CN220375695U - Plate loading and unloading equipment adopting flat belt transmission mode - Google Patents

Abstract

The utility model relates to the field of plate processing equipment, and particularly provides plate loading and unloading equipment adopting a flat belt transmission mode, which comprises gear shaping teeth, wherein the gear shaping teeth run in an loading and unloading tool end, the gear shaping teeth comprise four groups of cantilever gear shaping teeth, namely a first group of cantilever gear shaping teeth, a second group of cantilever gear shaping teeth, a third group of cantilever gear shaping teeth and a fourth group of cantilever gear shaping teeth, and each group of cantilever gear shaping teeth are mutually parallel to perform opening and closing movement; the second group of cantilever gear shaping and the third group of cantilever gear shaping drive the flat belt through the transmission component to carry out transmission traction, flat belt and gear shaping pass through clamp plate fixed connection. Compared with the prior art, the utility model uses the flat belt to replace the chain transmission, the flat belt does not need to be added with lubricating oil like a chain, and the flat belt is clean and sanitary, and cannot be polluted with too much dust and dirty things due to the lubricating oil.

Description

Plate loading and unloading equipment adopting flat belt transmission mode

Technical Field

The utility model relates to the field of plate processing equipment, and particularly provides plate loading and unloading equipment adopting a flat belt transmission mode.

Background

Gear shaping in traditional panel feeding and discharging equipment is on transmitting the drive force to both sides gear shaping through the chain, and the chain needs often to add lubricating oil, and lubricating oil and be infected with too much dust and dirty east and west, inconvenient washing, long-time in-process of using can have a great deal of problems such as lubrication, noise and chain tensioning. How to avoid the occurrence of the above problems is a technical problem to be solved by the person skilled in the art.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the plate feeding and discharging equipment which is reasonable in design, simple in structure, safe to use and small in noise and adopts the flat belt transmission mode.

The technical scheme adopted for solving the technical problems is as follows:

the plate feeding and discharging equipment adopting the flat belt transmission mode comprises gear shaping, wherein the gear shaping runs in an feeding and discharging tool end, the gear shaping comprises four groups of cantilever gear shaping, namely a first group of cantilever gear shaping, a second group of cantilever gear shaping, a third group of cantilever gear shaping and a fourth group of cantilever gear shaping, and each group of cantilever gear shaping is mutually parallel to perform opening and closing movement;

the second group of cantilever gear shaping and the third group of cantilever gear shaping drive the flat belt through the transmission component to carry out transmission traction, flat belt and gear shaping pass through clamp plate fixed connection.

Further, a motor is arranged between the second group of cantilever gear shaping and the third group of cantilever gear shaping, the motor is arranged on a motor mounting plate, screw rods are respectively arranged on two sides of the motor mounting plate, and the upper parts of the screw rods penetrate through a top plate and are fixed through plum blossom adjusting screws;

the motor mounting plate four feet are provided with rotatable connecting plates, and the motor mounting plate is connected with the loading and unloading tool end frame body through the connecting plates.

Further, the second group of cantilever gear shaping and the third group of cantilever gear shaping are respectively provided with a transmission component, and each transmission component comprises a rack, a roller, a first pressing plate, a second pressing plate and a sliding block;

the rack is fixed on the left cantilever pinion and is in transmission fit with the motor;

the roller is matched with the flat belt to control the opening and closing of the gear shaping;

the first pressing plate is fixed on the right cantilever gear shaping, and the flat belt is pressed on the pressing plate to be fixed, so that the flat belt drives the cantilever gear shaping to operate;

the second pressing plate is fixed on the left cantilever gear shaping, and an open flat belt is fixedly butted through the second pressing plate and drives the gear shaping to open and close;

the sliding block is arranged at the bottoms of the cantilever gear shaping and the cantilever gear shaping at the left side and is in sliding fit with the bottom of the cantilever gear shaping at the right side.

Further, a transmission shaft of the motor is connected with a gear, and the gear is meshed with the rack to drive the left cantilever to perform gear shaping motion.

Further, the second pressing plate is fixed on the left cantilever gear shaping through the pressing plate supporting frame, and the gear and the rack are meshed to drive the left cantilever gear shaping to move and simultaneously drive the flat belt to move through the second pressing plate.

Further, the number of the rollers is two, the first roller is arranged on the left cantilever gear shaping, and the second roller is arranged on the right cantilever gear shaping.

Preferably, the first roller is fixed on the left cantilever pinion through a first supporting roller frame, and the second roller is fixed on the right cantilever pinion through a second supporting roller frame.

Further, the bottoms of the first group of cantilever gear shaping teeth and the fourth group of cantilever gear shaping teeth are provided with sliding blocks.

Compared with the prior art, the plate feeding and discharging equipment adopting the flat belt transmission mode has the following outstanding beneficial effects:

the utility model uses the flat belt to replace the chain transmission, the flat belt does not need to be added with lubricating oil like a chain, and the flat belt is clean and sanitary, and cannot be stained with too much dust and dirty due to the lubricating oil.

