CN107600916B - Lighting equipment manufacturing supporting device comprising spiral feeding - Google Patents

Abstract

The invention relates to the field of manufacturing and processing of lighting equipment, in particular to a lighting equipment manufacturing supporting device comprising spiral feeding. The technical aim of the invention is realized by the following technical scheme: the utility model provides a lighting apparatus preparation strutting arrangement including spiral pay-off, the host computer still includes the mount pad, connects the mount pad with the spliced pole of host computer still includes the spiral pay-off that is used for placing and carries the bulb, carries spiral pay-off to include vibrations base, be spiral ascending spiral support, rotate and connect rotatory section of thick bamboo on the vibrations base, through the export with the output way of spiral support connection. The invention aims to provide the lighting equipment manufacturing supporting device with the spiral feeding function, which can automatically realize the transmission, clamping and loosening of components, increase the automation degree of a logistics process, improve the production efficiency and further provide the spiral feeding device for placing the bulbs so that the bulbs are placed orderly.

Description

Lighting equipment manufacturing supporting device comprising spiral feeding

Technical Field

The invention relates to the field of manufacturing and processing of lighting equipment, in particular to a lighting equipment manufacturing supporting device comprising spiral feeding.

Background

With the development of technology and the expansion of industrial scale, the industrial scale of lighting equipment has been gradually expanding in recent years, and the lighting equipment is widely applied to industries such as urban lighting, landscape brightening and the like.

During the process of the lighting device, it is necessary to carry out logistical transport of the components of the lighting device. The traditional industry often relies on workers to manually acquire components on a conveyor belt, and assemble the various components of the lighting apparatus,

on the one hand, the operation has high labor cost and low efficiency, and on the other hand, the error rate is high, and the yield is adversely affected to a certain extent.

In addition, in the link of parts processing and assembly, the bulb needs to be assembled for the assembly, the bulb stacking in the prior step is messy, workers manually pick up the bulbs, besides the speed is low, the bulb stacking mode is easy to scratch or damage the surfaces of the bulbs, and the product quality is affected.

Disclosure of Invention

The invention aims to provide the lighting equipment manufacturing supporting device with the spiral feeding function, which can automatically realize the transmission, clamping and loosening of components, increase the automation degree of a logistics process, improve the production efficiency and further provide the spiral feeding device for placing the bulbs so that the bulbs are placed orderly.

The technical aim of the invention is realized by the following technical scheme: the main table comprises a bearing ring and guide fins which are connected with the side end of the bearing ring and extend in the horizontal direction, and sliding grooves are formed in the guide fins; still contain gliding conflict hand in the sliding tray still contains the spiral material feeding unit who is used for placing and carrying the bulb, carries spiral material feeding unit to contain vibrations base, be spiral ascending spiral support, rotate the rotary drum of connecting on the vibrations base, through the export with spiral support connects's output way.

Preferably, the output channel is provided with a bulb sensor and a baffle column for preventing the bulb from going forward.

As the preferable mode of the invention, the number of the guide wings and the number of the interference hands are three, and the guide wings and the interference hands are uniformly distributed on the bearing ring in a circumferential array.

Preferably, the main table is rotatably connected to the connection post.

In the present invention, the abutting hand is provided with an engaging portion which is engaged with and slides on the guide fin.

In actual use, the articles are transferred to the main station via a third party component, which may be transported on logistics equipment, such as a conveyor belt, or other conventional transmission component driven by a gear chain. When the component is transferred to the upper part of the main table, the abutting hands slide on the sliding grooves, specifically, the abutting hands slide in a plurality of directions far away from each other, then, after the component is put down, the abutting hands slide again, and the sliding directions face the directions close to each other to fix the component.

In the subsequent process, the bulb and the components mentioned above are required to be assembled and fixed, the spiral feeding device is placed, the vibration base slightly vibrates, and the bulb slightly vibrates to the spiral support and collides with the wall of the rotating cylinder. Then, the rotary cylinder rotates to drive a plurality of bulbs to move on the spiral support, and the whole spiral support ascends spirally and is led to the outlet. The bulbs enter the output channel through the outlet under the action of the rotary drum and advance along the output channel in a driving mode that rollers or a conveying belt are arranged on the output channel.

The output channel can be provided with a plurality of bulb inductors, when the blockage occurs or the assembly speed cannot keep up, the situation can be detected in real time, and the pause is sent out or the feeding speed of the spiral feeding device is slowed down, and the baffle post is stretched out for blocking.

The supporting contact hand can be obliquely arranged, and gradually approaches to the central axis of the bearing ring in the horizontal direction along the vertical direction along the direction away from the mounting seat.

Preferably, the buffer component and the rolling component are arranged on the contact arm.

