A kind of copper pipe processing cutter device
Technical field
The utility model relates to copper pipe processing technical field more particularly to a kind of copper pipe processing cutter devices.
Background technique
Copper pipe is also known as copper tube.One kind of nonferrous metal tube is the seamless pipe of compacting and drawing.Copper pipe is in casting and forming
Later, when by copper pipe processing at target pipe fitting, it need to be subjected to cutting process, is using cutting tools such as electric saws mostly at present
It is manually cut, the mechanical equipment that minority uses is cut.When using artificial cutting, cutting efficiency is low and labor intensity
Greatly, it is difficult to guarantee cut quality, copper pipe is easy to cause to scrap, increase production cost;And existing copper pipe cutter device is to copper
Pipe cut when copper pipe cannot be fixed well, cause cutting when copper pipe fix it is unstable, cut surface is irregular to ask
Topic.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of copper pipe processing proposed is used
Cutter device.
To achieve the goals above, the utility model adopts the technical scheme that
The lower end quadrangle of a kind of copper pipe processing cutter device, including station and copper pipe body, the station is solid
Surely it is connected with supporting leg, the upper end of the station is equipped with sliding groove, slidably connects sliding panel, the cunning in the sliding groove
The upper end of movable plate is equipped with the clamp system that copper pipe body is fixed, and the clamp system includes the first fixture block and the second folder
Block, the lower end of first fixture block are fixedly connected on the upper end of sliding panel, the lower end of second fixture block by the second fixed plate
It is fixedly connected with rotor plate, the upper end of the sliding panel is equipped with rotation slot corresponding with rotation Board position, and the rotor plate passes through
Rotation axis is rotatably connected in rotation slot, and the both ends of rotation axis are rotatably connected on respectively in the opposed inner walls of rotation slot, described
The opposing sidewalls of first fixture block and the second fixture block are equipped with arc groove corresponding with copper pipe body position, and two arc grooves are opposite
Resilient clamp pad is coated on inner wall, the copper pipe body is located between two resilient clamp pads, sets on the clamp system
There is retaining mechanism, and the upper end of station is fixedly connected with the supporting mechanism being supported to copper pipe body, the station
Upper end side is fixedly connected there are two support plate, and the upper end of two support plates is fixedly connected to placement plate, described in two
Loading plate is fixedly connected between placement plate, the upper end of the loading plate is fixedly connected with hydraulic cylinder, the hydraulic cylinder
Telescopic end is through loading plate and is fixedly connected with the first fixed plate, and the lower end of first fixed plate is fixedly connected with parcel shelf,
The side wall of the parcel shelf be equipped with cutting mechanism, the lower end two sides of the loading plate be fixedly connected to the first fixed plate into
The guiding mechanism of row guiding, the guiding mechanism is fixedly connected on the side wall of placement plate far from one end of loading plate, described to lead
It is fixedly connected to mechanism by connecting rod with fixed plate, the cutting mechanism includes the rotation being fixedly connected on parcel shelf side wall
The output shaft end of motor, the rotary electric machine through parcel shelf and is fixedly connected with round cutter, the round cutter
Positioned at the top of copper pipe body.
Preferably, the lower end of the sliding panel is slidably connected in sliding groove by multiple sliding blocks, and the lower end of sliding block is sliding
The dynamic interior bottom for being connected to sliding groove.
Preferably, the retaining mechanism includes the latch segment being respectively fixedly connected on the first fixture block and the second fixture block, and two
The inside of a latch segment is equipped with the thread groove that both ends all have opening, and two latch segments are connected by lock-screw screw thread
It connects.
Preferably, the guiding mechanism includes the l-shaped rod for being fixedly connected on loading plate lower end, and the lower end of the l-shaped rod is solid
Surely it is connected on the side wall of placement plate, the slide over side walls of the l-shaped rod is socketed with sliding sleeve, and the connecting rod passes through sliding sleeve
It is slidably connected with l-shaped rod.
