CN205685728U - Tetrafluoro hollow pipe flange former - Google Patents

Tetrafluoro hollow pipe flange former Download PDF

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Publication number
CN205685728U
CN205685728U CN201620660176.4U CN201620660176U CN205685728U CN 205685728 U CN205685728 U CN 205685728U CN 201620660176 U CN201620660176 U CN 201620660176U CN 205685728 U CN205685728 U CN 205685728U
Authority
CN
China
Prior art keywords
mould
disk
hollow pipe
processing stations
rotating shaft
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201620660176.4U
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Chinese (zh)
Inventor
陈崇炯
胡芳文岚
叶飞
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Wenzhou Vocational and Technical College
Original Assignee
Wenzhou Vocational and Technical College
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wenzhou Vocational and Technical College filed Critical Wenzhou Vocational and Technical College
Priority to CN201620660176.4U priority Critical patent/CN205685728U/en
Application granted granted Critical
Publication of CN205685728U publication Critical patent/CN205685728U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a kind of tetrafluoro hollow pipe flange former, include frame, rotating shaft and rotating disk, described rotating shaft is installed in frame in vertically placing and rotating, the lower end of rotating shaft connects the drive mechanism driving its intermittent rotary, the center of described rotating disk fixes with the upper end of rotating shaft, four processing stations it are evenly distributed on rotating disk, it is provided with heating furnace on first processing stations, the first mould it is provided with on second processing stations, it is provided with the second mould on 3rd processing stations, it is provided with the 3rd mould on 4th processing stations, a upwardly extending side arm it is further fixed in described frame, it is equiped with for clamping tetrafluoro hollow pipe and the clamping elevating mechanism of its oscilaltion can be driven on described side arm, described clamping elevating mechanism is positioned at the surface of corresponding processing stations.By using said structure, this utility model provides a kind of tetrafluoro hollow pipe flange former being greatly improved production efficiency and crudy.

