CN207616101U - Copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism - Google Patents

Abstract

The utility model provides a kind of copper pipe excision forming processing Water wave forming device shell and exempts to polish integral mechanism.Belong to valve parts processing technique field.The utility model includes the moving rail that can be moved back and forth in an axial direction, and the cutting rack being fixed on moving rail, and inner chamfer cutting assembly is fixed on the cutting rack, and the first outer chamfer cutting assembly, the second outer chamfer cutting assembly and copper pipe cut off component.The utility model can directly process copper pipe, and the milling of more chamferings is completed on same mechanism and is cut off, and eliminates the process carried back and forth using more complete equipments, improves production efficiency, reduce production cost.

Description

Copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism

Technical field

The utility model belongs to valve parts processing technique field, is related to a kind of copper pipe excision forming processing Water wave forming device shell Exempt to polish integral mechanism.

Background technology

Water wave forming device is an accessory of tap, is located at faucet outlet, and inner chamfer and several is equipped on Water wave forming device Outer chamfer.Copper pipe is typically first cut off by the size of Water wave forming device when processing Water wave forming device, forms segment by the prior art one by one Copper section, then process inner chamfer one by one with cutter respectively is transported to another equipment processing outer chamfer after the completion, as outer chamfer have it is more It is a, then it needs with more set process equipments.The equipment being related to it is more and it is intermediate carry back and forth, production efficiency is low.

Utility model content

The purpose of this utility model is regarding to the issue above and defect, to provide outside a kind of copper pipe excision forming processing Water wave forming device Shell exempts to polish integral mechanism.

To achieve the above object, the utility model provides following technical proposal：

A kind of copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, including the shifting that can be moved back and forth in an axial direction Dynamic rail, and the cutting rack that is fixed on moving rail are fixed with inner chamfer cutting assembly, the first outer chamfer on the cutting rack Cutting assembly, the second outer chamfer cutting assembly and copper pipe cut off component.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the inner chamfer cutting group Part includes the inner chamfer position block being fixed on cutting rack, and the inner chamfer cutting being fixed on inner chamfer position block Knife, inner chamfer position block are additionally provided with positioning rib.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, first outer chamfer is cut It includes the first outer chamfer position block being fixed on cutting rack and two along the first outer chamfer position block to cut component Heart line is in the symmetrically arranged first outer chamfer cutter of minute surface.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, second outer chamfer is cut It includes the second outer chamfer position block being fixed on cutting rack and two along the second outer chamfer position block to cut component Heart line is in the symmetrically arranged second outer chamfer cutter of minute surface, the first outer chamfer cutter and the second outer chamfer cutter Level height on cutting rack is different.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the copper pipe cuts off component Including the cutting motor being fixed on cutting rack, and the cutter with the output axis connection of cutting motor.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the cutting motor it is defeated Shaft is fixedly connected with cutting tool apron, several cutter mounting holes that are circumferentially on cutting tool apron and along cutting tool apron, described Cutter mounting hole there is internal thread, cutter are screwed onto on cutter mounting hole.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the cutting tool apron and the It is equipped between two outer chamfer position blocks and cuts off positioning seat, cut off positioning seat equipped with knife edge is cut off, described cuts off positioning The shape of knife and the height on cutting rack are identical as inner chamfer cutter.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the cutting rack is equipped with Elongated positioning step.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the moving rail activity connects It is connected on engine base, engine base is equipped with orbital drive motor, and the orbital drive motor is connected with lead screw, the connection of moving rail bottom Have and lead screw meshed gears.

In above-mentioned copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, the engine base is equipped with energy Along the copper pipe output shaft of moving rail diametrically reciprocated, the copper pipe output shaft connecting copper pipe output motor.

Compared with prior art, the utility model advantage is：Copper pipe can directly be processed, is completed on same mechanism The milling of more chamferings is simultaneously cut off, and is eliminated the process carried back and forth using more complete equipments, is improved production efficiency, reduce production Cost.

Part is illustrated to embody by the further advantage, target and feature of the utility model by following, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Description of the drawings

Fig. 1 is the structural schematic diagram of utility model.

Fig. 2 is the structural schematic diagram in another direction Fig. 1.

Fig. 3 is the structural schematic diagram in another direction Fig. 1.

Fig. 4 is another structural schematic diagram of utility model.

Fig. 5 is the structural schematic diagram in another direction Fig. 4.

In figure：Moving rail 1, cutting rack 2, inner chamfer cutting assembly 3, the first outer chamfer cutting assembly 4, the second outer chamfer are cut It cuts 5, copper pipe and cuts off component 6, inner chamfer position block 7, inner chamfer cutter 8, positioning rib 9, the first outer chamfer position block 10, the first outer chamfer cutter 11, the second outer chamfer position block 13, the second outer chamfer cutter 14, cutting motor 15, cutting Knife 16, cuts off positioning seat 19, cuts off knife edge 20, positioning step 21, engine base 22, rail cutting tool apron 17, cutter mounting hole 18 Road driving motor 23, copper pipe output motor 25, fixing groove 100, holds out against screw 101, blanking track 102, hopper 103.

