CN219618238U - Conveying device for open mill material turning mechanism - Google Patents

Abstract

The utility model discloses a conveying device of a turn-down mechanism of an open mill, which belongs to the technical field of open mills, and is arranged on a main body of the open mill, wherein a conveying device for conveying a material to be turned over to a turning-over structure is fixedly arranged on the main body of the open mill; the transmission device comprises a lower conveying assembly, a detection assembly, an upper conveying assembly, a guide assembly, a spacing adjusting assembly and an installation fixing frame. Through the mode, when the automatic feeding device is used, the sizing material can be clamped by the lower conveying assembly and the upper conveying assembly and conveyed to the material turning structure, so that an unfamiliar person can easily complete the feeding action at one time, a large amount of unnecessary labor is reduced, the risk of sizing material scorching is greatly reduced, and the product quality is ensured; the utility model avoids the cutting and feeding actions of the open mill for a plurality of times, and reduces the potential safety hazard to a great extent.

Description

Conveying device for open mill material turning mechanism

Technical Field

The utility model relates to the technical field of open mills, in particular to a conveying device of a material turning mechanism of an open mill.

Background

The open mill is an important device used in rubber mixing processing, the main working parts of the open mill comprise two relatively rotary metal rollers, and the diameter of the open mill rollers used in a common workshop is more than 18 inches. The open mill is fully called as an open mill, the main working part of the open mill is exposed outside, and a large shearing force exists between two rollers to plasticate or mix rubber.

Chinese patent No. CN218196202U discloses an open mill which can realize silica gel open mill. However, the above structure has the following problems: the turning action of the sizing material needs to be completed manually, and when many personnel operate, the continuous delivery of the multiple times of the sizing material can not complete the feeding action, so that the sizing material is accumulated on an open mill for a long time and can not quickly dissipate heat, and the sizing material can be burnt after long-time high temperature, so that the processability is lost, and the sizing material is scrapped; when personnel deliver sizing materials, the body is easy to roll in, and certain safety risks still exist.

Based on the above, the utility model designs a conveyor of an open mill turning mechanism to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a conveying device of an open mill turning mechanism.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the conveying device of the open mill turning mechanism is arranged on an open mill main body, and a conveying device for conveying materials to be turned over to a turning-over structure is fixedly arranged on the open mill main body;

the transmission device comprises a lower conveying assembly, a detection assembly, an upper conveying assembly, a guide assembly, a spacing adjusting assembly and an installation fixing frame; the installation fixing frame is fixedly arranged on the inner side wall of the open mill main body, the installation fixing frame is provided with a spacing adjusting component and a lower conveying component, the output end of the spacing adjusting component is connected with the upper conveying component, the upper conveying component and the lower conveying component have the same structure, the upper conveying component is positioned above the lower conveying component, the lower conveying component and the upper conveying component are arranged in a staggered mode, and the feeding end of the lower conveying component is fixedly provided with a detecting component for acquiring the material state; the lower conveying assembly is in limit connection with the upper conveying assembly through a guide assembly.

Further, the open mill main body comprises a supporting frame and two groups of open mill rollers which are rotatably arranged on the supporting frame and used for open mill; the support frame is also rotatably provided with a material turning structure for turning materials; and a conveying device for conveying the material to be turned over to the turning over structure is fixedly arranged on the inner side wall of the supporting frame.

Further, a controller for electrically controlling the open mill roller, the material turning structure and the transmission device is fixedly arranged on the outer side wall of the supporting frame.

Further, the interval adjusting assembly comprises a connecting seat, an air cylinder and an installation supporting seat; the installation supporting seat is fixedly installed on the installation fixing frame, the installation supporting seat is fixedly connected with an air cylinder, the output end of the top of the air cylinder is fixedly connected with a connecting seat, and the connecting seat is fixedly connected with the upper conveying assembly.

Further, the upper conveying assembly comprises a driving motor, a conveying belt, a lug, a reinforcing connecting plate, a mounting frame and a driving roller; a plurality of groups of reinforcing connection plates are fixedly connected between two groups of oppositely arranged mounting frames, driving rollers are respectively rotatably arranged between the upper end and the lower end of the two groups of mounting frames, the two groups of driving rollers are in transmission connection through a conveying belt, one group of driving rollers is fixedly connected with the output end of a driving motor, the driving motor is fixedly arranged on the mounting frames, and a plurality of groups of protruding blocks are uniformly arranged on the conveying belt; the connecting seat is fixedly connected with the mounting frame of the upper conveying assembly.

