CN208825714U - Novel numerical control automatic section cutter - Google Patents

Abstract

The utility model discloses novel numerical control automatic section cutters, belong to cutting machine technical field.Novel numerical control automatic section cutter, including workbench, sliding rack, cutting wheel, motor, cylinder, rotary shaft, blade, heat-dissipating cylinder, the first bolt and the second bolt；Sliding slot is offered on workbench；Heat-dissipating cylinder is fixed on the leading flank of sliding rack right end；The bottom of heat-dissipating cylinder is communicated with L-type pipe；The power output end of motor is located at the inside of sliding rack through the rear wall of sliding rack；Rotary shaft and blade are respectively positioned in heat-dissipating cylinder, and rotation axis horizontal is through heat-dissipating cylinder and the front side wall of sliding rack, and rotary shaft extends to the inside of sliding rack and is fixedly connected with the power output end of motor；Cutting wheel is arranged on the rotary shaft；The utility model realizes cutting function and the temperature of cutting wheel is effectively reduced by driving cutting wheel and blade in rotary shaft by a motor.

Description

Novel numerical control automatic section cutter

Technical field

The utility model relates to cutting machine technical fields, more particularly to novel numerical control automatic section cutter.

Background technique

Profile cut-off machine, be called cutting wheel saw, Profile cut-off machine be suitable for building, hardware, petrochemical industry, mechanical metallurgy and The departments such as hydropower installation.Profile cut-off machine is that one kind can be to metal side's flat tube, square band steel, I-steel, U-steel, carbon member steel, member The commonly used equipment that the materials such as pipe are cut.

Currently, half needs manual operation when traditional Profile cut-off machine cuts bar, first steel are fixed to clamp, then hand Dynamic operation cutting machine cuts bar, operates more complicated, and traditional cutting machine running hours cutting wheel It is easy fever damage, cutting wheel is needed to be replaced frequently, to increase job costs.

Utility model content

In order to overcome the drawbacks of the prior art, the technical problem to be solved by the utility model is to propose novel numerical control certainly Dynamic Profile cut-off machine；The cutting machine itself has heat dissipation effect, to reduce job costs.

For this purpose, the utility model uses following technical scheme:

The utility model provides novel numerical control automatic section cutter, including workbench, sliding rack, cutting wheel, motor, Cylinder, rotary shaft, blade, heat-dissipating cylinder, the first bolt and the second bolt；

Sliding slot is offered on the workbench；

The underfill of the sliding rack is in the sliding slot；

The cylinder is fixed on the left side wall of the workbench；

The telescopic shaft of the cylinder is positioned in the chute, and a left side for the telescopic shaft right end of the cylinder and the sliding rack Side wall is fixedly connected；

The motor is fixed on the rear wall of the sliding rack right end, and the heat-dissipating cylinder is fixed on the sliding rack right end Leading flank on；

The bottom of the heat-dissipating cylinder is communicated with L-type pipe；

The power output end of the motor is located at the inside of the sliding rack through the rear wall of the sliding rack；

The rotary shaft and the blade are respectively positioned in the heat-dissipating cylinder, and the rotation axis horizontal runs through the heat-dissipating cylinder And the front side wall of the sliding rack, and the rotary shaft extends to the inside of the sliding rack and the power output of the motor End is fixedly connected；

The cutting wheel is located at the inside of the sliding rack；

The cutting wheel is sheathed in the rotary shaft；

The top of the workbench is embedded with the first fixed plate, the second fixed plate that front and back is arranged respectively；

First fixed plate, second fixed plate offer the first clamp port, the second clamp port respectively；

The right side wall of first fixed plate, second fixed plate right side wall offer respectively and first spiral shell Bolt, second bolt distinguish compatible first threaded hole and the second threaded hole, first threaded hole and second spiral shell Pit is connected to first clamp port, second clamp port respectively.

Optionally, water inlet pipe is communicated at the top of the heat-dissipating cylinder.

Optionally, first fixed plate, second fixed plate are embedded with the first magnet, the second magnet respectively；

So the first magnet is located at the bottom of first clamp port, second magnet is located at second clamp port Bottom.

Optionally, check valve is fixed on the water inlet pipe.

Optionally, accumulator tank is offered at the top of the workbench.

