotatably disposed on the two embossing lifting slides 810, and is located the top of lower embossing roller 88, lower embossing roller 88 horizontal rotation sets up on the knurling frame 81, knurling driving motor 85 is located on the knurling frame 81 to drive lower embossing roller 88 and rotate.

The plate thickness adjusting mechanism 83 includes two thickness adjusting lifting servo motors 86, a thickness adjusting driving motor 830, two thickness adjusting lifting slide carriages 812, a thickness adjusting upper roller 89 and a thickness adjusting lower roller 818, the two thickness adjusting lifting slide carriages 812 are respectively arranged on the left side and the right side of the embossing frame 81 in a vertically sliding manner, the two thickness adjusting lifting servo motors 86 are respectively arranged on the left side and the right side of the embossing frame 81, the two thickness adjusting lifting servo motors 86 respectively drive the respective corresponding thickness adjusting lifting slide carriages 812 to vertically slide, two ends of the thickness adjusting upper roller 89 are horizontally and rotatably arranged on the two thickness adjusting lifting slide carriages 812 and are positioned above the thickness adjusting lower roller 818, the thickness adjusting lower roller 818 is horizontally and rotatably arranged on the embossing frame 81, and the thickness adjusting driving motor 830 is arranged on the embossing frame 81 and drives the thickness adjusting lower roller 818 to rotate.

As a more specific technical solution of the present invention.

The upper embossing roll 87 has a plurality of embossing protrusions (not shown) on the surface thereof, and the lower embossing roll 88 has a plurality of embossing grooves (not shown) on the surface thereof at positions corresponding to the embossing protrusions.

One end of the lower embossing roller 88 is provided with an embossing driving gear 815, one end of the upper embossing roller 87 is provided with an embossing driven gear 814 corresponding to the embossing driving gear 815, the embossing driving gear 815 is meshed with the embossing driven gear 814, an embossing driving gear 817 is arranged on a motor shaft of the embossing driving motor 85, and the embossing driving gear 817 is meshed with the embossing driving gear 815.

One end of the thickness-adjusting lower roller 818 is provided with a thickness-adjusting driven gear 816, a motor shaft of the thickness-adjusting driving motor 830 is provided with a thickness-adjusting driving gear 820, and the thickness-adjusting driving gear 820 is meshed with the thickness-adjusting driven gear 816.

The diameter of the embossing driving gear is the same as the diameter of the embossing driven gear 814.

The embossing lifting servo motor 84 is in screw transmission connection with the embossing lifting slide seat 810.

The thickness-adjusting lifting servo motor 86 is in transmission connection with a thickness-adjusting lifting slide 812.

The both sides of knurling frame 81 correspond knurling lift slide 810 and are equipped with first lift slide rail, knurling lift slide 810 slides from top to bottom and sets up on first lift slide rail, the both sides of knurling frame 81 correspond accent thickness lift slide 812 and are equipped with second lift slide rail, accent thickness lift slide 812 slides from top to bottom and sets up on second lift slide rail.

The utility model discloses a theory of operation is:

the utility model discloses before the work, the workman has set for the knurling degree of depth of panel in advance, knurling lift servo motor 84 and transfer thick lift servo motor 86 drive knurling lift slide 810 respectively and transfer thick lift slide 812 to rise to make upper embossing roller 87 and lower embossing roller 88 separate from each other and make transfer thick upper roller 89 and transfer thick lower roll 818 separate from each other from top to bottom. Then the plate sequentially passes through a gap between the upper embossing roller 87 and the lower embossing roller 88 and a gap between the upper thickness-adjusting roller 89 and the lower thickness-adjusting roller 818, then the embossing lifting servo motor 84 and the servo motor 86 rotate in the forward direction to drive the two embossing lifting slide bases 810 and the two thickness-adjusting lifting slide bases 812 to descend, the upper embossing roller 87 and the upper thickness-adjusting roller 89 slide downwards, when the upper embossing roller 87 descends to a set position, the embossing lifting servo motor 84 stops rotating in the forward direction, the upper embossing roller 87 and the lower embossing roller 88 clamp the plate up and down, and the upper thickness-adjusting roller 89 and the lower thickness-adjusting roller 818 clamp the plate up and down, so that the servo adjustment of the embossing depth is realized. Following, knurling driving motor 85 and thickness adjusting driving motor 830 drive embossing roller 88 and thickness adjusting lower roll 818 down respectively and rotate, go up embossing roller 87 and embossing roller 88 synchronous revolution down, embossing protrusion on going up embossing roller 87 and the cooperation of the knurling recess on embossing roller 88 down extrude the arch on the panel, when going up embossing roller 87 and embossing roller 88 knurling down, also realize drawing the panel forward, the panel after the knurling is drawn for the thickness adjusting roller group, thickness adjusting lower roll 818 drives thickness adjusting upper roll 89 and rotates together, thickness adjusting upper roll 89 and thickness adjusting lower roll 818 are the flat panel of pressing down, and then make the arch of pressing flatten, finally make the thickness of panel everywhere all unanimous. After flattening, the upper thickness-adjusting roller 89 and the lower thickness-adjusting roller 818 continue to clamp the plate and convey the plate forward.

