CN210914368U

CN210914368U - Conveying table with adjustable conveying distance

Info

Publication number: CN210914368U
Application number: CN201921331588.3U
Authority: CN
Inventors: 郭辉
Original assignee: Guangdong Gaoliwei Machinery Technology Co ltd
Current assignee: Guangdong Gaoliwei Machinery Technology Co ltd
Priority date: 2019-08-15
Filing date: 2019-08-15
Publication date: 2020-07-03
Anticipated expiration: 2029-08-15

Abstract

The utility model discloses a conveying platform with adjustable conveying distance, which comprises a frame, a roller shaft and a clutch control assembly; each roller shaft can independently control whether to operate or not, so that the conveying distance can be adjusted, and the operating speed of the operating roller shafts can be adjusted, so that the glass distance can be controlled no matter large glass is conveyed or small glass is conveyed, the waiting time is greatly shortened, and the working efficiency is improved.

Description

Conveying table with adjustable conveying distance

Technical Field

The utility model relates to a glass is carried and the processing field, in particular to carry interval adjustable to carry platform.

Background

At present, most of the conveying platforms at home and abroad segment the conveying of the conveying platforms according to the size of the largest glass, and when the conveying platforms are continuously conveyed or processed, the interval between two adjacent pieces of glass is the largest glass specification. This results in a significant amount of waste when transporting or entering processing, as the two adjacent sheets of glass are spaced far apart when processing the smallest sheets of glass.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a carry platform of interval adjustable.

The technical scheme of the utility model as follows:

a conveying table with adjustable conveying distance comprises a frame, a roller shaft and a clutch control assembly;

the roller shafts are longitudinally distributed on the same plane and are arranged on the rack through bearings; the clutch control assembly is arranged on the rack and comprises a first clutch gear, a second clutch gear, a clutch shaft, a linear guide rail pair, a driving device I and a mounting seat; the first clutch gear and the second clutch gear form a gear pair which can be disconnected and meshed; the first clutch gear is fixed on one end of the roller shaft; the second clutch gear is fixed on one end of the clutch shaft; the clutch shaft is fixed at the movable end of the linear guide rail pair through a bearing and a bearing seat; the fixed end of the linear guide rail pair is fixed on the rack through a mounting seat; the driving device I pushes the clutch shaft to axially move by pushing the movable end of the linear guide rail pair.

As an improvement of the above technical solution, the clutch control assembly further comprises a belt transmission mechanism; the driven wheel with the transmission mechanism is nested on the clutch shaft and outputs torque to the clutch shaft.

Furthermore, the driving wheel and the driven wheel of the belt transmission mechanism are respectively provided with at least two grooves.

Furthermore, the clutch control assembly also comprises a driving device II, a driving device III, a first supporting seat and a second supporting seat; the first supporting seat and the second supporting seat respectively form a sliding pair with the mounting seat, the first supporting seat and the second supporting seat are respectively movable ends, and the mounting seat is a fixed end; the driving device II drives the first supporting seat to move along the axial direction of the driving wheel; the driving device III drives the second supporting seat to move along the axial direction of the driven wheel; the transmission belt of the belt transmission mechanism is a circular belt, and the transmission belt is installed on the first supporting seat and the second supporting seat in a nested connection mode.

Furthermore, a limiting device for limiting the axial movement of the driven wheel is arranged on the second supporting seat and/or the mounting seat.

Further, the belt transmission mechanism further comprises a tensioning device.

Furthermore, the conveying table with the adjustable conveying distance further comprises a power input shaft, a main transmission device and a main driving motor; the driving wheel with the transmission mechanism is fixed on the power input shaft.

Further, the rear side of the rack is provided with idler wheels which are distributed along the longitudinal direction, and the axes of the idler wheels are vertical to the installation plane of the roller shaft.

Furthermore, the intermediate roller shaft and the head roller shafts positioned at the left end and the right end of the rack form an included angle, and the opening of the included angle faces the idler wheel.

Further, the conveying table with the adjustable conveying distance further comprises a PLC control system and an optical sensor, wherein the optical sensor is located on the rear side of the rack and used for detecting the edge of the glass on the conveying table with the adjustable conveying distance.