Preferably, the buffer assembly comprises an elastic column made of elastic material and connected with the contact hand, a connecting ball connected to the elastic column, and a clamp and a block sleeved on the connecting ball and capable of rotating on the connecting ball.

Preferably, the card and block are tapered in cross section away from the interference hand.

When the contact hand is proximate to a component, the component is referred to herein generally as a lighting device, such as a light fixture housing, and particularly a bulb-type light fixture housing where the housing is relatively fragile. The contact hand is required to have better friction adhesion on the one hand and avoid slipping.

In this technical scheme, on the one hand, the elasticity post possesses elasticity, can provide the one-level buffering when contacting with the part, and is the buffering of vertical direction. The buckling block can rotate on the connecting ball, and the rotation direction is vertical and horizontal, so that buffering is further improved.

The surface area of the side of the card and the block, which is contacted with the component, is increased, so that the friction force and the adhesive force of the card and the block to the component are increased.

Preferably, the rolling assembly comprises an elastic seat made of elastic material, a guide rail arranged on the elastic seat and a collision wheel arranged on the guide rail, wherein the collision wheel rotates according to the self wheel center.

On the other hand, in part, due to numerical control errors or the difference in size and shape of the parts, the contact arm needs to be displaced to some extent, that is, slid, when contacting the parts. At this time, a rolling assembly is required, the elastic seat also provides a part of elastic buffer, and the abutting wheel provides a proper rolling effect so that flexible displacement occurs when the abutting wheel contacts with the component, and damage to the component is avoided.

Preferably, the four buffer assemblies are arranged at four corners of the rolling assembly.

In summary, the invention has the following beneficial effects:

1. the main platform can bear the lighting equipment for transportation.

2. The abutting hands are obliquely arranged and can slide, so that the component is clamped.

3. The buffer component and the rolling component flexibly touch and flexibly slide the component to protect the component.

4. The spiral feeding device can orderly place and convey bulbs.

Description of the drawings:

FIG. 1 is a schematic diagram of example 1;

FIG. 2 is a schematic view of a rolling assembly and a cushioning assembly on an interference hand;

fig. 3 is a schematic view of a screw feeder.

In the figure:

1. mounting seat, 2, connecting column, 3, main part, 31, load ring, 32, guide wing, 33, sliding tray, 4, conflict hand, 41, block portion, 5, rolling element, 51, elastic seat, 52, guide rail, 53, conflict wheel, 6, buffer element, 61, elastic column, 62, connecting ball, 63, card and piece, 9, spiral feeding device, 91, vibration base, 92, rotary cylinder, 93, spiral support, 94, export, 95, output channel, 96, bulb inductor, 97, fender post.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

In embodiment 1, as shown in fig. 1 and 2, a lighting device manufacturing supporting device with spiral feeding, a main table 3, a mounting seat 1, a connecting column 2 connecting the mounting seat 1 and the main table 3, the main table 3 comprises a bearing ring 31 and a guide fin 32 connected to the side end of the bearing ring 31 and extending in the horizontal direction, and a sliding groove 33 is formed on the guide fin 32; and also includes a contact hand 4 sliding in the sliding groove 33. The number of the guide fins 32 and the number of the abutting hands 4 are three, and the guide fins and the abutting hands are uniformly distributed on the bearing ring 31 in a circumferential array. The main table 3 is rotatably connected to the connecting column 2. The contact arm 4 is provided with an engaging portion 41 which is engaged with and slid on the guide fin 32.

In actual use, the articles are transferred to the main station 3 by means of a third party component, and the main station 3 may be transported on logistics equipment, such as a conveyor belt, or other conventional transmission means driven by a gear chain. When the components are transferred to the upper side of the main table 3, the contact arms 4 slide on the sliding grooves 33, specifically, the contact arms 4 slide in a direction away from each other, and then, after the components are put down, the contact arms 4 slide again in a direction toward each other, fixing the components.

The contact arm 4 may be inclined, and gradually approaches the central axis of the carrier ring 31 in the horizontal direction in a vertical direction away from the mount 1.

The contact arm 4 is provided with a buffer component 6 and a rolling component 5. The buffer assembly 6 comprises an elastic column 61 made of elastic material and connected with the contact hand 4, a connecting ball 62 connected with the elastic column 61, and a clamp and a block 63 sleeved on the connecting ball 62 and capable of rotating on the connecting ball 62. The card and block 63 gradually increases in cross section in a direction away from the abutment arm 4.

When the contact hand 4 is proximate to a component, the component is referred to herein generally as a lighting device, such as a light fixture housing, and particularly a bulb-type light fixture housing where the housing is relatively fragile. The contact arm 4 needs to have better friction adhesion on one hand to avoid slipping.

