CN215906093U - Electric glass bottle pinching nozzle roller - Google Patents

Abstract

The utility model discloses an electric glass bottle mouth pinching roller which comprises a base frame, a roller, a horizontal movement mechanism and a vertical movement mechanism, wherein the vertical movement mechanism can move in the vertical direction relative to the base frame through a cylinder, the horizontal movement mechanism can move in the horizontal direction relative to the vertical movement mechanism through a lead screw structure, the roller is connected to the horizontal movement mechanism, the horizontal movement mechanism is matched with the vertical movement mechanism to enable the roller to move in a curve, the curve is in accordance with a bottle mouth curve of a glass bottle, mouth pinching forming of the glass bottle is realized, the roller can be driven to move in different curves, so that different mouth shapes can be formed, and the manufacturing cost of a mold is reduced.

Description

Electric glass bottle pinching nozzle roller

Technical Field

The utility model relates to the technical field of glass bottle processing equipment, in particular to an electric glass bottle pinching nozzle roller.

Background

The bottleneck of glass bottle need be done and is held between fingers the mouth operation, and present process carries out the auxiliary forming through the mould to the bottleneck, and the mould has the curve identical with the bottleneck, and the movement track of gyro wheel is the same with this curve to hold between the fingers the mouth shaping to the bottleneck, nevertheless different bottlenecks have different curves, lead to making the mould that has different curves, and the cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electric glass bottle mouth pinching roller, wherein a horizontal movement mechanism and a vertical movement mechanism are matched to drive the roller to do curvilinear movement, so that mouths with different curves are automatically pinched and formed, the efficiency and the quality are improved, and the problem of high production and manufacturing cost caused by the fact that different mouths are formed by different molds is solved.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an electric glass bottle pinching nozzle roller comprises a base frame, a roller, a horizontal movement mechanism and a vertical movement mechanism;

the top of the base frame is provided with a working plate, the working plate is provided with a positioning plate and a positioning column which are oppositely arranged, and a horizontal movement mechanism and a vertical movement mechanism are arranged below the working plate;

the vertical movement mechanism can move vertically relative to the base frame through the cylinder;

the horizontal movement mechanism is in driving connection with the vertical movement mechanism;

the horizontal movement mechanism can move horizontally relative to the vertical movement mechanism through a screw rod structure;

the roller is connected with the horizontal movement mechanism.

From this, locating plate and reference column that set up relatively carry out spacing fixed to the glass bottle, horizontal motion mechanism and the cooperation of vertical motion mechanism make the gyro wheel can curvilinear motion, this curve accords with the bottle neck curve of glass bottle, the realization is held between the fingers the mouth shaping to the glass bottle, vertical motion mechanism drives through the cylinder, horizontal motion mechanism drives through the lead screw structure, the transmission is steady reliable, realize automatic holding between the fingers the mouth shaping, work efficiency is improved, the forming quality is improved, and horizontal motion mechanism and the cooperation of vertical motion mechanism can drive the gyro wheel with different curvilinear motions, thereby can carry out the shaping to different mouth shapes, reduce the manufacturing cost of mould.

In some embodiments, the vertical motion mechanism comprises a second frame;

the cylinder body of cylinder is connected in the bed frame, and the output of cylinder is connected in the second support body.

Therefore, the air cylinder drives the second frame body to move in the vertical direction.

In some embodiments, the horizontal movement mechanism comprises a first frame body, a screw rod, a nut block and a first motor, the screw rod is rotatably connected to a second frame body, the nut block is connected to the first frame body, the screw rod is in fit connection with the nut block, and the first motor is in drive connection with the screw rod.

Therefore, the first motor can drive the screw rod to rotate through the structures such as the toothed belt, the gear and the like, so that the first frame body is driven to move in the horizontal direction relative to the second frame body.

In some embodiments, the roller is attached to the first frame.

In some embodiments, the working plate is further provided with a groove, and the groove is arranged between the two positioning columns.

From this, the glass bottle is placed in the work board, and locating plate and reference column are located the both sides of glass bottle bottleneck respectively, carry on spacingly to the glass bottle, and then, the gyro wheel stretches out from the recess, kneads the mouth shaping to the bottleneck.

