CN208408145U - A kind of nozzle processing unit (plant) - Google Patents

Abstract

The utility model discloses a kind of nozzle processing unit (plant)s, including rotary cutter, the rotary cutter includes scalpel body, scalpel body one end setting knife handle is to connect driving device driving scalpel body rotation, the other end is provided with multiple operating rotors, the operating rotor is circumferentially uniformly distributed around the scalpel body center of rotation, and the operating rotor can be relatively rotated with scalpel body and be connect, make the operating rotor when scalpel body drives the rotation of scalpel body rotation center described in lower edge, the extrusion friction on operating rotor surface and nozzle lateral wall, rotate the operating rotor relative to scalpel body, it is rolled on nozzle outer wall, dynamic friction is avoided to generate heat, prevent nozzle overheat from burning out；The operating rotor includes guide part and the forming part that is arranged in above the guide part, is directed into forming part to treat processing tube orifice, while the forming part squeezes nozzle to complete the draw or flange.

Description

A kind of nozzle processing unit (plant)

Technical field

The utility model relates to a kind of contraction of nozzle or the devices of flange processing.

Background technique

Currently, mostly using the hard compressed pipe of molding cutter in the nozzle draw of bathroom stainless steel waterpipe, that is, passing through wheel profile The fixed cutter of shape shrinks nozzle, but this technique is only suitable for applying in material integrally to nozzle rotary squeezing to be processed It is relatively soft and than especially having certain thickness stainless steel tube that can not just shrink on the relatively thin metal for being easy to be squeezed and deformed at all Deformation, thus need the line up draw now, the stainless steel tube of flange processing is produced using light wall pipe, and in practical application There are various seepy questions again in light wall pipe product, influences service life and the cost of product；Therefore it urgently studies a kind of with certain thick The stainless steel tube nozzle of degree can also carry out the device of the draw, flange processing, and the increased stainless steel tube of thickness is made to be capable of processing production, And come into operation, it fundamentally solves the problems, such as to use stainless steel light wall pipe and be also easy to produce leak.

Utility model content

The utility model is intended to solve one of above-mentioned technical problem in the related technology at least to a certain extent.For this purpose, The utility model proposes a kind of suitable for the stainless steel tube nozzle draw, the nozzle processing unit (plant) of flange processing

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of nozzle processing unit (plant), including rotary cutter, the rotary cutter include scalpel body, and described scalpel body one end is set Knife handle is set to connect driving device and drive the scalpel body rotation, the other end is provided with multiple operating rotors, the operating rotor It is circumferentially uniformly distributed around the scalpel body center of rotation, and the operating rotor can be relatively rotated with scalpel body and be connect, including guiding Portion and the forming part being arranged in above the guide part are directed into forming part progress processing and forming to treat processing tube orifice, together Shi Suoshu forming part squeezes nozzle with the draw or flange, form contouring respective tube mouth shrink and nozzle bending be respectively set with Guiding molding；Operating rotor and the scalpel body relatively rotate the setting of connection in the utility model, and the operating rotor is made to exist When scalpel body drives the rotation of scalpel body rotation center described in lower edge, since operating rotor surface and the extruding of nozzle lateral wall are rubbed It wipes, rotates the operating rotor relative to scalpel body, rolled on nozzle outer wall, avoid dynamic friction from generating heat, prevent nozzle Overheat is burnt out.

As an improvement of the above technical solution, the scalpel body center of rotation is fixed with interior column spinner, the interior column spinner Cooperate with the operating rotor, abuts the inner hole after nozzle is shunk to guarantee the spout diameter after the contraction；The interior rotation Column is led further to being oriented to the flange formed by forming part on operating rotor；The draw and flange wrinkle is avoided to be formed simultaneously.

As a further improvement of the above technical scheme, the scalpel body is provided centrally with mounting hole for the interior column spinner Inserting is fixed, and the interior column spinner is wholely set with the knife handle.

Further, the guide part and forming part are respectively to be oriented to rotor and pressure pipe rotor, the guiding rotor with it is described It can be relatively rotated between pressure pipe rotor, improve rotation flexibility；Diameter is formed between multiple guiding rotors and nozzle outer diameter matches The round directed cavity of conjunction puts in guiding for nozzle, and between the pressure pipe rotor and the interior column spinner cooperate line up flange or It shrinks.