The first clamp plate is fixed at the cantilever gear shaping on the right side, and compresses tightly flat belt, and the second clamp plate is fixed on the cantilever gear shaping on the left side, also compresses tightly flat belt. The motor and the rack move in a matched mode, the second pressing plate is driven to move, the flat belt is driven to move, the right cantilever gear shaping movement is driven by the flat belt to move, the gear shaping opening and closing movement is further carried out, noise is reduced, and the service life is prolonged.

The flat belt can adjust the meshing tightness of the gear and the rack in the use process, the gear is connected with the motor through the transmission shaft, the motor is fixed on the motor mounting plate, and the meshing tightness of the gear and the rack is adjusted by adjusting the upper and lower distances of the motor mounting plate; and one end of the motor mounting plate is provided with a screw rod for adjusting the vertical distance, the motor mounting plate is also connected with a connecting plate, and when the distance of the screw rod is adjusted, the other end of the motor mounting plate is also matched with the rotating. When avoiding gear rack meshing too tight, can lead to the bearing of two gear shafts to receive too big radial force, the gear shaft can warp when serious, and the bearing also can generate heat, and the noise is big, influences the life-span.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a diagram of an overall construction of a plate loading and unloading apparatus employing a flat belt drive;

FIG. 2 is a schematic illustration of cantilever gear shaping of a plate loading and unloading device in a flat belt drive mode;

FIG. 3 is a second and third set of cantilever pinion gears in a plate loading and unloading device using a flat belt drive;

FIG. 4 is a side view of a second and third set of cantilever pinion gears in a plate loading and unloading apparatus employing a flat belt drive;

fig. 5 is a schematic diagram of motor installation in a plate loading and unloading device adopting a flat belt transmission mode.

The reference numerals in the drawings denote:

1. the feeding and discharging tool end comprises an upper and lower tool end, a first group of cantilever gear shaping, a second group of cantilever gear shaping, a third group of cantilever gear shaping, a fourth group of cantilever gear shaping, a flat belt, a 7, a sliding block, a fourth group of cantilever gear shaping, a left side cantilever gear shaping, a 9, a first supporting roller frame, a 10, a first roller, a 11, a first pressing plate, a 12, a second pressing plate, a 13, a second supporting roller frame, a 14, a right side cantilever gear shaping, a 15, a pressing plate supporting frame, a 16, a rack, a 17, a second roller, a 18, a motor mounting plate, a 19, a lead screw, a 20, a motor, a 21, a gear, a 22 and a connecting plate.

Detailed Description

The utility model will now be further described with reference to the drawings and specific examples, which are not intended to limit the utility model.

In the present utility model, unless otherwise specified, terms such as "upper, lower, left, and right" and "upper, lower, left, and right" are used generically to refer to the upper, lower, left, and right illustrated in the drawings; "inner and outer" means inner and outer relative to the contour of the respective parts themselves.

A preferred embodiment is given below:

as shown in fig. 1-4, a plate loading and unloading device adopting a flat belt transmission mode in this embodiment includes gear shaping, the gear shaping runs in an loading and unloading tool end 1, the gear shaping includes four sets of cantilever gear shaping, namely, a first set of cantilever gear shaping 2, a second set of cantilever gear shaping 3, a third set of cantilever gear shaping 4 and a fourth set of cantilever gear shaping 5, and each set of cantilever gear shaping is parallel to each other to perform opening and closing movement;

the second group of cantilever gear shaping 3 and the third group of cantilever gear shaping 4 drive the flat belt 6 to drive and pull through the transmission component, and the flat belt 6 is fixedly connected with the gear shaping through a pressing plate.

As shown in fig. 5, a motor 20 is installed between the second group of cantilever gear shaping 3 and the third group of cantilever gear shaping 4, the motor 20 is installed on a motor installation plate 18, two sides of the motor installation plate 18 are respectively provided with a lead screw 19, and the upper part of the lead screw 19 passes through a top plate and is fixed by plum blossom adjusting screws;

the four feet of the motor mounting plate 18 are provided with rotatable connecting plates 22, and the motor mounting plate 18 is connected with the frame body of the feeding and discharging tool end 1 through the connecting plates 22.

The second group of cantilever gear shaping 3 and the third group of cantilever gear shaping 4 are respectively provided with a transmission component, and the transmission components comprise racks 16, idler wheels, a first pressing plate 11, a second pressing plate 12 and a sliding block;

the transmission shaft of the motor 20 is connected with a gear 21, and the gear 21 is meshed with the rack 16 to drive the left cantilever pinion 8 to move;

the idler wheels are matched with the flat belt 6 to control the opening and closing of the gear shaping;

the first pressing plate 11 is fixed on the cantilever gear shaping 14 on the right side, and the flat belt 6 is pressed on the pressing plate for fixing, so that the flat belt 6 drives the cantilever gear shaping to operate;

the second pressing plate 12 is fixed on the left cantilever gear shaping 8, and an open flat belt 6 is fixedly butted through the second pressing plate 12 and drives the gear shaping to open and close;

the sliding block is arranged at the bottom of the cantilever gear shaping and the bottom of the cantilever gear shaping at the left side for sliding fit.