In some embodiments, one end of the positioning plate close to the positioning column is provided with a V-shaped groove.

In some embodiments, rollers are positioned below the grooves.

In some embodiments, the positioning device further comprises a heating block, and the heating block is positioned on one side of the working plate close to the positioning column.

Therefore, the heating block is connected with a heating device such as a fire tube, and the bottle mouth of the glass bottle can be heated.

In some embodiments, the working plate is connected with a cam and a projection, the cam is arranged on two sides of the positioning plate, the positioning plate is provided with a tail groove, and the projection is arranged in the tail groove.

Therefore, the positioning plate is limited in one direction by the convex block and limited in the other direction by the convex block and the tail groove, and the positioning plate is assembled

The utility model has the beneficial effects that: the horizontal movement mechanism and the vertical movement mechanism are matched with the driving roller to move in a curve mode, so that bottle mouths with different curves can be automatically pinched to form the mouth, the efficiency and the quality are improved, and the production and manufacturing cost is saved.

Drawings

FIG. 1 is a schematic diagram of an electric glass bottle pinching nozzle roller according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an exploded view of an electric glass bottle pinching nozzle roller according to the present invention;

wherein: 1-a roller; 2-a horizontal movement mechanism; 21-a first frame body; 22-a screw rod; 23-a nut block; 3-a vertical movement mechanism; 31-a second frame; 32-cylinder; 4, positioning a plate; 41-V-shaped grooves; 42-tail groove; 5-heating block; 6-base frame; 61-a working plate; 611-grooves; 62-a positioning column; 63-cam; 64-bump.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, an electric glass bottle pinching nozzle roller comprises a base frame 6, a roller 1, a horizontal movement mechanism 2 and a vertical movement mechanism 3;

the top of the base frame 6 is provided with a working plate 61, the working plate 61 is provided with a positioning plate 4 and a positioning column 62 which are oppositely arranged, and a horizontal movement mechanism 2 and a vertical movement mechanism 3 are arranged below the working plate 61;

the vertical movement mechanism 3 can move vertically relative to the base frame 6 through the air cylinder 32;

the horizontal movement mechanism 2 is in driving connection with the vertical movement mechanism 3;

the horizontal movement mechanism 2 can move horizontally relative to the vertical movement mechanism 3 through a screw rod structure;

the roller 1 is connected to a horizontal movement mechanism 2.

Glass bottle is placed on working plate 61, locating plate 4 and reference column 62 that set up relatively carry out spacing fixed to glass bottle, horizontal motion mechanism 2 makes gyro wheel 1 can curvilinear motion with the cooperation of vertical motion mechanism 3, this curve accords with the bottle neck curve of glass bottle, the realization is held between the fingers the mouth shaping to glass bottle, vertical motion mechanism 3 drives through cylinder 32, horizontal motion mechanism 2 drives through lead screw 22 structure, the transmission is steady reliable, realize automatic mouthful shaping of holding between the fingers, the work efficiency is improved, the shaping quality is improved, horizontal motion mechanism 2 can drive gyro wheel 1 with different curvilinear motion with the cooperation of vertical motion mechanism 3, thereby can carry out the shaping to different mouth shapes, reduce the manufacturing cost of mould.

Further, the vertical moving mechanism 3 includes a second frame body 31;

the cylinder body of the cylinder 32 is connected to the base frame 6, and the output end of the cylinder 32 is connected to the second frame body 31. The air cylinder 32 drives the second frame 31 to move in the vertical direction.

Further, a rail structure may be disposed between the first frame body 21 and the base frame 6.

Further explaining, the horizontal movement mechanism 2 comprises a first frame body 21, a screw rod 22, a nut block 23 and a first motor, the screw rod 22 is rotatably connected to the second frame body 31, the nut block 23 is connected to the first frame body 21, the screw rod 22 is connected with the nut block 23 in a matching manner, and the first motor is connected with the screw rod 22 in a driving manner. The first motor can drive the screw rod 22 to rotate through a structure such as a toothed belt and a gear, so as to drive the first frame body 21 to move horizontally relative to the second frame body 31.

