CN218985090U - Up-down drilling mechanism of all-in-one machine - Google Patents

Abstract

The utility model discloses an up-down drilling mechanism of an integrated machine, which comprises a feeding rack, wherein an up-drilling assembly and a down-drilling assembly are arranged on the feeding rack, and the up-drilling assembly comprises a first portal frame, a first vertical compression mechanism, a first cylinder, a first lifting plate, an up-drilling motor, a first dust hood, a second dust hood, an up-drilling bag assembly, a second vertical compression mechanism, a third lifting plate, a second lifting plate, a first transverse moving plate, a second cylinder, a first transverse electric rack-and-pinion transmission mechanism, a first vertical ball screw transmission mechanism, a third cylinder, a first mouth-shaped pressing plate and a fourth cylinder. According to the utility model, the first vertical pressing mechanism and the second vertical pressing mechanism can press the plate in the vertical direction, the plate can be ensured to move in the horizontal direction, and meanwhile, the local processing position is fixed through the first mouth-shaped pressing plate and the second mouth-shaped pressing plate, so that the stability and the precision of processing at the fixed point position are ensured.

Description

Up-down drilling mechanism of all-in-one machine

Technical Field

The utility model relates to the technical field of furniture plate processing, in particular to an up-down drilling mechanism of an integrated machine.

Background

To the manufacturing processing of wooden furniture need use the all-in-one, the all-in-one can carry out cutting, polish, drilling, paste integrative processing such as mark, and the processingquality and the machining efficiency of all-in-one have influenced final product quality and enterprise's interests, and current all-in-one is when processing, generally only compresses tightly the both sides of panel, and when the panel area is great like this in processing, panel warp when processing in the local, and this seriously influences the quality of processing, from this we propose the last mechanism of boring of an all-in-one.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides an up-and-down drilling mechanism of an integrated machine.

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

the utility model provides an upper and lower rig of all-in-one, includes the pay-off frame, install on the pay-off frame and go up boring the subassembly and bore the subassembly down, go up boring the subassembly and include first portal frame, first vertical hold-down mechanism, first cylinder, first lifter plate, go up boring the motor, first suction hood, the second suction hood, go up boring the package subassembly, the vertical hold-down mechanism of second, the third lifter plate, the second lifter plate, first lateral shifting plate, the second cylinder, first horizontal electric rack drive mechanism, first vertical ball screw drive mechanism, the third cylinder, first mouth shape clamp plate, the fourth cylinder, the second mouth shape clamp plate, first portal frame is fixed in the pay-off frame, install first vertical hold-down mechanism on the first portal frame, install first lateral shifting plate through first lateral electric rack drive mechanism on the first portal frame, first lateral shifting plate slidable mounting is on first portal frame, install the third lifter plate through first vertical ball screw drive mechanism on the first lateral shifting plate, first suction hood slidable mounting is gone up boring the first cylinder, install the lifter plate is gone up boring the first lift plate, first suction hood is installed through the first cylinder top boring the first lift plate, first lift plate slidable mounting is gone up boring the first hole plate, first lift plate is installed on the first cylinder, first lift plate is installed on the first lateral shifting plate, first lift plate is installed on the first lift assembly, first top boring the lift plate is installed on the first top of first cylinder top plate, the second dust hood is provided with a second mouth-shaped pressing plate through a fourth cylinder, and the second mouth-shaped pressing plate is positioned in the second dust hood.

Preferably, the lower drill assembly comprises a second portal frame, a third dust hood, a lower drill bag assembly, a fourth dust hood, a second transverse moving plate, a fourth lifting plate, a vertical electric gear rack transmission mechanism, a second transverse electric gear rack transmission mechanism, a lower drill motor, a fifth air cylinder and a fifth lifting plate, wherein the second portal frame is fixed on a feeding frame, the second transverse moving plate is installed on the second portal frame through the second transverse electric gear rack transmission mechanism, the second transverse moving plate is slidably installed on the second portal frame, the fourth lifting plate is installed on the second transverse moving plate through the vertical electric gear rack transmission mechanism, the fifth lifting plate is slidably installed on the second transverse moving plate through the fifth air cylinder, the lower drill motor is installed on the fifth lifting plate, the third dust hood is installed on the lower drill motor, the lower drill bag assembly is installed on the fourth lifting plate, and the fourth dust hood is installed on the lower drill bag assembly.

