CN219136650U - Novel glass bottle bottleneck shaping device - Google Patents

Abstract

The utility model provides a novel glass bottle bottleneck is moulded device, relate to moulding equipment technical field, it includes the device platform, device frame is established on the device platform, the crossbearer lead screw on the device frame, lead screw one end is connected with motor one, establish positive screw and reverse screw on the lead screw, install screw thread section of thick bamboo one and screw thread section of thick bamboo two on positive screw and the reverse screw thread, screw thread section of thick bamboo one and screw thread section of thick bamboo respectively through connecting rod one and connecting rod two with spacing sliding sleeve one and spacing sliding sleeve two are connected with the slide bar, screw thread section of thick bamboo one and screw thread section of thick bamboo respectively through motor two and bearing and drive lever one and drive lever two are connected, the cover has master gear and pinion on drive lever one and the outer wall of drive lever two, master gear and pinion pass through the drive belt and are connected, mould shape dish one and mould shape dish two on shape dish two, establish spacing post between shape dish one and the shape dish two. The novel glass bottle bottleneck shaping device utilizes the positive and negative threads of the screw rod, so that the purpose of adjusting the shaping width of the glass bottle bottleneck is achieved.

Description

Novel glass bottle bottleneck shaping device

Technical field:

the utility model relates to the technical field of shaping equipment, in particular to a novel glass bottle opening shaping device.

The background technology is as follows:

in the production process of medicinal glass bottles, raw materials are blown and drawn into glass tubes, then ports of glass are shaped, the glass tubes are cut off according to the length required by the medicinal glass bottles, and so on, the conventional glass bottle opening shaping equipment cannot adjust the width of the bottle opening shaping, so that one equipment is only suitable for producing glass bottles of one model, the production requirement is not met, and the production efficiency is reduced.

The utility model comprises the following steps:

the utility model aims to overcome the defects in the prior art, and provides a novel glass bottle opening shaping device which not only can shape a glass bottle opening uniformly, but also can adjust the width of a shaping port, and is suitable for the production of glass bottles of different types.

In order to solve the problems existing in the background technology, the utility model adopts the following technical scheme: the device comprises a device table, wherein a device frame is vertically arranged on the device table, a screw rod is arranged on the device frame in a transverse frame, one end of the screw rod is connected with the device frame through a first motor, the other end of the screw rod is connected with the device frame through a bearing, a positive thread and a negative thread are respectively arranged on the left and right rod walls of the screw rod, a first thread cylinder and a second thread cylinder are respectively arranged on the positive thread and the negative thread, the outer walls of the same sides of the first thread cylinder and the second thread cylinder are respectively connected with a first limit sliding sleeve and a second limit sliding sleeve through a first connecting rod and a second connecting rod, the first limit sliding sleeve and the second limit sliding sleeve are in sliding connection with a sliding rod, the upper ends of the first thread cylinder and the second thread cylinder are respectively connected with a first driving rod and a second driving rod through a second motor and a bearing, a main gear and a secondary gear are respectively sleeved on the outer walls of the first driving rod and the second driving rod, the first driving rod and the second driving rod are respectively fixedly connected with a first shaping disk and a second shaping disk, a limit column is arranged between the first shaping disk and the second shaping disk, and the second limit column is arranged on the bottom end of the limit column, and the load-bearing table is connected with the device table through a support frame.

The thread directions of the positive thread and the reverse thread are opposite.

The sliding rod on set up the spout, spacing sliding sleeve one and spacing sliding sleeve two in all be cavity structure and be equipped with spacing sliding rod, the sliding rod passes spacing sliding sleeve one and spacing sliding sleeve two in proper order, spacing sliding rod insert in the spout with spout sliding connection.

The device table is provided with a controller, and the controller is connected with the first motor and the second motor through wires.

And a glass tube is inserted into the limiting column.

The utility model has the beneficial effects of simple structure and convenient use, and realizes the functions of mutually approaching and mutually separating the two shaping discs by utilizing the positive and negative threads of the screw rod, thereby achieving the purpose of adjusting the shaping width of the bottle mouth of the glass bottle and being convenient for the production of glass bottles of different types.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a diagram showing the connection relation between the first limiting sliding sleeve and the second limiting sliding sleeve and the sliding rod;

FIG. 4 is a block diagram of a first and second tube stop sleeve of the present utility model;

FIG. 5 is a block diagram of a slide bar of the present utility model.

