CN208895568U - A kind of glass door handle automatic manufacturing device - Google Patents

Abstract

The utility model relates to produce and process field automatically, in particular to a kind of glass door handle automatic manufacturing device, including workbench, square tube loading assemblies, first transports component, punching component, first jig component, second transports component, second jig component, cylinder loading assemblies, weld assembly and blanking component, the side of workbench is arranged in the square tube loading assemblies, first, which transports component, is arranged on the table close to the position of square tube loading assemblies, the side of the first transport component is arranged in first jig component, punching component and the second transport component are all fixed at the side of the first jig component, second jig component is fixed at the middle part of workbench, weld assembly, cylinder loading assemblies and blanking component are successively set on the periphery of the second jig component, the present apparatus greatly improves the production efficiency of glass door handle, and And improve the precision of product and the quality of welding.

Description

A kind of glass door handle automatic manufacturing device

Technical field

The utility model relates to produce and process field automatically, in particular to a kind of glass door handle automatic manufacturing device.

Background technique

Handle refers to knob, shakes hands；The place that hand is taken on implements；Mechanical fitting.There are many classification of handle, mainly have following Type.

Plastic handles: using plastics as raw material manufacture, plastics be synthesize high-molecular compound, and can be described as macromolecule or Giant molecule, and the plastics or resin that are generally commonly called as, can freely change body styles.Plastic handles are produced by injection molding machine, Design mold by shape need, be molded one-pass molding, also can mating zinc alloy piece combination appearance composition can be with: spray painting, plating, point Paint etc., domestic profession, which develops plastic handles and typically produces to represent, has Cangnan Xian Mao to weigh luggage accessory factory.

Hardware handle: traditional hardware, also referred to as " hardware ".Refer to the metals such as iron, steel, aluminium by forging, calendering, Cutting, etc. the various metal devices that are fabricated of Physical Processing.Such as hardware tool, hardware components, haberdashery and hardware, building Hardware and security protection articles etc..Hardware product is not mostly final consumption product.

Wooden handle: wooden is composition arbor or shrub stem and branch in subcortical most of spins substance.It is planting In object, the cell-wall components of different cells change very greatly, this is because being also permeated with the knot of other various substances in cell wall Fruit.Common substance has cutin, bolt matter, wooden, mineral etc..It is wooden be it is hydrophilic, it has very big hardness, therefore, wooden The wall of change not only increases mechanical strength, but also can be permeable.

Restrict handle processed: as people pursue and the fast development of present industry the perfect of life, rope is by before Two strands for becoming present are knitted in several bursts of torsions, and three strands, 8 strands, 16 strands, 24 strands, 32 strands, 48 strands weave, so that rope surface pattern More and more careful beauty can be woven together by of the same colour or polychrome is regular, and color is more considerable, and material is available, fiber crops, palm fibre, third The fibers or metal knitted such as synthetic fibre silk, dacron thread, cotton yarn, nylon yarn 8, life is found everywhere.

Leather handle: leather be lost hair or feathers with the physics such as tanning, chemical process it is obtained be denaturalized it is not perishable Animal Skin.Leather is to be made of natural protein fibre in three-dimensional space close weave, and there is a kind of special grain layer on surface, With natural graining and gloss, comfortable feel.

Alloy handle: being common in kirsite handle, and alloy handle is the metal and nonmetallic warp by two or more Substance with metallic character synthesized by certain method.Generally obtained and fusing into uniform liquid and solidification.According to composition The number of element can be divided into bianry alloy, ternary alloy three-partalloy and multicomponent alloy.

The junction of alloy handle needs to weld completion but existing alloy handle production efficiency is lower at present, product Precision and welding quality have it is to be improved.

Summary of the invention

The purpose of this utility model is that in view of the deficiencies of the prior art, a kind of glass door handle is provided and produces dress automatically It sets.Solve that glass door handle production efficiency is low, the not high enough problem of Product Precision.

To solve the above problems, the utility model the following technical schemes are provided:

A kind of glass door handle automatic manufacturing device, including workbench, square tube loading assemblies, the first transport component, punching Component, the first jig component, second transport component, the second jig component, cylinder loading assemblies, weld assembly and blanking component, The side of workbench is arranged in the square tube loading assemblies, and first, which transports component, is arranged on the table close to square tube loading assemblies Position, the first jig component be arranged in first transport component side, punching component and second transport component be all fixedly installed In the side of the first jig component, the second jig component is fixed at the middle part of workbench, weld assembly, cylinder loading assemblies The periphery of the second jig component is successively set on blanking component.

