CN219666934U - Servo control multichannel groove rotating equipment - Google Patents

Abstract

The utility model discloses servo control multi-channel rotary groove equipment which comprises a bottom plate, a mounting frame and a protective box body, wherein the mounting frame is mounted at the upper end of the bottom plate; the driving rotary groove structure comprises: the device comprises a servo motor, two bearings, a driving installation rod and five installation operation components; the utility model relates to the technical field of workpiece processing equipment, in particular to a driving rotary groove structure, which is characterized in that a driving installation rod is driven by a set servo motor, a plate to be processed is lifted by a set lifting structure when in use, the plate is matched with five installation operation components, slotting operation is carried out on the plate, and the installation operation components are used for directly disassembling and assembling a certain cutter without disassembling a shaft body when the cutter is disassembled and assembled in a clamping and fixing mode.

Description

Servo control multichannel groove rotating equipment

Technical Field

The utility model relates to the technical field of workpiece processing equipment, in particular to servo control multi-channel rotary groove equipment.

Background

The prior patent discloses CN201611217690.1 which is slotting equipment for plates and relates to the field of furniture production equipment; the grooving device comprises a grooving cutter, a screw driving mechanism and a first motor, wherein the first motor can drive the grooving cutter to move on the workbench through the screw driving mechanism; the slotting cutter comprises a seat body, a cutter rest, a first cutter shaft, a second cutter shaft, a rotary cutter, a broach and a second motor, wherein the cutter rest is connected to the seat body; the second arbor is fixedly connected on the knife rest, and broach key connection is on the second arbor, is equipped with the second pressure spring between broach and the broach, and one end of second arbor is equipped with second adjusting nut, and the cutter fixed mode that adopts in this patent document need carry out the whole dismantlement with the installation axis body when need carrying out dismouting change to the cutter, just can satisfy the purpose to the dismouting of cutter, leads to the dismouting operation of cutter to be more loaded down with trivial details, and in view of this, to above-mentioned problem in depth study, has in the case produced.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the servo control multichannel rotary groove equipment comprises a bottom plate, a mounting frame and a protective box body, wherein the mounting frame is mounted at the upper end of the bottom plate, the protective box body is mounted at the upper end of the mounting frame, a driving rotary groove structure is arranged at the upper end of the mounting frame, and a lifting structure is arranged at the upper end of the bottom plate;

the driving rotary groove structure comprises: the device comprises a servo motor, two bearings, a driving installation rod and five installation operation components;

the servo motor is arranged at the upper end of one side of the installation frame, the two bearings are respectively embedded at the two sides of the upper end of the installation frame, the two ends of the driving installation rod are respectively movably embedded in the two bearings, one end of the driving installation rod is connected with the driving end of the servo motor through a coupler, and the five installation operation assemblies are all arranged at the upper end of the driving installation rod.

Preferably, one of the mounting operation assemblies includes: two fixed sleeves, two operation blocks, two mounting grooves, two convex clamping blocks and four connecting parts;

the two fixing sleeves are respectively positioned on two sides of the driving installation rod, the two operation blocks are respectively arranged on one sides of the two fixing sleeves, the two installation grooves are respectively formed in one sides of the two operation blocks, the two convex clamping blocks are respectively arranged on the other sides of the two operation blocks, and the two ends of the connecting part are respectively connected with the two operation blocks.

Preferably, one of the connection parts includes: two mounting plates and a connecting bolt;

the two mounting plates are respectively arranged on one sides of the two operation blocks, and the connecting bolts are movably embedded in the two mounting plates.

Preferably, the lifting structure includes: the lifting box body, two lifting cylinders and a lifting plate;

the lifting box body is arranged at the upper end of the bottom plate, the two lifting cylinders are respectively arranged at two sides in the lifting box body, and the lifting plates are arranged at the telescopic ends of the two lifting cylinders.

Preferably, a support frame is arranged at the joint of the servo motor and the mounting frame.

Preferably, two limiting blocks are arranged at the upper end of the lifting plate.

