CN109911548B

CN109911548B - Paster production is with whole device that has anti-reverse and reposition of redundant personnel transport function

Info

Publication number: CN109911548B
Application number: CN201910213975.5A
Authority: CN
Inventors: 汤付康
Original assignee: Shenzhen Fise Technology Holding Co ltd
Current assignee: Shenzhen Fise Technology Holding Co ltd
Priority date: 2019-03-20
Filing date: 2019-03-20
Publication date: 2021-01-05
Anticipated expiration: 2039-03-20
Also published as: CN109911548A

Abstract

The invention relates to an arraying device with anti-reverse placing and shunt conveying functions for patch production, which comprises a base, supporting blocks and a main belt, wherein slide rails are connected to two sides of the upper end of the base, slide blocks are distributed on the upper ends of the inner sides of the slide rails, the supporting blocks are fixed at the tops of the slide blocks, baffles are arranged on two sides of the upper end of each supporting block, the main belt is distributed on the inner sides of the baffles, a transmission structure is connected to one side of the main belt, a main board jig is distributed on the top end of the main belt, and a limiting groove is recessed in the middle of the inner side of the. According to the invention, through the arrangement of the base and the sliding rails, the sliding rails are symmetrically distributed along the central line of the base, the base is placed horizontally and vertically, the whole equipment is placed horizontally and vertically in the placing process, the transportation of the equipment in a normal state can be effectively ensured, meanwhile, the sliding rails arranged on the two sides can effectively ensure that the sliding rails can effectively support the top weight, and the condition of inclined shaking cannot occur in the work process.

Description

Paster production is with whole device that has anti-reverse and reposition of redundant personnel transport function

Technical Field

The invention relates to the technical field of intelligent mainboard patch production, in particular to an arranging device with functions of reverse discharge prevention and shunt conveying for patch production.

Background

Along with the continuous development of electronic science and technology, some electron mainboard test machines use and extensively in the electronics manufacturing industry, however these mainboard in use need carry out the paster, need whole row of equipment to carry out a spacing alignment to the mainboard at the paster in-process, the follow-up paster equipment of being convenient for carries out paster processing to the mainboard, and general whole row transmission speed is very fast simultaneously, easily takes place paster department and piles up, needs carry out the reposition of redundant personnel transmission to the mainboard, guarantees a plurality of mechanical joint processing.

Although the invention discloses an automatic circulation cleaning antirust arraying device disclosed in Chinese patent application publication No. CN105521964B, the invention is provided with a jet nozzle to spray and clean high-pressure cleaning oil on a hub bearing inner wheel in a conveying channel, the inner wheel is clean and thorough in inclination without residue of attachments, but the inner wheel can not be effectively arrayed and conveyed by users according to the sizes of main boards, only the main boards of the same type can be arrayed and conveyed, the use of the main boards is inconvenient, meanwhile, the inner wheel is easy to be stuck by a user, and a shunting device is needed to shunt the main boards at the conveying position.

Disclosure of Invention

The invention aims to provide an arraying device with functions of preventing reverse placing and shunting conveying for patch production, which aims to solve the problems that a user cannot effectively carry out arraying and conveying on motherboards according to the size, can only carry out arraying on the same type of motherboards, is inconvenient for the user to use, and simultaneously, the mainboard at the conveying position is easy to accumulate at a patch position of the user and needs shunting equipment to shunt the mainboard.

In order to achieve the purpose, the invention provides the following technical scheme: an arraying device with anti-reverse and shunt conveying functions for patch production comprises a base, supporting blocks and a main belt, wherein two sides of the upper end of the base are connected with slide rails, slide blocks are distributed at the upper ends of the inner sides of the slide rails, the supporting blocks are fixed at the tops of the slide blocks, baffle plates are arranged at two sides of the upper end of each supporting block, the main belt is distributed at the inner sides of the baffle plates, one side of the main belt is connected with a transmission structure, a main plate jig is distributed at the top end of the main belt, a limiting groove is formed in the middle of the inner side of the main plate jig in a concave mode, friction blocks are distributed at two sides of the lower end of the main plate jig, a screw rod penetrates through the middle of each supporting block, a handle is distributed at one end of the screw rod, a support is connected with the lower end of one side of the screw rod, a conveying, and the other side of the first transmission belt is provided with a second transmission belt, and one side of the rack, which is far away from the material conveying plate, is connected with a swing mechanism.