In this embodiment, on the one hand, the elastic column 61 has elasticity, and can provide primary buffering when contacting with the component, and is buffering in the vertical direction. The snap-in block 63 can rotate on the connecting ball 62, which rotation direction is vertical and horizontal, further increasing the damping.

While the surface area of the card and block 63 on the side in contact with the component increases, increasing the actual friction and adhesion to the component.

The rolling assembly 5 comprises an elastic seat 51 made of elastic materials, a guide rail 52 arranged on the elastic seat 51 and a collision wheel 53 arranged on the guide rail 52, wherein the collision wheel 53 rotates according to the self wheel center.

On the other hand, in part, due to numerical control errors or the difference in size and shape of the parts, the contact hand 4 needs to be displaced to some extent, that is, slid, when contacting the parts. At this time, the rolling assembly 5 is required, the elastic seat 51 also provides a part of elastic buffer, and the abutting wheel 53 provides a proper rolling effect so as to flexibly displace when contacting with the component, thereby avoiding damage to the component.

The four buffer components 6 are arranged at four corners of the rolling component 5.

As shown in fig. 3, the bulb feeding device 9 for placing and conveying bulbs is further included, and the feeding device 9 includes a vibration base 91, a spiral support 93 spirally rising, a rotary drum 92 rotatably connected to the vibration base 91, and an output passage 95 connected to the spiral support 93 through an outlet 94. The output channel 95 is provided with a bulb sensor 96 and a stopper 97 for preventing the bulb from going forward.

In the subsequent process, the bulb needs to be assembled and fixed with the above-mentioned components, the screw feeding device 9 is placed, the vibration base 91 slightly vibrates, and the bulb slightly vibrates to the screw bracket 93 and collides with the wall of the rotary cylinder 92. Subsequently, the rotating cylinder 92 rotates to drive the bulbs to move on the screw support 93, and the whole screw support 93 is spirally lifted until reaching the outlet 94. The bulbs enter the output channel 95 through the outlet 94 under the action of the rotating drum 92 and advance along the output channel 95 in a manner such that rollers or a conveyor belt are provided on the output channel 95.

The output channel 95 may be provided with a plurality of bulb sensors 96, which may detect the situation in real time when a jam occurs or the assembly speed is not kept up, and pause or slow down the feeding speed of the screw feeder 9, and extend out of the stopper 97 to block.

Claims (6)

1. Lighting apparatus preparation strutting arrangement that contains spiral pay-off, host computer (3), its characterized in that: the novel lifting device comprises a main table (3), and is characterized by further comprising an installation seat (1), a connecting column (2) for connecting the installation seat (1) and the main table (3), wherein the main table (3) comprises a bearing ring (31) and a guide fin (32) which is connected to the side end of the bearing ring (31) and extends in the horizontal direction, and a sliding groove (33) is formed in the guide fin (32); the automatic bulb automatic feeding device comprises a sliding groove (33), a contact arm (4) sliding in the sliding groove, a spiral feeding device (9) for placing and conveying bulbs, a spiral support (93) for spiral ascending, a rotary cylinder (92) rotatably connected to the vibration base (91), an output channel (95) connected with the spiral support (93) through an outlet (94), a buffer assembly (6) and a rolling assembly (5) are arranged on the contact arm (4), the buffer assembly (6) comprises an elastic column (61) which is made of elastic materials and connected with the contact arm (4), a connecting ball (62) connected to the elastic column (61) and a clamp and block (63) which is sleeved on the connecting ball (62) and can rotate on the connecting ball (62), the cross section of the clamp and block (63) is gradually increased in the direction away from the contact arm (4), the rolling assembly (5) comprises an elastic seat (51) made of elastic materials, a guide rail (52) which is arranged on the contact arm (4), and a self-rotating wheel (53) which is abutted against the guide rail (52).

2. A lighting device manufacturing support apparatus comprising a spiral feed as defined in claim 1, wherein: the output channel (95) is provided with a bulb sensor (96) and a baffle column (97) for preventing the bulb from going forward continuously.

3. A lighting device manufacturing support apparatus comprising a spiral feed as defined in claim 1, wherein: the number of the guide fins (32) and the abutting hands (4) is three, and the guide fins and the abutting hands are uniformly distributed on the bearing ring (31) in a circumferential array.

4. A lighting device manufacturing support apparatus comprising a spiral feed as defined in claim 1, wherein: the main table (3) is rotatably connected to the connecting column (2).

5. A lighting device manufacturing support apparatus comprising a spiral feed as defined in claim 1, wherein: the abutting hand (4) is provided with an engaging part (41) which is engaged and slides on the guide wing (32).

6. A lighting device manufacturing support apparatus comprising a spiral feed as defined in claim 1, wherein: the four buffer assemblies (6) are arranged at four corners of the rolling assembly (5).