Advantageous effects

The utility model provides servo control multi-channel spiral groove equipment, which has the following beneficial effects:

the first, the driving rotary groove structure that adopts, drive the installation pole through the servo motor that sets up, when using, lift the panel that needs to process through the lifting structure that sets up, cooperate with five installation operation assemblies, carry on the fluting operation to the panel;

second, the installation operation subassembly of adoption, when carrying out the dismouting to the cutter, need not to dismantle the axis body, adopts the fixed mode of joint, can directly dismouting to a certain cutter, also can adjust the quantity of cutter and the interval between the cutter in real time according to the fluting demand of difference simultaneously.

Drawings

Fig. 1 is a schematic perspective view of a servo-controlled multi-channel spin-slot device according to the present utility model.

Fig. 2 is a schematic diagram of a front view structure of a servo-controlled multi-channel spin-slot device according to the present utility model.

Fig. 3 is a schematic perspective view of an installation operation assembly of the servo control multi-channel spin-slot device according to the present utility model.

In the figure: 1. a bottom plate; 2. a mounting frame; 3. a protective box body; 4. a servo motor; 5. a bearing; 6. driving the mounting rod; 7. a fixed sleeve; 8. an operation block; 9. a mounting groove; 10. a convex clamping block; 11. a mounting piece; 12. a connecting bolt; 13. lifting the box body; 14. a lifting cylinder; 15. a lifting plate; 16. a support frame; 17. and a limiting block.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1-3, the main components of the present case are: a servo control multichannel rotary groove device comprises a bottom plate 1, a mounting frame 2 and a protective box body 3, wherein the mounting frame 2 is mounted at the upper end of the bottom plate 1, the protective box body 3 is mounted at the upper end of the mounting frame 2, a driving rotary groove structure is arranged at the upper end of the mounting frame 2, and a lifting structure is arranged at the upper end of the bottom plate 1;

the driving rotary groove structure comprises: a servo motor 4, two bearings 5, a drive mounting rod 6 and five mounting operation components;

the servo motor 4 is arranged at the upper end of one side of the installation frame 2, two bearings 5 are respectively embedded at two sides of the upper end of the installation frame 2, two ends of the driving installation rod 6 are respectively movably embedded in the two bearings 5, one end of the driving installation rod is connected with the driving end of the servo motor 4 through a coupler, and five installation operation components are all arranged at the upper end of the driving installation rod 6.

It should be noted that, when slotting the panel, the panel is placed in the lifting structure upper end of bottom plate 1 upper end at first by the staff, through the work of drive installation frame 2 one side servo motor 4, drive the drive installation pole 6 through servo motor 4 and rotate in two bearings 5, drive installation operation subassembly through drive installation pole 6 and rotate, lift the structure work by the staff drive again, promote panel and installation operation subassembly laminating, carry out rotatory slotted purpose to the panel through the installation operation subassembly of rotation in-process.

In an implementation, one of the installation operating components includes: two fixing sleeves 7, two operation blocks 8, two mounting grooves 9, two convex clamping blocks 10 and four connecting parts;

the two fixing sleeves 7 are respectively positioned on two sides of the driving installation rod 6, the two operation blocks 8 are respectively arranged on one side of the two fixing sleeves 7, the two installation grooves 9 are respectively formed in one side of the two operation blocks 8, the two convex clamping blocks 10 are respectively arranged on the other side of the two operation blocks 8, and two ends of the four connecting parts are respectively connected with the two operation blocks 8.

When the tool is disassembled, the operator first operates the four connecting parts to move the two operating blocks 8 to two sides respectively, so that the two convex clamping blocks 10 are separated from the two mounting grooves 9 respectively, the two operating blocks 8 and the two fixing sleeves 7 can be taken down from the upper end of the driving mounting rod 6, the purpose of disassembling the tool is achieved, during mounting, the two fixing sleeves 7 are sleeved at the upper end of the driving mounting rod 6, the two convex clamping blocks 10 are respectively embedded into the two mounting grooves 9, the two operating blocks 8 are clamped and fixed through the two mounting grooves 9 and the two convex clamping blocks 10, and the two fixing sleeves 7 and the two operating blocks 8 are fixed at the upper end of the driving mounting rod 6 through the four connecting parts.