Further, the square tube loading assemblies include that the objective box of workbench side is arranged in and is arranged in workbench On display box, the storage slot through objective box is equipped in the objective box, storage trench bottom is equipped with a push plate and pusher Structure, pusher include mounting plate and electric pushrod, and electric pushrod is vertically arranged on a mounting board, push plate and electric pushrod Output end is fixedly connected, and objective box is additionally provided with a baffle far from workbench side, and also level is equipped with one on the display box The output end of suction cylinder, suction cylinder is arranged to baffle direction, and the output end of suction cylinder is fixedly installed with multiple first and inhales Disk, display box is interior to be also equipped with two pieces of limit plates vertically.

Further, the first transport component includes the first electronic screw rod slide unit, the first support frame, the first rotary pneumatic Cylinder, the first fixed frame, the first cylinder and multiple second suckers, the first electronic screw rod slide unit are fixedly mounted on the table, and first Support frame is vertically arranged on the sliding block of the first electronic screw rod slide unit, and the first rotary cylinder is fixed at the top of the first support frame End, and the output end of the first rotary cylinder is arranged vertically upwards, and the output end of the first fixed frame and the first rotary cylinder is fixed Connection, the first cylinder are vertically arranged in the end of the first fixed frame, and the second sucker is fixedly connected with the output end of the first cylinder.

Further, the first jig component includes the second rotary cylinder and the first jig of fixed setting on the table Frame, the two sides of the second rotary cylinder are respectively equipped with a bearing plate, are equipped on the bearing plate and match with the clamping of the first tool frame The clamping groove of conjunction, first tool frame are fixedly connected with the output end of the second rotary cylinder.

Further, punching component includes the second electronic screw rod slide unit, the second support frame, the second cylinder and puncher Structure, on the table, the second support frame is inverted "L" shape structure and the second support is set up for the second electronic screw rod slide unit fixed setting It sets on the sliding block of the second electronic screw rod slide unit, the second cylinder is vertically installed at the end of the second support frame, and perforating mechanism includes There are installing frame, first motor, rotary shaft, the second motor and milling cutter, installing frame is fixedly connected with the output end of the second cylinder, and first Motor is fixed in installing frame, and the output end of first motor is arranged straight down, and rotation axis horizontal is mounted on first On the output end of motor, rotation the tip of the axis is arranged in the second motor and the output end of the second motor is arranged straight down, mills Knife is fixedly connected with the output end of the second motor.

Further, second transport component include the electronic screw rod slide unit of third, third support frame, third rotary cylinder, Second fixed frame, third cylinder and two scroll chucks, the electronic screw rod slide unit of third are fixedly installed on the table, third Support frame is vertically arranged on the sliding block of the electronic screw rod slide unit of third, and third rotary cylinder is fixed at the top of third support frame End, the second fixed frame are fixedly connected with the output end of third rotary cylinder, and third cylinder is vertically arranged in the end of the second fixed frame End, scroll chuck are fixedly connected with the output end of third cylinder.

Further, the second jig component includes rotating mechanism, the 4th electronic screw rod slide unit, the second tool frame and and consolidates Determine mechanism, the rotating mechanism includes bearing frame, third motor, driving gear, driven gear and rotary column, and bearing frame setting exists On workbench, third motor is fixed in bearing frame, and driving gear is fixedly connected with the output end of third motor, driven tooth Wheel engages connection with driving gear, and rotary column is vertically arranged on driven gear, and rotary column passes through bearing frame and extends to bearing frame Top, the 4th electronic screw rod slide unit are fixed at the top of rotary column, and it is sliding that the second tool frame is fixed at the 4th electronic screw rod On the sliding block of platform, fixed mechanism includes the first mounting rack that the second tool frame side is arranged in, the side water of the first mounting rack Flat to be equipped with the 4th cylinder, the output end of the 4th cylinder is also fixedly installed with a pressing plate.

