CN216372697U

CN216372697U - Wallboard grooving machine

Info

Publication number: CN216372697U
Application number: CN202121470779.5U
Authority: CN
Inventors: 李孝武; 李光耀; 郭延深; 杨建勋
Original assignee: Xuchang Wuxing Industrial Co ltd
Current assignee: Xuchang Wuxing Industrial Co ltd
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2022-04-26
Anticipated expiration: 2031-06-30

Abstract

The utility model relates to the field of wallboard processing equipment, in particular to a movable slotting machine for wallboards, which comprises a rack, wherein a travelling mechanism and a slotting mechanism are arranged on the rack, the travelling mechanism drives the slotting mechanism to move, wallboards to be cut are fixed below the rack, the wallboards are slotted in the moving process of the slotting mechanism, and slotting on the left side and the right side is completed simultaneously, so that the working efficiency is high; the grooving mechanism is matched with the wallboard transverse cutting mechanism, a slotting serrated blade of the grooving mechanism cuts the transverse tangent line of the wallboard, the height of the grooving blade is matched with the thickness of the wallboard, the left and right grooving mechanisms move to just finish grooving on the left and right sides of the transversely cut wallboard blank, and the convex surface and the concave surface of the grooved wallboard blank are matched and can be clamped together, so that later-period installation is facilitated.

Description

Wallboard grooving machine

Technical Field

The utility model relates to the field of wallboard processing equipment, in particular to a wallboard grooving machine capable of movably grooving.

Background

Present wallboard fluting mechanism is mostly the level setting, and fluting mechanism fixes and rotates in a department, treats that grooved wallboard is transported fluting mechanism department and fluting, can't slot simultaneously to two sides of wallboard, and the unable nimble regulation of fluting degree of depth.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a wallboard grooving machine which can flexibly adjust the grooving depth and move the grooving.

The technical scheme of the utility model is realized as follows:

a wallboard grooving machine comprises a rack, wherein a travelling mechanism is arranged on the rack, a grooving mechanism is arranged on the travelling mechanism, a control box is also arranged on the rack, the travelling mechanism and the grooving mechanism are electrically connected with the control box, the travelling mechanism is movably arranged in the rack, a travelling rail is arranged at the top of the rack, a travelling wheel is arranged on the travelling mechanism, the travelling wheel is clamped on the travelling rail and can move along the travelling rail, a travelling motor and a travelling reducer are arranged on the travelling mechanism, travelling gears are arranged at two ends of the travelling reducer through connecting shafts, the travelling gears are meshed with racks, the racks are fixed on the rack, the travelling motor drives the travelling gears to rotate, and the travelling gears are meshed with the racks to drive the travelling wheels to slide along the travelling rail; the grooving mechanism comprises a first left grooving assembly and a first right grooving assembly which are arranged in parallel in a longitudinal direction, a gap for a wallboard blank to pass through is reserved between the first left grooving assembly and the first right grooving assembly, the first left grooving assembly and the first right grooving assembly respectively comprise a grooving motor and a grooving speed reducer which are fixedly connected with the travelling mechanism, the output end of the grooving speed reducer in the first left grooving assembly is connected with a convex surface grooving cutter set, and the output end of the grooving speed reducer in the first right grooving assembly is connected with a concave surface grooving cutter set.

The grooving mechanism further comprises a second left grooving assembly and a second right grooving assembly, the second left grooving assembly is identical to the first left grooving assembly in structure, the second right grooving assembly is identical to the first right grooving assembly in structure, and the distance between the second left grooving assembly and the second right grooving assembly is different from the distance between the first left grooving assembly and the first right grooving assembly.

Convex surface fluting knife tackle and concave surface fluting knife tackle all include with speed reducer output fixed connection's knife tackle main shaft, all be provided with a set of circular shape sawtooth blade that cracks on the knife tackle main shaft, a set of sawtooth blade that cracks evenly distributed from top to bottom, convex surface fluting knife tackle adjacent crack all be provided with a set of convex surface fluting blade between the sawtooth blade, a set of convex surface fluting blade use the knife tackle main shaft as the even vertical distribution in centre of a circle, concave surface fluting knife tackle adjacent crack all be provided with a set of concave surface fluting blade between the sawtooth blade, every group concave surface fluting blade is the same with the structural distribution of every group convex surface fluting blade, convex surface fluting blade be the font, concave surface fluting blade be the type of convexity, convex surface fluting blade's the type of concavity and concave surface fluting blade's the type phase-match.

The convex and concave grooved blades both comprise toothed blades and non-toothed blades, and the toothed blades and the non-toothed blades in the same group are distributed at intervals.

The position of each set of convex grooving blades is the same, and the position of each set of concave grooving blades is the same.

The toothed and non-toothed blades between adjacent sets are staggered.