Preferably, the slide rails are symmetrically distributed along the center line of the base, and the base is horizontally and vertically arranged.

Preferably, the baffle is evenly distributed along the two sides of the outer wall of the main belt, and the baffle and the base are distributed in a parallel manner.

Preferably, transmission structure's inside is including motor, mount, drive gear, main shaft, connection belt, belt pulley, transmission shaft, connection gear and spacing key, and the outer wall both sides of motor are connected with the mount, and the laminating of the one end outer wall of motor has drive gear, drive gear's inboard middle part runs through there is the main shaft, and the one end distribution of main shaft has the connection belt, the top of connecting the belt is provided with the belt pulley, and the inboard middle part of belt pulley runs through there is the transmission shaft, the axis bilateral symmetry of transmission shaft distributes has the connection gear, and connects outer wall one side of gear and install the spacing key.

Preferably, the friction blocks are symmetrically distributed along the central axis of the main board jig, and the width of each friction block is smaller than that between two sides of the baffle.

Preferably, the screws are distributed along the central line of the support block, and the external threads of the screws are symmetrically distributed along the central line of the screws.

Preferably, the material conveying plates are distributed in an inclined manner, and the inclined angle of the material conveying plates is 30 degrees.

Preferably, the swing mechanism is internally provided with an electric push rod, a connector, a connecting rod, a rotating shaft and a partition plate, the connector is installed at one end of the electric push rod, the connecting rod is fixed at the other end of the connector, the rotating shaft is arranged at the front end of the connecting rod, and the partition plate is distributed on one side, away from the connecting rod, of the rotating shaft.

Preferably, the partition plate and the electric push rod form a traction structure through the rotating shaft, the connecting rod and the connecting head, and a rotating structure is formed between the partition plate and the rotating shaft.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the base and the sliding rails, the sliding rails are symmetrically distributed along the central line of the base, the base is placed horizontally and vertically, the whole equipment is placed horizontally and vertically in the placing process, the transportation of the equipment in a normal state can be effectively ensured, meanwhile, the sliding rails arranged on the two sides can effectively ensure that the sliding rails can effectively support the top weight, and the condition of inclined shaking cannot occur in the work process.

2. According to the invention, through the arrangement of the base, the baffles and the main belt, the baffles are uniformly distributed along two sides of the outer wall of the main belt, the baffles and the base are distributed in a parallel manner, the baffles on two sides limit and fix the main belt in the middle part to ensure that the main belt can effectively run, meanwhile, the baffles on two sides are symmetrically distributed along the central line of the base, and when the main board jig is placed at the upper end of the baffle, the whole main board jig is horizontally placed to facilitate subsequent arrangement.

3. The invention adopts the arrangement of a transmission structure, a motor, a fixing frame, a transmission gear, a main shaft, a connecting belt, a belt pulley, a transmission shaft, a connecting gear and a limit key, wherein the transmission structure internally comprises the motor, the fixing frame, the transmission gear, the main shaft, the connecting belt, the belt pulley, the transmission shaft, the connecting gear and the limit key, when a user needs to rotate the main belt, the user can drive the transmission gear to rotate by starting the motor, the main shaft drives the connecting belt on one side to rotate, the belt pulley on the top drives the transmission shaft to rotate, the connecting gears on two sides drive the main belts distributed on the outer walls of the main belts to rotate, through the structure, when the user places a main board jig on the upper end of a baffle, the main board jig flows from one side to the other side to convey materials, and simultaneously, spacing key is dismantled to the accessible, carries out follow-up regulation, and spacing key carries out spacing fixed to the transmission shaft, prevents that the transmission shaft from breaking away from, leads to the unable effective rotatory defeated material of main belt.

4. According to the invention, through the arrangement of the baffle and the friction block, the width of the friction block is smaller than the width between the two sides of the baffle, when a user needs to put the main board jig into the baffle, the user can insert the friction block into the gap between the two side baffles, the surface of the friction block is subjected to rough treatment, the friction coefficient between the friction block and the main belt is improved, when the main belt rotates, the main board jig can be effectively driven to rotate, meanwhile, because the width of the friction block is smaller than the width between the two sides of the baffle, the user can easily insert the friction block into the baffle, and because only the friction block at the bottom is inserted into the baffle, the main board jig can be effectively ensured to be always placed in a front-up manner when the main board jig is placed, and the subsequent.