The utility model has the advantages that: each roller shaft can independently control whether to operate or not, so that the conveying distance can be adjusted, and the operating speed of the operating roller shafts can be adjusted, so that the glass distance can be controlled no matter large glass is conveyed or small glass is conveyed, the waiting time is greatly shortened, and the working efficiency is improved.

Drawings

The following is further described with reference to the accompanying drawings and examples.

Fig. 1 is an overall view of an embodiment of the present invention;

fig. 2 is a perspective view of a clutch control assembly according to an embodiment of the present invention;

FIG. 3 is a front view of a clutch control assembly according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a clutch control assembly according to an embodiment of the present invention.

Detailed Description

The embodiment of the utility model, as shown in fig. 1-4, a conveying table with adjustable conveying distance, comprises a frame 1, a roller shaft 2 and a clutch control assembly 3; the roller shafts 2 are longitudinally distributed on the same plane and are arranged on the frame 1 through bearings; the clutch control assembly 3 is mounted on the frame 1 and comprises a first clutch gear 31, a second clutch gear 32, a clutch shaft 33, a linear guide rail pair 34, a driving device I331 and a mounting seat 35; the first clutch gear 31 and the second clutch gear 32 form a gear pair which can be disconnected and meshed; the first clutch gear 31 is fixed on one end of the roller shaft 2; the second clutch gear 32 is fixed on one end of the clutch shaft 33; the clutch shaft 33 is fixed at the movable end 341 of the linear guide rail pair 34 through a bearing and a bearing seat; the fixed end 342 of the linear guide rail pair 34 is fixed on the frame 1 through a mounting seat 35; the driving device I331 pushes the movable end 341 of the linear guide pair 34 to push the clutch shaft 33 to move axially.

In the above-described embodiment, the second clutch gear 32, the clutch shaft 33, and the movable end 341 of the linear guide pair 34 are integrally moved leftward and rightward by the driving device I331. When the whole body composed of the second clutch gear 32, the clutch shaft 33, and the movable end 341 of the linear guide pair 34 moves to the leftmost end while moving leftward, the first clutch gear 31 and the second clutch gear 32 are engaged with each other, and at this time, the transmission path of the power is as follows; the power is transmitted from the clutch shaft 33 and the second clutch gear 32 to the first clutch gear 31, and since the first clutch gear 31 is fixed to one end of the roller shaft 2, the power is transmitted from the clutch shaft 33 and the second clutch gear 32 to the first clutch gear 31 and finally to the roller shaft 2. When the whole body composed of the second clutch gear 32, the clutch shaft 33 and the movable end 341 of the linear guide pair 34 moves to the right and moves to the rightmost end, the first clutch gear 31 is not in contact with the second clutch gear 32, the power transmission path is disconnected from the second clutch gear 32, and the power cannot be continuously transmitted to the first clutch gear 31, that is, the power is not transmitted to the roller shaft 2 connected with the first clutch gear 31.

Therefore, in the clutch control assembly 3, the whole of the second clutch gear 32, the clutch shaft 33, and the movable end 341 of the linear guide pair 34 moves to the left/right direction and moves to the leftmost/rightmost end, so that the power transmission/power disconnection of the roller shaft 2 connected to the first clutch gear 31 of the clutch control assembly 3 can be realized.

The roller shafts 2 are longitudinally distributed on the same plane and are mounted on the rack 1 through bearings, and the function of adjustable conveying distance can be realized by independently controlling the power transmission/power disconnection of each roller shaft 2.

In an improvement of the above embodiment, the clutch control assembly further comprises a belt transmission mechanism; the driven pulley 36 with the transmission mechanism is nested on the clutch shaft 33, and outputs torque to the clutch shaft 33. Specifically, the driven pulley 36 and the clutch shaft 33 are connected by a sliding spline. It will be appreciated that the driven pulley 36 of the belt transmission mechanism is not rotated when the clutch shaft 33 is moved leftward/rightward, and therefore, the belt transmission mechanism may be further provided with a reverse braking device for reverse braking when the clutch shaft 33 is moved leftward/rightward. It can be understood that, at this time, the driven wheel 36 of the original belt transmission mechanism becomes a driving wheel during the reverse braking process, and the driving wheel 37 of the original belt transmission mechanism becomes a driven wheel during the reverse braking process, and actually, the structure in the belt transmission mechanism is not changed, but the transmission direction is different, so that the advantage of providing the belt transmission mechanism in the clutch control assembly is obvious.