Further, cylinder loading assemblies include the 4th support frame and feeding tube, and the 4th support frame is vertically arranged in work Make on platform, feeding tube is fixed at the top of the 4th support frame, and the end of feeding tube is equipped with a blanking groove, feeding pipe end It is also equipped with second mounting rack an of inverse u shape, the second mounting rack top is fixedly installed with an output end and sets straight down The 5th cylinder set.

Further, the weld assembly includes the 5th electronic screw rod slide unit, the 5th support frame, the 6th cylinder, third Mounting rack and plumb joint, the 5th electronic screw rod slide unit fixed setting on the table, the 5th support frame be inverted "L" shape structure and 5th support frame is fixed on the sliding block of the 5th electronic screw rod slide unit, and the 6th cylinder is fixedly mounted on the end of the 5th support frame It holds and the 5th support frame is arranged horizontal by 30 degree of angles, the output end of third mounting rack and the 6th cylinder is fixed to be connected It connects, plumb joint is detachably arranged on third mounting rack.

Further, the blanking component include the 6th electronic screw rod slide unit, the 6th support frame, the 4th rotary cylinder, Third fixed frame, the 4th mounting rack and two pneumatic clampers, the 6th electronic screw rod slide unit are fixedly installed on the table, the 6th support frame It being vertically arranged on the sliding block of the 6th electronic screw rod slide unit, the 4th rotary cylinder is vertically arranged in the top of the 6th support frame, the Three fixed frames are fixedly connected with the output end of the 4th rotary cylinder, and the 4th mounting rack is vertically arranged in the end of third fixed frame, Pneumatic clamper is fixedly mounted on the 4th mounting rack, and the groove being engaged by clamping with cylinder is additionally provided in pneumatic clamper.

The utility model has the advantages that a kind of glass door handle automatic manufacturing device of the utility model, is designed in square tube loading assemblies The structure of electric pushrod feeding one by one, can cooperate the suction cylinder to be transported to square tube in display box one by one；Square tube needs Two holes are made a call on one face, and the first jig component is designed as rotatable structure, it is only necessary to a perforating mechanism, so that it may right Square tube makes a call to two holes, saves space and resource；Second jig component is square tube and the place that cylinder is welded, and is needed to even The surrounding at the place of connecing is welded, and the present apparatus is devised in the case where not moving welder, and the second jig component is around circle The mode of mast axis rotation, realizes the welding to junction surrounding, and the second tool frame can move, so that the circle of product second Column junction is located at plumb joint lower position, realizes the welding twice of entire production.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the utility model；

Fig. 2 is the top view of the utility model；

Fig. 3 is the local fractionation structural representation one of the utility model；

Fig. 4 is the local fractionation structural representation two of the utility model；

Fig. 5 is the local fractionation structural representation three of the utility model；

Fig. 6 is the local fractionation structural representation four of the utility model；

Fig. 7 is the local fractionation structural representation five of the utility model；

Fig. 8 is the local fractionation structural representation six of the utility model；

Fig. 9 is the local fractionation structural representation seven of the utility model；

Figure 10 is the local fractionation structural representation eight of the utility model；

Figure 11 is the local fractionation structural representation nine of the utility model；

Figure 12 is the local fractionation structural representation ten of the utility model；

Figure 13 is the local fractionation structural representation 11 of the utility model；

Figure 14 is the local fractionation structural representation 12 of the utility model；

Description of symbols: workbench 1, square tube loading assemblies 2, first transports component 3, punching component 4, the first jig group Part 5, the second transport component 6, the second jig component 7, cylinder loading assemblies 8, weld assembly 9, blanking component 10, objective box 11, Display box 12, push plate 13, mounting plate 14, electric pushrod 15, baffle 16, suction cylinder 17, the first sucker 18, limit plate 19, the One electronic screw rod slide unit 20, the first support frame 21, the first rotary cylinder 22, the first fixed frame 23, the first cylinder 24, the second sucker 25, the second rotary cylinder 26, the first tool frame 27, bearing plate 28, clamping groove 29, the second electronic screw rod slide unit 30, the second support Frame 31, the second cylinder 32, perforating mechanism 33, installing frame 34, first motor 35, rotary shaft 36, the second motor 37, milling cutter 38, the Three electronic screw rod slide units 39, third support frame 40, third rotary cylinder 41, the second fixed frame 42, third cylinder 43, scroll chuck 44, rotating mechanism 45, the 4th electronic screw rod slide unit 46, the second tool frame 47, bearing frame 48, third motor 49, driving gear 50, Driven gear 51, rotary column 52, the first mounting rack 53, the 4th cylinder 54, pressing plate 55, the 4th support frame 56, feeding tube 57, second Mounting rack 58, the 5th cylinder 59, the 5th electronic screw rod slide unit 60, the 5th support frame 61, the 6th cylinder 62, third mounting rack 63, Plumb joint 64, the 6th electronic screw rod slide unit 65, the 6th support frame 66, the 4th rotary cylinder 67, third fixed frame 68, the 4th installation Frame 69, pneumatic clamper 70.