The rack top still be provided with a cable supporting beam, a cable supporting beam set up along the walking direction, the cover is equipped with a set of cable link on the cable supporting beam, the cable between control box and running gear and the fluting mechanism all passes through the cable link on the cable supporting beam for the running gear cable can be along with removing when reciprocating motion.

The utility model has the positive effects that: a traveling mechanism is arranged on the rack to drive the slotting mechanism to move, the wall plate blank is fixed, and the slotting mechanism slots the wall plate in the moving process; the grooving mechanisms are vertically arranged, so that grooving operation can be directly performed after the wallboard blank is cut, the convex surface and the concave surface are performed simultaneously, a set of grooving mechanisms can be used for directly grooving the required depth, and two or more sets of grooving mechanisms can be used for grooving the required depth for multiple times; the slotting serrated blade cuts at the slotting position of the transversely cut blank body and is matched with the thickness of the wall plate obtained after transverse cutting, one group of slotting blades just slots the side edge of one wall plate, and the left and right slotting mechanisms move to just complete slotting on the side edge of the transversely cut wall plate.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a front view of the convex slotting cutter set of the present invention.

Fig. 3 is a schematic perspective view of the convex slotting cutter set of the present invention.

Fig. 4 is a front view of the concave grooving tool set of the present invention.

Fig. 5 is a schematic perspective view of the concave grooving cutter set of the present invention.

Fig. 6 is a schematic view of the position distribution of four slotting cutter groups of the present invention.

Fig. 7 is a schematic structural view of the wall panel blank after being grooved by the grooving mechanism of the present invention.

Detailed Description

As shown in fig. 1 to 7, a wallboard groover, including frame 1, install running gear 2 in frame 1, install grooving mechanism 3 on running gear 2, still fixed mounting has control box 4 in frame 1, running gear 2 and grooving mechanism 3 all are connected with control box 4 electricity, 1 top of frame has still welded cable supporting beam 5, cable supporting beam 5 sets up along the walking direction, the cover is equipped with a set of cable link 6 on the cable supporting beam 5, the cable between control box 4 and running gear 2 and grooving mechanism 3 all passes through cable link 6 on cable supporting beam 5, make running gear 2 cable can be along with removing when reciprocating motion.

The traveling mechanism 2 is movably mounted inside the rack 1, a traveling rail 8 is fixed at the top of the rack 1, a traveling wheel 9 is connected onto the traveling mechanism 2, the traveling wheel 9 is clamped on the traveling rail 8 and can move along the traveling rail 8, a traveling motor and a traveling speed reducer are mounted on the traveling mechanism 2, traveling gears 10 are mounted at two ends of the traveling speed reducer through connecting shafts, the traveling gears 10 are meshed with racks 7, the racks 7 are fixed on the rack 1, the traveling motor drives the traveling gears 10 to rotate, and the traveling gears 10 are meshed with the racks 7 to drive the traveling wheel 9 to slide along the traveling rail 8; slotting mechanism 3 includes vertical parallel arrangement's a left side fluting subassembly and a right side fluting subassembly, leaves the space that supplies the wallboard idiosome to pass through between a left side fluting subassembly and the right side fluting subassembly, a left side fluting subassembly and a right side fluting subassembly all include with running gear 2 fixed connection's fluting motor and fluting speed reducer, convex surface fluting knife tackle 31 is connected to the output of the fluting speed reducer in the left side fluting subassembly, concave surface fluting knife tackle 32 is connected to the output of the fluting speed reducer in the right side fluting subassembly.

Preferably, the slotting mechanism 3 further includes a second left slotting component and a second right slotting component, the second left slotting component has the same structure as the first left slotting component, the second right slotting component has the same structure as the first right slotting component, and the distance between the second left slotting component and the second right slotting component is different from the distance between the first left slotting component and the first right slotting component, specifically, for example, if the wallboard blank needs to be slotted for 8 mm, the slotting cutter sets of the first left slotting component and the first right slotting component are respectively slotted for 4 mm on the left and right sides, and the distance between the second left slotting component and the second right slotting component is further shortened so that the slotting cutter sets of the second left slotting component and the second right slotting component are again slotted for 4 mm on the left and right sides of the wallboard blank, thereby completing slotting of the wallboard blank for 8 mm. When the second left slotting component and the second right slotting component are not installed, the distance between the first left slotting component and the first right slotting component is adjusted, and slotting can be completed by the first left slotting component and the first right slotting component at one time.