The utility model has the following beneficial effects:

The utility model setting, which is connected in the rotary shaft of motor, is arranged with cutting wheel and blade, therefore cutting wheel rotates In the case where blade also follow rotation, thus blade generate wind, blade is located in heat-dissipating cylinder, and the bottom of heat-dissipating cylinder is communicated with L Type pipe realizes cutting function and the air-cooled cutting wheel of energy, the temperature and consumption of cutting wheel is effectively reduced so that wind is blown out by L-type pipe It can be few.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the novel numerical control automatic section cutter that specific embodiment of the present invention provides；

Fig. 2 is the structural schematic diagram for the heat-dissipating cylinder that specific embodiment of the present invention provides.

In figure:

1, workbench；2, sliding rack；3, cutting wheel；4, motor；5, cylinder；6, rotary shaft；7, blade；8, heat-dissipating cylinder；9, First bolt；10, the second bolt；11, sliding slot；12, L-type pipe；13, the first fixed plate；14, the second fixed plate；15, the first clamping Mouthful；16, the second clamp port；17, water inlet pipe；18, the first magnet；19, the second magnet；20, check valve；21, accumulator tank.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

The structural schematic diagram of novel numerical control automatic section cutter provided by the utility model is shown to Fig. 1 exemplary, Show the structural schematic diagram of heat-dissipating cylinder provided by the utility model to Fig. 2 exemplary.As shown in Figure 1 and Figure 2, novel numerical control Automatic section cutter, including workbench 1, sliding rack 2, cutting wheel 3, motor 4, cylinder 5, rotary shaft 6, blade 7, heat-dissipating cylinder 8, First bolt 9 and the second bolt 10；Sliding slot 11 is offered on workbench 1；The underfill of sliding rack 2 is in sliding slot 11；Gas Cylinder 5 is fixed on the left side wall of workbench 1；The telescopic shaft of cylinder 5 is located in sliding slot 11, and the telescopic shaft right end and cunning of cylinder 5 The left side wall of moving frame 2 is fixedly connected；Motor 4 is fixed on the rear wall of 2 right end of sliding rack, and it is right that heat-dissipating cylinder 8 is fixed on sliding rack 2 On the leading flank at end；The bottom of heat-dissipating cylinder 8 is communicated with L-type pipe 12；The power output end of motor 4 runs through the rear wall of sliding rack 2 Positioned at the inside of sliding rack 2；Rotary shaft 6 and blade 7 are respectively positioned in heat-dissipating cylinder 8, rotary shaft 6 it is horizontal through heat-dissipating cylinder 8 and The front side wall of sliding rack 2, and rotary shaft 6 extends to the inside of sliding rack 2 and is fixedly connected with the power output end of motor 4；Cutting Wheel 3 is located at the inside of sliding rack 2；Cutting wheel 3 is sheathed in rotary shaft 6；The top of workbench 1 is embedded with that front and back is arranged respectively One fixed plate 13, the second fixed plate 14；First fixed plate 13, the second fixed plate 14 offer the first clamp port 15, second respectively Clamp port 16；The right side wall of first fixed plate 13, the second fixed plate 14 right side wall offer respectively and the first bolt 9, second Bolt 10 distinguishes compatible first threaded hole and the second threaded hole, and the first threaded hole and the second threaded hole are clamped with first respectively Mouth the 15, second clamp port 16 connection.

When using the equipment, needs the profile that will be cut to pass through the first clamp port 15 and the second clamp port 16, place After the profile of cutting, the profile of cutting is locked by 10 pairs of the first bolt 9 of twisting and the second bolt.Cylinder 5 Telescopic shaft drives sliding rack 2 to move left and right along sliding slot 11, to realize the adjusting to 3 horizontal position of cutting wheel.Start motor 4, the power output end of motor 4 drives rotary shaft 6 to rotate, to drive the cutting wheel 3 and blade 7 in rotary shaft 6, cutting wheel 3 are located at the inside of 2 right end of sliding rack, and clast is avoided to splash, the wind that the rotation of blade 7 generates to behind the left end of heat-dissipating cylinder 8 most It is blown out eventually from the bottom L-type pipe 12 of heat-dissipating cylinder 8, the lower end of L-type pipe 12 carries out cutting wheel 3 towards cutting wheel 3, therefore using wind Cooling, avoids the excessively high damage of 3 temperature of cutting wheel.It further include the controller on workbench 1, controller is PLC programmable control Device processed, motor 4, cylinder 5 are electrically connected with PLC programmable controller, the program write by PLC programmable controller, from And automation control can be carried out to motor 4, cylinder 5.If do not illustrated, it is fixedly connected with the company that can choose welding above Connect mode.