Preferably, the structures of the first vertical pressing mechanism and the second vertical pressing mechanism are completely the same, the first vertical pressing mechanism comprises a fixed plate, a sixth air cylinder, a roller seat and rollers, the fixed plate is fixed on the first portal frame, the roller seat is arranged on the fixed plate through the sixth air cylinder, and a plurality of rollers are arranged on the roller seat.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the first vertical pressing mechanism and the second vertical pressing mechanism can press the plate in the vertical direction, and can ensure that the plate can move in the horizontal direction, and meanwhile, the local processing position is fixed through the first mouth-shaped pressing plate and the second mouth-shaped pressing plate, so that the stability and the precision in processing at the fixed point position are ensured.

Drawings

Fig. 1 is a schematic structural diagram of an up-down drilling mechanism of an integrated machine according to the present utility model;

fig. 2 is a schematic structural diagram of a drill assembly of a drill mechanism of an integrated machine according to the present utility model;

FIG. 3 is a schematic view of an installation structure of a first lateral moving plate of an up-down drilling mechanism of an integrated machine according to the present utility model;

FIG. 4 is a schematic diagram of an installation structure of a second dust hood upper component of an up-and-down drilling mechanism of an integrated machine according to the present utility model;

fig. 5 is a schematic structural diagram of a drilling bag assembly of a drilling mechanism of an integrated machine according to the present utility model;

FIG. 6 is a schematic view of the mounting structure of the upper component of the first dust hood of the up-down drilling mechanism of the integrated machine according to the present utility model;

fig. 7 is a schematic structural diagram of a first vertical pressing mechanism of an up-down drilling mechanism of an integrated machine according to the present utility model;

fig. 8 is a schematic structural diagram of a drill-down assembly of an up-and-down mechanism of an integrated machine according to the present utility model;

FIG. 9 is a schematic view of an installation structure of a second lateral moving plate upper component of an up-down drilling mechanism of an integrated machine according to the present utility model;

fig. 10 is a schematic structural diagram of a drill package assembly of an up-and-down drilling mechanism of an integrated machine according to the present utility model.

In the figure:

1 a feeding frame,

2 drilling assembly, 201 first portal frame, 202 first vertical hold-down mechanism, 2021 fixed plate, 2022 sixth cylinder, 2023 roller seat, 2024 roller, 203 first cylinder, 204 first lifting plate, 205 drilling motor, 206 first suction hood, 207 second suction hood, 208 drilling package assembly, 209 second vertical hold-down mechanism, 210 third lifting plate, 211 second lifting plate, 212 first lateral moving plate, 213 second cylinder, 214 first lateral electric rack and pinion drive, 215 first vertical ball screw drive, 216 third cylinder, 217 first die press plate, 218 fourth cylinder, 219 second die press plate,

3 lower drilling assembly, 301 second portal frame, 302 third dust hood, 303 lower drilling package assembly, 304 fourth dust hood, 305 second transverse moving plate, 306 fourth lifting plate, 307 vertical electric gear-rack transmission mechanism, 308 second transverse electric gear-rack transmission mechanism, 309 lower drilling motor, 310 fifth cylinder, 311 fifth lifting plate,