5. According to the invention, through the arrangement of the material conveying plates, the material conveying plates are distributed in an inclined manner, when the main board jig moves to the limit position, the friction blocks are separated from the baffle plate, fall into the material conveying plates, flow into the first conveying belt and the second conveying belt through self inertia, and are subjected to shunt transfer, and meanwhile, because the inclination angle of the material conveying plates is smaller, the whole main board jig is ensured to slide slowly in the sliding process, and the flip cover condition is prevented from occurring in the sliding process.

Drawings

FIG. 1 is a schematic top view of an arrangement device with anti-reverse and shunt delivery functions for patch production according to the present invention;

FIG. 2 is a schematic view of a top view of a base of an aligning device with anti-reverse and shunt delivery functions for patch production according to the present invention;

FIG. 3 is a schematic front view of an aligning device with reverse discharge prevention and shunt delivery functions for patch production according to the present invention;

FIG. 4 is a schematic structural diagram of a main board jig of an alignment device with anti-reverse and shunt delivery functions for patch production according to the present invention;

fig. 5 is a schematic structural diagram of the alignment device with anti-reverse and shunt delivery functions for patch production in fig. 1A.

In the figure: 1. a base; 2. a slide rail; 3. a slider; 4. a support block; 5. a baffle plate; 6. a main belt; 7. a transmission structure; 701. an electric motor; 702. a fixed mount; 703. a transmission gear; 704. a main shaft; 705. connecting a belt; 706. a belt pulley; 707. a drive shaft; 708. a connecting gear; 709. a limiting key; 8. a main board fixture; 9. a limiting groove; 10. a friction block; 11. a screw; 12. a handle; 13. a support; 14. a material conveying plate; 15. a frame; 16. a first conveyor belt; 17. a second conveyor belt; 18. a rocking mechanism; 1801. an electric push rod; 1802. a connector; 1803. a connecting rod; 1804. a rotating shaft; 1805. a partition plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an arraying device with anti-reverse and shunt conveying functions for patch production comprises a base 1, slide rails 2, slide blocks 3, supporting blocks 4, baffles 5, a main belt 6, a transmission structure 7, a motor 701, a fixing frame 702, a transmission gear 703, a main shaft 704, a connecting belt 705, a belt pulley 706, a transmission shaft 707, a connecting gear 708, a limit key 709, a main board jig 8, a limit groove 9, a friction block 10, a screw 11, a handle 12, a support 13, a material conveying plate 14, a rack 15, a first transmission belt 16, a second transmission belt 17, a swing mechanism 18, an electric push rod 1801, a connector 1802, a connecting rod 1803, a rotating shaft 1804 and a partition plate 1805, wherein the slide rails 2 are connected to two sides of the upper end of the base 1, the slide blocks 3 are distributed on the upper end of the inner side of the slide rails 2, the slide rails 2 are symmetrically distributed along the central line of the base 1, the base 1 is horizontally and vertically arranged, the transportation of the equipment in a normal state in the transportation process can be effectively ensured, and meanwhile, the sliding rails 2 arranged on the two sides can effectively ensure that the sliding rails 2 can effectively support the top weight and the condition of inclined shaking cannot occur in the work process;

the supporting block 4 is fixed on the top of the sliding block 3, the two sides of the upper end of the supporting block 4 are provided with the baffle plates 5, the main belts 6 are distributed on the inner sides of the baffle plates 5, one side of each main belt 6 is connected with the transmission structure 7, the baffle plates 5 are uniformly distributed along the two sides of the outer wall of each main belt 6, the baffle plates 5 and the base 1 are distributed in a parallel manner, the baffle plates 5 on the two sides limit and fix the main belt 6 in the middle, the main belts 6 can effectively run, meanwhile, the baffle plates 5 on the two sides are symmetrically distributed along the central line of the base 1, when the main board jig 8 is placed on the upper end of each baffle plate 5, the whole main board jig 8 is horizontally placed, and subsequent;