Furthermore, at least two grooves 371 are respectively arranged on the driving wheel 37 and the driven wheel 36 of the belt transmission mechanism; 372; 361; 362. the belt transmission mechanism is provided with different transmission ratios so as to meet the requirements of different rotating speeds of the roller shaft 200 under different working conditions.

Further, the clutch control assembly 3 further includes a driving device II374, a driving device III364, a first supporting seat 373, and a second supporting seat 363; the first supporting seat 373 and the second supporting seat 363 respectively form a sliding pair with the mounting seat 35, the first supporting seat 373 and the second supporting seat 363 are respectively movable ends, and the mounting seat 35 is a fixed end; the driving device II374 drives the first supporting seat 373 to move along the axial direction of the driving wheel 37; the driving device III364 drives the second supporting seat 363 to move along the axial direction of the driven wheel 36; the belt 38 of the belt transmission mechanism is a circular belt, and the belt 38 is mounted on the first support seat 373 and the second support seat 363 in a nested manner. Specifically, in the present embodiment, the driving belt 38 is embedded in the guide tubes 381 fixed to the first supporting seat 373 and the second supporting seat 363, respectively, as shown in fig. 2 and 3, so that the driving belt is fixed in such a manner as to avoid interference during the driving process. The connection relationship among the driving device II374, the driving device III364, the first supporting seat 373, and the second supporting seat 363, and the transmission belt are circular belts and are mounted on the first supporting seat 373 and the second supporting seat 363 in a nested connection manner, so as to realize automatic switching of different transmission ratios of the belt transmission mechanism.

Further, a limiting device for limiting the axial movement of the driven wheel 36 is arranged on the second supporting seat 363 and/or the mounting seat 35. Specifically, as shown in fig. 2, the limiting device used in this embodiment is a limiting bearing 363 installed on the second supporting seat 363 and the mounting seat 35, and an axis of the limiting bearing 363 is perpendicular to an axis of the driven wheel 36. This ensures that the driven pulley 36 does not deflect during movement of the clutch shaft 33, and thus ensures the transmission stability of the belt transmission.

Further, the belt drive mechanism also includes a tensioning device 39. Specifically, as shown in fig. 2, the tensioning device 39 in the present embodiment is composed of a tensioning wheel 391 and a tensioning arm 392. The tension device 39 can increase the tension of the transmission belt in the belt transmission mechanism, and ensure the reliable transmission.

Furthermore, the conveying table with the adjustable conveying distance further comprises a power input shaft 5, a main transmission device and a main driving motor; a driving pulley 37 with a transmission mechanism is fixed on the power input shaft 5. The torque output by the main driving motor is transmitted to the power input shaft 5 through the main transmission device, and the driving wheel 37 with the transmission mechanism is fixed on the power input shaft 5, namely, the torque on the power input shaft 5 can be finally transmitted to the roller shaft 2 through the clutch control assembly 3.

Further, the rear side of the frame 1 is provided with idler wheels 4 distributed along the longitudinal direction, and the axes of the idler wheels 4 are perpendicular to the installation plane of the roller shafts 2. The idler wheel 4 has a guiding function on the glass conveying process, and the glass is prevented from deviating.

Furthermore, the middle roller shaft 2 and the head roller shafts 2 positioned at the left end and the right end of the frame 1 form an included angle, and the opening of the included angle faces the idler wheel 4. The included angle enables the torque on the roller shaft 2 to point to the direction of the idler wheel 4, so that the glass is ensured to be close to the idler wheel 4 in the conveying process, and the transverse deviation is avoided.

