CN201376934Y

CN201376934Y - Double-work position spiral glass tube automatic former

Info

Publication number: CN201376934Y
Application number: CN200820206374U
Authority: CN
Inventors: 宋云峰; 吉朝斌; 王志勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-12-30
Filing date: 2008-12-30
Publication date: 2010-01-06
Anticipated expiration: 2018-12-30

Abstract

The utility model discloses a double-work position spiral glass tube automatic former, comprising a stander. The stander is provided with an automatic charging device, a heating conveyer device, a double work position forming device, an automatic discharging device and an electric control unit. The automatic feeding device consists of a hopper, a baffle plate, a dial sheet, an elastic material carrying sheet and a charging manipulator; the heating conveyer device consists of a heating furnace, a rotary manipulator, a conveying manipulator and a baffle plate; the double work position forming device consists of a double-work position module, a forming manipulator, a feed lifting device, a feed device, an air inflating device and a dislocation device; and the automatic discharging device consists of a discharging manipulator and a conveyer belt. The utility model can be used for a lamp tube forming working procedure for manufacturing a spiral energy saving lamp, thereby improving production efficiency and working condition for workers, reducing labor intensity for the workers, reducing production cost for corporations, and being good for realizing automatic assembly line work of a complete working procedure for manufacturing the spiral energy saving lamp.

Description

Double spiral Glass tubing fully automatic forming machine

Affiliated technical field

The utility model relates to a kind of spiral Glass tubing shaper, more particularly relates to a kind of double spiral Glass tubing fully automatic forming machine.

Technical background

Currently be used for the making of the double spiral glass tube on the electricity-saving lamp by manually finishing.The operative employee is sitting in the heat stokehold straight glass tube is put into stove, treats that Glass tubing takes out with hand after softening again to be put on the mould, and with push-switch control mould lifting and inflate, the with the hands angle of feed glass pipe, direction and dynamics.Take off with hand again after the coiling moulding.Whole process operation difficulty is big, yield rate is low, efficient is low, and long-term work under hot environment causes the healthy of operative employee seriously to be affected.

The utility model content

The purpose of this utility model is to overcome above-mentioned defective of the prior art, provide a kind of machine of full-automation to come production the type product, manpower is therefrom freed, can also reduce production costs simultaneously, raise the efficiency, improve yield rate, and help to realize the automatic assembly line operation of a complete set of operation in the spiral energy-saving lamp manufacturing.

For achieving the above object, the technical scheme that the utility model provides is as follows: a kind of double spiral Glass tubing fully automatic forming machine is provided, comprise frame, on described frame, be equiped with automatic charging device, add heat transfer apparatus, double shaped device, automatic blanking device and electric control unit, described automatic charging device is to be made of hopper, baffle plate, plectrum, elasticity microscope slide and feeding manipulator; The described heat transfer apparatus that adds is to be made of process furnace, rotating machine arm, conveying mechanical arm and baffle plate; Described double shaped device is to be made of double mould, forming machine hand, feeding lifting device, feeding device, pump-up device and dislocation device; Described automatic blanking device is to be made of blanking mechanical manipulator and conveying belt (or slideway and storage basket); Described electric control unit is to be made of power distribution cabinet, PLC, sequence of control and related electric element.

The beneficial effect of double spiral Glass tubing fully automatic forming machine described in the utility model is: this shaper is by being installed in automatic charging device on the frame, adding heat transfer apparatus, double shaped device, automatic blanking device and electric control unit and constitute, can make the spiral Glass tubing realize that full-automatic machine comes production the type product, manpower is therefrom freed, can also reduce production costs simultaneously, raise the efficiency, improve yield rate, and help to realize the automatic assembly line operation of a complete set of operation in the spiral energy-saving lamp manufacturing.

Below in conjunction with drawings and Examples double spiral Glass tubing fully automatic forming machine described in the utility model is described further.

