CN216303623U - Glass cup bottom rolling transmission device - Google Patents

Abstract

A glass cup bottom rolling transmission device comprises a motor, a chain wheel, a chain, a gear box, a transmission rod, a telescopic universal joint, a fixed body and a bevel gear, wherein a driven chain wheel, a front chain wheel and a fixed body are arranged in the middle of the transmission rod, the front chain wheel is connected with the rear chain wheel through a transverse chain, a transmission shaft is arranged on the rear chain wheel and is connected with a lower bevel gear, the lower bevel gear is connected with the lower part of a transmission column, the upper part of the transmission column is provided with a lower bevel gear and a telescopic universal joint, the right end of the telescopic universal joint is connected with a bevel gear, the left end of the telescopic universal joint is connected with the transmission bevel gear through the gear box, a rotating shaft is arranged on the transmission bevel gear, two ends of the rotating shaft are both provided with cup bottom molds, the front end of the fixed body is connected with a slide rail, the rear end of the fixed body is connected with a connecting plate, a cylinder is arranged on the connecting plate and is connected with the slide plate, the slide plate is connected with a sliding mechanism of a glass cup forming machine, the cup body chain wheels at the two ends of the transmission rod are respectively connected with the two machine heads of the glass cup forming machine.

Description

Glass cup bottom rolling transmission device

Technical Field

The utility model relates to a fitting on mechanical manufacturing equipment, in particular to a bottom rolling transmission device on glass forming machine equipment.

Background

Along with the development of society, the economic prosperous, the improvement of living standard, various teacup should be had to the utmost, and the glass receives people's favor with pleasing to the eye health, but in the in-process of making the glass because of the power that the bottom of cup mould pivoted is rotated to transmit to the bottom of cup mould by the friction of cup and bottom of cup mould and is rotatory, and the cup rotates with the bottom of cup mould friction and produces the skidding easily, so can appear the bottom of cup out of round or the inhomogeneous phenomenon of thickness, cause low in production efficiency, increase product cost's problem.

Disclosure of Invention

In order to overcome the defects of the problems, the utility model provides a glass cup bottom rolling transmission device, which realizes the opposite synchronous rotation of the rotation of a cup body and a cup bottom die through a mechanical transmission mechanism, wherein a front chain wheel and a cup body chain wheel are arranged on a transmission rod for the synchronous rotation of the cup bottom die and the cup body, the cup body chain wheel is connected with the cup body on a nose of a glass cup forming machine, and the front chain wheel is connected with the cup bottom die.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a glass cup bottom rolling transmission device comprises a motor, a chain wheel, a chain, a gear box, a transmission rod, a telescopic universal joint, a fixing body and a bevel gear, wherein the chain wheel is divided into a driving chain wheel, a driven chain wheel, a cup body chain wheel, a front chain wheel and a rear chain wheel, the bevel gear is divided into an upper bevel gear, a lower bevel gear and a transmission bevel gear, the upper bevel gear is divided into a bevel gear A and a bevel gear B, the lower bevel gear is divided into a bevel gear C and a bevel gear D, the transmission bevel gear is divided into a bevel gear E and a bevel gear F, and the chain is divided into a vertical chain and a horizontal chain.

A driven chain wheel, a front chain wheel and a fixed body are arranged in the middle of a transmission rod, cup body chain wheels are arranged at two ends of the transmission rod, the driven chain wheel is connected with a driving chain wheel on a lower motor through a vertical chain, the front chain wheel is connected with a rear chain wheel through a transverse chain, a transmission shaft is arranged on the rear chain wheel and is connected with a bevel gear C in a lower bevel gear, a transmission column is arranged between the lower bevel gear and an upper bevel gear, a bevel gear D is arranged at the lower part of the transmission column and is connected with the bevel gear C, a bevel gear A is arranged at the upper part of the transmission column and is connected with a bevel gear B, a telescopic universal joint is arranged on the bevel gear B, a rotating body is arranged on the telescopic universal joint, a left folding head and a right folding head are arranged at two ends of the telescopic universal joint, the right folding head is connected with the bevel gear B, the left folding head is connected with a bevel gear F in the transmission bevel gear through a gear box, and the bevel gear F is connected with the bevel gear E, a rotating shaft is arranged in the bevel gear E, and two ends of the rotating shaft are provided with cup bottom dies.