the transmission structure 7 includes a motor 701, a fixing frame 702, a transmission gear 703, a main shaft 704, a connecting belt 705, a belt pulley 706, a transmission shaft 707, a connecting gear 708 and a limit key 709, the fixing frame 702 is connected to two sides of the outer wall of the motor 701, the transmission gear 703 is attached to the outer wall of one end of the motor 701, the main shaft 704 penetrates through the middle part of the inner side of the transmission gear 703, the connecting belt 705 is distributed at one end of the main shaft 704, the belt pulley 706 is arranged at the top of the connecting belt 705, the transmission shaft 707 penetrates through the middle part of the inner side of the belt pulley 706, the connecting gears 708 are symmetrically distributed at two sides of the central axis of the transmission shaft 707, the limit key 709 is installed at one side of the outer wall of the connecting gear 708, when a user needs to rotate the main belt 6, the user can, the belt pulley 706 at the top drives the transmission shaft 707 to rotate, the connecting gears 708 at two sides drive the main belts 6 distributed on the outer walls of the main belts to rotate, and by the structure, when a user places the main board jig 8 on the upper end of the baffle 5, the main board jig 8 is ensured to convey materials from one side to the other side, and meanwhile, when the user needs to adjust the width of the baffle 5 at two sides according to the size of the main board jig 8, subsequent adjustment can be performed by detaching the limit key 709, the limit key 709 limits and fixes the transmission shaft 707 to prevent the transmission shaft 707 from being separated, so that the main belts 6 cannot effectively convey materials in a rotating way;

the top end of the main belt 6 is distributed with a main board jig 8, the middle part of the inner side of the main board jig 8 is sunken with a limiting groove 9, two sides of the lower end of the main board jig 8 are distributed with friction blocks 10, the friction blocks 10 are symmetrically distributed along the central axis of the main board jig 8, the width of the friction blocks 10 is smaller than the width between two sides of the baffle 5, when a user needs to put the main board jig 8 into the baffle 5, the user can insert the friction blocks 10 into the gaps between the baffle 5 at two sides, the surface of the friction blocks 10 adopts rough treatment, the friction coefficient between the friction blocks 10 and the main belt 6 is improved, when the main belt 6 rotates, the main board jig 8 can be effectively driven to rotate, meanwhile, because the width of the friction blocks 10 is smaller than the width between two sides of the baffle 5, the user can easily insert the friction blocks 10 into the baffle 5, because only the friction blocks 10 at the bottom can be inserted into the, the main board jig 8 is always placed in a front-up mode, so that subsequent chip mounting equipment can conveniently carry out chip mounting;

a screw 11 penetrates through the middle of the supporting block 4, a handle 12 is distributed at one end of the screw 11, a support 13 is connected to the lower end of one side of the screw 11, the screw 11 is distributed along the center line of the supporting block 4, external threads of the screw 11 are symmetrically distributed along the center line of the screw 11, when a user needs to adjust the width between the baffle 5 and the baffle 5, the user can drive the screw 11 to rotate by rotating the handle 12 through rotating the handle 12, nuts at two sides drive the baffle 5 to move inwards or outwards, a sliding block 3 at the lower end of the supporting block 4 moves inwards along the inner side of the sliding rail 2, and meanwhile, because the external threads of the screw 11 are symmetrically distributed along the center line of the screw 11, when the user rotates the screw 11, the supporting blocks 4 at two;

one side of the base 1 is distributed with a material conveying plate 14, the other side of the material conveying plate 14 is provided with a rack 15, the material conveying plate 14 is distributed in an inclined shape, the inclined angle of the material conveying plate 14 is 30 degrees, when the main board jig 8 moves to the extreme limit position, the friction block 10 is separated from the baffle 5 and falls into the material conveying plate 14, flows into the first conveying belt 16 and the second conveying belt 17 through self inertia to carry out shunting transfer, and meanwhile, because the inclined angle of the material conveying plate 14 is smaller, the whole main board jig 8 is ensured to slide slowly in the sliding process, and the flip cover condition is prevented from occurring in the sliding process;

a first transmission belt 16 is fixed on one side of the rear end of the rack 15, a second transmission belt 17 is arranged on the other side of the first transmission belt 16, a swing mechanism 18 is connected on one side of the rack 15 away from the material conveying plate 14, an electric push rod 1801, a connecting head 1802, a connecting rod 1803, a rotating shaft 1804 and a partition plate 1805 are arranged inside the swing mechanism 18, the connecting head 1802 is installed at one end of the electric push rod 1801, the connecting rod 1803 is fixed at the other end of the connecting head 1802, a rotating shaft 1804 is arranged at the front end of the connecting rod 1803, a partition plate 1805 is distributed on one side of the rotating shaft away from the connecting rod 1803, the partition plate 1801804 5 forms a pulling structure with the electric push rod 1801 through the rotating shaft 1804, the connecting rod 1803 and the connecting head 1802, and a rotating structure is formed between the partition plate 1805 and the rotating shaft 1804, when a main board jig 8 needs to, the connecting rod 1803 is driven to rotate, the connecting rod 1803 drives the partition plate 1805 to swing along the center of the rotation shaft 1804, the frequency of the swing of the partition plate 1805 is reached through the rotating speed of the motor in the electric push rod 1801, and when the main board jig 8 flows into the first transmission belt 16 and the second transmission belt 17, the first transmission belt 16 and the second transmission belt 17 transmit the main board jig 8.