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-6, an up-down drilling mechanism of an integrated machine comprises a feeding frame 1, wherein an upper drilling assembly 2 and a lower drilling assembly 3 are installed on the feeding frame 1, the feeding frame 1 is used for conveying furniture boards to be processed, the upper drilling assembly 2 is used for punching or grooving from above, the lower drilling assembly 3 is used for punching or grooving from below, the upper drilling assembly 2 comprises a first portal frame 201, a first vertical compression mechanism 202, a first cylinder 203, a first lifting plate 204, an upper drilling motor 205, a first suction hood 206, a second suction hood 207, an upper drilling package assembly 208, a second vertical compression mechanism 209, a third lifting plate 210, a second lifting plate 211, a first transverse moving plate 212, a second cylinder 213, a first transverse electric rack and pinion transmission mechanism 214, a first vertical ball screw transmission mechanism 215, a third cylinder 216, a first port-shaped pressing plate 217, a fourth cylinder 218 and a second port-shaped pressing plate 219, the first portal frame 201 is fixed on the feeding frame 1, the first vertical compression mechanism 202 is installed on the first portal frame 201, the first lifting plate 201 is driven by the first transverse moving plate 212 through the first transverse moving plate 212, the first transverse moving plate 212 is driven by the first transverse moving plate 212, the first lifting plate 212 is driven by the first transverse moving plate 212, and the first transverse moving plate 212 is driven by the first transverse moving plate 212 through the first transverse moving mechanism, and the first transverse moving plate 212 is driven by the first transverse moving plate 212, the third lifting plate 210 can be driven to move in the vertical direction through the first vertical ball screw transmission mechanism 215, so that the upper drilling and packing assembly 208 and the upper drilling motor 205 can be synchronously driven to move in the vertical direction, the machining feeding is realized, the first lifting plate 204 is installed on the third lifting plate 210 through the first air cylinder 203, the second lifting plate 211 is installed on the third lifting plate 210 through the second air cylinder 213, the first lifting plate 204 and the second lifting plate 211 are slidably installed on the third lifting plate 210, the upper drilling motor 205 is installed on the first lifting plate 204, the first air cylinder 203 drives the first lifting plate 204 to move in the vertical direction, the independent feeding of the upper drilling motor 205 can be realized, the second air cylinder 213 drives the second lifting plate 211 to move in the vertical direction, the independent feeding of the upper drilling and packing assembly 208 can be realized, the first dust hood 206 is installed on the upper drilling motor 205, the first mouth-shaped pressing plate 217 is arranged on the upper drilling motor 205 through the third air cylinder 216, the third air cylinder 21 can drive the first mouth-shaped pressing plate 217 to move in the vertical direction, so that the plate can be partially pressed, the stability during processing is improved, the processing precision is high, the first mouth-shaped pressing plate 217 is positioned in the first dust hood 206, the upper drilling package assembly 208 is arranged on the second lifting plate 211, the second dust hood 207 and the second vertical pressing mechanism 209 are arranged on the upper drilling package assembly 208, the second vertical pressing mechanism 209 can press the partial processing position, the plate can be conveniently clamped in the moving process, the second mouth-shaped pressing plate 219 is arranged on the second dust hood 207 through the fourth air cylinder 218, the second mouth-shaped pressing plate 219 is positioned in the second dust hood 207, the fourth air cylinder 218 drives the second mouth-shaped pressing plate 219 to partially press the plate, the fixed-point position stable processing can be realized, the first and second suction hoods 206 and 207 are used to absorb debris generated during the machining process.

Referring to fig. 8-10, the lower drill assembly 3 includes a second portal frame 301, a third suction hood 302, a lower drill package assembly 303, a fourth suction hood 304, a second traverse plate 305, a fourth lifting plate 306, a vertical electric rack and pinion transmission 307, a second traverse rack and pinion transmission 308, a lower drilling motor 309, a fifth cylinder 310, and a fifth lifting plate 311, the second portal frame 301 is fixed on the feeding frame 1, the second traverse plate 305 is mounted on the second portal frame 301 through the second traverse rack and pinion transmission 308, the second traverse plate 305 is slidably mounted on the second portal frame 301, the second traverse plate 305 is slidably moved by the second traverse rack and pinion transmission 308, so as to synchronously drive the lower drill package assembly 303 and the lower drilling motor 309 to move in a horizontal direction, thereby adjusting a horizontal processing position, the second traverse plate 305 is mounted with the fourth lifting plate 306 through the vertical electric rack and pinion transmission 307, the fourth lifting plate 306 is movable in a vertical direction by the vertical electric rack and pinion transmission 307, so as to drive the fourth lifting plate 306 to move in a vertical direction, the lower drilling motor assembly 303 is slidably mounted on the fourth lifting plate 306, the fourth lifting plate 306 is slidably mounted on the fourth lifting plate 309, the lower drilling motor 309 is slidably mounted on the fourth lifting plate 309, the fourth lifting plate 309 is slidably mounted on the fourth lifting plate 309, and the fourth lifting plate 309 is slidably mounted by the lifting plate 309, and is synchronously mounted by the lifting plate 101, and is mounted by the lifting plate and movable by the lifting plate and is vertically and movable.