Further, the detection assembly comprises a photoelectric sensor and a mounting side plate; the installation curb plate fixed mounting is on the mounting bracket of conveying subassembly down, and photoelectric sensor fixed mounting is on the installation curb plate, and photoelectric sensor is located the conveyer belt below of conveying subassembly.

Furthermore, the lower conveying assembly is in limit connection with the upper conveying assembly through a plurality of groups of guide assemblies.

Further, the guide assembly comprises a guide rod and a guide sleeve; the guide sleeve is fixedly arranged on the mounting frame of the lower conveying assembly, the guide rod is fixedly arranged on the mounting frame of the upper conveying assembly, and the lower end of the guide rod is slidably connected in the guide sleeve; the guide rod is vertically arranged.

Further, the conveyor belts of the lower conveying assembly and the upper conveying assembly are arranged in a staggered manner.

Further, the photoelectric sensor, the driving motor and the air cylinder are all electrically connected with the controller.

Advantageous effects

When the automatic feeding device is used, the sizing material can be clamped and conveyed to the material turning structure through the lower conveying assembly and the upper conveying assembly, so that an unfamiliar person can easily complete the feeding action at one time, a great amount of unnecessary labor is reduced, the risk of sizing material scorching is greatly reduced, and the product quality is ensured; the utility model avoids the cutting and feeding actions of the open mill for a plurality of times, and reduces the potential safety hazard to a great extent.

When the material is required to be turned over, the material is placed at the position misplaced between the upper conveying assembly and the lower conveying assembly, clamping to the hand can be effectively avoided, when the detecting assembly obtains the material feeding state and transmits information to the controller, the controller controls the interval adjusting assembly to drive the upper conveying assembly to move downwards for a set distance under the limiting action of the guiding assembly, and the material is clamped; simultaneously, the controller controls the lower conveying assembly and the upper conveying assembly to start, and the running directions of the lower conveying assembly and the upper conveying assembly are opposite, so that materials are conveyed to the material turning structure; after the material is conveyed onto the material turning structure, the controller controls the interval adjusting assembly to drive the upper conveying assembly to move upwards for a set distance under the limiting action of the guide assembly, so that the lower conveying assembly and the upper conveying assembly loosen the material, and the material is facilitated to enter the material turning structure; when the detecting component senses no materials, information is transmitted to the controller, and the controller controls the interval adjusting component and the upper conveying component to stop, so that power consumption can be saved, and potential safety hazards can be reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a perspective view of a mounting structure of a conveyor of an open mill turn-down mechanism of the present utility model;

FIG. 2 is a perspective view of a mounting structure of a conveyor of an open mill turning mechanism of the present utility model;

FIG. 3 is a front view of the conveying device of the open mill turning mechanism;

FIG. 4 is a perspective view of a main structure of a conveying device of an open mill turning mechanism;

FIG. 5 is a perspective view of a main body structure of a conveying device of an open mill turning mechanism;

FIG. 6 is a perspective view of a main body structure of a conveying device of an open mill turning mechanism;

fig. 7 is a perspective view of a main body structure of a conveying device of an open mill turning mechanism.

Reference numerals in the drawings represent respectively:

1. a support frame; 2. an open mill roller; 3. a turning structure; 4. a controller; 5. a transmission device; 51. a lower transfer assembly; 52. a detection assembly; 521. a photoelectric sensor; 522. installing a side plate; 53. an upper transfer assembly; 531. a driving motor; 532. a conveyor belt; 533. a bump; 534. reinforcing the connecting plate; 535. a mounting frame; 536. a driving roller; 54. a guide assembly; 541. a guide rod; 542. a guide sleeve; 55. a spacing adjustment assembly; 551. a connecting seat; 552. a cylinder; 553. installing a supporting seat; 56. and (5) installing a fixing frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model is further described below with reference to examples.