Further, a guide rail structure is disposed between the first frame body 21 and the second frame body 31.

Further, the roller 1 is connected to the first frame 21.

Further, the working plate 61 is further provided with a groove 611, and the groove 611 is disposed between the two positioning posts 62. The glass bottle is placed on the working plate 61, the positioning plate 4 and the positioning column 62 are respectively located on two sides of a bottle mouth of the glass bottle and limit the glass bottle, and then the roller 1 extends out of the groove 611 to pinch the bottle mouth for molding.

To explain further, one end of the positioning plate 4 near the positioning column 62 is provided with a V-shaped groove 41.

To explain further, the roller 1 is disposed below the groove 611.

Further explaining, the heating block 5 is further included, and the heating block 5 is positioned on one side of the working plate 61 close to the positioning column 62. The heating block 5 is connected to a heating device such as a fire tube, and can heat the mouth of the glass bottle.

Further, the working plate 61 is connected with a cam 63 and a projection 64, the cam 63 is disposed on two sides of the positioning plate 4, the positioning plate 4 is provided with a tail groove 42, and the projection 64 is disposed in the tail groove 42.

The positioning plate 4 is limited in one direction by the cam 63, and is limited in the other direction by the lug 64 and the tail groove 42, so that the positioning plate 4 is assembled.

The foregoing disclosure discloses only some embodiments of the utility model. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept herein, and it is intended to cover all such modifications and variations as fall within the scope of the utility model.

Claims (9)

1. An electric glass bottle pinching nozzle roller is characterized by comprising a base frame (6), a roller (1), a horizontal movement mechanism (2) and a vertical movement mechanism (3);

a working plate (61) is arranged at the top of the base frame (6), the working plate (61) is provided with a positioning plate (4) and a positioning column (62) which are oppositely arranged, and the horizontal movement mechanism (2) and the vertical movement mechanism (3) are arranged below the working plate (61);

the vertical movement mechanism (3) can move vertically relative to the base frame (6) through a cylinder (32);

the horizontal movement mechanism (2) is in driving connection with the vertical movement mechanism (3);

the horizontal movement mechanism (2) can move horizontally relative to the vertical movement mechanism (3) through a screw rod structure;

the roller (1) is connected to the horizontal movement mechanism (2).

2. The motorized glass bottle pinching nozzle roller according to claim 1, wherein the vertical movement mechanism (3) comprises a second frame (31);

the cylinder body of the air cylinder (32) is connected to the base frame (6), and the output end of the air cylinder (32) is connected to the second frame body (31).

3. The electric glass bottle pinching nozzle roller according to claim 2, wherein the horizontal movement mechanism (2) comprises a first frame body (21), a screw rod (22), a nut block (23) and a first motor, the screw rod (22) is rotatably connected to the second frame body (31), the nut block (23) is connected to the first frame body (21), the screw rod (22) is connected with the nut block (23) in a matching manner, and the first motor is connected with the screw rod (22) in a driving manner.

4. An electrodynamic glass bottle pinching nozzle roller according to claim 3, characterized in that the roller (1) is connected to the first frame (21).

5. The electric glass bottle pinching nozzle roller according to claim 1, wherein the working plate (61) further has a groove (611), and the groove (611) is disposed between the two positioning posts (62).

6. The motorized glass jar pinching nozzle roller according to claim 1 or 5, wherein one end of the positioning plate (4) near the positioning column (62) is provided with a V-shaped groove (41).

7. An electric glass bottle pinching nozzle roller according to claim 5, characterized in that the roller (1) is arranged below the groove (611).

8. The motorized carafe nip roller as set forth in claim 1, further comprising a heating block (5), said heating block (5) being located on a side of said working plate (61) adjacent to said positioning post (62).

9. The motorized glass bottle pinching nozzle roller according to claim 1, wherein the working plate (61) is connected with a cam (63) and a protrusion (64), the cam (63) is disposed on both sides of the positioning plate (4), the positioning plate (4) is provided with a tail groove (42), and the protrusion (64) is disposed in the tail groove (42).

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