Description of drawings

Fig. 1 is the front view of double spiral Glass tubing fully automatic forming machine described in the utility model;

Fig. 2 is the side-view of Fig. 1;

Fig. 3 is the vertical view of Fig. 1;

Fig. 4 is the front view of the automatic charging device of double spiral Glass tubing fully automatic forming machine described in the utility model;

Fig. 5 is the front view that adds heat transfer apparatus of double spiral Glass tubing fully automatic forming machine described in the utility model;

Fig. 6 is the side-view of Fig. 5;

Fig. 7 is the vertical view of Fig. 5;

Fig. 8 is the front view of the double shaped device of double spiral Glass tubing fully automatic forming machine described in the utility model;

Fig. 9 is that the K of Fig. 8 is to view;

Figure 10 is the vertical view of Fig. 8;

Figure 11 is the front view of the automatic blanking device of double spiral Glass tubing fully automatic forming machine described in the utility model;

Figure 12 is the slideway of automatic blanking device of double spiral Glass tubing fully automatic forming machine described in the utility model and the front view of storage basket blanking;

Figure 13 is the vertical view of Figure 12;

Figure 14 is the vertical view of Figure 11.

Embodiment

Below the preferred example of double spiral Glass tubing fully automatic forming machine described in the utility model, therefore do not limit protection domain of the present utility model.

With reference to Fig. 1, Fig. 2, Fig. 3, a kind of double spiral Glass tubing fully automatic forming machine is provided, comprise frame 1, be provided with automatic charging device 2 in described frame 1, add heat transfer apparatus 3, double shaped device 4, automatic blanking device 5 and electric control unit.

With reference to Fig. 4, described automatic charging device 2 is by hopper 105, baffle plate 104, plectrum 106, elasticity microscope slide 102 constitutes with feeding manipulator 101, hopper 105 bottoms become 10 °～20 ° downward-sloping angles with horizontal plane, the baffle plate of position-adjustable is equipped with to adapt to the Glass tubing of different lengths in both sides in the described hopper 105, and hopper 105 inner the place aheads are provided with transverse baffle 104, it can freely adjust the Glass tubing of highly guaranteeing to emit specified quantity, described hopper 105 belows are provided with the Glass tubing outlet, and plectrum 106 is housed in the exit, have semi-circular groove on the circumference of described plectrum 106 than the big 1mm of diameter glass tube, described semi-circular groove front portion is provided with the high bossing of 2mm～5mm, described plectrum 106 drives rotation by motor, described plectrum 106 belows are provided with elasticity microscope slide 102, being designed to resilient material or being added with spring assembly of described elasticity microscope slide 102, and be provided with groove or catch at its front end, downward-sloping 5 °～10 ° of its setting angle along continuous straight runs, described elasticity microscope slide top is provided with feeding manipulator 101, and described feeding manipulator 101 is installed in and can does on the linear slide rail of two-dimensional motion along level and vertical direction.

Straight glass tube 103 is fitly piled up in hopper 105, and plectrum 106 is equipped with in described hopper 105 belows, has the semi-circular groove than the big 1mm of diameter glass tube on the circumference of described plectrum 106, and described semi-circular groove front portion is provided with the high bossing of 2mm～5mm.Described plectrum 106 drives rotation by motor, when semi-circular groove changed hopper over to, the Glass tubing gravitate in the hopper will be fallen in the groove, and plectrum continues rotation, will take the Glass tubing that falls in the groove out of from the outlet of hopper below, fall then on the elasticity microscope slide 102 of plectrum below.The outlet of described hopper below, it highly is 1.2～1.5 times of diameter glass tube, has only one to guarantee the Glass tubing of being taken out of at every turn, can't be stuck.Downward-sloping 5 °～10 ° of the setting angle along continuous straight runs of described elasticity microscope slide rolls in the elasticity microscope slide forward groove to guarantee fallen Glass tubing.Then, feeding manipulator 101 is fallen at the driving lower edge of cylinder 107 slide rail 108, clamps the Glass tubing in the groove, slides to process furnace at the driving lower edge of cylinder 110 slide rail 109 again.Being designed to resilient material or being added with spring assembly of described elasticity microscope slide, it can be subdued by proal Glass tubing, and automatically restores to original position after Glass tubing leaves.Be provided with baffle plate 104 in the described hopper, it can freely adjust height, has suitable pressure and is unlikely to tilt or chaotic to guarantee to emit Glass tubing that a certain amount of Glass tubing makes the plectrum top, and unnecessary Glass tubing is kept off in the back.