Description

Tetrafluoro hollow pipe flange former
Technical field
This utility model relates to a kind of machining equipment, is specifically related to a kind of tetrafluoro hollow pipe flange former.
Background technology
A lot of pipelines and valve all can be lining into tetrafluoro hollow pipe to realize anticorrosion, but due on the end of pipeline and valve all There is the end face of flange for connecting, therefore need the end to tetrafluoro hollow pipe also to do 90 degree of flange and process, but in prior art In, realize processing, therefore at present generally by people owing to 90 degree of flange of tetrafluoro hollow pipe cannot be molded by injection machine Work manually completes, and the most not only production efficiency is low, and crudy cannot be guaranteed.
Summary of the invention
For the deficiencies in the prior art, this utility model provides a kind of production efficiency and crudy of being greatly improved Tetrafluoro hollow pipe flange former.
For achieving the above object, this utility model provides a kind of tetrafluoro hollow pipe flange former, include frame, Rotating shaft and rotating disk, described rotating shaft is installed in frame in vertically placing and rotating, and the lower end of rotating shaft connects its interval of driving The drive mechanism rotated, the center of described rotating disk fixes with the upper end of rotating shaft, and rotating disk is evenly distributed in four processing stations, It is provided with heating furnace on first processing stations, the second processing stations is provided with the first mould, the 3rd processing stations sets Be equipped with the second mould, the 4th processing stations be provided with the 3rd mould, heating furnace, the first mould, the second one-tenth Mould and the 3rd mould all include a disk, wherein integrally formed with the first circle on the disk of the first mould Cone, integrally formed with the second circular cone on the disk of the second mould, integrally formed with cylinder on the disk of the 3rd mould, And first the cone angle of circular cone less than the cone angle of the second circular cone, the basal diameter of the first circular cone, the basal diameter of the second circular cone and circle The diameter of post is respectively less than the diameter of disk, and described frame is further fixed on a upwardly extending side arm, and described side arm fills Being provided with for clamping tetrafluoro hollow pipe and can drive the clamping elevating mechanism of its oscilaltion, described clamping elevating mechanism is positioned at The surface of corresponding processing stations.
It is 30 degree that this utility model can be further arranged to the cone angle of described first circular cone, and the cone angle of described second circular cone is 60 degree.
The beneficial effects of the utility model are: use said structure, add man-hour, and tetrafluoro hollow pipe clamping is being clamped by people On elevating mechanism, then as the intermittent rotation of rotating disk, tetrafluoro hollow pipe is complete on first, second, third and fourth processing stations successively Becoming processing, i.e. tetrafluoro hollow pipe to be first heated stove heating, be then pressed against on the first mould, the flange completing 30 degree adds Work, then be pressed against on the second mould, complete the flange processing of 60 degree, be finally pressed against on the 3rd mould, real The flange processing of existing 90 degree.Owing to the above-mentioned course of processing all automatically completes, the most not only substantially increase production efficiency, and And also effectively improve crudy.
This utility model may further be provided for described clamping elevating mechanism include lift cylinder, T-shaped installing plate, And the arc mechanical hand of two symmetrical settings, lift cylinder is fixed on side arm, and the piston rod court of lift cylinder Under, the upper end of T-shaped installing plate is fixed on the piston rod of lift cylinder, and each arc mechanical hand is installed in one for driving On the gripper cylinder moved around, two gripper cylinders are separately fixed at the both sides, lower end of T-shaped installing plate, and two gripper cylinders pair Should be between two arc mechanical hands.
Using said structure, two arc mechanical hands, under the driving of two gripper cylinders, move inward and just can clamp Tetrafluoro hollow pipe, is displaced outwardly just can unclamping tetrafluoro hollow pipe.Meanwhile, lift cylinder can drive tetrafluoro hollow pipe to move down, So that tetrafluoro hollow pipe is pressed against on the mould of correspondence realizes flange processing, after completing, lift cylinder drives four again Fluorine hollow pipe rises, in order to take off workpiece, completes a flange processing.
This utility model may further be provided as being equipped with horizontally-guided bar between each arc mechanical hand and installing plate, It is provided with between described installing plate and side arm and is vertically directed bar.By arranging horizontally-guided bar, arc mechanical hand left and right water can be easy to Translation is dynamic;And arrange and be vertically directed bar, then can be easy to whole clamping elevating mechanism and move up and down.
