CN220033234U - Rotating mechanism of high-efficiency corner machine - Google Patents

Abstract

The utility model discloses a rotating mechanism of a high-efficiency corner machine, which comprises a base component, wherein the base component comprises a rotating base, the rotating base is provided with a rotating component, the rotating component is connected with a transferring and fixing component, the transferring and fixing component is provided with a transferring and driving component, one side of the rotating base is provided with a first conveying fixed frame, the first conveying fixed frame is provided with a first conveying belt, the other side of the rotating base is provided with a second conveying fixed frame, and the second conveying fixed frame is provided with a second conveying belt; according to the utility model, the design of the rotating assembly is added, the rotating assembly rotates the transfer driving assembly, and when the transfer device is used, objects are transferred from the first conveyor belt to the second conveyor belt through the transfer driving assembly, so that the rotation angle of 360 degrees can be carried out on a plane, the adjustment is simple and convenient, the rotation angle can be adjusted without moving the device, and the transfer efficiency cannot be influenced by adjusting the rotation angle.

Description

Rotating mechanism of high-efficiency corner machine

Technical Field

The utility model relates to the technical field of corner machine equipment, in particular to a rotating mechanism of a high-efficiency corner machine.

Background

When circuit boards are produced, some production lines are long, however, due to space limitation, the whole production line cannot be arranged in a straight line. To accommodate space, the production line is arranged in rows or columns. The direction of the circuit board is required to be adjusted by the corner machine in the adjusted production line so as to adapt to production.

Through retrieval, the utility model discloses a corner machine, which comprises a frame, two corner mechanisms and two rotary trolleys, wherein the application number of the Chinese patent document is CN 202121432082.9. The direction of the circuit board can be changed by rotating the rotating trolley. The corner mechanism is provided with a divider and a corner sensor. The divider has the remarkable characteristics of high indexing accuracy, stable operation, large transmission torque, self-locking during positioning, compact structure, small volume, low noise, good high-speed performance, long service life and the like, so that the rotary trolley can rotate stably, no impact force is generated, and loose fittings on the circuit board are avoided. In addition, when the rotary trolley rotates, the rotation angle sensor controls the rotation angle of the rotary trolley, so that the rotation precision of the rotary trolley is ensured.

However, this device also has the following drawbacks:

in actual use, the device is inconvenient to adjust in different transfer directions of multi-angle, and the device is likely to be moved to adjust when the angle is required to rotate, so that the transfer efficiency is relatively delayed, and the problem appearing above is solved by the rotating mechanism of the high-efficiency corner machine.

Disclosure of Invention

The utility model aims to provide a rotating mechanism of a high-efficiency corner machine, which is provided with a rotating assembly, wherein a transferring driving assembly is rotated through the rotating assembly, and when the rotating mechanism is used, an object is transferred from a first conveyor belt to a second conveyor belt through the transferring driving assembly, so that the rotating mechanism can rotate in 360 degrees on a plane, is simple and convenient to adjust, can adjust the angle of the rotating angle without moving the device, and cannot influence the transferring efficiency due to the adjustment of the angle of the rotating angle, so that the problems in the background art are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a rotary mechanism of high efficiency corner machine, includes the base subassembly, the base subassembly includes rotating base, installs rotating assembly on the rotating base, rotating assembly is connected with and transports fixed subassembly, it transports the drive assembly to transport to install on the fixed subassembly, one side of rotating base is provided with first transportation mount, be provided with first conveyer belt on the first transportation mount, the conveying motor of first conveyer belt is fixed on first transportation mount, the opposite side of rotating base is provided with the second transportation mount, be provided with the second conveyer belt on the second transportation mount, the conveying motor of second conveyer belt is fixed on the second transportation mount.

Preferably, the rotating assembly comprises a rotating motor, a stand of the rotating motor is fixed at the axis of the rotating base, a rotating cover is fixed on an output shaft of the rotating motor, and the rotating cover surrounds the outer side of the rotating motor.

Preferably, a plurality of struts are fixed on the rotating cover, one ends of the struts are fixed on the side wall of the rotating cover, the transferring and fixing assembly comprises a bottom plate, and the other ends of the struts are fixed on one side of the bottom plate.

Preferably, side baffles are fixed on two sides of the bottom plate, and a rear baffle is fixed on one side, close to the supporting rods, of the upper end of the bottom plate.