Specific implementation mode

Embodiment 1

As shown in Figs. 1-3, a kind of copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, including can be in an axial direction The moving rail 1 of reciprocating movement, and the cutting rack 2 that is fixed on moving rail 1 are fixed with inner chamfer on the cutting rack 2 and cut Component 3 is cut, the first outer chamfer cutting assembly 4, the second outer chamfer cutting assembly 5 and copper pipe cut off component 6.

The prior art is to be completed using multiple working procedure, namely first copper pipe is cut off one by one by size, then in arrive respectively Angle cutting machine carries out milling on the first outer chamfer cutting machine, the second outer chamfer cutting machine.The present embodiment is then direct using copper pipe It is cut with the first outer chamfer cutting assembly 4 and the second outer chamfer cutting assembly 5, then cuts off component 6 with copper pipe and cut off, after cutting off i.e. For Water wave forming device.It is intermediate without link is carried due to directly processing cutting using copper pipe, damage of colliding with will not be caused, there is no need to throw Light processing.

It will be appreciated by those skilled in the art that the position that the second outer chamfer cutting assembly 5 and copper pipe are cut off between component 6 can The cutting in the second outer chamfer cutting assembly 5 is arranged in cutting part copper pipe according to technique initialization, can also be cut off to component 6 Port will not generate surplus on Water wave forming device, also from polishing.

Inner chamfer cutting assembly 3 includes the inner chamfer position block 7 being fixed on cutting rack 2, and is fixed on inner chamfer Inner chamfer cutter 8 on position block 7, inner chamfer position block 7 are additionally provided with positioning rib 9, and positioning rib 9 is logical for positioning The outer wall crossed, to make to form fixed distance between position block 7 and inner chamfer cutter 8.

First outer chamfer cutting assembly 4 includes the first outer chamfer position block 10 being fixed on cutting rack 2 and two Center line along the first outer chamfer position block 10 is in the symmetrically arranged first outer chamfer cutter 11 of minute surface, is fallen outside two first The edge of a knife of angle cutter 11 is outwardly.

Second outer chamfer cutting assembly 5 includes the second outer chamfer position block 13 being fixed on cutting rack 2 and two Center line along the second outer chamfer position block 13 is in the symmetrically arranged second outer chamfer cutter 14 of minute surface, outside described first The level height of chamfering cutter 11 and the second outer chamfer cutter 14 on cutting rack 2 is different, two the second outer chamfer cuttings The edge of a knife of knife 14 is outwardly.

It will be appreciated by those skilled in the art that cut the outer chamfer of different bores, two the first outer chamfers only need to be changed The distance between cutter 11 and/or two the second outer chamfer cutter 14.

It includes the cutting motor 15 being fixed on cutting rack 2, and the output shaft with cutting motor 15 that copper pipe, which cuts off component 6, The cutter 16 of connection, cutting motor 15 drives cutter 16 to circumferentially rotate, circumferentially cutting to copper pipe, and cut-out copper pipe obtains ripples Device.

Specifically, the output shaft of cutting motor 15 is fixedly connected with cutting tool apron 17, on cutting tool apron 17 and along cutting Tool apron 17 is circumferentially with several cutter mounting holes 18, and the cutter mounting hole 18 has internal thread, 16 spiral shell of cutter It is connected on cutter mounting hole 18, the aperture of several cutter mounting holes 18 is different, for installing various sizes of cutter 16.

It is equipped between cutting tool apron 17 and the second outer chamfer position block 13 and cuts off positioning seat 19, cut off and set on positioning seat 19 Cut off knife edge 20, the shape for cutting off knife edge 20 and height on cutting rack 2 with 8 phase of inner chamfer cutter Together, during copper pipe is cut off, it is the inner chamfer rotation formed against the cutting of inner chamfer cutter 8 to cut off knife edge 20, no Copper pipe can be cut again.

Cutting rack 2 is equipped with elongated positioning step 21, and copper pipe is resisted against on positioning step 21, and outer wall is again against cutting Disconnected 19 side of positioning seat, then moved to 16 direction of cutter, cutter cut copper pipe, cut off rear Water wave forming device and hang over and cut off positioning On knife 20, and slowly slid along inner chamfer.

Embodiment 2

The present embodiment and the structure and operation principle of embodiment 1 are essentially identical, the difference is that, in conjunction with Fig. 4 and Fig. 5 institutes Show, moving rail 1 is movably connected on engine base 22, and engine base 22 is equipped with orbital drive motor 23, the orbital drive motor 23 It is connected with lead screw (not shown), 1 bottom of moving rail is connected with and lead screw meshed gears (not shown).Said program A kind of structure moved with motor driving moving rail 1 is illustrated only, it will be understood by those skilled in the art that other can also be used Scheme.

Engine base 22 is equipped with can be along the copper pipe output shaft 24 of moving rail 1 diametrically reciprocated, the copper pipe output shaft 24 connecting copper pipe output motors 25, copper pipe output motor 25 drives copper pipe output shaft 24 to rotate, by being fastened on copper pipe output shaft In 24, three chucking chuck can be used and fix copper pipe.