The bottoms of the first group of cantilever pinion 2 and the fourth group of cantilever pinion 5 are provided with a sliding block 7.

The second pressing plate 12 is fixed on the left cantilever gear shaping 8 through a pressing plate supporting frame 15, and the gear 21 and the rack 16 are meshed to drive the left cantilever gear shaping 8 to move and simultaneously drive the flat belt 6 to move through the second pressing plate 12.

There are two rollers, a first roller 10 mounted on the left cantilever pinion 8 and a second roller 17 mounted on the right cantilever pinion 14.

The first roller 10 is fixed to the left cantilever pinion 8 by a first support roller frame 9, and the second roller 17 is fixed to the right cantilever pinion 14 by a second support roller frame 13.

When the plate feeding and discharging equipment adopting the flat belt transmission mode is used, the first pressing plate 11 is fixed on the right cantilever gear shaping 14 and presses the flat belt 6, and the second pressing plate 12 is fixed on the left cantilever gear shaping 8 and also presses the flat belt 6. The transmission shaft of the motor 20 is connected with a gear 21, the gear 21 is meshed with the rack 16, the left cantilever gear shaping 8 is driven to move, the second pressing plate 12 is driven to move, the flat belt 6 is further driven to move, the right cantilever gear shaping 14 is driven to move through the first pressing plate 11, further the gear shaping is further opened and closed, noise is reduced, and the service life is prolonged.

The above embodiment is only one of the preferred embodiments of the present utility model, and the ordinary changes and substitutions made by those skilled in the art within the scope of the present utility model should be included in the scope of the present utility model.

Claims (8)

1. The plate feeding and discharging equipment adopting the flat belt transmission mode comprises gear shaping, and is characterized in that the gear shaping runs in an feeding and discharging tool end, the gear shaping comprises four groups of cantilever gear shaping, namely a first group of cantilever gear shaping, a second group of cantilever gear shaping, a third group of cantilever gear shaping and a fourth group of cantilever gear shaping, and each group of cantilever gear shaping is mutually parallel to perform opening and closing movement;

the second group of cantilever gear shaping and the third group of cantilever gear shaping drive the flat belt through the transmission component to carry out transmission traction, flat belt and gear shaping pass through clamp plate fixed connection.

2. The plate feeding and discharging device adopting the flat belt transmission mode according to claim 1, wherein a motor is arranged between the second group of cantilever gear shaping and the third group of cantilever gear shaping, the motor is arranged on a motor mounting plate, screw rods are respectively arranged on two sides of the motor mounting plate, and the upper parts of the screw rods penetrate through a top plate and are fixed through plum blossom adjusting screws;

the motor mounting plate four feet are provided with rotatable connecting plates, and the motor mounting plate is connected with the loading and unloading tool end frame body through the connecting plates.

3. The plate loading and unloading device adopting the flat belt transmission mode according to claim 2, wherein the second group of cantilever gear shaping and the third group of cantilever gear shaping are respectively provided with a transmission component, and the transmission component comprises a rack, a roller, a first pressing plate, a second pressing plate and a sliding block;

the rack is fixed on the left cantilever pinion and is in transmission fit with the motor;

the roller is matched with the flat belt to control the opening and closing of the gear shaping;

the first pressing plate is fixed on the right cantilever gear shaping, and the flat belt is pressed on the pressing plate to be fixed, so that the flat belt drives the cantilever gear shaping to operate;

the second pressing plate is fixed on the left cantilever gear shaping, and an open flat belt is fixedly butted through the second pressing plate and drives the gear shaping to open and close;

the sliding block is arranged at the bottoms of the cantilever gear shaping and the cantilever gear shaping at the left side and is in sliding fit with the bottom of the cantilever gear shaping at the right side.

4. A plate loading and unloading device adopting a flat belt transmission mode according to claim 3, wherein a transmission shaft of the motor is connected with a gear, and the gear is meshed with a rack to drive the left cantilever gear shaping motion.

5. The plate loading and unloading device adopting the flat belt transmission mode according to claim 4, wherein the second pressing plate is fixed on the left cantilever gear shaping through a pressing plate supporting frame, and the gear and the rack are meshed to drive the left cantilever gear shaping to move and simultaneously drive the flat belt to move through the second pressing plate.

6. The plate loading and unloading device adopting a flat belt transmission mode according to claim 5, wherein the number of the rollers is two, the first roller is arranged on the left cantilever gear shaping, and the second roller is arranged on the right cantilever gear shaping.

7. The plate loading and unloading device adopting a flat belt transmission mode according to claim 6, wherein the first roller is fixed on the left cantilever pinion through a first supporting roller frame, and the second roller is fixed on the right cantilever pinion through a second supporting roller frame.

8. The plate loading and unloading device adopting the flat belt transmission mode according to claim 7, wherein the bottoms of the first group of cantilever gear shaping teeth and the fourth group of cantilever gear shaping teeth are provided with sliding blocks for sliding.