With reference to Fig. 5, Fig. 6, Fig. 7, the described heat transfer apparatus 3 that adds is by process furnace device 225, retaining device, rotating machinery arm device 226 and conveying machinery arm device constitute, the mounting means of the process furnace 201 of described process furnace device is that independent rack is installed, described process furnace 201 belows are provided with baffle plate 211, described baffle plate 211 is a U type structure, can block the opening of process furnace 211 belows and both sides simultaneously, described rotating machine arm 202 is installed on the rotatable sprocket wheel 206, described sprocket wheel 206 is fixed on the hollow rotating shaft 205, the backguy of rotating machine arm 202 is passed from hollow rotating shaft, described rotating machine arm 202 is installed for level, can make positive and negative bi-directional rotary around the Glass tubing center, described conveying mechanical arm is vertically to install, and can take out Glass tubing from rotating machine arm 202 and do the vertical lifting motion.

When described feeding manipulator 101 is clamped a glass and is sent to process furnace 201, the baffle plate 211 of process furnace below can be opened in advance, treat that Glass tubing enters process furnace rear deflector door 211 and shuts immediately, rotating machine arm 202 is clamped Glass tubing then, after opening, feeding manipulator 101, and returns to starting position again to rising.Described rotating machine arm 202 is installed on the rotatable sprocket wheel 206, and described sprocket wheel is fixed on the hollow rotating shaft 205, and can the positive and negative twocouese revolution around the Glass tubing center under the driving of motor.The backguy of rotating machine arm is passed from hollow rotating shaft.Described baffle plate 211 is fixed on the telescopic shaft 209, and described telescopic shaft 209 is clamped by coupling link 208, and described coupling link 208 is driven by cylinder 210, slides on frame 207 thereby drive telescopic shaft 209.After treating that Glass tubing is softening, conveying mechanical arm 203 comes in to clamp Glass tubing, and rotating machine arm 202 is opened, and conveying mechanical arm 203 descends and gives the forming machine hand Glass tubing.Described process furnace 201 is installed in independently on the frame, keeps apart with other each device.

With reference to Fig. 8, Fig. 9, Figure 10, described double shaped device 4 is by the double mould, forming machine hand 307, the feeding lifting device, feeding device, pump-up device and dislocation device constitute, described forming machine hand 307 connects with line slide rail 308 mutually with the moulding feeding device, and with drive cylinder 309 and constitute the dislocation devices, described line slide rail 308 is installed on the sliding shoe of feed screw secondary 305 and pilot bearing pair 303, motor 301 and flexible clutch 302, pilot bearing pair 303, screw pair 305, rolling bearing 306 constitutes the moulding feeding device, connect with flexible clutch 302 between described screw pair 305 1 ends and the motor 301, the other end and bearing 304 usefulness rolling bearings 306 connect, the two ends of pilot bearing pair 303 are directly installed on the bearing 304, sliding shoe on sliding shoe on it and the screw pair 305 links, described bearing 304 connects formation moulding lifting device with driving cylinder and frame by hinge, but the starting position on winding mold tool 325 summits is done turning motion, its banking angle degree is consistent with groove angle on the forming mould 325, described pump-up device is installed on the dislocation device, by cylinder 310, coupking shaft 311, bearing 312, orienting lug 313, the axis of guide 314 valve seats 315, spring 316 and Air inflating valve 317 constitute, described Air inflating valve 317 can be free to slide in valve seat 315, spring 316 is housed between the two, after being pushed back, ejects voluntarily Air inflating valve, described valve seat 315 is installed on the coupking shaft 311, described coupking shaft 311 links with cylinder 310, and can in bearing 312, slide, on the described bearing 312 axis of guide 314 is housed, on the described coupking shaft 311 orienting lug 313 is housed also, it can be free to slide on the axis of guide 314, to guarantee that turning motion does not take place when doing axial motion in bearing 312 coupking shaft 311, described double shaped device also comprises slide rail 318, double worktable 319, motor 320, shaft coupling 321, pilot bearing pair 322, screw mandrel cover 323, screw mandrel 324, described mould 325 and screw mandrel 324 coaxial connections, described screw mandrel 324 links by shaft coupling 321 with motor 320, and can overlap at screw mandrel and do turning motion in 323, described screw mandrel cover 323 is installed on the worktable 319 with pilot bearing pair 322, described worktable 319 can carry out station along slide rail 318 translations and switch, sliding shoe and motor 320 on the described pilot bearing pair 322 link, revolution does not take place and can do up-and-down movement simultaneously in motor self when guaranteeing that motor drives screw mandrel and does turning motion, and described worktable 319 is provided with two molds, screw pair, pilot bearing pair and CD-ROM drive motor are to constitute double.