Specific embodiment

With reference to the accompanying drawings of the specification and embodiment, specific embodiment of the utility model is described in further detail:

Referring to figs. 1 to a kind of glass door handle automatic manufacturing device shown in Figure 14, including workbench 1, square tube feeding group Part 2, first transports component 3, punching component 4, the first jig component 5, second and transports component 6, the second jig component 7, on cylinder The side of workbench 1, the first transport group is arranged in material component 8, weld assembly 9 and blanking component 10, the square tube loading assemblies 2 The position on workbench 1 close to square tube loading assemblies 2 is arranged in part 3, and the first transport component 3 is arranged in the first jig component 5 Side, punching component 4 and the second transport component 6 are all fixed at the side of the first jig component 5, and the second jig component 7 is solid The middle part of workbench 1 is set calmly, and weld assembly 9, cylinder loading assemblies 8 and blanking component 10 are successively set on the second jig group The periphery of part 7.

Referring to figs. 1 to 4, the square tube loading assemblies 2 include 11 He of objective box that 1 side of workbench is arranged in Display box 12 on workbench 1 is set, the storage slot through objective box 11 is equipped in the objective box 11, storage trench bottom is set There are a push plate 13 and pusher, pusher includes mounting plate 14 and electric pushrod 15, and electric pushrod 15 is vertically arranged On mounting plate 14, push plate 13 is fixedly connected with the output end of electric pushrod 15, and objective box 11 is additionally provided with far from 1 side of workbench One baffle 16, also horizontal on the display box 12 to be equipped with a suction cylinder 17, the output end of suction cylinder 17 is to baffle 16 Direction setting, the output end of suction cylinder 17 are fixedly installed with multiple first suckers 18, are also equipped with two pieces vertically in display box 12 Limit plate 19.15 discontinuity of electric pushrod jacks up push plate 13 upwards, so that square tube is leaked out one by one outside objective box 11, suction cylinder The square tube of leakage is sucked and is placed in display box 12 by 17, and limit plate 19 is used to limit the position of square tube.

Referring to Fig.1, shown in Fig. 2 and Fig. 5, the first transport component 3 includes the first 20, first, electronic screw rod slide unit Support 21, the first rotary cylinder 22, the first fixed frame 23, the first cylinder 24 and multiple second suckers 25, the first electronic screw rod are sliding Platform 20 is fixedly mounted on workbench 1, and the first support frame 21 is vertically arranged on the sliding block of the first electronic screw rod slide unit 20, and first Rotary cylinder 22 is fixed at the top of the first support frame 21, and the output end of the first rotary cylinder 22 is set straight up It sets, the first fixed frame 23 is fixedly connected with the output end of the first rotary cylinder 22, and it is fixed that the first cylinder 24 is vertically arranged in first The end of frame 23, the second sucker 25 are fixedly connected with the output end of the first cylinder 24.First transport component 3 will be located at display box Square tube in 12 is sucked, and is transported in the first tool frame 27.

Referring to Fig.1, shown in Fig. 2 and Fig. 6, the first jig component 5 includes the second rotation being fixed on workbench 1 Cylinder 26 and the first tool frame 27, the two sides of the second rotary cylinder 26 are respectively equipped with a bearing plate 28, on the bearing plate 28 It is equipped with the clamping groove 29 being engaged by clamping with the first tool frame 27, the output of first tool frame 27 and the second rotary cylinder 26 End is fixedly connected.The first tool frame 27 being connected on the second rotary cylinder 26 can be followed by the rotation level rotation of rotary cylinder Turn 180 degree, the both ends of the first tool frame 27 are respectively engaged on the bearing plate 28 of lower end after the completion of rotation.