The convex slotting cutter set 31 and the concave slotting cutter set 32 both comprise cutter set main shafts 33 fixedly connected with the output end of the speed reducer, 6 circular slotting serrated blades 34 are mounted on the cutter set main shafts 33, the 6 slotting serrated blades 34 are uniformly distributed up and down, a group of convex slotting blades 35 is fixedly connected between the adjacent slotting serrated blades 34 of the convex slotting cutter set 31, one group is four, and the four convex slotting blades 35 are uniformly and vertically distributed by taking the cutter set main shafts 33 as the circle center; a set of concave grooving blades 36 is fixedly connected between the adjacent slotting serrated blades 34 of the concave grooving blade group 32, one set is four, the concave grooving blades 36 are the same as the convex grooving blades 35 in structural distribution, the convex grooving blades 35 are in a concave shape, the concave grooving blades 36 are in a convex shape, the concave shape of the convex grooving blades 35 is matched with the convex shape of the concave grooving blades 36, and the opened convex and concave surfaces of the wallboard blank can be matched and clamped together.

Preferably, the convex and concave

grooving blades

35 and 36 each comprise a toothed blade and a non-toothed blade, the toothed and non-toothed blades in the same set being spaced apart. The positions of each group of convex slotting blades are the same, the positions of each group of concave slotting blades are also the same, and the toothed blades and the non-toothed blades between adjacent groups are distributed in a staggered manner, namely four blades of different groups are respectively positioned on the same vertical surface, and the toothed blades and the non-toothed blades on the same vertical surface are distributed at intervals.

Claims

1. The utility model provides a wallboard groover, includes the frame, is provided with running gear in the frame, is provided with grooving mechanism in the running gear, still is provided with the control box in the frame, and running gear and grooving mechanism all are connected its characterized in that with the control box electricity: the traveling mechanism is movably mounted inside the rack, a traveling rail is arranged at the top of the rack, traveling wheels are arranged on the traveling mechanism, the traveling wheels are clamped on the traveling rail and can move along the traveling rail, a traveling motor and a traveling speed reducer are arranged on the traveling mechanism, traveling gears are mounted at two ends of the traveling speed reducer through connecting shafts and are meshed with racks, the racks are fixed on the rack, the traveling motor drives the traveling gears to rotate, and the traveling gears are meshed with the racks to drive the traveling wheels to slide along the traveling rail; the grooving mechanism comprises a first left grooving assembly and a first right grooving assembly which are arranged in parallel in a longitudinal direction, a gap for a wallboard blank to pass through is reserved between the first left grooving assembly and the first right grooving assembly, the first left grooving assembly and the first right grooving assembly respectively comprise a grooving motor and a grooving speed reducer which are fixedly connected with the travelling mechanism, the output end of the grooving speed reducer in the first left grooving assembly is connected with a convex surface grooving cutter set, and the output end of the grooving speed reducer in the first right grooving assembly is connected with a concave surface grooving cutter set.

2. The wallboard grooving machine of claim 1, wherein: the grooving mechanism further comprises a second left grooving assembly and a second right grooving assembly, the second left grooving assembly is identical to the first left grooving assembly in structure, the second right grooving assembly is identical to the first right grooving assembly in structure, and the distance between the second left grooving assembly and the second right grooving assembly is different from the distance between the first left grooving assembly and the first right grooving assembly.

3. The wallboard grooving machine of claim 1 or 2, wherein: convex surface fluting knife tackle and concave surface fluting knife tackle all include with speed reducer output fixed connection's knife tackle main shaft, all be provided with a set of circular shape sawtooth blade that cracks on the knife tackle main shaft, a set of sawtooth blade that cracks evenly distributed from top to bottom, convex surface fluting knife tackle adjacent crack all be provided with a set of convex surface fluting blade between the sawtooth blade, a set of convex surface fluting blade use the knife tackle main shaft as the even vertical distribution in centre of a circle, concave surface fluting knife tackle adjacent crack all be provided with a set of concave surface fluting blade between the sawtooth blade, every group concave surface fluting blade is the same with the structural distribution of every group convex surface fluting blade, convex surface fluting blade be the font, concave surface fluting blade be the type of convexity, convex surface fluting blade's the type of concavity and concave surface fluting blade's the type phase-match.

4. The wallboard grooving machine of claim 3, wherein: the convex and concave grooved blades both comprise toothed blades and non-toothed blades, and the toothed blades and the non-toothed blades in the same group are distributed at intervals.

5. The wallboard grooving machine of claim 4, wherein: the position of each set of convex grooving blades is the same, and the position of each set of concave grooving blades is the same.

6. The wallboard grooving machine of claim 5, wherein: the toothed and non-toothed blades between adjacent sets are staggered.

7. The wallboard grooving machine of claim 1 or 2, wherein: the rack top still be provided with a cable supporting beam, a cable supporting beam set up along the walking direction, the cover is equipped with a set of cable link on the cable supporting beam, the cable between control box and running gear and the fluting mechanism all passes through the cable link on the cable supporting beam for the running gear cable can be along with removing when reciprocating motion.