Preferably, supporting mechanism includes the support column for being fixedly connected on station upper end, and the upper end of the support column is fixed
It is connected with the support sleeve being supported to copper pipe body, and the upper end of support sleeve is equipped with the arc matched with copper pipe body and slides
Slot.
In the utility model, copper pipe body is placed between the first fixture block and the second fixture block, rotation lock screw, so that
Two latch segments are fixedly connected by lock-screw, to be clamped to copper pipe body, while one end of copper pipe body is located at
On support sleeve on supporting mechanism, after fixing copper pipe body, start rotary electric machine, rotary electric machine drives round cutter to turn
It is dynamic, pull copper pipe body to move to round cutter side, while starting hydraulic cylinder, hydraulic cylinder drives loading plate to transport downwards
It is dynamic, so that the round cutter of its lower end be driven to cut to copper pipe body downwards.The utility model is compact-sized, operation side
Just, it drives cutting mechanism to be moved downwards by hydraulic cylinder, so that cutting mechanism be driven to cut copper pipe, and cuts
High-efficient, cut surface is smooth, while being equipped with clamp system and being clamped to copper pipe, to improve stability when copper pipe cutting.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of copper pipe processing cutter device structural schematic diagram;
Fig. 2 be the utility model proposes a kind of copper pipe processing cutter device partial side elevation view;
Fig. 3 be the utility model proposes a kind of copper pipe processing cutter device clamp system at partial side elevation view.
In figure: 1 station, 2 supporting legs, 3 support plates, 4 placement plates, 5 loading plates, 6 hydraulic cylinders, 7 first fixed plates, 8
Parcel shelf, 9 rotary electric machines, 10 round cutters, 11 copper pipe bodies, 12 sliding panels, 13 sliding blocks, 14 first fixture blocks, 15 second are consolidated
Fixed board, 16 support columns, 17 support sleeves, 18 connecting rods, 19L type bar, 20 sliding sleeves, 21 second fixture blocks, 22 resilient clamp pads, 23
Rotor plate, 24 latch segments, 25 lock-screws.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-3, a kind of copper pipe processing cutter device, including station 1 and copper pipe body 11, under station 1
End quadrangle is fixedly connected to supporting leg 2, and the upper end of station 1 is equipped with sliding groove, slidably connects sliding panel 12 in sliding groove,
The upper end of sliding panel 12 is equipped with the clamp system that copper pipe body 11 is fixed, and copper pipe body 11 is fixed in clamp system
And limit, while sliding panel 12 facilitates copper pipe body 11 and is moved in the horizontal direction, and copper pipe body 11 is facilitated to be cut
Movement is cut, clamp system includes the first fixture block 14 and the second fixture block 21, and the lower end of the first fixture block 14 is solid by the second fixed plate 15
Surely it is connected to the upper end of sliding panel 12, the lower end of the second fixture block 21 is fixedly connected with rotor plate 23, and the upper end of sliding panel 12 is equipped with
Rotation slot corresponding with 23 position of rotor plate, rotor plate 23 are rotatably connected in rotation slot by rotation axis, 23 convenience of rotor plate
Second fixture block 21 is rotated, and copper pipe body 11 is fixed thus convenient, and make after the cutting of copper pipe body 11 its from
It is disassembled between first fixture block 14 and the second fixture block 21, and the both ends of rotation axis are rotatably connected on the opposite of rotation slot respectively
On inner wall, the opposing sidewalls of the first fixture block 14 and the second fixture block 21 are equipped with arc groove corresponding with 11 position of copper pipe body, and
Resilient clamp pad 22 is coated in two arc groove opposed inner walls, resilient clamp pad 22 facilitates consolidating to copper pipe body 11
Fixed, copper pipe body 11 is located between two resilient clamp pads 22, and clamp system is equipped with retaining mechanism, retaining mechanism facilitate by