Referring to Fig.1, shown in Fig. 2, Fig. 7 and Fig. 8, punching component 4 includes the second electronic screw rod slide unit 30, the second support frame 31, the second cylinder 32 and perforating mechanism 33, the second electronic screw rod slide unit 30 are fixed on workbench 1, the second support frame 31 For inverted "L" shape structure and the second support frame 31 is arranged on the sliding block of the second electronic screw rod slide unit 30, and the second cylinder 32 is vertical It is mounted on the end of the second support frame 31, perforating mechanism 33 includes installing frame 34, first motor 35, the 36, second electricity of rotary shaft Machine 37 and milling cutter 38, installing frame 34 are fixedly connected with the output end of the second cylinder 32, and first motor 35 is fixed at installing frame In 34, and the output end of first motor 35 is arranged straight down, and rotary shaft 36 is horizontally arranged at the output end of first motor 35 On, the end of rotary shaft 36 is arranged in the second motor 37 and the output end of the second motor 37 is arranged straight down, milling cutter 38 with The output end of second motor 37 is fixedly connected.First motor 35 in punching component 4 drives rotary shaft 36 to rotate, and is mounted on rotation Milling cutter 38 on axis 36 can move in a circle, and the circular hole for cylinder insertion connection is milled out in square tube.

Referring to Fig.1, shown in Fig. 2 and Fig. 9, the second transport component 6 includes the electronic screw rod slide unit 39 of third, third support frame 40, third rotary cylinder 41, the second fixed frame 42, third cylinder 43 and two scroll chucks 44, the electronic screw rod of third are sliding Platform 39 is fixed on workbench 1, and third support frame 40 is vertically arranged on the sliding block of the electronic screw rod slide unit 39 of third, third Rotary cylinder 41 is fixed at the top of third support frame 40, and the output end of the second fixed frame 42 and third rotary cylinder 41 is solid Fixed connection, third cylinder 43 are vertically arranged in the end of the second fixed frame 42, output of the scroll chuck 44 with third cylinder 43 End is fixedly connected.Two scroll chucks 44 of the second transport component 6, which protrude into circular hole, grabs the square tube after the completion of punching It transports.

Referring to Fig.1, shown in Fig. 2, Figure 10 and Figure 11, the second jig component 7 includes rotating mechanism 45, the 4th electronic screw rod Slide unit 46, the second tool frame 47 and and fixed mechanism, the rotating mechanism 45 include bearing frame 48, third motor 49, actively Gear 50, driven gear 51 and rotary column 52, bearing frame 48 are arranged on workbench 1, and third motor 49 is fixed at bearing frame In 48, driving gear 50 is fixedly connected with the output end of third motor 49, and driven gear 51 engages connection with driving gear 50, is turned Column 52 is vertically arranged on driven gear 51, and rotary column 52 passes through bearing frame 48 and extends to 48 top of bearing frame, and the 4th is electronic Screw rod slide unit 46 is fixed at the top of rotary column 52, and the second tool frame 47 is fixed at the cunning of the 4th electronic screw rod slide unit 46 On block, fixed mechanism includes the first mounting rack 53 that 47 side of the second tool frame is arranged in, the side water of the first mounting rack 53 Flat to be equipped with the 4th cylinder 54, the output end of the 4th cylinder 54 is also fixedly installed with a pressing plate 55.Second tool frame 47 can be with It is moved on the 4th electronic screw rod slide unit 46, so as to successively by the axle center in the axle center of two circular holes in square tube and rotary column 52 Alignment, so that the second jig component 7 can weld square tube and the surrounding of cylinder junction when rotation.

Referring to Fig.1, shown in Fig. 2 and Figure 12, cylinder loading assemblies 8 include the 4th support frame 56 and feeding tube 57, and the 4th Support frame 56 is vertically arranged on workbench 1, and feeding tube 57 is fixed at the top of the 4th support frame 56, the end of feeding tube 57 End is equipped with a blanking groove, and 57 end of feeding tube is also equipped with second mounting rack 58 an of inverse u shape, the second mounting rack 58 top End is fixedly installed with the 5th cylinder 59 that an output end is arranged straight down.The size of blanking groove just with the diameter of cylinder one It causing, when cylinder needs feeding, the 5th cylinder 59 applies an active force straight down to the cylinder for being located at blanking groove, By cylinder indentation in the circular hole of underface.

