CN202148244U - Full-automatic multi-station glass bottle making machine - Google Patents

Abstract

A full-automatic multi-station glass bottle making machine comprises a rack (1), a primary die mechanism (3), a turning mechanism (3) and a multi-station die forming mechanism, wherein the primary die mechanism (2), the turning mechanism (3) and the multi-station die forming mechanism are installed on the rack (1). The full-automatic multi-station glass bottle making machine has the advantages of reasonable design, high automatic degree and low manufacturing cost, and has the superiorities of obvious energy-saving, time-saving and labor-saving properties compared with a determinant bottle making machine, a semi-automatic bottle making machine and a manual bottle making machine, and compared with the existing determinant bottle making machine, as the die forming mechanism of the bottle making machine is provided with multiple stations, the finished product is cooled naturally, and 70% of power consumption caused by a fan can be saved, for example, one 8-row-8-line bottle making machine can save 0.52m kw of electricity in one year. Compared with the semi-automatic bottle making machine, the bottle making machine has the advantages that 14 workers are needed, and operators can be free of high temperature and high intensity.

Description

Full-automatic multistation glass bottle-making machine

Technical field

The utility model relates to glass bottle-making machine field.Relate in particular to full-automatic multistation glass bottle-making machine.

Background technology

At present; Domestic is the mode of the glass bottle from the world; What all adopt is individual section machine, semi-automatic bottle-making machine and complete manual system bottle etc.: individual section machine, individual section machine mainly by the single station that tear drop is processed as the material base blank just mold mechanism, the material base blank is turned over the switching mechanism of turnback to moulding machine structure and single station moulding machine structure that the material base blank is blow molded into finished product is formed, after its weak point is that the material base blank is blow molded into finished product in single station moulding machine structure; The temperature of its finished product is very high; The cooling finished product needs big blower fan to force the blowing heat radiation, and system bottle energy consumption is high, and a Dan Zuxu is equipped with 10kw with fan; Some special-shaped bottle ranks bottle-making machine can't be accomplished simultaneously.Complete manual bottle-making machine everything is all accomplished with artificial, and labour intensity is big, and envrionment temperature is very high, the time-consuming effort of taking a lot of work; Semi-automatic bottle-making machine is meant the simple bottle-making machine that the material base blank is blow molded into finished product; Just a kind of independently moulding machine structure; Generally being multi-work-station, is to go to semi-automatic bottle-making machine through manual material base blank with the mold mechanism processing just of single station to be blow molded into finished product again during its work.Level of automation is low.

The utility model content

The purpose of the utility model is exactly to the existing above-mentioned deficiency of glass bottle-making machine, and a kind of full-automatic multistation glass bottle-making machine is provided.

The utility model is made up of frame, first mold mechanism, switching mechanism and multi-work-station moulding machine structure; Just mold mechanism, switching mechanism and multi-work-station moulding machine structure are installed on the frame.

Multi-work-station moulding machine structure is by support, rotating disk mechanism, just blow that jaw mechanism is embraced by mechanism, one group and one group of mould seat constitutes; Rotating disk mechanism is made up of top rotary table, lower rotary table, passive transmitting gear, main drive gear, step-down gear, servomotor, hollow poling bobbin, swivel joint; Hollow poling bobbin is installed on the support through bearing and chock; Lower rotary table is provided with hollow column; In the hollow column of lower rotary table, the power shaft of servomotor links to each other with the main drive gear transmission through step-down gear hollow poling bobbin through bearing and bearing sleeve, and main drive gear and passive transmitting gear mesh; Passive transmitting gear and lower rotary table are connected, and top rotary table is fixedly mounted on the hollow column of lower rotary table; One group of mould seat and one group are embraced jaw mechanism and are installed in respectively on the top rotary table, are just blowing mechanism and are being installed on the frame of full-automatic multistation glass bottle-making machine.Swivel joint is installed on the hollow poling bobbin.

Multi-work-station moulding machine structure just blow mechanism by carriage, just blow cylinder, blow head, screw mandrel, rotating disk, oscillating cylinder, chock constitutes; The cylinder of just blowing is fixed on the carriage, and blow head is installed on the piston rod of the cylinder of just blowing, and carriage and screw mandrel are fixedly linked; Screw mandrel is installed in through bearing and chock on the frame of full-automatic multistation glass bottle-making machine, and rotating disk is installed on the screw mandrel through flat key, and the piston rod and the rotating disk of oscillating cylinder are movably connected; Rotating disk is fixedly mounted on the screw mandrel, and it also has the screw mandrel arrangement for adjusting height, and arrangement for adjusting height is made up of nut, set nut and nut locating sleeve; Nut and set nut and nut wire rod thread match; Set nut is pressed on the nut, and the nut locating sleeve is fixedly mounted on the chock, and is pressed on the location bank of nut.

