CN109293222B - Glass glue drips and cuts material device - Google Patents

Abstract

The invention belongs to the technical field of glass processing equipment, and particularly relates to a glass gob shearing device which comprises a glass gob channel, wherein the glass gob shearing device comprises a shearing mechanism, a driving mechanism, a limiting mechanism and a control device, the shearing mechanism comprises an X-shaped shearing assembly and a rotating shaft, the driving mechanism comprises a connecting rod assembly and a driving assembly, the limiting mechanism comprises an arc limiting plate, the control device comprises a controller and a sensor assembly electrically connected with the controller, the arc limiting plate can enable shearing surfaces of a first shearing strip plate and a second shearing strip plate to be coplanar, the rotation of the shearing mechanism can be realized only by one driving motor, the synchronous shearing of glass gob shearing is realized, the equipment cost is reduced, and the shearing efficiency is improved.

Description

Glass glue drips and cuts material device

Technical Field

The invention belongs to the technical field of glass processing equipment, and particularly relates to a glass glue dripping and shearing device.

Background

At present, a glass bottle making machine needs to feed materials into a bottle making die in a bottle making process, and a required material shape punched by a punch needs to be cut off before a glass bottle is not formed. The shearing device is characterized in that the shearing device comprises a shearing mechanism body, a motor and a shearing device, wherein the shearing mechanism body is provided with a motor, the motor is connected with the shearing mechanism body, the motor is connected with the motor, and the motor is connected with the motor.

For solving above-mentioned problem, a glass feed machine shearing device that patent number is CN201720429097.7 is disclosed, including scissors and pulling device, the scissors is controlled by pulling device and is done the shearing movement, pulling device connects and stimulates the scissors and open on the shearing arm of scissors, gear drive between two shearing arms of scissors, be connected with the shearing cylinder that continuously provides the scissors and do the effort of shearing movement on another shearing arm of scissors, make the shearing device can control the scissors and open when taking place accident shut down through protection device's setting, avoid the scissors to be burnt out, simultaneously, the during operation under the effect of setting such as shearing cylinder for the scissors action is stable, cuts more accurately.

The problems existing in the scheme are as follows: due to the fact that the shearing mechanism rotates through the gear in the shearing process, the shearing surfaces of the scissors are not coplanar, the glass drips are not completely sheared, the shearing mechanism is driven to rotate in a plurality of modes, and the glass drips cannot synchronously rotate when being sheared.

Disclosure of Invention

The invention aims to provide a glass cement dripping and shearing device aiming at the defects of the prior art.

In order to solve the above problems, the present invention provides the following technical solutions:

the utility model provides a glass glues and drips shearing device, is including glass glue way, cut the material device including be used for to glass glue drip carry on the shearing mechanism that shears, be used for the drive to shear the actuating mechanism that the mechanism opened and shut, be used for shearing the mechanism and carry out spacing stop gear and controlling means, shear the mechanism including the shearing subassembly and the vertical axis of rotation that set up in glass glue way one end bottom of X type, the shearing subassembly level of X type sets up under glass glue way, it is connected with the axis of rotation to shear the subassembly, actuating mechanism including with shear assembly transmission complex link assembly and with link assembly articulated drive assembly, stop gear is including the arc limiting plate, controlling means including the controller and with controller electric connection's sensor module.

Preferably, the shearing assembly comprises a first shearing strip plate and a second shearing strip plate, one end of the first shearing strip plate and one end of the second shearing strip plate, which are close to the right lower side of the glass rubber channel, are provided with shearing knives with arc-shaped cutting edges, and the middle sections of the first shearing strip plate and the second shearing strip plate are in running fit with the rotating shaft.

Preferably, link assembly installs first articulated joint, fixed mounting and installs second articulated joint, head rod, second connecting rod and third connecting rod in the one end that the slat is close to the shearing sword is cuted to first shearing slat including fixed mounting, and the one end that the slat is close to the shearing sword is cuted to the second, and the one end and the first articulated joint of head rod are articulated, the one end and the second articulated joint of second connecting rod are articulated, the one end that the shearing subassembly was kept away from to head rod and second connecting rod all is articulated with the one end of third connecting rod.