Referring to Fig.1, shown in Fig. 2 and Figure 13, the weld assembly 9 includes that the 5th electronic screw rod slide unit the 60, the 5th supports Frame 61, the 6th cylinder 62, third mounting rack 63 and plumb joint 64, the 5th electronic screw rod slide unit 60 are fixed on workbench 1, 5th support frame 61 is the sliding block that inverted "L" shape structure and the 5th support frame 61 are fixed at the 5th electronic screw rod slide unit 60 On, end that the 6th cylinder 62 is fixedly mounted on the 5th support frame 61 and the 5th support frame 61 is horizontal by 30 degree of angles Setting, third mounting rack 63 are fixedly connected with the output end of the 6th cylinder 62, and plumb joint 64 is detachably arranged at third mounting rack On 63.Weld assembly 9 is located at 52 side of rotary column, and when needing to weld, plumb joint 64 is pushed to square tube by the 6th cylinder 62 With the junction side of cylinder, the surrounding of junction is realized with the rotation of the second jig component 7 and is welded.

Referring to Fig.1, shown in Fig. 2 and Figure 14, the blanking component 10 includes that the 6th electronic screw rod slide unit the 65, the 6th supports Frame 66, the 4th rotary cylinder 67, third fixed frame 68, the 4th mounting rack 69 and two pneumatic clampers 70, the 6th electronic screw rod slide unit 65 It is fixed on workbench 1, the 6th support frame 66 is vertically arranged on the sliding block of the 6th electronic screw rod slide unit 65, the 4th rotation Cylinder 67 is vertically arranged in the top of the 6th support frame 66, the fixed company of the output end of third fixed frame 68 and the 4th rotary cylinder 67 It connecing, the 4th mounting rack 69 is vertically arranged in the end of third fixed frame 68, and pneumatic clamper 70 is fixedly mounted on the 4th mounting rack 69, The groove being engaged by clamping with cylinder is additionally provided in pneumatic clamper 70.The pneumatic clamper 70 of blanking component 10 and the exterior contour of cylinder, which cooperate, to be connected It connects, the product produced is taken out to send to feed opening from the second tool frame 47 and completes to process.

Working principle: 15 discontinuity of electric pushrod jacks up push plate 13 upwards, so that square tube is leaked out one by one outside objective box 11, The square tube of leakage is sucked and is placed in display box 12 by suction cylinder 17, and limit plate 19 is used to limit the position of square tube, the first fortune The square tube being located in display box 12 is sucked sending component 3, is transported in the first tool frame 27, is connected on the second rotary cylinder 26 The first tool frame 27 can be followed by rotary cylinder rotation rotate horizontally 180 degree, the first tool frame after the completion of rotation 27 both ends are respectively engaged on the bearing plate 28 of lower end, the both ends alignment punching component 4 of square tube are realized, in punching component 4 First motor 35 drives rotary shaft 36 to rotate, and the milling cutter 38 being mounted in rotary shaft 36 can move in a circle, in square tube The circular hole for cylinder insertion connection is milled out, after the completion of two scroll chucks 44 of the second transport component 6 protrude into circular hole to punching Square tube carry out crawl transport, the size of blanking groove is just consistent with the diameter of cylinder, when cylinder needs feeding, the 5th Cylinder 59 applies an active force straight down to the cylinder for being located at blanking groove, and cylinder indentation is in the circular hole of underface Interior, the second tool frame 47 can move on the 4th electronic screw rod slide unit 46, so as to successively by two circular holes in square tube Axle center be aligned with the axle center of rotary column 52, thus the second jig component 7 rotate when can be to square tube and cylinder junction Surrounding welded, expect component pneumatic clamper 70 and cylinder exterior contour be cooperatively connected, the product produced is controlled from second It takes out to send to feed opening in tool frame 47 and completes to process.