Example 1

Referring to fig. 1-7 of the specification, a conveying device of a mill turning mechanism is arranged on a mill main body, and the mill main body comprises a support frame 1 and two groups of mill rollers 2 rotatably arranged on the support frame 1 for carrying out mill;

the support frame 1 is also rotatably provided with a material turning structure 3 for turning materials;

a controller 4 for electrically controlling the open mill roller 2, the material turning structure 3 and the transmission device 5 is fixedly arranged on the outer side wall of the support frame 1; the open mill roller 2, the material turning structure 3 and the transmission device 5 are electrically connected with the controller 4;

a conveying device 5 for conveying the materials to be turned over to the turning over structure 3 is fixedly arranged on the inner side wall of the supporting frame 1;

the transmission device 5 comprises a lower conveying component 51, a detection component 52, an upper conveying component 53, a guide component 54, a spacing adjusting component 55 and a mounting fixing frame 56; the installation fixing frame 56 is fixedly arranged on the inner side wall of the support frame 1, the installation fixing frame 56 is provided with a spacing adjusting component 55 and a lower conveying component 51, the output end of the spacing adjusting component 55 is connected with the upper conveying component 53, the upper conveying component 53 and the lower conveying component 51 have the same structure, the upper conveying component 53 is positioned above the lower conveying component 51, the lower conveying component 51 and the upper conveying component 53 are arranged in a staggered mode, and the feeding end of the lower conveying component 51 is fixedly provided with a detecting component 52 for acquiring a material state; the lower conveying component 51 is in limit connection with the upper conveying component 53 through a guide component 54;

when the material is required to be turned over, the material is placed at the position misplaced between the upper conveying component 53 and the lower conveying component 51, so that clamping to the hand can be effectively avoided, when the detecting component 52 obtains the material feeding state and transmits information to the controller 4, the controller 4 controls the interval adjusting component 55 to drive the upper conveying component 53 to move downwards for a set distance under the limiting action of the guiding component 54, and the material is clamped; simultaneously, the controller 4 controls the lower conveying assembly 51 and the upper conveying assembly 53 to start, and the running directions of the lower conveying assembly 51 and the upper conveying assembly 53 are opposite, so that materials are conveyed to the material turning structure 3; after the material is conveyed onto the material turning structure 3, the controller 4 controls the interval adjusting assembly 55 to drive the upper conveying assembly 53 to move upwards for a set distance under the limiting action of the guide assembly 54, so that the lower conveying assembly 51 and the upper conveying assembly 53 loosen the material, and the material is facilitated to enter the material turning structure 3; when the detecting component 52 can not sense the materials, information is transmitted to the controller 4, and the controller 4 controls the interval adjusting component 55 and the upper conveying component 53 to stop, so that electricity consumption can be saved, and potential safety hazards can be reduced.

When the utility model is used, the sizing material can be clamped by the lower conveying component 51 and the upper conveying component 53 and conveyed to the material turning structure 3, so that an unfamiliar person can easily complete the feeding action at one time, a great amount of unnecessary labor is reduced, the risk of sizing material scorching is greatly reduced, and the product quality is ensured; the utility model avoids the cutting and feeding actions of the open mill for a plurality of times, and reduces the potential safety hazard to a great extent.

Example 2

Referring to fig. 1 to 7 of the drawings, the spacing adjusting assembly 55 includes a connecting seat 551, a cylinder 552 and a mounting support seat 553; the installation support seat 553 is fixedly arranged on the installation fixing frame 56, the installation support seat 553 is fixedly connected with an air cylinder 552, the output end of the top of the air cylinder 552 is fixedly connected with a connecting seat 551, and the connecting seat 551 is fixedly connected with the upper conveying component 53;

the air cylinder 552 drives the connecting seat 551 to move up and down, and the connecting seat 551 drives the upper conveying component 53 to move up and down;

the upper transfer assembly 53 includes a driving motor 531, a transfer belt 532, a projection 533, a reinforcing connection plate 534, a mounting frame 535, and a driving roller 536; a plurality of groups of reinforcing connection plates 534 are fixedly connected between two groups of oppositely arranged mounting frames 535, driving rollers 536 are respectively rotatably arranged between the upper end and the lower end of the two groups of mounting frames 535, the two groups of driving rollers 536 are in transmission connection through a conveyor belt 532, one group of driving rollers 536 is fixedly connected with the output end of a driving motor 531, the driving motor 531 is fixedly arranged on the mounting frames 535, and a plurality of groups of protruding blocks 533 are uniformly arranged on the conveyor belt 532; the connecting seat 551 is fixedly connected with the mounting bracket 535 of the upper conveying component 53; the mounting bracket 535 of the lower transfer assembly 51 is fixedly connected to the mounting bracket 56;

the driving motor 531 is started to drive the driving roller 536 to rotate, the driving roller 536 drives the other driving roller 536 to rotate through the conveying belt 532, materials are conveyed, friction force between the materials and the driving roller 536 can be increased through the protruding blocks 533, and conveying effect is improved;