In a specific implementation process, one of the connection parts includes: two mounting pieces 11 and a connecting bolt 12;

the two mounting plates 11 are respectively mounted on one sides of the two operation blocks 8, and the connecting bolts 12 are movably embedded in the two mounting plates 11.

When the tool is fixed, the worker inserts the connecting bolt 12 into the two mounting pieces 11, and the two mounting pieces 11 are connected and fixed by the connecting bolt 12, thereby achieving the purpose of mounting and fixing the two operation blocks 8.

In a specific implementation process, the lifting structure comprises: a lifting box 13, two lifting cylinders 14 and a lifting plate 15;

the lifting box body 13 is arranged at the upper end of the bottom plate 1, the two lifting cylinders 14 are respectively arranged at two sides in the lifting box body 13, and the lifting plate 15 is arranged at the telescopic ends of the two lifting cylinders 14.

It should be noted that, when slotting the plate, the worker places the plate at the upper end of the lifting plate 15, and drives the lifting plate 15 and the plate to be processed to move upwards by driving the two lifting cylinders 14 in the lifting box 13 until the plate contacts with the installation operation assembly, so as to slotting the plate.

In the specific implementation process, a supporting frame 16 is arranged at the joint of the servo motor 4 and the mounting frame 2.

In the concrete implementation process, two limiting blocks 17 are arranged at the upper end of the lifting plate 15;

when fixing the plate, the worker adjusts the positions of the two stoppers 17 according to the specifications of the plate, and fixes the positions of the two stoppers 17 by bolts.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The servo control multichannel rotary groove device comprises a bottom plate, a mounting frame and a protective box body, and is characterized in that the mounting frame is mounted at the upper end of the bottom plate, the protective box body is mounted at the upper end of the mounting frame, a driving rotary groove structure is arranged at the upper end of the mounting frame, and a lifting structure is arranged at the upper end of the bottom plate;

the driving rotary groove structure comprises: the device comprises a servo motor, two bearings, a driving installation rod and five installation operation components;

the servo motor is arranged at the upper end of one side of the installation frame, the two bearings are respectively embedded at the two sides of the upper end of the installation frame, the two ends of the driving installation rod are respectively movably embedded in the two bearings, one end of the driving installation rod is connected with the driving end of the servo motor through a coupler, and the five installation operation assemblies are all arranged at the upper end of the driving installation rod.

2. A servo-controlled multi-lane spin-slot apparatus as recited in claim 1 wherein one of said mounting operating assemblies comprises: two fixed sleeves, two operation blocks, two mounting grooves, two convex clamping blocks and four connecting parts;

the two fixing sleeves are respectively positioned on two sides of the driving installation rod, the two operation blocks are respectively arranged on one sides of the two fixing sleeves, the two installation grooves are respectively formed in one sides of the two operation blocks, the two convex clamping blocks are respectively arranged on the other sides of the two operation blocks, and the two ends of the connecting part are respectively connected with the two operation blocks.

3. A servo-controlled multi-channel spin-slot device as recited in claim 2, wherein one of said connection portions comprises: two mounting plates and a connecting bolt;

the two mounting plates are respectively arranged on one sides of the two operation blocks, and the connecting bolts are movably embedded in the two mounting plates.

4. A servo-controlled multi-channel spin-slot device as recited in claim 1, wherein said lifting structure comprises: the lifting box body, two lifting cylinders and a lifting plate;

the lifting box body is arranged at the upper end of the bottom plate, the two lifting cylinders are respectively arranged at two sides in the lifting box body, and the lifting plates are arranged at the telescopic ends of the two lifting cylinders.

5. The servo-controlled multi-channel spin-slot device of claim 1, wherein a support frame is provided at a junction of the servo motor and the mounting frame.

6. The servo-controlled multi-channel spin-slot device of claim 4, wherein two limiting blocks are provided at the upper end of the lifting plate.