The front end of the fixed body is connected with the slide rail, the rear end of the fixed body is connected with the connecting plate, the connecting plate is provided with an air cylinder, a cylinder rod on the air cylinder is connected with the slide plate, the slide plate and the slide rail form a slide carriage, the slide plate is connected with a sliding mechanism of a glass cup forming machine, and cup body chain wheels at two ends of the transmission rod are respectively connected with two machine heads on the glass cup forming machine.

In order to synchronously rotate the cup bottom die and the cup body, a front chain wheel and a cup body chain wheel are arranged on the transmission rod, the cup body chain wheel is connected with the cup body on the machine head of the glass cup forming machine, and the front chain wheel is connected with the cup bottom die.

The utility model has the following beneficial effects: the glass cup bottom rolling transmission device realizes the opposite synchronous rotation of the cup body and the cup bottom mold through the mechanical transmission mechanism, a front chain wheel and a cup body chain wheel are arranged on a transmission rod for the synchronous rotation of the cup bottom mold and the cup body, the cup body chain wheel is connected with the cup body on the head of a glass cup forming machine, the front chain wheel is connected with the cup bottom mold, the problem that the cup body and the cup bottom mold slip in the friction transmission process is solved, and the problems of out-of-round cup bottom and uneven thickness are solved.

Drawings

The utility model is further illustrated by the following figures and examples.

Fig. 1 is a schematic diagram of the structural principle of the present invention.

Fig. 2 is a schematic structural view of the telescopic universal joint of the present invention.

Fig. 3 is a schematic view of the structure of the transmission bevel gear of the present invention.

Fig. 4 is a diagram of an embodiment of the present invention.

In the figure, 1, a telescopic universal joint, 2, a fixed body, 3, a connecting plate, 4, a bevel gear A, a bevel gear B, 5, a cup body chain wheel, 6, an air cylinder, 7, a transmission column, 8, a rear chain wheel, 9, a bevel gear C, a bevel gear D, 10, a transmission shaft, 11, a transverse chain, 12, a front chain wheel, 13, a driving chain wheel, 14, an electric motor, 15, a vertical chain, 16, a transmission rod, 17, a driven chain wheel, 18, a sliding rail, 19, a sliding plate, 20, a rotating shaft, 21, a cup bottom die, 22, a gear box, 23, a bevel gear E, a bevel gear F, 24, a left folding head, 25, a rotating body, 26, a right folding head and 27 are arranged.

Detailed Description

In fig. 1, a glass cup bottom-rolling transmission device comprises a motor 14, a chain wheel, a chain, a gear box 22, a transmission rod 16, a telescopic universal joint 1, a fixed body 2 and bevel gears, wherein the chain wheel is divided into a driving chain wheel 13, a driven chain wheel 17, a cup body chain wheel 5, a front chain wheel 12 and a rear chain wheel 8, the bevel gears are divided into an upper bevel gear, a lower bevel gear and a transmission bevel gear, the upper bevel gear is divided into a bevel gear A4 and a bevel gear B4, the lower bevel gear is divided into a bevel gear C9 and a bevel gear D9, the transmission bevel gear is divided into a bevel gear F and a bevel gear E, and the chain is divided into a vertical chain 15 and a horizontal chain 11.

A driven sprocket 17, a front sprocket 12 and a fixed body 2 are arranged in the middle of a transmission rod 16, cup sprockets 5 are arranged at both ends of the transmission rod 16, the driven sprocket 17 is connected with a driving sprocket 13 on a lower motor 14 through a vertical chain 15, the front sprocket 12 is connected with a rear sprocket 8 through a horizontal chain 11, a transmission shaft 10 is arranged on the rear sprocket 8, the transmission shaft 10 is connected with a bevel gear C9 in a lower umbrella-shaped gear, a transmission column 7 is arranged between the lower umbrella-shaped gear and an upper umbrella-shaped gear, a bevel gear D9 is arranged at the lower part of the transmission column 7, a bevel gear D9 is connected with a bevel gear C9, a bevel gear A4 is arranged at the upper part of the transmission column 7, a bevel gear A4 is connected with a bevel gear B4, a telescopic universal joint 1 is arranged on the bevel gear B4, a rotating body is arranged on the telescopic universal joint 1, a left folding head and a right folding head are arranged at both ends of the telescopic universal joint 1, and a right folding head is connected with a bevel gear B4, the left folding head is connected with a bevel gear F in a transmission bevel gear through a gear box 22, the bevel gear F is connected with the bevel gear E, a rotating shaft 20 is installed in the bevel gear E, and two ends of the rotating shaft 20 are both provided with cup bottom dies 21.