Forming machine hand 307 connects with line slide rail 308 mutually with the moulding feeding device, and forms the dislocation devices jointly with driving cylinder 309.Described line slide rail 308 is installed on the sliding shoe of feed screw secondary 305 and pilot bearing pair 303.Motor 301 and flexible clutch 302, pilot bearing pair 303, screw pair 305, the rolling bearing 306 common moulding feeding devices of forming.Connect with flexible clutch 302 between described screw pair 305 1 ends and the motor 301, the other end and bearing 304 usefulness rolling bearings 306 connect.The two ends of pilot bearing pair 303 are directly installed on the bearing 304, and the sliding shoe on sliding shoe on it and the screw pair 305 links.Described bearing 304 with drive cylinder and frame and connect by hinge, and form the moulding lifting device jointly, but the starting position on winding mold tool 325 summits is done turning motion, its banking angle degree is consistent with groove angle on the forming mould 325.Pump-up device is installed on the dislocation device, is made up of cylinder 310, coupking shaft 311, bearing 312, orienting lug 313, the axis of guide 314 valve seats 315, spring 316 and Air inflating valve 317.Described Air inflating valve 317 can be free to slide in valve seat 315, and spring 316 is housed between the two, ejects voluntarily after Air inflating valve is pushed back.Described valve seat 315 is installed on the coupking shaft 311.Described coupking shaft 311 links with cylinder 310, and can slide in bearing 312.On the described bearing 312 axis of guide 314 is housed.On the described coupking shaft 311 orienting lug 313 is housed also, it can be free to slide on the axis of guide 314, to guarantee coupking shaft 311 turning motion does not take place when doing axial motion in bearing 312.

Slide rail 318, worktable 319, motor 320, shaft coupling 321, pilot bearing pair 322, screw mandrel cover 323, screw mandrel 324 and the mould 325 common shaped devices of forming.Described mould 325 and screw mandrel 324 coaxial connections.Described screw mandrel 324 links by shaft coupling 321 with motor 320, and can overlap at screw mandrel and do turning motion in 323.Described screw mandrel cover 323 is installed on the worktable 319 with pilot bearing pair 322.Described worktable 319 can carry out station along slide rail 318 translations and switch.Sliding shoe and motor 320 on the described pilot bearing pair 322 link, and motor self revolution does not take place and can do up-and-down movement simultaneously when guaranteeing that motor drives screw mandrel and does turning motion.

After forming machine hand 307 is caught the Glass tubing that conveying mechanical arm sends here, whole feeding lifting device promptly drops to the dotted line position in Fig. 8 front view, mould 325 is rotated in the forward rising then, the feeding device of moulding simultaneously drives the moulding mechanical manipulator and advances, the also action simultaneously of moulding dislocation device, forming mould 325 stops after rotating to and specifying the number of turns, and the moulding feeding device also halts simultaneously, and the moulding action is finished.During the moulding action, pump-up device is inflated Glass tubing.After inflation finished, the pump-up device of a side withdrawed from earlier, and the pump-up device of opposite side continues to inflate in Glass tubing.Glass tubing typing behind 5～10 second aftershapings, forming machine is openhanded to be return after opening, 319 actions of shaping work platform, mould after the moulding and spiral tube are delivered to blanking position A or B, another mould on the worktable is moved to shaping position O simultaneously, moulding this moment feeding device, feeding lifting device, pump-up device and dislocation device etc. all reset in succession, wait for the arrival of next Glass tubing.