Further, the pressure pipe rotor diameter is greater than the outer diameter of the guiding rotor, and draw fillet is arranged in its lower end surface Line up shrinks guiding, and certain draw fillet is also possible to chamfering, is arranged between the pressure pipe rotor and the interior column spinner Interval is to accommodate compressed tube wall, and the interior column spinner outer wall abuts the internal wall of pipe orifice after shrinking, after guaranteeing that nozzle is shunk Internal diameter.

Further, the pressure pipe rotor diameter is greater than the outer diameter of the guiding rotor, and flange fillet is arranged in its lower end surface Line up is oriented to form flange, and corresponding position is provided with chamfering or fillet between the interior column spinner, and is oriented to again to flange, institute Stating flange fillet is the rounded shapes being recessed to pressure pipe internal rotor.

Preferably, it is provided with wear-resistant gasket between the pressure pipe rotor and the scalpel body, to assist pressure pipe rotor smoothly to turn It is dynamic to reduce rubbing action.

Further, shaft, the work are fitted in the through-hole around multiple through-holes are provided centrally in the scalpel body Make rotor and can relatively rotate to be mounted in the shaft.

The beneficial effects of the utility model are: a kind of nozzle processing unit (plant) of the utility model, including rotary cutter, it is described Rotary cutter includes scalpel body, and scalpel body one end setting knife handle drives the scalpel body rotation to connect driving device, separately One end is provided with multiple operating rotors, and the operating rotor is circumferentially uniformly distributed around the scalpel body center of rotation, and the work Rotor can be relatively rotated with scalpel body and be connect, including guide part and the forming part being arranged in above the guide part, to be added Work nozzle is directed into forming part, while the forming part squeezes nozzle with the draw or flange；Operating rotor in the utility model The setting that connection is relatively rotated with the scalpel body drives the operating rotor in the rotation of scalpel body described in lower edge in scalpel body When the heart rotates, due to the extrusion friction on operating rotor surface and nozzle lateral wall, rotate the operating rotor relative to scalpel body, It is rolled on nozzle outer wall, dynamic friction is avoided to generate heat, prevent nozzle overheat from burning out.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is nozzle schematic diagram to be processed；

Fig. 2 is that nozzle processing unit (plant) shrinks processing sectional view；

Fig. 3 is nozzle schematic diagram after the draw；

Fig. 4 is nozzle processing unit (plant) flange processing sectional view；

Fig. 5 is nozzle schematic diagram after flange.

Specific embodiment

Referring to figs. 1 to Fig. 5, a kind of nozzle processing unit (plant) of the utility model, including rotary cutter, the rotary cutter packet Scalpel body 1 is included, 1 one end of scalpel body setting knife handle 2 drives the scalpel body 1 to rotate to connect driving device, the operator 1 other end of body rotates about it center and is circumferentially provided with multiple through-holes, is fitted with shaft 33 in the through-hole, in the shaft 33 It can relatively rotate and operating rotor 3 is installed；The operating rotor 3 is circumferentially uniformly distributed around 1 center of rotation of scalpel body, and described Operating rotor 3 can be relatively rotated with scalpel body 1 and be connect, including guide part and the forming part being arranged in above the guide part；Institute It states 1 center of rotation of scalpel body and is fixed with interior column spinner 4, the scalpel body 1 is provided centrally with mounting hole and inserts for the interior column spinner 4 Dress is fixed, and the interior column spinner 4 is wholely set with the knife handle 2；The guide part and forming part are respectively to be oriented to rotor 31 With pressure pipe rotor 32, the round directed cavity that matches with nozzle outer diameter of diameter is formed between multiple guiding rotors 31 and is stretched for nozzle Into guiding, and cooperate line up flange or contraction between the pressure pipe rotor 32 and the interior column spinner 4.Work in the utility model Make rotor 3 and the scalpel body 1 relatively rotates the setting of connection, drives the operating rotor 3 in scalpel body 1 main described in lower edge When 1 rotation center of cutter hub rotates, due to the extrusion friction on operating rotor 3 surface and nozzle lateral wall, make 3 phase of operating rotor Scalpel body 1 is rotated, is rolled on nozzle outer wall, dynamic friction is avoided to generate heat, prevents nozzle overheat from burning out.