Preferably, the inner side of the back baffle is attached to the side baffle, a rubber anti-collision pad is connected to the inner side of the back baffle, and a pressure sensor is arranged on the inner side of the rubber anti-collision pad.

Preferably, the lower extreme of bottom plate is installed contact wireless power supply and is received the end, the below of bottom plate is provided with semi-circular slider, be connected with the spring between semi-circular slider and the bottom plate, the upper end of spring is fixed on the lower extreme of bottom plate, the lower extreme of spring is fixed on the upper end of semi-circular slider.

Preferably, the upper end of the rotating base is provided with an annular chute, the bottom plate is in sliding connection with the annular chute through a semicircular sliding block, and the upper end of the rotating base is also provided with a contact type wireless power supply fixed end.

Preferably, the transfer driving assembly comprises a driving motor, a stand of the driving motor is fixed on the side baffle, an output shaft of the driving motor penetrates through one group of side baffles to be connected with a driving rotating shaft, and one end, far away from the driving motor, of the driving rotating shaft penetrates through the other group of side baffles to be fixed with a chain wheel.

Preferably, the chain wheel is sleeved with a chain, a plurality of groups of chain wheels with the same structure are sleeved on the chain, and the other groups of chain wheels are fixedly provided with transmission rotating shafts which are synchronously transmitted with the driving rotating shafts through the chain wheels.

Preferably, the driving rotating shaft and the outer side of the transmission rotating shaft are respectively sleeved with a rubber transmission roller, and the driving motor is electrically connected with the contact wireless power receiving end.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the design of the rotating assembly is added, the rotating assembly rotates the transfer driving assembly, and when the transfer device is used, objects are transferred from the first conveyor belt to the second conveyor belt through the transfer driving assembly, so that the rotation angle of 360 degrees can be carried out on a plane, the adjustment is simple and convenient, the rotation angle can be adjusted without moving the device, and the transfer efficiency cannot be influenced by adjusting the rotation angle.

2. According to the utility model, through the design that the contact type wireless power supply receiving end is matched with the contact type wireless power supply fixing end, when the transfer driving assembly is positioned on the first conveyor belt to take a piece, the contact type wireless power supply receiving end and the contact type wireless power supply fixing end are in contact power supply, so that the driving motor rotates, a direct object is in contact with the rubber anti-collision pad, and the rotating assembly starts to rotate; when the transfer driving assembly is located on the second conveyor belt for conveying, the contact type wireless power supply receiving end and the other group of contact type wireless power supply fixing ends are in conflict and electrify, so that the driving motor is reversed, the object is conveyed out of the transfer driving assembly until the object is conveyed out by the second conveyor belt, and the wire is prevented from being wound due to wire connection.

3. According to the utility model, through the design of the transferring fixing assembly, the side baffle plates and the rear baffle plates are used for limiting the transferring object, so that damage caused by falling of the object during transferring and rotating is prevented, meanwhile, the rubber driving roller is used for driving, the transferred object is prevented from being left with scratches, and the rubber anti-collision pad is used for preventing the object from being damaged due to collision of the object to the rear baffle plates during the picking process.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of an exploded view of a rotary assembly according to the present utility model;

FIG. 3 is a schematic view of a transfer fixture assembly according to the present utility model;

fig. 4 is a schematic structural view of the transfer driving assembly of the present utility model.

In the figure: 100. a base assembly; 101. a rotating base; 102. an annular chute; 103. a contact wireless power supply fixed end; 200. a rotating assembly; 201. a rotating electric machine; 202. a rotating cover; 203. a support rod; 300. a transfer fixing assembly; 301. a bottom plate; 302. side baffles; 303. a rear baffle; 304. a rubber crash pad; 305. a contact wireless power receiving end; 306. a semicircular slide block; 307. a spring; 400. a transfer drive assembly; 401. a driving motor; 402. driving the rotating shaft; 403. a sprocket; 404. a transmission rotating shaft; 405. a chain; 406. a rubber driving roller; 500. a first transport mount; 600. a first conveyor belt; 700. the second transportation fixing frame; 800. and a second conveyor belt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a rotary mechanism of high efficiency corner machine, including base subassembly 100, base subassembly 100 includes rotating base 101, install rotating assembly 200 on the rotating base 101, rotating assembly 200 is connected with and transports fixed subassembly 300, transport and install on the fixed subassembly 300 and transport drive assembly 400, one side of rotating base 101 is provided with first transportation mount 500, be provided with first conveyer belt 600 on the first transportation mount 500, the conveying motor of first conveyer belt 600 is fixed on first transportation mount 500, the opposite side of rotating base 101 is provided with second transportation mount 700, be provided with second conveyer belt 800 on the second transportation mount 700, the conveying motor of second conveyer belt 800 is fixed on second transportation mount 700.

