CN208004569U - Materials in the tube flanger - Google Patents

Abstract

The utility model discloses a kind of materials in the tube flangers, including rack, the rack is equipped with the clamp mechanism for gripping materials in the tube and the flange body in materials in the tube both ends open is arranged, the flange body is at least made of flange modular assembly and flange driving mechanism, and the flange driving mechanism is drivingly connected with flange modular assembly and drives its back-and-forth motion；The flange modular assembly at least by module base, be arranged in parallel on module base for expand materials in the tube opening a sequence flared end axis and and in fold materials in the tube opening two sequence flange axis；The module base side is equipped with the module switching-driving device moved left and right for drive module seat.Punching press expansion is carried out by providing power line up to a sequence flared end axis first, two sequence flange axis are then switched to by drive module seat and punching press flange is carried out to the nozzle after expansion；And the flange body at both ends can complete flange processing to the nozzle at both ends simultaneously, greatly improve production and processing efficiency and the quality of production.

Description

Materials in the tube flanger

Technical field

The utility model is related to hemmer technical fields, more particularly to a kind of materials in the tube flanger.

Background technology

Currently, traditional materials in the tube opening hole flanging process is substantially and is realized by the way of punching machine punching press, typically use After clamp tubing, punching press is carried out using punching machine and other tool line ups, generally requires multiple devices and fixture ability It completes, and the flange precision stamped out is low, needs other equipment line up to be modified, causes processing efficiency low, processes Of poor quality, production cost is high, far from disclosure satisfy that current production.

Utility model content

It in view of the above shortcomings of the prior art, can the purpose of the utility model is to provide a kind of device structure is ingenious Can overturning process be carried out to materials in the tube both ends open simultaneously, greatly improve flange processing efficiency, flange processing quality is effectively ensured, And adapt to the materials in the tube flanger that various specifications materials in the tube opening carries out flange.

The utility model is realized in that above-mentioned purpose：

Materials in the tube flanger, including rack, the rack are equipped with clamp mechanism and setting for gripping materials in the tube In the flange body of materials in the tube both ends open, the flange body is at least made of flange modular assembly and flange driving mechanism, institute Flange driving mechanism is stated to be drivingly connected with flange modular assembly and drive its back-and-forth motion；The flange modular assembly at least by Module base is arranged in parallel in the sequence flared end axis for being used to expand materials in the tube opening on module base and and in the two of fold materials in the tube opening Sequence flange axis；The module base side is equipped with the module switching-driving device moved left and right for drive module seat.

Wherein, the sequence flared end axis is at least divided into two-stage, and the radius of the radius ratio second level of the first order is big, described The radius of the second level is identical as the internal diameter radius size of materials in the tube, and is equipped between the first order and second level connection for expanding Open the inclined edge surfaces of materials in the tube opening；The two sequences flange axis is at least divided into two-stage, the radius of the radius ratio second level of the first order Greatly, the radius of the second level is identical as the radius size of materials in the tube internal diameter, and is set between the first order and second level connection It is useful for flattening the plane that materials in the tube are open after flange is expanded.

Wherein, the flange driving mechanism is at least made of longitudinal slide rail seat and flange driving cylinder, the flange die Block assembly is arranged on longitudinal slide rail seat, and flange modular assembly drives it in longitudinal cunning by driving cylinder to be drivingly connected with flange Horizontal shifting on rail chair.

Wherein, the module switching-driving device is at least made of horizontal slide rail seat and module switching cylinder, the mould Block is slidably arranged on horizontal slide rail seat, and module base drives it in horizontal slide rail seat by switching cylinder drive connection with module Upper left and right horizontal movement.

Wherein, the clamp mechanism is at least made of upper die and lower die and upper mold driving mechanism, the upper die and lower die phase The shaping mold cavity formed for placing materials in the tube is mutually fastened, materials in the tube clamping is placed in shaping mold cavity；The upper mold driving mechanism is Lifting cylinder, the upper mold drive lower movement thereon by being connect with lifting cylinder.