The front end of the fixed body 2 is connected with a slide rail 18, the rear end of the fixed body is connected with a connecting plate 3, an air cylinder 6 is arranged on the connecting plate 3, a cylinder rod on the air cylinder 6 is connected with a slide plate 19, the slide plate 19 and the slide rail 18 form a slide carriage, the slide plate is connected with a sliding mechanism of a glass cup forming machine, and cup body chain wheels 5 at two ends of a transmission rod are respectively connected with two machine heads of the glass cup forming machine.

In fig. 2, a rotary body 25 is attached to the telescopic universal joint 1, and a left knuckle 24 and a right knuckle 26 are attached to both ends of the telescopic universal joint 25.

In fig. 3, the transmission bevel gear is divided into a bevel gear E23 and a bevel gear F23, the bevel gear E23 is provided with the rotating shaft 20, and the bevel gear F23 is provided with the left folding head 24 on the telescopic universal joint 1.

In fig. 4, a sliding plate 19, two cup body chain wheels 5 and a cup bottom die 21 are connected with a glass cup forming machine, the sliding plate is connected with a sliding mechanism 27 in the glass cup forming machine, the two cup body chain wheels are connected with two main machines in the glass cup forming machine, the cup bottom die is molded on the glass cup body, the cup bottom die and the glass cup body oppositely and synchronously rotate, the sliding plate moves forwards under the action of an air cylinder, the cup bottom die and the cup body oppositely and synchronously rotate, and the rotating cup bottom die rolls and presses the rotary and molten softened glass cup bottom into a circular cup bottom with the same size and diameter as the cup body.

The above description is only an example of the present invention and is not intended to limit the scope of the present invention, and all modifications of equivalent structures or equivalent processes and other related fields of technology that can be directly or indirectly implemented by using the contents of the specification, claims and drawings of the present invention are included in the scope of the present invention.

Claims (3)

1. The utility model provides a glass cup rolls end transmission, including motor (14), the sprocket, the chain, gear box (22), transfer line (16), flexible universal joint (1), fixed body (2) and umbrella type gear, the sprocket divide into drive sprocket (13), driven sprocket (17), cup sprocket (5), preceding sprocket (12) and rear sprocket (8), umbrella type gear divide into umbrella type gear, lower umbrella type gear and transmission umbrella type gear, it divide into bevel gear (A4) and bevel gear (B4) to go up umbrella type gear, lower umbrella type gear divide into bevel gear (C9) and bevel gear (D9), transmission umbrella type gear divide into bevel gear (E23) and bevel gear (F23), the chain divide into vertical chain (15) and horizontal chain (11), characterized by: a driven chain wheel (17), a front chain wheel (12) and a fixed body (2) are arranged in the middle of a transmission rod (16), the front chain wheel (12) is connected with a rear chain wheel (8) through a transverse chain (11), a transmission shaft (10) is arranged on the rear chain wheel (8), the transmission shaft (10) is connected with a bevel gear (C9) in a lower bevel gear, a transmission column (7) is arranged between the lower bevel gear and an upper bevel gear, a bevel gear (D9) is arranged at the lower part of the transmission column (7), a bevel gear (D9) is connected with a bevel gear (C9), a bevel gear (A4) is arranged at the upper part of the transmission column (7), a bevel gear (A4) is connected with a bevel gear (B4), a telescopic universal joint (1) is arranged on the bevel gear (B4), a rotating body is arranged on the telescopic universal joint (1), a left folding head and a right folding head are arranged at two ends of the telescopic universal joint (1), and a right folding head is connected with a bevel gear (B4), the left folding head is connected with a bevel gear F in a transmission bevel gear through a gear box (22), the bevel gear F is connected with the bevel gear E, a rotating shaft (20) is installed in the bevel gear E, cup bottom dies (21) are installed at two ends of the rotating shaft (20), the front end of a fixed body (2) is connected with a sliding rail (18), the rear end of the fixed body is connected with a connecting plate (3), an air cylinder (6) is installed on the connecting plate (3), a cylinder rod on the air cylinder (6) is connected with a sliding plate (19), the sliding plate (19) and the sliding rail (18) form a sliding carriage, the sliding plate is connected with a sliding mechanism of a glass cup forming machine, and cup body chain wheels (5) at two ends of the transmission rod are respectively connected with two machine heads of the glass forming machine.

2. A glass roller bottom drive as in claim 1 wherein: cup body chain wheels (5) are mounted at two ends of the transmission rod (16).

3. A glass roller bottom drive as in claim 1 wherein: the driven chain wheel (17) is connected with a driving chain wheel (13) on a lower motor (14) by a vertical chain (15).

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