The specific embodiment is as follows:

referring to the drawings, the present utility model specifically adopts the following embodiments: comprises a device table 1, a device frame 18 is vertically arranged on the device table 1, a screw rod is transversely arranged on the device frame 18, one end of the screw rod is connected with the device frame 18 through a first motor 2, the other end of the screw rod is connected with the device frame 18 through a bearing, a positive thread 3 and a negative thread 16 are respectively arranged on the left and right rod walls of the screw rod, a thread cylinder I4 and a thread cylinder II 15 are respectively arranged on the positive thread 3 and the negative thread 16, the outer walls of the same side of the thread cylinder I4 and the thread cylinder II 15 are respectively connected with a first limit sliding sleeve 21 and a second limit sliding sleeve 22 through a first connecting rod 19 and a second connecting rod 23, the first limit sliding sleeve 21 and the second limit sliding sleeve 22 are in sliding connection with a sliding rod 20, the upper ends of the first thread cylinder 4 and the second thread cylinder 15 are respectively connected with the first driving rod 6 and the second driving rod 12 through a second motor 5 and a bearing, a main gear 7 and a secondary gear 14 are respectively sleeved on the outer walls of the first driving rod 6 and the second driving rod 12, the main gear 7 and the secondary gear 14 are connected through a transmission belt 13, the top ends of the first driving rod 6 and the second driving rod 12 are respectively fixedly connected with the first shaping disk 8 and the second shaping disk 11, a limit column 9 is arranged between the first shaping disk 8 and the second shaping disk 11, and a bearing table 10 at the bottom end of the limit column 9 is connected with the device table 1 through a support frame 17. The thread directions of the positive thread 3 and the reverse thread 16 are opposite. The sliding rod 20 on set up spout 25, spacing sliding sleeve one 21 and spacing sliding sleeve two 22 in all be the cavity structure and be equipped with spacing sliding rod 26, sliding rod 20 pass spacing sliding sleeve one 21 and spacing sliding sleeve two 22 in proper order, spacing sliding rod 26 insert in spout 25 with spout 25 sliding connection. The device table 1 is provided with a controller 24, and the controller 24 is connected with the motor I2 and the motor II 5 through wires. And a glass tube is inserted into the limit column 9.

The utility model discloses a glass bottle bottleneck shaping device during operation, last station is soft with the port heating of glass pipe, rotatory motor drive glass pipe limit on the recycle station is rotatory, on this shaping station is rotated to limit post 9 to the limit of limit, rely on lifting device to descend the glass pipe, until the port of glass pipe offsets with bearing platform 10, utilize controller 14 start motor one 2 and motor two 5, motor one 2 and motor two 5 drive respectively rather than the lead screw and the first 8 rotations of actuating lever that connect, the lead screw is at the in-process of pivoted, because the screw direction of positive thread 3 and reverse thread 16 is opposite, then screw mandrel outer wall cover has screw mandrel one 4 and screw mandrel two 15 are close to each other along with the rotation of lead screw, in screw mandrel one 4 and screw mandrel two 15 are close to each other, then actuating lever one 8 drives actuating lever two 12 through drive belt 13 and rotate together, then the shaping dish one 8 on actuating lever two 12 top and shaping dish two 11 limit are close to each other along with the rotation, glass pipe one 8 and shaping dish two 11 and glass pipe one side that are connected are continuous with each other through 360 degrees rotation of rotating motor, the shaping dish one 8 and shaping dish one side is connected with the glass pipe one, the shaping dish one is continuous with the glass pipe 11 side is shaped along with the rotation of the mouth of a glass pipe 11, and the shaping neck is shaped along with the first glass pipe side of a glass pipe is shaped, and the shaping neck is continuous.

The effect of the limiting column 9 is adopted, namely the approaching distance between the first shaping disc 8 and the second shaping disc 11 is limited, the first shaping disc 8 and the second shaping disc 11 are prevented from approaching all the time, the hot melting positions of the ports of the glass tubes are bonded together, after the shaping operation is completed on the first shaping disc 8 and the second shaping disc 11, the first motor 2 is reversed, the first shaping disc 8 and the second shaping disc 11 are mutually far away, the next instruction is waited, and the lifting equipment pulls the shaped glass tubes to rise to leave the limiting column 9 and enter the next station for shaping.