Multi-work-station moulding machine structure embrace jaw mechanism by cylinder, shift fork, back shaft, duplicate gear, reversing gear, a left side embrace the pincers gear, rightly embrace pincers gear, solid shaft, tubular shaft, embrace the pincers seat, pincers are embraced on a left side and the right pincers of embracing constitute; Cylinder is installed in through cylinder block on the lower rotary table of full-automatic multistation glass bottle-making machine, and the piston rod and the shift fork of cylinder are movably connected, and shift fork is fixedly mounted on the axle of duplicate gear; One end of duplicate gear back shaft is installed on the lower rotary table; The other end is installed in through bearing on the top rotary table of multi-work-station moulding machine structure, and duplicate gear is meshed with the right pincers gear of embracing, and a left side is embraced the pincers gear and is meshed with duplicate gear through reversing gear; A left side is embraced the pincers gear and is fixedly mounted on the solid shaft; The right pincers gear of embracing is fixedly mounted on the tubular shaft, and hollow shaft sleeve is contained on the solid shaft, and is installed on armful pincers seat through bearing; Embracing the pincers seat installs on the top rotary table of multi-work-station moulding machine structure; Left armful of pincers are embraced the spline that clamps on the axle through a left side and are fixed in the spline housing of solid shaft, and the right side armful pincers are embraced to clamp through the right side and are sleeved on the solid shaft, and right armful is clamped cover and be fixed in the spline of tubular shaft through spline.

The utility model has the advantages that: this full-automatic multistation glass bottle-making machine is reasonable in design, and level of automation is high, low cost of manufacture.All has advantage significantly energy-conservation, time saving and energy saving saving of labor than individual section machine, semi-automatic bottle-making machine and complete manual system bottle; With existing row bottle-making machine (single station moulding machine structure) ratio, because the moulding machine structure of this bottle-making machine is a multi-work-station, the finished product naturally cooling reduces by 70% blower fan electricity consumption, like 8 groups of ranks bottle-making machines economize on electricity in a year 520000 kw.With semi-automatic bottle-making machine relatively, this bottle-making machine can be practiced thrift artificial 14 people, can from high temperature, high muscle power, free a line system bottle operator.

Description of drawings

Accompanying drawing 1 is the utility model structural representation.

Accompanying drawing 2 is accompanying drawing 1 a plan structure synoptic diagram.

Accompanying drawing 3 is for just blowing the mechanism structure synoptic diagram.

Accompanying drawing 4 is accompanying drawing 3 plan structure synoptic diagram.

Accompanying drawing 5 is armful jaw mechanism structural representation of multi-work-station moulding machine structure.

Accompanying drawing 6 is accompanying drawing 5 structure schematic top plan view.

Embodiment

With full-automatic four station glass bottle-making machines is example, and it is made up of frame 1, first mold mechanism 2, switching mechanism 3 and four station moulding machine structures; Just mold mechanism 2, switching mechanism 3 and four station moulding machine structures are installed on the frame 1, see Fig. 1, Fig. 2.

Four station moulding machine structures are by support 4, rotating disk mechanism, just blow that jaw mechanisms 15 are embraced by mechanism 16, four and four mould seats constitute; Rotating disk mechanism is made up of top rotary table 7, lower rotary table 8, passive transmitting gear 9, main drive gear 10, step-down gear, servomotor 12, hollow poling bobbin 13, swivel joint 14; Hollow poling bobbin 13 is installed on the support 4 through bearing and chock; Lower rotary table 8 is provided with hollow column; In the hollow column of lower rotary table 8, the power shaft of servomotor 12 links to each other with main drive gear 10 transmissions through step-down gear hollow poling bobbin 13 through bearing and bearing sleeve, and main drive gear 10 meshes with passive transmitting gear 9; Passive transmitting gear 9 is connected with lower rotary table 8, and top rotary table 7 is fixedly mounted on the hollow column of lower rotary table 8; Four mould seats and four embrace jaw mechanisms 15 and are installed in respectively on the top rotary table 7, are just blowing on the top rotary table 7 that mechanism 16 is installed in full-automatic four station glass bottle-making machines, and swivel joint 14 is installed on the hollow poling bobbin 13, sees Fig. 1, Fig. 2.