This utility model also drive mechanism described further can include motor, gear reduction box, motor output shaft with The input of gear reduction box connects, and is connected by Geneva mechanism between the outfan of gear reduction box and rotating shaft.By above-mentioned Arrange, can make drive mechanism that rotating shaft and turntable intermittent can be driven to rotate so that tetrafluoro hollow pipe successively first, second and third, Processing is completed on four processing stations.
Being provided with the T-slot that a cross is arranged on the rotating disk that this utility model also can be described further, described disk leads to Crossing that tommyhead bolt and nut and rotating disk are fixing to be connected, the head of tommyhead bolt is slidably arranged in T-slot, and the screw rod of tommyhead bolt depends on Secondary through T-slot with disk, and fix with nut bolt.Use said structure, unclamp nut, by tommyhead bolt head at T Sliding in shape groove, just can the most suitably adjust the position of disk, thus realize the position adjustments of corresponding processing stations.
Accompanying drawing explanation
Fig. 1 is structural perspective of the present utility model;
Fig. 2 is front view of the present utility model;
Fig. 3 is the structure chart of Geneva mechanism in this utility model;
Fig. 4 is the A portion enlarged drawing of Fig. 1;
Fig. 5 is the B portion enlarged drawing of Fig. 1.
Detailed description of the invention
As shown in Fig. 1,2,3,4,5, give a kind of tetrafluoro hollow pipe flange former, include frame 1, rotating shaft 2 and Rotating disk 3, described rotating shaft 2 is installed in frame 1 in vertically placing and rotating, and the lower end of rotating shaft 2 connects its interval rotation of driving The drive mechanism 4 turned, described drive mechanism 4 includes motor 41, gear reduction box 42, and motor 41 output shaft slows down with gear The input of case 42 connects, and is connected by Geneva mechanism 43 between the outfan of gear reduction box 42 with rotating shaft 2.Described rotating disk 3 The upper end of center and rotating shaft 2 fix, rotating disk 3 is evenly distributed in four processing stations, the first processing stations is provided with Heating furnace 16, the second processing stations is provided with the first mould 5, the 3rd processing stations is provided with the second mould 6, The 3rd mould 7, heating furnace the 16, first mould the 5, second mould 6 and the 3rd it is provided with on 4th processing stations Mould 7 all includes a disk 8, wherein integrally formed with the first circular cone 9 on the disk 8 of the first mould 5, and the second one-tenth Integrally formed with the second circular cone 10 on the disk 8 of mould 6, integrally formed with cylinder 11 on the disk 8 of the 3rd mould 7, The cone angle of described first circular cone 9 is 30 degree, and the cone angle of described second circular cone 10 is 60 degree, the basal diameter of the first circular cone 9, second The basal diameter of circular cone 10 and the diameter of cylinder 11 are respectively less than the diameter of disk 8, described frame 1 is further fixed on one and upwards prolongs The side arm 12 stretched, described side arm 12 is equiped with for clamping tetrafluoro hollow pipe and can drive the clamping liter of its oscilaltion Descending mechanism 13, described clamping elevating mechanism 13 is positioned at the surface of corresponding processing stations.Described clamping elevating mechanism 13 includes There are lift cylinder 131, T-shaped installing plate 132 and the arc mechanical hand 133 of two symmetrical settings, lift cylinder 131 Being fixed on side arm 12, and the piston rod of lift cylinder 131 is down, the upper end of T-shaped installing plate 132 is fixed on lift cylinder 131 Piston rod on, each arc mechanical hand 133 be installed in one for the gripper cylinder 134 that moves around of driving, two Gripper cylinder 134 is separately fixed at the both sides, lower end of T-shaped installing plate 132, and two gripper cylinder 134 correspondences are positioned at two arc machineries Between hands 133.Be equipped with horizontally-guided bar 135 between each arc mechanical hand 133 and installing plate 132, described installing plate 132 with It is provided with between side arm 12 and is vertically directed bar 136.The T-slot 31 that a cross is arranged, described disk it is provided with on described rotating disk 3 8 are connected by tommyhead bolt 14 and nut 15 are fixing with rotating disk 3, and the head of tommyhead bolt 14 is slidably arranged in T-slot 31, T-shaped The screw rod of bolt 14 sequentially passes through T-slot 31 and disk 8, and fixes with nut 15 bolt.
Using said structure, add man-hour, tetrafluoro hollow pipe clamping is being clamped on elevating mechanism 13 by people, then as turning The intermittent rotation of dish 3, tetrafluoro hollow pipe completes processing, i.e. tetrafluoro hollow pipe successively on first, second, third and fourth processing stations First it is heated stove 16 to heat, is then pressed against on the first mould 5, complete the flange processing of 30 degree, then be pressed against the On two moulds 6, complete the flange processing of 60 degree, be finally pressed against on the 3rd mould 7, it is achieved the flange of 90 degree adds Work.Owing to the above-mentioned course of processing all automatically completes, the most not only substantially increase production efficiency, but also effectively improve Crudy.