Optionally, the top of heat-dissipating cylinder 8 is communicated with water inlet pipe 17.Setting water inlet pipe 17 can be connected to water pipe or other water sources, So that water enters in heat-dissipating cylinder 8, water further passes through the L-type pipe 12 of 8 bottom of heat-dissipating cylinder as wind is ejected in cutting wheel 3, because This realizes water cooling and air-cooled cutting wheel 3.

Optionally, the first fixed plate 13, the second fixed plate 14 are embedded with the first magnet 18, the second magnet 19 respectively；So the One magnet 18 is located at the bottom of the first clamp port 15, and the second magnet 19 is located at the bottom of the second clamp port 16.First magnet is set 18 and second magnet 19 can be improved to ferrous material to be cut clamp stability, due to the suction to ferrous material of magnet Gravitation, therefore the first magnet 18 and the second magnet 19 have the material between the first clamp port 15 and the second clamp port 16 Downward attraction.

Optionally, check valve 20 is fixed on water inlet pipe 17.Setting check valve 20 avoids water from leading to water inlet pipe 17 into heat dissipation It is popped up after in cylinder 8 from water inlet pipe 17.

Optionally, the top of workbench 1 offers accumulator tank 21.It is broken after section steel cutting convenient for collecting that accumulator tank 21 is arranged Bits.

The utility model is described with reference to the preferred embodiments, and those skilled in the art know, is not departing from this reality In the case where with novel spirit and scope, various changes or equivalence replacement can be carried out to these features and embodiment.This reality It is not limited to the particular embodiment disclosed with novel, other embodiments fallen into claims hereof all belong to In the range of the utility model protection.

Claims (5)

1. novel numerical control automatic section cutter, it is characterised in that:

Including workbench (1), sliding rack (2), cutting wheel (3), motor (4), cylinder (5), rotary shaft (6), blade (7), heat dissipation Cylinder (8), the first bolt (9) and the second bolt (10)；

Sliding slot (11) are offered on the workbench (1)；

The underfill of the sliding rack (2) is in the sliding slot (11)；

The cylinder (5) is fixed on the left side wall of the workbench (1)；

The telescopic shaft of the cylinder (5) is located in the sliding slot (11), and the telescopic shaft right end of the cylinder (5) and the sliding The left side wall of frame (2) is fixedly connected；

The motor (4) is fixed on the rear wall of the sliding rack (2) right end, and the heat-dissipating cylinder (8) is fixed on the sliding On the leading flank of frame (2) right end；

The bottom of the heat-dissipating cylinder (8) is communicated with L-type pipe (12)；

Rear wall of the power output end of the motor (4) through the sliding rack (2) is located at the inside of the sliding rack (2)；

The rotary shaft (6) and the blade (7) are respectively positioned in the heat-dissipating cylinder (8), and the rotary shaft (6) is horizontal to run through institute The front side wall of heat-dissipating cylinder (8) and the sliding rack (2) is stated, and the rotary shaft (6) extends to the inside of the sliding rack (2) It is fixedly connected with the power output end of the motor (4)；

The cutting wheel (3) is located at the inside of the sliding rack (2)；

The cutting wheel (3) is sheathed on the rotary shaft (6)；

The top of the workbench (1) is embedded with the first fixed plate (13), the second fixed plate (14) that front and back is arranged respectively；

First fixed plate (13), second fixed plate (14) offer the first clamp port (15), the second clamp port respectively (16)；

The right side wall of first fixed plate (13), the right side wall of second fixed plate (14) offer and described first respectively Bolt (9), compatible first threaded hole of second bolt (10) difference and the second threaded hole, first threaded hole and institute The second threaded hole is stated to be connected to first clamp port (15), second clamp port (16) respectively.

2. novel numerical control automatic section cutter as described in claim 1, it is characterised in that:

Water inlet pipe (17) are communicated at the top of the heat-dissipating cylinder (8).

3. novel numerical control automatic section cutter as described in claim 1, it is characterised in that:

First fixed plate (13), second fixed plate (14) are embedded with the first magnet (18), the second magnet (19) respectively；

So the first magnet (18) is located at the bottom of first clamp port (15), second magnet (19) is located at described second The bottom of clamp port (16).

4. novel numerical control automatic section cutter as claimed in claim 2, it is characterised in that:

Check valve (20) are fixed on the water inlet pipe (17).

5. novel numerical control automatic section cutter as described in claim 1, it is characterised in that:

Accumulator tank (21) are offered at the top of the workbench (1).