Blanking track 102, and the hopper 103 of connection blanking track 102 are additionally provided on engine base 22.

Accommodating first outer chamfer is respectively equipped on first outer chamfer position block 10 and the second outer chamfer position block 13 to cut 14 fixing groove 100 of cutter 11 and the second outer chamfer cutter, the first outer chamfer position block 10 and the second outer chamfer position block It is equipped with several holds out against screw 101, the first outer chamfer cutter 11 and the cutting of the second outer chamfer on 13 and positioned at 100 top of fixing groove Knife 14 can be moved forward and backward along fixing groove 100, and to adjusting position, holds out against screw 101 is for fixing the first outer chamfer cutter 11 With the second outer chamfer cutter 14.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Although moving rail 1, cutting rack 2, inner chamfer cutting assembly 3, the first outer chamfer cutting group is used more herein Part 4, the second outer chamfer cutting 5, copper pipe cut off component 6, inner chamfer position block 7, inner chamfer cutter 8, positioning rib 9, the One outer chamfer position block 10, the first outer chamfer cutter 11, the second outer chamfer position block 13, the second outer chamfer cutter 14, cutting motor 15, cutter 16, cutting tool apron 17, cutter mounting hole 18, cut off positioning seat 19, cut off knife edge 20, is fixed The terms such as position step 21, engine base 22, orbital drive motor 23, copper pipe output motor 25, fixing groove 100, holds out against screw 101, but It does not preclude the possibility of using other terms.It is new the use of these items is only for more easily describing and explaining this practicality The essence of type；It is contrary to the spirit of the present invention to interpret them as any one of the additional limitations.

Claims (10)

1. a kind of copper pipe excision forming processing Water wave forming device shell exempts to polish integral mechanism, including the movement that can be moved back and forth in an axial direction Rail (1), and the cutting rack (2) that is fixed on moving rail (1), which is characterized in that fallen in being fixed on the cutting rack (2) Angle cutting assembly (3), the first outer chamfer cutting assembly (4), the second outer chamfer cutting assembly (5) and copper pipe cut off component (6).

2. copper pipe excision forming processing Water wave forming device shell according to claim 1 exempts to polish integral mechanism, which is characterized in that The inner chamfer cutting assembly (3) includes the inner chamfer position block (7) being fixed on cutting rack (2), and is fixed on interior Inner chamfer cutter (8) on chamfering position block (7), inner chamfer position block (7) are additionally provided with positioning rib (9).

3. copper pipe excision forming according to claim 2 processing Water wave forming device shell exempts to polish integral mechanism, and described first Outer chamfer cutting assembly (4) is including the first outer chamfer position block (10) being fixed on cutting rack (2) and two along first The center line of outer chamfer position block (10) is in the symmetrically arranged first outer chamfer cutter (11) of minute surface.

4. copper pipe excision forming according to claim 3 processing Water wave forming device shell exempts to polish integral mechanism, and described second Outer chamfer cutting assembly (5) is including the second outer chamfer position block (13) being fixed on cutting rack (2) and two along second The center line of outer chamfer position block (13) is in the symmetrically arranged second outer chamfer cutter (14) of minute surface, is fallen outside described first Angle cutter (11) are different with level height of the second outer chamfer cutter (14) on cutting rack (2).

5. copper pipe excision forming processing Water wave forming device shell according to claim 4 exempts to polish integral mechanism, the copper pipe It includes the cutting motor (15) being fixed on cutting rack (2), and the output axis connection with cutting motor (15) to cut off component (6) Cutter (16).

6. copper pipe excision forming processing Water wave forming device shell according to claim 5 exempts to polish integral mechanism, the cutting The output shaft of motor (15) is fixedly connected with cutting tool apron (17), is set on cutting tool apron (17) and along the circumferential direction of cutting tool apron (17) There are several cutter mounting holes (18), the cutter mounting hole (18) that there is internal thread, cutter (16) to be screwed onto cutting On knife mounting hole (18).

7. copper pipe excision forming processing Water wave forming device shell according to claim 6 exempts to polish integral mechanism, the cutting Between tool apron (17) and the second outer chamfer position block (13) be equipped with cut off positioning seat (19), cut off positioning seat (19) be equipped with cut Disconnected knife edge (20), the shape for cutting off knife edge (20) and height on cutting rack (2) with inner chamfer cutter (8) identical.

8. copper pipe excision forming processing Water wave forming device shell according to claim 1 exempts to polish integral mechanism, the cutting Frame (2) is equipped with elongated positioning step (21).

9. copper pipe excision forming processing Water wave forming device shell according to claim 1 exempts to polish integral mechanism, the movement Rail (1) is movably connected on engine base (22), and engine base (22) is equipped with orbital drive motor (23), the orbital drive motor (23) it is connected with lead screw, moving rail (1) bottom is connected with and lead screw meshed gears.

10. copper pipe excision forming processing Water wave forming device shell according to claim 9 exempts to polish integral mechanism, the engine base (22) being equipped with can be along the copper pipe output shaft (24) of moving rail (1) diametrically reciprocated, and the copper pipe output shaft (24) is even Connect copper pipe output motor (25).