When the worker wants to increase or decrease the embossing depth, the worker controls the embossing lifting servo motor 84 to rotate in the forward direction or the reverse direction to drive the two embossing lifting sliders 810 to lift and lower, so as to drive the upper embossing roller 87 to lift or lower, and finally, the embossing depth of the plate is adjusted.

Claims (7)

1. The utility model provides a servo adjusting device of panel knurling of composite sheet production line, includes knurling frame and panel knurling mechanism, panel knurling mechanism includes knurling driving motor, knurling lift servo motor, knurling lift slide, goes up embossing roller and embossing roller down, the knurling lift slide slides from top to bottom and locates in the knurling frame, knurling lift servo motor locates in the knurling frame to drive knurling lift slide slides from top to bottom, go up the embossing roller level and rotate and set up on knurling lift slide to be located the top of embossing roller down, it rotates to push down embossing roller level and sets up in the knurling frame, knurling driving motor locates in the knurling frame, and the drive is lower the embossing roller rotates.

2. The servo adjusting device for embossing plate material on the composite board production line as claimed in claim 1, wherein an embossing driving gear is provided at one end of the lower embossing roller, an embossing driven gear is provided at one end of the upper embossing roller corresponding to the embossing driving gear, the embossing driving gear is engaged with the embossing driven gear, an embossing driving gear is provided on a motor shaft of the embossing driving motor, and the embossing driving gear is engaged with the embossing driving gear.

3. The servo adjustment device for embossing plate material on composite plate production line according to claim 2, wherein the diameter of the embossing driving gear is the same as the diameter of the embossing driven gear.

4. The plate embossing servo adjusting device of the composite plate production line as claimed in claim 1, wherein the embossing lifting servo motor is in transmission connection with an embossing lifting slide screw rod.

5. The plate embossing servo adjusting device of the composite plate production line as claimed in claim 4, wherein the embossing lifting servo motor and the embossing lifting slide seat are respectively arranged on two sides of the embossing frame, two ends of the upper embossing roller are respectively arranged on the embossing lifting slide seats on two sides of the embossing frame, and the embossing lifting servo motor drives the corresponding embossing lifting slide seat to slide up and down.

6. The plate embossing servo adjusting device of the composite plate production line as claimed in claim 5, further comprising a plate thickness adjusting mechanism, wherein the plate embossing mechanism and the plate thickness adjusting mechanism are arranged on the embossing frame in tandem, the plate thickness adjusting mechanism comprises a thickness adjusting lifting servo motor, a thickness adjusting driving motor, a thickness adjusting lifting slide seat, an upper thickness adjusting roller and a lower thickness adjusting roller, the thickness adjusting lifting slide seat is arranged on the embossing frame in a vertically sliding manner, the thickness adjusting lifting servo motor is arranged on the embossing frame and drives the thickness adjusting lifting slide seat to slide vertically, the upper thickness adjusting roller is horizontally and rotatably arranged on the thickness adjusting lifting slide seat and is positioned above the lower thickness adjusting roller, the lower thickness adjusting roller is horizontally and rotatably arranged on the embossing frame, and the thickness adjusting driving motor is arranged on the embossing frame and drives the lower thickness adjusting roller to rotate.

7. The servo adjusting device for embossing plates on a composite plate production line according to claim 6, wherein the embossing lifting slide seats on two sides of the embossing frame are provided with first lifting slide rails corresponding to the embossing lifting slide seats, the embossing lifting slide seats are arranged on the first lifting slide rails in a sliding manner, the embossing lifting slide seats on two sides of the embossing frame are provided with second lifting slide rails corresponding to the thickness-adjusting lifting slide seats, and the thickness-adjusting lifting slide seats are arranged on the second lifting slide rails in a sliding manner.

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