the detection assembly 52 includes a photo sensor 521 and a mounting side plate 522; the mounting side plate 522 is fixedly mounted on the mounting frame 535 of the lower conveying assembly 51, the photoelectric sensor 521 is fixedly mounted on the mounting side plate 522, and the photoelectric sensor 521 is positioned below the conveyor belt 532 of the upper conveying assembly 53;

after sensing the materials through the photoelectric sensor 521, transmitting information to the controller 4, controlling the air cylinder 552 to start by the controller 4, driving the mounting rack 535 of the upper conveying component 53 to move downwards for a set distance under the limiting action of the guiding component 54 through the connecting seat 551, and clamping the materials; simultaneously, the controller 4 controls the two groups of driving motors 531 to start, the driving motors 531 drive the driving rollers 536 to rotate, the driving rollers 536 drive the other driving rollers 536 to rotate through the conveyor belt 532, materials are conveyed, friction force between the materials and the driving rollers 536 can be increased through the convex blocks 533, and conveying effect is improved; the conveyor belts 532 of the lower conveyor assembly 51 and the upper conveyor assembly 53 travel in opposite directions to convey material onto the turning structure 3;

after the material is conveyed onto the material turning structure 3, the controller 4 controls the air cylinder 552 to start, and the connecting seat 551 drives the mounting frame 535 of the upper conveying component 53 to move upwards for a set distance under the limiting action of the guide component 54, so that the lower conveying component 51 and the upper conveying component 53 loosen the material, and the material is facilitated to enter the material turning structure 3;

when the photoelectric sensor 521 does not sense the material, the information is transmitted to the controller 4, and the controller 4 controls the cylinder 552 and the driving motor 531 to stop, so that the power consumption can be saved and the potential safety hazard can be reduced.

Example 3

On the basis of embodiment 2, referring to fig. 1-7 of the specification, the lower conveying assembly 51 is in limit connection with the upper conveying assembly 53 through a plurality of groups of guide assemblies 54;

the guide assembly 54 includes a guide rod 541 and a guide sleeve 542; the guide sleeve 542 is fixedly installed on the installation frame 535 of the lower conveying assembly 51, the guide rod 541 is fixedly installed on the installation frame 535 of the upper conveying assembly 53, and the lower end of the guide rod 541 is slidably connected in the guide sleeve 542; the guide rod 541 is vertically disposed;

when the photoelectric sensor 521 senses the material, the information is transmitted to the controller 4, the controller 4 controls the air cylinder 552 to start, and the connecting seat 551 drives the mounting frame 535 of the upper conveying component 53 to move downwards for a set distance under the limiting action of the guide rod 541 and the guide sleeve 542, so as to clamp the material; simultaneously, the controller 4 controls the two groups of driving motors 531 to start, the driving motors 531 drive the driving rollers 536 to rotate, the driving rollers 536 drive the other driving rollers 536 to rotate through the conveyor belt 532, materials are conveyed, friction force between the materials and the driving rollers 536 can be increased through the convex blocks 533, and conveying effect is improved; the conveyor belts 532 of the lower conveyor assembly 51 and the upper conveyor assembly 53 travel in opposite directions to convey material onto the turning structure 3;

after the material is conveyed onto the material turning structure 3, the controller 4 controls the air cylinder 552 to start, and the connecting seat 551 drives the mounting frame 535 of the upper conveying component 53 to move upwards for a set distance under the limiting action of the guide rod 541 and the guide sleeve 542, so that the lower conveying component 51 and the upper conveying component 53 loosen the material, and the material is facilitated to enter the material turning structure 3;

when the photoelectric sensor 521 does not sense the material, the information is transmitted to the controller 4, and the controller 4 controls the cylinder 552 and the driving motor 531 to stop, so that the electricity consumption can be saved and the potential safety hazard can be reduced;

when the material turning starts, namely after the air cylinder 552 and the driving motor 531 are started, the controller 4 starts timing, after the air cylinder 552 and the driving motor 531 are stopped, the controller 4 stops timing, and the material turning time can be used as quality traceability data for storage by recording, so that the material turning is supervised;

the conveyor belts 532 of the lower conveying assembly 51 and the upper conveying assembly 53 are arranged in a staggered manner, so that a certain distance can be reserved between the hands and the conveyor belts 532 above when materials are placed, the clamping of the hands is avoided, and the safety is higher;

the photoelectric sensor 521, the driving motor 531 and the air cylinder 552 are electrically connected with the controller 4; the operation of the various components can be automatically controlled by the controller 4.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. The utility model provides an open mill turn-down mechanism conveyor installs on the open mill main part, its characterized in that:

a conveying device (5) for conveying the materials to be turned over to the turning structure (3) is fixedly arranged on the open mill main body;

the transmission device (5) comprises a lower conveying component (51), a detection component (52), an upper conveying component (53), a guide component (54), a spacing adjusting component (55) and an installation fixing frame (56); the installation fixing frame (56) is fixedly arranged on the inner side wall of the open mill main body, the installation fixing frame (56) is provided with a spacing adjusting component (55) and a lower conveying component (51), the output end of the spacing adjusting component (55) is connected with the upper conveying component (53), the upper conveying component (53) and the lower conveying component (51) are identical in structure, the upper conveying component (53) is positioned above the lower conveying component (51), the lower conveying component (51) and the upper conveying component (53) are arranged in a staggered mode, and a detection component (52) for acquiring a material state is fixedly arranged at the feeding end of the lower conveying component (51); the lower conveying component (51) is in limit connection with the upper conveying component (53) through a guide component (54).

2. The open mill turning mechanism conveying device according to claim 1, wherein the open mill main body comprises a support frame (1) and two groups of open mill rollers (2) rotatably installed on the support frame (1) for open mill; a material turning structure (3) for turning materials is also rotatably arranged on the support frame (1); the conveying device (5) used for conveying the materials to be turned over to the turning-over structure (3) is fixedly arranged on the inner side wall of the supporting frame (1).

3. The conveying device of the open mill turning mechanism according to claim 2, wherein a controller (4) for electrically controlling the open mill roller (2), the turning structure (3) and the conveying device (5) is fixedly arranged on the outer side wall of the supporting frame (1).

4. A mill turning-up mechanism conveyor according to claim 3, characterized in that the distance adjusting assembly (55) comprises a connecting seat (551), a cylinder (552) and a mounting support seat (553); the installation supporting seat (553) is fixedly arranged on the installation fixing frame (56), the installation supporting seat (553) is fixedly connected with the air cylinder (552), the output end of the top of the air cylinder (552) is fixedly connected with the connecting seat (551), and the connecting seat (551) is fixedly connected with the upper conveying assembly (53).

5. The mill turn-down mechanism conveyor according to claim 4, wherein the upper conveyor assembly (53) comprises a drive motor (531), a conveyor belt (532), bumps (533), reinforcing connection plates (534), mounting frames (535) and driving rollers (536); a plurality of groups of reinforcing connection plates (534) are fixedly connected between two groups of oppositely arranged mounting frames (535), driving rollers (536) are respectively rotatably arranged between the upper ends and the lower ends of the two groups of mounting frames (535), the two groups of driving rollers (536) are in transmission connection through a conveying belt (532), one group of driving rollers (536) is fixedly connected with the output end of a driving motor (531), the driving motor (531) is fixedly arranged on the mounting frames (535), and a plurality of groups of protruding blocks (533) are uniformly arranged on the conveying belt (532); the connecting seat (551) is fixedly connected with the mounting frame (535) of the upper conveying component (53).

6. The mill turn-down mechanism conveyor according to claim 5, wherein the detection assembly (52) comprises a photo-sensor (521) and a mounting side plate (522); the installation side plate (522) is fixedly installed on the installation frame (535) of the lower conveying assembly (51), the photoelectric sensor (521) is fixedly installed on the installation side plate (522), and the photoelectric sensor (521) is positioned below the conveying belt (532) of the upper conveying assembly (53).

7. The conveying device of the open mill turning mechanism according to claim 1, wherein the lower conveying assembly (51) is in limiting connection with the upper conveying assembly (53) through a plurality of groups of guide assemblies (54).

8. An open mill turning mechanism conveyor according to claim 6, characterized in that the guide assembly (54) comprises a guide bar (541) and a guide sleeve (542); the guide sleeve (542) is fixedly arranged on the mounting frame (535) of the lower conveying assembly (51), the guide rod (541) is fixedly arranged on the mounting frame (535) of the upper conveying assembly (53), and the lower end of the guide rod (541) is slidably connected in the guide sleeve (542); the guide rod (541) is vertically disposed.

9. The conveyor of an open mill turning mechanism according to claim 5, characterized in that the conveyor belts (532) of the lower conveyor assembly (51) and the upper conveyor assembly (53) are arranged in a staggered manner.

10. The conveyor of an open mill turning mechanism according to claim 6, wherein the photoelectric sensor (521), the driving motor (531) and the cylinder (552) are electrically connected to the controller (4).