Referring to fig. 7, the structures of the first vertical compression mechanism 202 and the second vertical compression mechanism 209 are identical, the first vertical compression mechanism 202 includes a fixing plate 2021, a sixth air cylinder 2022, a roller seat 2023, and rollers 2024, the fixing plate 2021 is fixed on the first portal frame 201, the roller seat 2023 is mounted on the fixing plate 2021 through the sixth air cylinder 2022, a plurality of rollers 2024 are mounted on the roller seat 2023, the sixth air cylinder 2022 can push the roller seat 2023 to move in the vertical direction, so that the rollers 2024 can be compressed on the plate, and the plate can also move in the horizontal direction while being compressed in the vertical direction due to the adoption of the rollers 2024.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (3)

1. The utility model provides an all-in-one's upper and lower rig, includes pay-off frame (1), its characterized in that, install on pay-off frame (1) and go up drill unit (2) and lower drill unit (3), go up drill unit (2) including first portal frame (201), first vertical hold-down mechanism (202), first cylinder (203), first lifter plate (204), go up drilling motor (205), first suction hood (206), second suction hood (207), go up drill package subassembly (208), second vertical hold-down mechanism (209), third lifter plate (210), second lifter plate (211), first lateral shifting board (212), second cylinder (213), first lateral electric rack drive (214), first vertical ball screw drive (215), third cylinder (216), first mouth shape clamp plate (217), fourth cylinder (218), second mouth shape clamp plate (219), first portal frame (201) are fixed on pay-off frame (1), install first vertical hold-down mechanism (202) on first portal frame (201), first lateral shifting board (212) are installed through first lateral shifting board (212), a third lifting plate (210) is arranged on the first transverse moving plate (212) through a first vertical ball screw transmission mechanism (215), the third lifting plate (210) is slidably arranged on the first transverse moving plate (212), a first lifting plate (204) is arranged on the third lifting plate (210) through a first air cylinder (203), a second lifting plate (211) is arranged on the third lifting plate (210) through a second air cylinder (213), the first lifting plate (204) and the second lifting plate (211) are slidably arranged on the third lifting plate (210), an upper drilling motor (205) is arranged on the first lifting plate (204), a first dust suction cover (206) is arranged on the upper drilling motor (205), a first mouth-shaped pressing plate (217) is arranged on the first dust suction cover (206), a second lifting plate (208) is arranged on the second lifting plate (211), a second dust suction cover (207) is arranged on the second dust suction cover (219), a second mouth-shaped pressing mechanism (218) is arranged on the second lifting plate (208), the second mouth-shaped pressing plate (219) is positioned in the second dust suction cover (207).

2. The up-and-down drilling mechanism of the integrated machine according to claim 1, wherein the down drilling assembly (3) comprises a second portal frame (301), a third dust hood (302), a down drilling bag assembly (303), a fourth dust hood (304), a second transverse moving plate (305), a fourth lifting plate (306), a vertical electric gear rack transmission mechanism (307), a second transverse electric gear rack transmission mechanism (308), a lower drilling motor (309), a fifth cylinder (310) and a fifth lifting plate (311), the second portal frame (301) is fixed on the feeding frame (1), the second portal frame (301) is provided with the second transverse moving plate (305) through the second transverse electric gear rack transmission mechanism (308), the second transverse moving plate (305) is slidably mounted on the second portal frame (301), the fourth lifting plate (306) is mounted on the second transverse moving plate (305) through the vertical electric gear rack transmission mechanism (307), the fourth lifting plate (306) is slidably mounted on the second transverse moving plate (305), the fifth lifting plate (311) is mounted on the fifth lifting plate (309) through the vertical electric gear rack transmission mechanism (307), and the fourth lifting plate (306) is provided with a drill package assembly (303), and the drill package assembly (303) is provided with a fourth dust hood (304).

3. The up-down drilling mechanism of the integrated machine according to claim 1, wherein the first vertical pressing mechanism (202) and the second vertical pressing mechanism (209) are identical in structure, the first vertical pressing mechanism (202) comprises a fixing plate (2021), a sixth air cylinder (2022), a roller seat (2023) and a roller (2024), the fixing plate (2021) is fixed on the first portal frame (201), the roller seat (2023) is mounted on the fixing plate (2021) through the sixth air cylinder (2022), and a plurality of rollers (2024) are mounted on the roller seat (2023).

Images