The above descriptions are merely preferred embodiments of the present invention, not makees to the technical scope of the utility model Any restrictions out, thus it is any trickle amendment made by the above technical examples according to the technical essence of the present invention, equivalent Variation and modification, in the range of still falling within the technical solution of the utility model.

Claims (10)

1. a kind of glass door handle automatic manufacturing device, it is characterised in that: including workbench (1), square tube loading assemblies (2), One transports component (3), punching component (4), the first jig component (5), the second transport component (6), the second jig component (7), circle Column loading assemblies (8), weld assembly (9) and blanking component (10), the square tube loading assemblies (2) are arranged in workbench (1) Side, first, which transports component (3), is arranged on workbench (1) close to the position of square tube loading assemblies (2), the first jig component (5) side for transporting component (3) first is set, and punching component (4) and the second transport component (6) are all fixed at first and control Has the side of component (5), the second jig component (7) is fixed at the middle part of workbench (1), weld assembly (9), cylinder feeding Component (8) and blanking component (10) are successively set on the periphery of the second jig component (7).

2. a kind of glass door handle automatic manufacturing device according to claim 1, it is characterised in that: the square tube feeding group Part (2) includes setting in the objective box (11) of workbench (1) side and the display box (12) being arranged on workbench (1), institute The storage slot being equipped in objective box (11) through objective box (11) is stated, storage trench bottom is equipped with a push plate (13) and pusher Structure, pusher include mounting plate (14) and electric pushrod (15), and electric pushrod (15) is vertically arranged on mounting plate (14), Push plate (13) is fixedly connected with the output end of electric pushrod (15), and objective box (11) is additionally provided with one far from workbench (1) side Baffle (16), also horizontal on the display box (12) to be equipped with a suction cylinder (17), the output end of suction cylinder (17) is to gear The setting of plate (16) direction, the output end of suction cylinder (17) are fixedly installed with multiple first suckers (18), go back in display box (12) It is equipped with two pieces of limit plates (19) vertically.

3. a kind of glass door handle automatic manufacturing device according to claim 2, it is characterised in that: the first transport group Part (3) includes the first electronic screw rod slide unit (20), the first support frame (21), the first rotary cylinder (22), the first fixed frame (23), the first cylinder (24) and multiple second suckers (25), the first electronic screw rod slide unit (20) are fixedly mounted on workbench (1) On, the first support frame (21) is vertically arranged on the sliding block of the first electronic screw rod slide unit (20), and the first rotary cylinder (22) is fixed Top in the first support frame (21) is set, and the output end of the first rotary cylinder (22) is arranged vertically upwards, first is fixed Frame (23) is fixedly connected with the output end of the first rotary cylinder (22), and the first cylinder (24) is vertically arranged in the first fixed frame (23) End, the second sucker (25) is fixedly connected with the output end of the first cylinder (24).

4. a kind of glass door handle automatic manufacturing device according to claim 3, it is characterised in that: the first jig component It (5) include the second rotary cylinder (26) being fixed on workbench (1) and the first tool frame (27), the second rotary cylinder (26) two sides are respectively equipped with a bearing plate (28), are equipped on the bearing plate (28) and match with the first tool frame (27) clamping The clamping groove (29) of conjunction, first tool frame (27) are fixedly connected with the output end of the second rotary cylinder (26).

5. a kind of glass door handle automatic manufacturing device according to claim 4, it is characterised in that: punching component (4) packet The second electronic screw rod slide unit (30), the second support frame (31), the second cylinder (32) and perforating mechanism (33), the second electronic silk are included Bar slide unit (30) is fixed on workbench (1), and the second support frame (31) is inverted "L" shape structure and the second support frame (31) It is arranged on the sliding block of the second electronic screw rod slide unit (30), the second cylinder (32) is vertically installed at the end of the second support frame (31) End, perforating mechanism (33) includes installing frame (34), first motor (35), rotary shaft (36), the second motor (37) and milling cutter (38), installing frame (34) is fixedly connected with the output end of the second cylinder (32), and first motor (35) is fixed at installing frame (34) in, and the output end of first motor (35) is arranged straight down, and rotary shaft (36) is horizontally arranged at first motor (35) Output end on, the second motor (37) be arranged rotary shaft (36) end and the second motor (37) output end straight down Setting, milling cutter (38) are fixedly connected with the output end of the second motor (37).