Preferably, the driving assembly comprises a driving motor with an upward vertical output shaft and a rotating disc, the rotating disc is fixedly mounted on the output shaft of the driving motor, and one end, far away from the shearing assembly, of the third connecting rod is hinged to the eccentric position of the rotating disc.

Preferably, arc limiting plate level sets up and opening orientation shears the sword, and the one end that shears the sword is kept away from to first shearing slat and second shearing slat all with arc limiting plate sliding fit.

Preferably, the sensor assembly comprises a torque sensor arranged on the driving motor, and the torque sensor is electrically connected with the controller.

The beneficial effect of adopting above technical scheme is: the driving motor drives the rotating disc to rotate, so that the third connecting rod pulls the first connecting rod and the second connecting rod to rotate, so that the first shearing strip plate and the second shearing strip plate rotate around the rotating shaft in opposite reciprocating rotation, so that the glass drip is sheared, the arc limiting plate can enable the shearing surfaces of the first shearing strip plate and the second shearing strip plate to be coplanar, the shearing mechanism can be rotated only by one driving motor, the glass drip is sheared synchronously, the equipment cost is reduced, and the shearing efficiency is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a third schematic perspective view of the present invention;

description of reference numerals:

the glass rubber track 1, the shearing mechanism 2, the shearing assembly 21, the first shearing strip plate 211, the second shearing strip plate 212, the shearing knife 213, the rotating shaft 22, the driving mechanism 3, the driving assembly 31, the driving motor 311, the rotating disc 312, the connecting rod assembly 32, the first connecting rod 321, the second connecting rod 322, the third connecting rod 323, the first hinge joint 324, the second hinge joint 325 and the arc limiting plate 4.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

Referring to fig. 1 to 3, the invention relates to a glass paste drop shearing device, which comprises a glass paste channel 1, wherein the shearing device comprises a shearing mechanism 2 for shearing glass paste drops, a driving mechanism 3 for driving the shearing mechanism 2 to open and close, a limiting mechanism for limiting the shearing mechanism 2, and a control device, the shearing mechanism 2 comprises an X-shaped shearing assembly 21 and a rotating shaft 22 vertically arranged at the bottom of one end of the glass paste channel 1, the X-shaped shearing assembly 21 is horizontally arranged right below the glass paste channel 1, the shearing assembly 21 is rotatably connected with the rotating shaft 22, the driving mechanism 3 comprises a connecting rod assembly 32 in transmission fit with the shearing assembly 21 and a driving assembly 31 hinged with the connecting rod assembly 32, the limiting mechanism comprises an arc limiting plate 4, the control device comprises a controller and a sensor assembly electrically connected with the controller, the drive assembly 31 and the link assembly 32 rotate so that the shearing mechanism 2 shears the glass gob.

Shearing assembly 21 is including first shearing slat 211 and second shearing slat 212, first shearing slat 211 and second shearing slat 212 are close to the one end under glass rubber track 1 and all are provided with the shearing sword 213 that has the circular arc blade, the middle section of first shearing slat 211 and second shearing slat 212 all with axis of rotation 22 normal running fit, link assembly 32 can stimulate first shearing slat 211 and second shearing slat 212 and revolve axis of rotation 22 opposite direction reciprocating rotation to cut the glass drip.

The link assembly 32 includes that fixed mounting installs first hinge 324 at the one end that first shearing slat 211 is close to shearing sword 213, fixed mounting installs second hinge 325, head rod 321, second connecting rod 322 and third connecting rod 323 at the one end that second shearing slat 212 is close to shearing sword 213, and the one end of head rod 321 is articulated with first hinge 324, the one end of second connecting rod 322 is articulated with second hinge 325, the one end that first connecting rod 321 and second connecting rod 322 kept away from shearing subassembly 21 all is articulated with the one end of third connecting rod 323, and third connecting rod 323 pulling head rod 321 and second connecting rod 322 rotate to make first shearing slat 211 and second shearing slat 212 revolve the reciprocal rotation of axis of rotation 22.

The driving assembly 31 comprises a driving motor 311 with an output shaft facing upwards and a rotating disc 312, the rotating disc 312 is fixedly mounted on the output shaft of the driving motor 311, one end of the third connecting rod 323 away from the shearing assembly 21 is hinged to the eccentric position of the rotating disc 312, and the driving motor 311 drives the rotating disc 312 to rotate, so that the third connecting rod 323 pulls the first connecting rod 321 and the second connecting rod 322 to rotate.