The rotating assembly 200 comprises a rotating motor 201, wherein a stand of the rotating motor 201 is fixed at the axle center of the rotating base 101, a rotating cover 202 is fixed on an output shaft of the rotating motor 201, and the rotating cover 202 surrounds the outer side of the rotating motor 201;

a plurality of struts 203 are fixed on the rotating cover 202, one end of each strut 203 is fixed on the side wall of the rotating cover 202, the transferring and fixing assembly 300 comprises a bottom plate 301, and the other end of each strut 203 is fixed on one side of the bottom plate 301;

the rotation assembly 200 is used for rotating the transfer driving assembly 400, and when the transfer driving assembly 400 is used for transferring objects from the first conveyor belt 600 to the second conveyor belt 800, the rotation angle can be formed by 360 degrees on the plane, the adjustment is simple and convenient, the rotation angle can be adjusted without moving the device, and the transfer efficiency cannot be influenced by adjusting the rotation angle.

Side baffles 302 are fixed on two sides of the bottom plate 301, and a rear baffle 303 is fixed on one side, close to the supporting rods 203, of the upper end of the bottom plate 301;

the inner side of the rear baffle 303 is attached to the side baffle 302, a rubber anti-collision pad 304 is connected to the inner side of the rear baffle 303, and a pressure sensor is arranged on the inner side of the rubber anti-collision pad 304;

the lower end of the bottom plate 301 is provided with a contact wireless power supply receiving end 305, a semicircular sliding block 306 is arranged below the bottom plate 301, a spring 307 is connected between the semicircular sliding block 306 and the bottom plate 301, the upper end of the spring 307 is fixed on the lower end of the bottom plate 301, and the lower end of the spring 307 is fixed on the upper end of the semicircular sliding block 306;

use side shield 302 and backplate 303 to carry out spacingly to transporting the object, thereby prevent to drop and lead to the damage at the rotatory en route object of transporting, use rubber driving roller 406 to transmit simultaneously, prevent to leave the scar on the object of transporting, use rubber crash pad 304 to prevent to get the in-process object striking to backplate 303 and lead to the object damage.

The upper end of the rotating base 101 is provided with an annular chute 102, the bottom plate 301 is connected with the annular chute 102 in a sliding way through a semicircular sliding block 306, the bottom plate 301 is prevented from swinging and deviating from a running track in the process of rotating and conveying, and the upper end of the rotating base 101 is also provided with a contact type wireless power supply fixed end 103.

The transfer driving assembly 400 comprises a driving motor 401, a base of the driving motor 401 is fixed on the side baffles 302, an output shaft of the driving motor 401 penetrates through one group of the side baffles 302 to be connected with a driving rotating shaft 402, and one end, far away from the driving motor 401, of the driving rotating shaft 402 penetrates through the other group of the side baffles 302 to be fixed with a chain wheel 403;

the chain 405 is sleeved outside the chain 403, a plurality of groups of chain wheels 403 with the same structure are sleeved on the chain 405, the transmission rotating shafts 404 are fixed on the other groups of chain wheels 403, the transmission rotating shafts 404 are synchronously transmitted with the driving rotating shafts 402 through the chain wheels 403, the rubber transmission rollers 406 can synchronously transmit objects conveniently, and the object extrusion damage caused by the asynchronous rotating speed between the rubber transmission rollers 406 is prevented.

The outer sides of the driving rotating shaft 402 and the driving rotating shaft 404 are respectively sleeved with a rubber driving roller 406, and the driving motor 401 is electrically connected with the contact wireless power receiving end 305;