6. a kind of glass door handle automatic manufacturing device according to claim 5, it is characterised in that: second transports component (6) include the electronic screw rod slide unit (39) of third, third support frame (40), third rotary cylinder (41), the second fixed frame (42), Third cylinder (43) and two scroll chucks (44), the electronic screw rod slide unit (39) of third are fixed on workbench (1), Third support frame (40) is vertically arranged on the sliding block of the electronic screw rod slide unit (39) of third, third rotary cylinder (41) fixed setting On the top of third support frame (40), the second fixed frame (42) is fixedly connected with the output end of third rotary cylinder (41), third Cylinder (43) is vertically arranged in the end of the second fixed frame (42), and scroll chuck (44) is solid with the output end of third cylinder (43) Fixed connection.

7. a kind of glass door handle automatic manufacturing device according to claim 6, it is characterised in that: the second jig component (7) include rotating mechanism (45), the 4th electronic screw rod slide unit (46), the second tool frame (47) and and fixed mechanism, the rotation Rotation mechanism (45) includes bearing frame (48), third motor (49), driving gear (50), driven gear (51) and rotary column (52), Bearing frame (48) is arranged on workbench (1), and third motor (49) is fixed in bearing frame (48), driving gear (50) with The output end of third motor (49) is fixedly connected, and driven gear (51) engages connection with driving gear (50), and rotary column (52) is vertical It is arranged on driven gear (51), and rotary column (52) passes through bearing frame (48) and extends to above bearing frame (48), the 4th is electronic Screw rod slide unit (46) is fixed at the top of rotary column (52), and the second tool frame (47) is fixed at the 4th electronic screw rod slide unit (46) on sliding block, fixed mechanism includes first mounting rack (53) of the setting in the second tool frame (47) side, the first installation The lateral of frame (53) is equipped with the 4th cylinder (54), and the output end of the 4th cylinder (54) is also fixedly installed with a pressing plate (55).

8. a kind of glass door handle automatic manufacturing device according to claim 7, it is characterised in that: cylinder loading assemblies It (8) include the 4th support frame (56) and feeding tube (57), the 4th support frame (56) is vertically arranged on workbench (1), feeding Pipe (57) is fixed at the top of the 4th support frame (56), and the end of feeding tube (57) is equipped with a blanking groove, feeding tube (57) end is also equipped with second mounting rack (58) an of inverse u shape, and the second mounting rack (58) top is fixedly installed with one The 5th cylinder (59) that output end is arranged straight down.

9. a kind of glass door handle automatic manufacturing device according to claim 8, it is characterised in that: the weld assembly It (9) include the 5th electronic screw rod slide unit (60), the 5th support frame (61), the 6th cylinder (62), third mounting rack (63) and weldering Connector (64), the 5th electronic screw rod slide unit (60) are fixed on workbench (1), and the 5th support frame (61) is inverted "L" shape knot Structure and the 5th support frame (61) is fixed on the sliding block of the 5th electronic screw rod slide unit (60), the fixed peace of the 6th cylinder (62) Mounted in the 5th support frame (61) end and the 5th support frame (61) be arranged horizontal by 30 degree of angles, third mounting rack (63) it is fixedly connected with the output end of the 6th cylinder (62), plumb joint (64) is detachably arranged on third mounting rack (63).

10. a kind of glass door handle automatic manufacturing device according to claim 9, it is characterised in that: the blanking component It (10) include the 6th electronic screw rod slide unit (65), the 6th support frame (66), the 4th rotary cylinder (67), third fixed frame (68), the 4th mounting rack (69) and two pneumatic clampers (70), the 6th electronic screw rod slide unit (65) are fixed on workbench (1), 6th support frame (66) is vertically arranged on the sliding block of the 6th electronic screw rod slide unit (65), and the 4th rotary cylinder (67) is vertically arranged On the top of the 6th support frame (66), third fixed frame (68) is fixedly connected with the output end of the 4th rotary cylinder (67), and the 4th Mounting rack (69) is vertically arranged in the end of third fixed frame (68), and pneumatic clamper (70) is fixedly mounted on the 4th mounting rack (69) On, the groove being engaged by clamping with cylinder is additionally provided in pneumatic clamper (70).