Further, the conveying table with the adjustable conveying distance further comprises a PLC control system and an optical sensor 6, wherein the optical sensor 6 is located on the rear side of the rack 1 and used for detecting the edge of the glass on the conveying table with the adjustable conveying distance. The optical sensor 6 detects the edge of the glass on the conveying table and sends a detection signal to the PLC control system, and the PLC control system controls the actions of the driving device I331, the driving device II374 and the driving device III364, so that the power transmission, the power cut-off and the speed change of the roller shaft 2 are controlled.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims

1. The utility model provides a carry platform of interval adjustable which characterized in that: comprises a frame (1), a roller shaft (2) and a clutch control component (3);

the roller shafts (2) are longitudinally distributed on the same plane and are arranged on the rack (1) through bearings;

the clutch control assembly (3) is mounted on the rack (1) and comprises a first clutch gear (31), a second clutch gear (32), a clutch shaft (33), a linear guide rail pair (34), a driving device I (331) and a mounting seat (35);

the first clutch gear (31) and the second clutch gear (32) form a gear pair which can be disconnected and meshed;

the first clutch gear (31) is fixed on one end of the roller shaft (2);

the second clutch gear (32) is fixed on one end of the clutch shaft (33);

the clutch shaft (33) is fixed at the movable end (341) of the linear guide rail pair (34) through a bearing and a bearing seat;

the fixed end (342) of the linear guide rail pair (34) is fixed on the rack (1) through a mounting seat (35);

the driving device I (331) pushes the clutch shaft (33) to move axially by pushing the movable end (341) of the linear guide rail pair (34).

2. A conveying table with adjustable conveying distance according to claim 1, characterized in that: the clutch control assembly further comprises a belt transmission mechanism;

the driven wheel (36) with the transmission mechanism is nested on the clutch shaft (33) and outputs torque to the clutch shaft (33).

3. A conveying table with adjustable conveying distance according to claim 2, characterized in that: the driving wheel (37) and the driven wheel (36) of the belt transmission mechanism are respectively provided with at least two grooves (371; 372; 361; 362).

4. A conveying table with adjustable conveying distance according to claim 3, characterized in that: the clutch control assembly (3) further comprises a driving device II (374), a driving device III (364), a first supporting seat (373) and a second supporting seat (363);

the first supporting seat (373) and the second supporting seat (363) respectively form a sliding pair with the mounting seat (35), the first supporting seat (373) and the second supporting seat (363) are respectively movable ends, and the mounting seat (35) is a fixed end;

the driving device II (374) drives the first supporting seat (373) to move along the axial direction of the driving wheel (37);

the driving device III (364) drives the second supporting seat (363) to move along the axial direction of the driven wheel (36);

the transmission belt (38) of the belt transmission mechanism is a circular belt, and the transmission belt (38) is installed on the first supporting seat (373) and the second supporting seat (363) in a nested connection mode.

5. A conveying table with adjustable conveying distance according to claim 4, characterized in that: and a limiting device for limiting the axial movement of the driven wheel (36) is arranged on the second supporting seat (363) and/or the mounting seat (35).

6. A conveying table with adjustable conveying distance according to any one of claims 2-4, characterized in that: the belt drive further comprises a tensioning device (39).

7. A conveying table with adjustable conveying distance according to claim 2, characterized in that: the device also comprises a power input shaft (5), a main transmission device and a main driving motor; and a driving wheel (37) of the belt transmission mechanism is fixed on the power input shaft (5).

8. A conveying table with adjustable conveying distance according to claim 1, characterized in that: the rear side of the rack (1) is provided with idler wheels (4) which are distributed along the longitudinal direction, and the axes of the idler wheels (4) are vertical to the installation plane of the roller shaft (2).

9. A conveying table with adjustable conveying distance according to claim 1, characterized in that: the middle roller shaft (2) and the head roller shafts (2) positioned at the left end and the right end of the rack (1) form an included angle, and the opening of the included angle faces the idler wheel (4).

10. A conveying table with adjustable conveying distance according to claim 1, characterized in that: the glass conveying device is characterized by further comprising a PLC control system and an optical sensor (6), wherein the optical sensor (6) is located on the rear side of the rack (1) and used for detecting the edge of glass on the conveying table with the adjustable conveying distance.