In order to prevent the screw rod from moving along with the screw rod in a circular motion without approaching or separating from each other in the rotating process of the screw rod, the first threaded cylinder 4 and the second threaded cylinder 15 are connected with the first threaded cylinder 21 and the second threaded cylinder 22 through the first connecting rod 19 and the second connecting rod 23, the first threaded cylinder 21 and the second threaded cylinder 22 are connected with the sliding groove 25 of the sliding rod 20 through the first limiting sliding rod 26, the limiting sliding rod 26 is inserted into the sliding groove 25 to prevent the first threaded cylinder 21 and the second limiting sliding cylinder 22 from overturning, the hollow cavities in the first threaded cylinder 21 and the second threaded cylinder 22 and the sliding rod 20 are square, and in order to prevent the first threaded cylinder 21 and the second threaded cylinder 22 from overturning, the first threaded cylinder 4 and the second threaded cylinder 15 are limited to rotate through the first connecting rod 19 and the second connecting rod 23 by utilizing the relation of mutual restriction, and the first threaded cylinder 4 and the second threaded cylinder 15 can only move back and forth on the screw rod in a threaded relation and approach or separate from each other.

The number of turns of the first motor 2 can be adjusted, the distance between the first molding disc 8 and the second molding disc 11 is controlled, the purpose of width adjustment of the molding opening is achieved, the device is suitable for glass bottle production of different types, the equipment cost is saved, and the production efficiency is improved.

The first motor 2 and the second motor 5 are externally connected with a power supply or a battery box, so that power supply of the first motor 2 and the second motor 5 is ensured. The model number of the motor I2 and the motor II 5 is 180WD-M, and the manufacturer is Demark motor Limited in Guangzhou. The controller 24 controls the operation of the first motor 2 and the second motor 5.

To sum up, this novel glass bottle bottleneck shaping device simple structure, convenient to use utilizes the positive and negative screw thread of lead screw, has realized that two shaping discs are close to each other and the function that keeps away from each other to reached the purpose of adjusting the moulded width of glass bottle bottleneck, the production of the different model glass bottles of being convenient for.

Claims (5)

1. Novel glass bottle bottleneck is moulded device, its characterized in that: comprises a device table (1), a device frame (18) is vertically arranged on the device table (1), a screw rod is arranged on a transverse frame on the device frame (18), one end of the screw rod is connected with the device frame (18) through a first motor (2), the other end of the screw rod is connected with the device frame (18) through a bearing, a positive thread (3) and a negative thread (16) are respectively arranged on the left and right rod walls of the screw rod, a first thread (3) and a second thread (15) are respectively arranged on the positive thread (3) and the negative thread (16), the outer walls of the same side of the first thread (4) and the second thread (15) are respectively connected with a first limit sliding sleeve (21) and a second limit sliding sleeve (22) through a first connecting rod (19) and a second connecting rod (23), the first limit sliding sleeve (21) and the second limit sliding sleeve (22) are in sliding connection with a sliding rod (20), the upper ends of the first thread (4) and the second thread (15) are respectively connected with a first driving rod (6) and a second driving rod (12) through a second motor (5) and a bearing, a main gear (7) and a secondary gear (14) are respectively sleeved on the outer walls of the driving rod (6) and the second driving rod (12), and the main gear (7) and the secondary gear (14) are respectively connected through a transmission gear (13), the top ends of the driving rod I (6) and the driving rod II (12) are respectively fixedly connected with the molding disc I (8) and the molding disc II (11), a limiting column (9) is arranged between the molding disc I (8) and the molding disc II (11), and a bearing table (10) at the bottom end of the limiting column (9) is connected with the device table (1) through a supporting frame (17).

2. The novel glass bottle neck shaping device according to claim 1, wherein: the thread directions of the positive thread (3) and the reverse thread (16) are opposite.

3. The novel glass bottle neck shaping device according to claim 1, wherein: slide bar (20) on set up spout (25), spacing sliding sleeve one (21) and spacing sliding sleeve two (22) in all be cavity structure and be equipped with spacing slide bar (26), slide bar (20) pass spacing sliding sleeve one (21) and spacing sliding sleeve two (22) in proper order, spacing slide bar (26) insert in spout (25) with spout (25) sliding connection.

4. The novel glass bottle neck shaping device according to claim 1, wherein: the device table (1) is provided with a controller (24), and the controller (24) is connected with a first motor (2) and a second motor (5) through wires.

5. The novel glass bottle neck shaping device according to claim 1, wherein: and a glass tube is inserted into the limiting column (9).

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