Arc limiting plate 4 level sets up and the opening is towards shearing sword 213, and the one end that shearing sword 213 was kept away from to first shearing slat 211 and second shearing slat 212 all with arc limiting plate 4 sliding fit, arc limiting plate 4 can make the shearing face coplane that first shearing slat 211 and second sheared slat 212.

The sensor assembly comprises a torque sensor arranged on the driving motor 311, the torque sensor is electrically connected with the controller, when the torque sensor detects that the torque of the driving motor 311 is larger than a preset value, an electric signal is transmitted to the controller, the controller controls the driving motor 311 to stop and reset in time, the models of the controller and the torque sensor are the prior art, detailed description is omitted, and the situation that the scissors are burnt due to long contact time with glass drips is avoided.

The working principle is as follows: the driving motor 311 drives the rotating disc 312 to rotate, so that the third connecting rod 323 pulls the first connecting rod 321 and the second connecting rod 322 to rotate, so that the first shearing lath 211 and the second shearing lath 212 oppositely and reciprocally rotate around the rotating shaft 22 to shear the glass gob, and the arc limiting plate 4 can make the shearing surfaces of the first shearing lath 211 and the second shearing lath 212 coplanar.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments described above, but is intended to cover various insubstantial modifications of the invention based on the principles and technical solutions of the invention; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims (1)

1. The utility model provides a glass glues a drop shearing mechanism, is including glass glue way (1), its characterized in that: the material shearing device comprises a shearing mechanism (2) for shearing glass glue drops, a driving mechanism (3) for driving the shearing mechanism (2) to open and close, a limiting mechanism for limiting the shearing mechanism (2) and a control device, the shearing mechanism (2) comprises an X-shaped shearing assembly (21) and a rotating shaft (22) which is vertically arranged at the bottom of one end of the glass rubber channel (1), the X-shaped shearing assembly (21) is horizontally arranged right below the glass rubber channel (1), the shearing assembly (21) is rotationally connected with the rotating shaft (22), the driving mechanism (3) comprises a connecting rod assembly (32) in transmission fit with the shearing assembly (21) and a driving assembly (31) hinged with the connecting rod assembly (32), the limiting mechanism comprises an arc limiting plate (4), and the control device comprises a controller and a sensor assembly electrically connected with the controller; the shearing assembly (21) comprises a first shearing strip plate (211) and a second shearing strip plate (212), shearing knives (213) with arc-shaped knife edges are arranged at one ends of the first shearing strip plate (211) and the second shearing strip plate (212) close to the right lower side of the glass rubber channel (1), and the middle sections of the first shearing strip plate (211) and the second shearing strip plate (212) are in running fit with the rotating shaft (22); the connecting rod assembly (32) comprises a first hinge head (324) fixedly mounted at one end, close to the shearing knife (213), of the first shearing strip plate (211), a second hinge head (325), a first connecting rod (321), a second connecting rod (322) and a third connecting rod (323) fixedly mounted at one end, close to the shearing knife (213), of the second shearing strip plate (212), one end of the first connecting rod (321) is hinged to the first hinge head (324), one end of the second connecting rod (322) is hinged to the second hinge head (325), and the ends, far away from the shearing assembly (21), of the first connecting rod (321) and the second connecting rod (322) are hinged to one end of the third connecting rod (323); the driving assembly (31) comprises a driving motor (311) with an output shaft vertically upward and a rotating disc (312), the rotating disc (312) is fixedly mounted on the output shaft of the driving motor (311), and one end, far away from the shearing assembly (21), of the third connecting rod (323) is hinged to the eccentric position of the rotating disc (312); the arc-shaped limiting plate (4) is horizontally arranged, the opening of the arc-shaped limiting plate faces the shearing knife (213), and one ends of the first shearing strip plate (211) and the second shearing strip plate (212) far away from the shearing knife (213) are in sliding fit with the arc-shaped limiting plate (4); the sensor assembly comprises a torque sensor arranged on the driving motor (311), and the torque sensor is electrically connected with the controller.

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