Four station moulding machine structures just blow mechanism 16 by carriage 1A, just blow cylinder 10A, blow head 11A, screw mandrel 2A, rotating disk 4A, oscillating cylinder 12A, chock 9A constitutes; The cylinder 10A that just blowing is fixed on the carriage 1A, and blow head 11A is installed on the piston rod of the cylinder 10A that just blows, and carriage 1A and screw mandrel 2A are fixedly linked; Screw mandrel 2A is installed on the frame 1 of full-automatic four station glass bottle-making machines through bearing and chock 9A; Rotating disk 4 is installed on the screw mandrel 2A through flat key, and the piston rod of oscillating cylinder 12A and rotating disk 4A are movably connected, and rotating disk 4A is fixedly mounted on the screw mandrel 2A; It also has the screw mandrel arrangement for adjusting height; Arrangement for adjusting height is made up of nut 7A, set nut 8A and nut locating sleeve 6A, and nut 7A and set nut 8A and nut 7A screw mandrel 2A screw thread match, and set nut 8A is pressed on the nut 7A; Nut locating sleeve 6A is fixedly mounted on the chock 9A, and is pressed on the location bank of nut 7A.See Fig. 3, Fig. 4.

Multi-work-station moulding machine structure embrace jaw mechanism 15 by cylinder 2B, shift fork 3B, back shaft 4B, duplicate gear 5B, reversing gear 6B, a left side embrace pincers gear 7B, rightly embrace pincers gear 8B, solid shaft 9B, tubular shaft 10B, embrace a pincers seat 11B, pincers 12B is embraced on a left side and the right pincers 13B that embraces constitutes; Cylinder 2B is installed on the lower rotary table 8 of full-automatic multistation glass bottle-making machine through cylinder block; The piston rod of cylinder 2B and shift fork 3B are movably connected; Shift fork 3B is fixedly mounted on the axle of duplicate gear 5B, and an end of duplicate gear 5B back shaft is installed on the lower rotary table 8, and the other end is installed on the top rotary table 7 of multi-work-station moulding machine structure through bearing; Duplicate gear 5B is meshed with the right pincers gear 8B that embraces; A left side is embraced pincers gear 7B and is meshed with duplicate gear 5B through reversing gear 6B, and a left side is embraced pincers gear 7B and is fixedly mounted on the solid shaft 9B, and the right pincers gear 8B that embraces is fixedly mounted on the tubular shaft 10B; Tubular shaft 10B is sleeved on the solid shaft 9B; And be installed in through bearing and embrace on the pincers seat 11B, to embrace a pincers seat 11B and install on the top rotary table 7 of multi-work-station moulding machine structure, a left side is embraced the spline that a pincers 12B embraces on the pincers axle 12-1B through a left side and is fixed in the spline housing of solid shaft 9B; Right armful of pincers 13B embraces pincers cover 13-1B through the right side and is sleeved on the solid shaft 9B, and right armful of pincers cover 13-1B is fixed in the spline of tubular shaft 10B through spline.See Fig. 5, Fig. 6.

Just the jaw mechanism of embracing of mold mechanism 4 is also embraced jaw mechanism for this machine; Cylinder 2B is installed on the frame 1 of full-automatic four station glass bottle-making machines through cylinder block; One end of duplicate gear 5B axle is movably arranged on the pillar stiffener 4B; The other end is installed in through bearing on the frame 1 of full-automatic four station glass bottle-making machines, and pillar stiffener 4B, an armful pawl seat 11B also are installed on the frame 1 of full-automatic four station glass bottle-making machines.See Fig. 1, Fig. 2.

Switching mechanism 3 is commercially available.Mainly by support, trip shaft, upset cylinder, a pair of chuck with drive a pair of chuck and do the driving mechanism of open and close movement and form; Trip shaft is rack-mount; A pair of chuck is installed on the trip shaft; Trip shaft links to each other with piston rod gear, the rack gear of upset cylinder, and the upset cylinder makes a pair of chuck do flip-flop movement.Driving mechanism makes a pair of chuck do open and close movement.

Installation and application: tracheae and electric wire are installed in deciding on the ring of swivel joint 14, avoid dial rotation to twine pipeline.Cylinder, motor are electrically connected with system.

Mode of operation: the glass tear drop through single station just mold mechanism be processed into the material base blank, switching mechanism is with material base blank flip horizontal 180 degree to four stations (four stations are in regular turn for just blowing station, cooling station I, cooling station II and opening to clamp and get a bottle station) moulding machine structure.The material base blank is just being blown the station blow molding, after cooling station I, cooling station II are cooled to 320-350 ℃, get a bottle station and gets bottle to driving pincers.

Claims (4)

1. full-automatic multistation glass bottle-making machine is characterized in that it is made up of frame (1), first mold mechanism (2), switching mechanism (3) and multi-work-station moulding machine structure; Just mold mechanism (2), switching mechanism (3) and multi-work-station moulding machine structure are installed on the frame (1).