Claims (6)

1. a tetrafluoro hollow pipe flange former, it is characterised in that: include frame, rotating shaft and rotating disk, described rotating shaft Being installed in frame in vertically placing and rotating, the lower end of rotating shaft connects the drive mechanism driving its intermittent rotary, described turn The center of dish fixes with the upper end of rotating shaft, rotating disk is evenly distributed in four processing stations, the first processing stations is provided with Heating furnace, the second processing stations is provided with the first mould, the 3rd processing stations is provided with the second mould, and the 4th Being provided with the 3rd mould on processing stations, heating furnace, the first mould, the second mould and the 3rd mould are equal Include a disk, wherein integrally formed with the first circular cone on the disk of the first mould, on the disk of the second mould Integrally formed with the second circular cone, integrally formed with cylinder on the disk of the 3rd mould, and the cone angle of the first circular cone is less than the The cone angle of two circular cones, the diameter of the basal diameter of the first circular cone, the basal diameter of the second circular cone and cylinder is respectively less than the straight of disk Footpath, described frame is further fixed on a upwardly extending side arm, described side arm is equiped with for clamping tetrafluoro hollow Guan Bingneng drives the clamping elevating mechanism of its oscilaltion, described clamping elevating mechanism to be positioned at the surface of corresponding processing stations.
Tetrafluoro hollow pipe flange former the most according to claim 1, it is characterised in that: the cone angle of described first circular cone Being 30 degree, the cone angle of described second circular cone is 60 degree.
A kind of tetrafluoro hollow pipe flange former the most according to claim 1, it is characterised in that: described clamping lifting Mechanism includes the arc mechanical hand of lift cylinder, T-shaped installing plate and two symmetrical settings, and lift cylinder is fixed On side arm, and the piston rod of lift cylinder is down, and the upper end of T-shaped installing plate is fixed on the piston rod of lift cylinder, each Arc mechanical hand be installed in one for the gripper cylinder piston rod that moves around of driving, two gripper cylinders are fixed respectively In the both sides, lower end of T-shaped installing plate, and two gripper cylinders are corresponding between two arc mechanical hands.
A kind of tetrafluoro hollow pipe flange former the most according to claim 3, it is characterised in that: each arc mechanical hand And it is equipped with horizontally-guided bar between installing plate, is provided with between described installing plate and side arm and is vertically directed bar.
A kind of tetrafluoro hollow pipe flange former the most according to claim 1, it is characterised in that: described drive mechanism Including motor, gear reduction box, motor output shaft is connected with the input of gear reduction box, the outfan of gear reduction box with Connected by Geneva mechanism between rotating shaft.
A kind of tetrafluoro hollow pipe flange former the most according to claim 1, it is characterised in that: set on described rotating disk Being equipped with the T-slot that a cross is arranged, described disk is connected by tommyhead bolt and nut are fixing with rotating disk, the head of tommyhead bolt Being slidably arranged in T-slot, the screw rod of tommyhead bolt sequentially passes through T-slot and disk, and fixes with nut bolt.
CN201620660176.4U 2016-06-15 2016-06-15 Tetrafluoro hollow pipe flange former Withdrawn - After Issue CN205685728U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620660176.4U CN205685728U (en) 2016-06-15 2016-06-15 Tetrafluoro hollow pipe flange former

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620660176.4U CN205685728U (en) 2016-06-15 2016-06-15 Tetrafluoro hollow pipe flange former

Publications (1)

Publication Number Publication Date
CN205685728U true CN205685728U (en) 2016-11-16

Family

ID=57426147

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201620660176.4U Withdrawn - After Issue CN205685728U (en) 2016-06-15 2016-06-15 Tetrafluoro hollow pipe flange former

Country Status (1)

Country Link
CN (1) CN205685728U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106042351A (en) * 2016-06-15 2016-10-26 温州职业技术学院 Flanging forming equipment for tetrafluorohydrazine hollow pipe

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106042351A (en) * 2016-06-15 2016-10-26 温州职业技术学院 Flanging forming equipment for tetrafluorohydrazine hollow pipe

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Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
AV01 Patent right actively abandoned

Granted publication date: 20161116

Effective date of abandoning: 20180309

AV01 Patent right actively abandoned