The beneficial effects of the utility model：Punching press expansion is carried out by providing power line up to a sequence flared end axis first, Then two sequence flange axis are switched to by drive module seat and punching press flange is carried out to the nozzle after expansion；And the flange at both ends Mechanism can complete flange processing to the nozzle at both ends simultaneously, greatly improve production and processing efficiency and the quality of production；And it can lead to The sequence flared end axis and two sequence flange axis for crossing more different inner diameters carry out flange processing suitable for the materials in the tube of different inner diameters, have good Practicability, substantially reduce production cost.

Description of the drawings

The utility model is further illustrated below in conjunction with the accompanying drawings：

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

Fig. 2 is the structural schematic diagram of flange body in the utility model.

In figure, 1. flange bodies, 2. module bases, 3. 1 sequence flared end axis, 4. 2 sequence flange axis, 5. inclined edge surfaces, 6. planes, 7. Longitudinal slide rail seat, 8. flange driving cylinder, 9. horizontal slide rail seats, 10. modules switching cylinder, 11. upper molds, 12. lower dies, 13. liters Sending down abnormally ascending cylinder.

Specific implementation mode

As shown in Figure 1, materials in the tube flanger, including rack, the rack are equipped with the clamp machine for gripping materials in the tube Structure and flange body 1 in materials in the tube both ends open is set, the flange body 1 is at least driven by flange modular assembly and flange Mechanism forms, and the flange driving mechanism is drivingly connected with flange modular assembly and drives its back-and-forth motion；The flange die Block assembly at least by module base 2, be arranged in parallel on module base 2 for expand materials in the tube opening a sequence flared end axis 3 and and in Turn down two sequence flange axis 4 of materials in the tube opening；2 side of the module base is equipped with the module moved left and right for drive module seat 2 and cuts Change driving mechanism.Punching press expansion is carried out by providing power line up to a sequence flared end axis 3 first, then passes through drive module seat 2 are switched to two sequence flange axis 4 and carry out punching press flange to the nozzle after expansion；And the flange body 1 at both ends can be right simultaneously The nozzle at both ends completes flange processing, greatly improves production and processing efficiency and the quality of production；And more different inner diameters can be passed through The materials in the tube that one sequence flared end axis 3 and two sequence flange axis 4 are suitable for different inner diameters carry out flange processing, have good practicability, greatly It is big to reduce production cost.

With reference to shown in Fig. 2, the sequence flared end axis 3 is at least divided into two-stage, and the half of the radius ratio second level of the first order Diameter is big, and the radius of the second level is identical as the internal diameter radius size of materials in the tube, and between the first order and second level connection Equipped with the inclined edge surfaces 5 for expanding materials in the tube opening；The two sequences flange axis 4 is at least divided into two-stage, the radius ratio of the first order The radius of the second level is big, and the radius of the second level is identical as the radius size of materials in the tube internal diameter, and the first order and second It is equipped between grade connection for flattening the plane 6 that materials in the tube are open after flange is expanded.In flange processing process, drive forwards first One sequence flared end axis 3 carries out punching press expansion by inclined edge surfaces 5 to the nozzle of materials in the tube, and then switching cylinder 10 by module expands a sequence Side axis 3 are switched to two sequence flange axis 4, and drive two sequence flange axis 4 to carry out punching press to the nozzle after expansion by plane 6 and turn over A series of side, to complete overturning process.

With reference to shown in Fig. 2, in the present embodiment a sequence flared end axis 3 and two sequence flange axis 4 need by driving mechanism to its into Row driving punching press, therefore present invention preferably employs the flange driving mechanisms at least to drive gas by longitudinal slide rail seat 7 and flange Cylinder 8 forms, and the flange modular assembly is arranged on longitudinal slide rail seat 7, and flange modular assembly with flange by driving cylinder 8 to drive Dynamic connection drives its horizontal shifting on longitudinal slide rail seat 7.To drive cylinder 8 to drive flange modular assembly by flange It is moved forward and backward on longitudinal slide rail seat 7, to realize quickly and smoothly drive a sequence flared end axis 3 and two sequence flange axis 4 in pipe Punching press feed and withdrawing at mouthful.