With reference to Figure 11, Figure 12, Figure 13, Figure 14, described automatic blanking device 5 is to be made of blanking mechanical manipulator and conveying belt or slideway and storage basket, described blanking mechanical manipulator be arranged on A place, blanking position and B place both sides each one, and can slide along slide rail 401, described conveying belt or blanking slideway are arranged on the wherein below of a side blanking mechanical manipulator, described conveying belt is to be made by the high-temperature resistant rubber band, described blanking slideway also is to be made by resistant to elevated temperatures ganoid sheet material, its cross section is V-shaped, become 15 °～25 ° downward-sloping angles during installation with horizontal plane, and thereunder be provided with storage basket.

Respectively be provided with a blanking mechanical manipulator 402 in the both sides at A place, position shown in Figure 13 and B place, described blanking mechanical manipulator 402 can slide along slide rail 401, and the below of a side blanking mechanical manipulator is provided with conveying belt 404 (or blanking slideway 405) therein, and described conveying belt 404 is to be made by resistant to elevated temperatures string rubber.Described blanking slideway 405 also is to be made by resistant to elevated temperatures ganoid sheet material, and its cross section is V-shaped, becomes 15 °～25 ° downward-sloping angles during installation with horizontal plane, and thereunder is provided with storage basket 406.After the spiral tube after the moulding moved on to position A or B, both sides blanking mechanical manipulator began to move (dotted line position in the figure) to spiral tube, clamps the pin of spiral tube both sides then respectively.Then the shaped device counter-rotating descends, and begins to move back mould.Stop after falling back on the position that is lower than spiral tube both sides pin when the mould summit, then, do not have that blanking manipulator loose of conveying belt (perhaps slideway) to open and retreat below.Another blanking mechanical manipulator clips and unclamps after spiral tube retreats into specified location, and spiral tube is promptly fallen on the conveying belt (perhaps slideway), is sent to next process (or in storage basket).

Claims

1, a kind of double spiral Glass tubing fully automatic forming machine, comprise frame (1), it is characterized in that, be disposed with automatic charging device (2) in described frame (1), add heat transfer apparatus (3), double shaped device (4), automatic blanking device (5) and electric control unit, described automatic charging device (2) is to be made of with feeding manipulator (101) hopper (105), baffle plate (104), plectrum (106), elasticity microscope slide (102); The described heat transfer apparatus that adds is to be made of process furnace device, retaining device, rotating machinery arm device and conveying machinery arm device; Described double shaped device is to be made of double mould, forming machine hand (307), feeding lifting device, feeding device, pump-up device and dislocation device; Described automatic blanking device is to be made of blanking mechanical manipulator and conveying belt or slideway and storage basket.

2, double spiral Glass tubing fully automatic forming machine according to claim 1, it is characterized in that, described automatic charging device (2) is by hopper (105), baffle plate (104), plectrum (106), elasticity microscope slide (102) constitutes with feeding manipulator (101), hopper (105) bottom becomes 10 °～20 ° downward-sloping angles with horizontal plane, the baffle plate of position-adjustable is equipped with to adapt to the Glass tubing of different lengths in the interior both sides of described hopper (105), and the inner the place ahead of hopper (105) is provided with transverse baffle (104), it can freely adjust the Glass tubing of highly guaranteeing to emit specified quantity, described hopper (105) below is provided with the Glass tubing outlet, and plectrum (106) is housed in the exit, have semi-circular groove on the circumference of described plectrum (106) than the big 1mm of diameter glass tube, described semi-circular groove front portion is provided with the high bossing of 2mm～5mm, described plectrum (106) drives rotation by motor, described plectrum (106) below is provided with elasticity microscope slide (102), being designed to resilient material or being added with spring assembly of described elasticity microscope slide (102), and be provided with groove or catch at its front end, downward-sloping 5 °～10 ° of its setting angle along continuous straight runs, described elasticity microscope slide top is provided with feeding manipulator (101), and described feeding manipulator (101) is installed in and can does on the linear slide rail of two-dimensional motion along level and vertical direction.