when the transfer driving assembly 400 is positioned on the first conveyor belt 600 for taking a piece, the contact wireless power supply receiving end 305 and the contact wireless power supply fixing end 103 are in contact with each other to be electrified, so that the driving motor 401 rotates, a direct object is in contact with the rubber anti-collision pad 304, and the rotating assembly 200 starts to rotate; when the transfer driving assembly 400 is located on the second conveyor 800 for conveying, the contact wireless power receiving end 305 and the other group of contact wireless power fixing ends 103 are in interference and electrifying, so that the driving motor 401 is reversed, and the object is conveyed out of the transfer driving assembly 400 until the object is conveyed out by the second conveyor 800, and the winding of the wire caused by wire connection is prevented.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a rotary mechanism of high efficiency corner machine, includes base subassembly (100), its characterized in that: the base assembly (100) comprises a rotating base (101), the rotating base (101) is provided with a rotating assembly (200), the rotating assembly (200) is connected with a transferring fixing assembly (300), a transferring driving assembly (400) is arranged on the transferring fixing assembly (300), a first transferring fixing frame (500) is arranged on one side of the rotating base (101), a first conveying belt (600) is arranged on the first transferring fixing frame (500), a conveying motor of the first conveying belt (600) is fixed on the first conveying fixing frame (500), a second conveying fixing frame (700) is arranged on the other side of the rotating base (101), a second conveying belt (800) is arranged on the second conveying fixing frame (700), and a conveying motor of the second conveying belt (800) is fixed on the second conveying fixing frame (700).

2. The rotary mechanism of a high efficiency corner machine of claim 1, wherein: the rotating assembly (200) comprises a rotating motor (201), a base of the rotating motor (201) is fixed at the axis of the rotating base (101), a rotating cover (202) is fixed on an output shaft of the rotating motor (201), and the rotating cover (202) surrounds the outer side of the rotating motor (201).

3. The rotary mechanism of a high efficiency corner machine of claim 2, wherein: a plurality of supporting rods (203) are fixed on the rotating cover (202), one ends of the supporting rods (203) are fixed on the side wall of the rotating cover (202), the transferring and fixing assembly (300) comprises a bottom plate (301), and the other ends of the supporting rods (203) are fixed on one side of the bottom plate (301).

4. A rotary mechanism for a high efficiency corner machine according to claim 3, wherein: side baffles (302) are fixed on two sides of the bottom plate (301), and a rear baffle (303) is fixed on one side, close to the supporting rods (203), of the upper end of the bottom plate (301).

5. The rotary mechanism of the high-efficiency corner machine according to claim 4, wherein: the inner side of the rear baffle plate (303) is attached to the side baffle plate (302), a rubber anti-collision pad (304) is connected to the inner side of the rear baffle plate (303), and a pressure sensor is arranged on the inner side of the rubber anti-collision pad (304).

6. The rotary mechanism of the high-efficiency corner machine according to claim 5, wherein: the wireless power supply is characterized in that a contact wireless power supply receiving end (305) is arranged at the lower end of the bottom plate (301), a semicircular sliding block (306) is arranged below the bottom plate (301), a spring (307) is connected between the semicircular sliding block (306) and the bottom plate (301), the upper end of the spring (307) is fixed at the lower end of the bottom plate (301), and the lower end of the spring (307) is fixed at the upper end of the semicircular sliding block (306).

7. The rotary mechanism of a high efficiency corner machine of claim 6, wherein: the upper end of the rotating base (101) is provided with an annular chute (102), the bottom plate (301) is connected with the annular chute (102) in a sliding mode through a semicircular sliding block (306), and the upper end of the rotating base (101) is further provided with a contact type wireless power supply fixed end (103).

8. The rotary mechanism of a high efficiency corner machine of claim 7, wherein: the transfer driving assembly (400), the transfer driving assembly (400) comprises a driving motor (401), a stand of the driving motor (401) is fixed on the side baffle plate (302), an output shaft of the driving motor (401) penetrates through one group of side baffle plates (302) to be connected with a driving rotating shaft (402), and one end, far away from the driving motor (401), of the driving rotating shaft (402) penetrates through the other group of side baffle plates (302) to be fixed with a chain wheel (403).

9. The rotary mechanism of a high efficiency corner machine of claim 8, wherein: the chain wheel (403) is sleeved with a chain (405), a plurality of groups of chain wheels (403) with the same structure are sleeved on the chain (405), a transmission rotating shaft (404) is fixed on the other groups of chain wheels (403), and the transmission rotating shaft (404) is synchronously transmitted with the driving rotating shaft (402) through the chain wheels (403).

10. The rotary mechanism of a high efficiency corner machine of claim 9, wherein: the driving rotating shaft (402) and the transmission rotating shaft (404) are respectively sleeved with a rubber transmission roller (406), and the driving motor (401) is electrically connected with the contact wireless power supply receiving end (305).