Being fixedly connected between the first fixture block 14 and the second fixture block 21, and the upper end of station 1 be fixedly connected with to copper pipe body 11 into
The supporting mechanism of row support, the upper end side of station 1 are fixedly connected there are two support plate 3, and the upper end of two support plates 3 is equal
It is fixedly connected with placement plate 4, loading plate 5 is fixedly connected between two placement plates 4, the upper end of loading plate 5 is fixedly connected with liquid
The telescopic end of compressing cylinder 6, hydraulic cylinder 6 through loading plate 5 and is fixedly connected with the first fixed plate 7, the lower end of the first fixed plate 7
It is fixedly connected with parcel shelf 8, the side wall of parcel shelf 8 is equipped with cutting mechanism, starts hydraulic cylinder 6, and hydraulic cylinder 6 drives glove
Cutting mechanism on plate 8 is moved in the vertical direction, so that round cutter 10 cuts copper pipe body 11
It cuts, the lower end two sides of loading plate 5 are fixedly connected to the guiding mechanism being oriented to the first fixed plate 7, and guiding mechanism is separate
One end of loading plate 5 is fixedly connected on the side wall of placement plate 4, and guiding mechanism is fixed by connecting rod 18 and the first fixed plate 7
Connection, two guiding mechanisms play guiding role to the movement of the first fixed plate 7, and cutting mechanism includes being fixedly connected on parcel shelf
The output shaft end of rotary electric machine 9 on 8 side walls, rotary electric machine 9 through parcel shelf 8 and is fixedly connected with round cutter 10,
Round cutter 10 is located at the top of copper pipe body 11, and rotary electric machine 9 drives round cutter 10 to rotate, thus to copper pipe sheet
Body 11 is cut.
In the utility model, the lower end of sliding panel 12 is slidably connected in sliding groove by multiple sliding blocks 13, and sliding block 13
Lower end be slidably connected at the interior bottom of sliding groove, sliding block 13 facilitates sliding panel 12 and is moved in sliding groove.Locking machine
Structure includes the latch segment 24 being respectively fixedly connected on the first fixture block 14 and the second fixture block 21, and the inside of two latch segments 24 is all provided with
There are both ends to all have the thread groove of opening, two latch segments 24 are threadedly coupled by lock-screw 25, spiral shell lock-screw 25 is rotated,
Convenient for the fixation between two latch segments 24.Guiding mechanism includes the l-shaped rod 19 for being fixedly connected on 5 lower end of loading plate, l-shaped rod 19
Lower end be fixedly connected on the side wall of placement plate 4, the slide over side walls of l-shaped rod 19 is socketed with sliding sleeve 20, and connecting rod 18 is logical
Sliding sleeve 20 is crossed to be slidably connected with l-shaped rod 19.Supporting mechanism includes the support column 16 for being fixedly connected on 1 upper end of station, support
The upper end of column 16 is fixedly connected with the support sleeve 17 being supported to copper pipe body 11, and the upper end of support sleeve 17 is equipped with and copper pipe
The arc chute that ontology 11 matches, copper pipe body 11 are constantly moved to cutting mechanism side during cutting, support sleeve
17 pairs of copper pipe bodies 11 are played a supporting role.
In the utility model, copper pipe body 11 is placed between the first fixture block 14 and the second fixture block 21, rotation lock spiral shell
Nail 25, so that two latch segments 24 are fixedly connected by lock-screw 25, to be clamped to copper pipe body 11, while copper pipe
One end of ontology 11 is located on the support sleeve 17 on supporting mechanism, after fixing copper pipe body 11, starts rotary electric machine 9, rotation
Motor 9 drives round cutter 10 to rotate, and pulls copper pipe body 11 to move to 10 side of round cutter, while starting hydraulic
Oil cylinder 6, hydraulic cylinder 6 drives loading plate 5 to move downward, to drive the round cutter 10 of its lower end downwards to copper pipe body
11 are cut.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.