3, double spiral Glass tubing fully automatic forming machine according to claim 1, it is characterized in that, the described heat transfer apparatus that adds is by the process furnace device, retaining device, rotating machinery arm device and conveying machinery arm device constitute, the mounting means of the process furnace of described process furnace device (201) is that independent rack is installed, described process furnace (201) below is provided with baffle plate (211), described baffle plate (211) is a U type structure, can block the opening of process furnace (211) below and both sides simultaneously, described rotating machine arm (202) is installed on the rotatable sprocket wheel (206), described sprocket wheel (206) is fixed on the hollow rotating shaft (205), the backguy of rotating machine arm (202) is passed from hollow rotating shaft, described rotating machine arm (202) is installed for level, can make positive and negative bi-directional rotary around the Glass tubing center, described conveying mechanical arm is vertically to install, and can take out Glass tubing from rotating machine arm (202) and do the vertical lifting motion.

4, double spiral Glass tubing fully automatic forming machine according to claim 1, it is characterized in that, described double shaped device is by the double mould, forming machine hand (307), the feeding lifting device, feeding device, pump-up device and dislocation device constitute, described forming machine hand (307) connects with line slide rail (308) mutually with the moulding feeding device, and with drive cylinder (309) and constitute the dislocation device, described line slide rail (308) is installed on the sliding shoe of feed screw pair (305) and pilot bearing pair (303), motor (301) and flexible clutch (302), pilot bearing pair (303), screw pair (305), rolling bearing (306) constitutes the moulding feeding device, connect with flexible clutch (302) between described screw pair (305) one ends and the motor (301), the other end and bearing (304) connect with rolling bearing (306), the two ends of pilot bearing pair (303) are directly installed on the bearing (304), sliding shoe on sliding shoe on it and the screw pair (305) links, described bearing (304) connects formation moulding lifting device with driving cylinder and frame by hinge, but the starting position on winding mold tool (325) summit is done turning motion, its banking angle degree is consistent with groove angle on the forming mould (325), described pump-up device is installed on the dislocation device, by cylinder (310), coupking shaft (311), bearing (312), orienting lug (313), the axis of guide (314) valve seat (315), spring (316) and Air inflating valve (317) constitute, described Air inflating valve (317) can be free to slide in valve seat (315), spring (316) is housed between the two, after being pushed back, ejects voluntarily Air inflating valve, described valve seat (315) is installed on the coupking shaft (311), described coupking shaft (311) links with cylinder (310), and can in bearing (312), slide, the axis of guide (314) is housed on the described bearing (312), orienting lug (313) also is housed on the described coupking shaft (311), it can be free to slide on the axis of guide (314), to guarantee that turning motion does not take place when doing axial motion in bearing (312) coupking shaft (311), described double shaped device also comprises slide rail (318), double worktable (319), motor (320), shaft coupling (321), pilot bearing pair (322), screw mandrel cover (323), screw mandrel (324), described mould (325) and the coaxial connection of screw mandrel (324), described screw mandrel (324) links by shaft coupling (321) with motor (320), and can in screw mandrel cover (323), do turning motion, described screw mandrel cover (323) is installed on the worktable (319) with pilot bearing pair (322), described worktable (319) can switch along slide rail (318) translation carrying out station, sliding shoe on the described pilot bearing pair (322) and motor (320) link, revolution does not take place and can do up-and-down movement simultaneously in motor self when guaranteeing that motor drives screw mandrel and does turning motion, and described worktable (319) is provided with two molds, screw pair, pilot bearing pair and CD-ROM drive motor are to constitute double.

5, double spiral Glass tubing fully automatic forming machine according to claim 1, it is characterized in that, described automatic blanking device is to be made of blanking mechanical manipulator and conveying belt or slideway and storage basket, described blanking mechanical manipulator be arranged on A place, blanking position and B place both sides each one, and can slide along slide rail (401), described conveying belt or blanking slideway are arranged on the wherein below of a side blanking mechanical manipulator, described conveying belt is to be made by the high-temperature resistant rubber band, described blanking slideway also is to be made by resistant to elevated temperatures ganoid sheet material, its cross section is V-shaped, become 15 °～25 ° downward-sloping angles during installation with horizontal plane, and thereunder be provided with storage basket.