2. full-automatic multistation glass bottle-making machine according to claim 1; It is characterized in that multistation moulding machine structure is by support (4), rotating disk mechanism, just blow that jaw mechanism (15) is embraced by mechanism (16), one group and one group of mould seat constitutes; Rotating disk mechanism is made of top rotary table (7), lower rotary table (8), passive transmitting gear (9), main drive gear (10), reductor, servomotor (12), hollow poling bobbin (13), swivel joint (14); Hollow poling bobbin (13) is installed on the support (4) by bearing and bearing block; Lower rotary table (8) is provided with hollow column; In the hollow column of lower rotary table (8), the line shaft of servomotor (12) links to each other with main drive gear (10) transmission by reductor hollow poling bobbin (13) by bearing and bearing sleeve, main drive gear (10) and passive transmitting gear (9) engagement; Passive transmitting gear (9) is connected with lower rotary table (8), and top rotary table (7) is fixedly mounted on the hollow column of lower rotary table (8); One group of mould seat and one group are embraced jaw mechanism (15) and are installed in respectively on the top rotary table (7), are just blowing mechanism (16) and are being installed on the frame (1) of full-automatic multistation glass bottle-making machine, and swivel joint (14) is installed on the hollow poling bobbin (13).

3. full-automatic multistation glass bottle-making machine according to claim 2, what it is characterized in that multi-work-station moulding machine structure just blows mechanism (16) by carriage (1A), just blow cylinder (10A), blow head (11A), screw mandrel (2A), rotating disk (4A), oscillating cylinder (12A), chock (9A) constitutes; The cylinder (10A) of just blowing is fixed on the carriage (1A), and blow head (11A) is installed on the piston rod of the cylinder of just blowing (10A), and carriage (1A) is fixedly linked with screw mandrel (2A); Screw mandrel (2A) is installed on the frame (1) of full-automatic multistation glass bottle-making machine through bearing and chock (9A); Rotating disk (4) is installed on the screw mandrel (2A) through flat key, and the piston rod of oscillating cylinder (12A) and rotating disk (4A) are movably connected, and rotating disk (4A) is fixedly mounted on the screw mandrel (2A); It also has the screw mandrel arrangement for adjusting height; Arrangement for adjusting height is made up of nut (7A), set nut (8A) and nut locating sleeve (6A), and nut (7A) and set nut (8A) match with nut (7A) screw mandrel (2A) screw thread, and set nut (8A) is pressed on the nut (7A); Nut locating sleeve (6A) is fixedly mounted on the chock (9A), and is pressed on the location bank of nut (7A).

4. full-automatic multistation glass bottle-making machine according to claim 3; It is characterized in that multi-work-station moulding machine structure embrace jaw mechanism (15) by cylinder (2B), shift fork (3B), back shaft (4B), duplicate gear (5B), reversing gear (6B), a left side embrace pincers gear (7B), rightly embrace pincers gear (8B), solid shaft (9B), tubular shaft (10B), embrace pincers seats (11B), a left side embraces pincers (12B) and right pincers (13B) formation of embracing; Cylinder (2B) is installed on the lower rotary table (8) of full-automatic multistation glass bottle-making machine through cylinder block; The piston rod of cylinder (2B) and shift fork (3B) are movably connected; Shift fork (3B) is fixedly mounted on the axle of duplicate gear (5B), and an end of duplicate gear (5B) back shaft is installed on the lower rotary table (8), and the other end is installed on the top rotary table (7) of multi-work-station moulding machine structure through bearing; Duplicate gear (5B) is meshed with the right pincers gears (8B) of embracing; A left side is embraced pincers gears (7B) and is meshed with duplicate gear (5B) through reversing gear (6B), and a left side is embraced pincers gears (7B) and is fixedly mounted on the solid shaft (9B), and the right pincers gears (8B) of embracing are fixedly mounted on the tubular shaft (10B); Tubular shaft (10B) is sleeved on the solid shaft (9B); And be installed in through bearing and embrace on the pincers seats (11B), to embrace pincers seats (11B) and install on the top rotary table (7) of multi-work-station moulding machine structure, a left side is embraced the spline that pincers (12B) embrace on the pincers spool (12-1B) through a left side and is fixed in the spline housing of solid shaft (9B); The right pincers (13B) of embracing are sleeved on the solid shaft (9B) through the right pincers covers (13-1B) of embracing, and the right pincers covers (13-1B) of embracing are fixed in the spline of tubular shaft (10B) through spline.

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