With reference to shown in Fig. 2, a sequence flared end axis 3 described in the present embodiment and two sequence flange axis 4 need in process into Row switching, carry out two techniques of flared end and flange, therefore present invention preferably uses the module switching-driving device at least by Horizontal slide rail seat 9 and module switching cylinder 10 form, and the module base 2 is slidably arranged on horizontal slide rail seat 9, module base 2 Its left and right horizontal on horizontal slide rail seat 9 is driven to move by switching the drive connection of cylinder 10 with module.To be cut by module Ventilation 10 drive module seat 2 of cylinder moves left and right on horizontal slide rail seat 9, to realize quickly and smoothly drive a sequence flared end axis 3 and two switchings between the two of sequence flange axis 4.

Referring to Fig.1 shown in, be processed in order to grip materials in the tube, the clamp mechanism at least by upper mold 11, under Mould 12 and upper mold driving mechanism composition, the upper mold 11 and lower die 12 mutually fasten the shaping mould formed for placing materials in the tube Chamber, materials in the tube clamping are placed in shaping mold cavity；The upper mold driving mechanism be lifting cylinder 13, the upper mold 11 by with lifting The connection of cylinder 13 drives lower movement thereon.

Claims (5)

1. materials in the tube flanger, including rack, it is characterised in that：The rack is equipped with the clamp mechanism for gripping materials in the tube And the flange body in materials in the tube both ends open is set（1）, the flange body（1）At least driven by flange modular assembly and flange Motivation structure forms, and the flange driving mechanism is drivingly connected with flange modular assembly and drives its back-and-forth motion；The flange Modular assembly is at least by module base（2）, be arranged in parallel in module base（2）On for expand materials in the tube opening a sequence flared end axis（3） With and in fold materials in the tube opening two sequence flange axis（4）；The module base（2）Side, which is equipped with, is used for drive module seat（2）It is left The module switching-driving device moved right.

2. materials in the tube flanger according to claim 1, it is characterised in that：The one sequence flared end axis（3）At least it is divided into two-stage, the The radius of the radius ratio second level of level-one is big, and the radius of the second level is identical as the internal diameter radius size of materials in the tube and described The inclined edge surfaces for expanding materials in the tube opening are equipped between the first order and second level connection（5）；The two sequences flange axis（4）At least divide Radius for two-stage, the radius ratio second level of the first order is big, the radius size of the radius and materials in the tube internal diameter of the second level It is identical, and be equipped between the first order and second level connection for flattening the plane that materials in the tube are open after flange is expanded（6）.

3. materials in the tube flanger according to claim 1, it is characterised in that：The flange driving mechanism is at least by longitudinal slide rail seat （7）And flange drives cylinder（8）Composition, the flange modular assembly are arranged in longitudinal slide rail seat（7）On, flange modular assembly By driving cylinder with flange（8）It is drivingly connected and drives it in longitudinal slide rail seat（7）Upper horizontal shifting.

4. materials in the tube flanger according to claim 1, it is characterised in that：The module switching-driving device is at least by laterally sliding Rail chair（9）And module switches cylinder（10）Composition, the module base（2）It is slidably arranged in horizontal slide rail seat（9）On, module base （2）By switching cylinder with module（10）It is drivingly connected and drives it in horizontal slide rail seat（9）Upper left and right horizontal movement.

5. materials in the tube flanger according to claim 1, it is characterised in that：The clamp mechanism is at least by upper mold（11）, lower die （12）And upper mold driving mechanism composition, the upper mold（11）And lower die（12）Mutually fasten the molding formed for placing materials in the tube Die cavity, materials in the tube clamping are placed in shaping mold cavity；The upper mold driving mechanism is lifting cylinder（13）, the upper mold（11）Pass through With lifting cylinder（13）Connection drives lower movement thereon.