When nozzle shrinks processing, 32 outer diameter of pressure pipe rotor is greater than the outer diameter of the guiding rotor 31, and its lower end surface 321 line up of draw fillet is set and shrinks guiding, certain draw fillet 321 is also possible to chamfering, the pressure pipe rotor 32 To accommodate compressed tube wall, interior 4 outer wall of column spinner abuts the nozzle after shrinking at setting interval between the interior column spinner 4 Inner wall guarantees the internal diameter after nozzle is shunk.

When turning edge of pipe-mouth is processed, 32 outer diameter of pressure pipe rotor is greater than the outer diameter of the guiding rotor 31, and its lower end surface Setting 322 line up of flange fillet is oriented to form flange, and described 4 corresponding positions of interior column spinner are provided with chamfering or fillet, and Flange is oriented to again, the flange fillet 322 is the rounded shapes to 32 inner recess of pressure pipe rotor.

In addition, wear-resistant gasket 5 is provided between the pressure pipe rotor 32 and the scalpel body 1, to assist pressure pipe rotor 32 suitable Benefit rotation reduces rubbing action；Meanwhile can be relatively rotated between the guiding rotor 31 and the pressure pipe rotor 32, improve rotation spirit Activity.

The above specific structure and dimension data are illustrated to the preferred embodiment of the utility model, but this reality It is not limited to the specific embodiments with novel creation, those skilled in the art are in the premise without prejudice to the spirit of the present invention Various equivalent deformation or replacement can be also made down, these equivalent deformations or replacement are all contained in the claim of this application and are limited In fixed range.

Claims (8)

1. a kind of nozzle processing unit (plant), including rotary cutter, it is characterised in that: the rotary cutter includes scalpel body (1), described Knife handle (2) are arranged to connect driving device and drive scalpel body (1) rotation in scalpel body (1) one end, and the other end is provided with multiple Operating rotor (3), the operating rotor (3) is circumferentially uniformly distributed around the scalpel body (1) center of rotation, and the operating rotor (3) it can be rotatably connected on around central axis on scalpel body (1), the operating rotor (3) includes guide part and is arranged described Forming part above guide part, the guide part treat processing tube orifice and are directed into forming part, squeeze nozzle by the forming part With the draw or flange.

2. a kind of nozzle processing unit (plant) according to claim 1, it is characterised in that: scalpel body (1) center of rotation is solid Surely have interior column spinner (4), the interior column spinner (4) and the operating rotor (3) cooperate, and abut the inner hole or right after nozzle is shunk Flange guiding.

3. a kind of nozzle processing unit (plant) according to claim 2, it is characterised in that: the scalpel body (1) is provided centrally with Mounting hole is fixed for interior column spinner (4) inserting, and the interior column spinner (4) is wholely set with the knife handle (2).

4. a kind of nozzle processing unit (plant) according to claim 2, it is characterised in that: the guide part and forming part are respectively It is oriented to rotor (31) and pressure pipe rotor (32), can be relatively rotated between the guiding rotor (31) and the pressure pipe rotor (32)；It is more The round directed cavity that diameter is matched with nozzle outer diameter is formed between a guiding rotor (31) and puts in guiding for nozzle, and described Cooperate line up flange or contraction between pressure pipe rotor (32) and the interior column spinner (4).

5. a kind of nozzle processing unit (plant) according to claim 4, it is characterised in that: pressure pipe rotor (32) outer diameter is greater than The outer diameter of guiding rotor (31), and its lower end surface setting draw fillet (321) line up shrinks guiding, the pressure pipe rotor (32) setting is spaced to accommodate compressed tube wall between the interior column spinner (4), and line up is oriented to.

6. a kind of nozzle processing unit (plant) according to claim 4, it is characterised in that: pressure pipe rotor (32) outer diameter is greater than The outer diameter of guiding rotor (31), and its lower end surface setting flange fillet (322) line up is oriented to form flange, the inward turning Corresponding position is provided with chamfering or fillet between rotary column (4), and is oriented to again to flange.

7. a kind of nozzle processing unit (plant) according to claim 4, it is characterised in that: the pressure pipe rotor (32) and the master Wear-resistant gasket (5) are provided between cutter hub (1).

8. a kind of nozzle processing unit (plant) described in any claim according to claim 1~7, it is characterised in that: the operator Around multiple through-holes are provided centrally on body (1), it is fitted in the through-hole shaft (33), the operating rotor (3) can be opposite It is rotatably installed on the shaft (33).