The working principle of the embodiment is as follows: the whole-row device with the functions of reverse placement prevention and shunt conveying for chip mounting production is characterized in that a mainboard is placed into a mainboard jig 8 firstly when the whole-row device is used, the mainboard is manually placed into a baffle 5 by a user, the friction block 10 can be inserted into a gap between the baffles 5 on two sides by the user, the surface of the friction block 10 is subjected to rough treatment, the friction coefficient between the friction block 10 and a main belt 6 is improved, the mainboard jig 8 can be effectively driven to rotate when the main belt 6 rotates, meanwhile, the friction block 10 can be easily inserted into the baffle 5 by the user because the width of the friction block 10 is smaller than that between two sides of the baffle 5, and the friction block 10 at the bottom can only be inserted into the baffle 5, so that the mainboard jig 8 can be effectively ensured to be always placed in a front-up mode when the mainboard jig 8 is placed, and subsequent chip mounting equipment can be;

at the moment, a user starts the motor 701, the model of the motor 701 is YE2-132S-4, the motor 701 drives the transmission gear 703 to rotate, the main shaft 704 drives the connecting belt 705 on one side to rotate, the belt pulley 706 on the top drives the transmission shaft 707 to rotate, the connecting gears 708 on the two sides drive the main belts 6 distributed on the outer walls of the main belts to rotate, and by means of the structure, when the user places the main board jig 8 on the upper end of the baffle 5, the main board jig 8 is ensured to convey materials from one side to the other side;

when the main board jig 8 moves to the limit position, the friction block 10 is separated from the baffle 5, falls into the material conveying plate 14, flows into the first conveying belt 16 and the second conveying belt 17 through self inertia, and is subjected to shunt transfer, and meanwhile, because the inclination angle of the material conveying plate 14 is smaller, the whole main board jig 8 is ensured to slide slowly in the sliding process, so that the flip cover condition in the sliding process is prevented, and meanwhile, when a user needs to perform shunt transmission on the main board jig 8, the user can drive the connecting rod 1803 to rotate by opening the electric push rod 1801, the model of the electric push rod 1801 is XYDHA24-800, through the back-and-forth pulling of the electric push rod 1801, the connecting rod 1803 drives the partition plate 1805 to swing along the center of the rotating shaft 1804, through the rotating speed of the motor in the electric push rod 1801, the swinging frequency of the partition plate 1805 is reached, when the main board jig 8 flows into the first conveying belt, the first conveying belt 16 and the second conveying belt 17 convey the mainboard jig 8;

and finally, fixing the main board jig 8 through clamping equipment, and carrying out chip mounting processing on the main board through chip mounting equipment.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a paster production is with whole device that has anti-reverse and reposition of redundant personnel transport function, includes base (1), supporting shoe (4) and main belt (6), its characterized in that: the automatic feeding device is characterized in that slide rails (2) are connected to two sides of the upper end of the base (1), a slide block (3) is distributed at the upper end of the inner side of each slide rail (2), supporting blocks (4) are fixed to the top of each slide block (3), baffles (5) are arranged on two sides of the upper end of each supporting block (4), a main belt (6) is distributed on the inner side of each baffle (5), a transmission structure (7) is connected to one side of each main belt (6), a main board jig (8) is distributed at the top end of each main belt (6), a limiting groove (9) is formed in the middle of the inner side of each main board jig (8) in a sunken mode, friction blocks (10) are distributed at two sides of the lower end of each main board jig (8), a screw rod (11) penetrates through the middle of each supporting block (4), a handle (12) is distributed at one end of each screw rod (11), a support, and the other side of defeated flitch (14) installs frame (15), rear end one side of frame (15) is fixed with first transmission band (16), and the opposite side of first transmission band (16) is provided with second transmission band (17), one side that defeated flitch (14) were kept away from in frame (15) is connected with wabbler mechanism (18), the inside of wabbler mechanism (18) is including electric putter (1801), connector (1802), connecting rod (1803), rotation axis (1804) and division board (1805), and connector (1802) are installed to the one end of electric putter (1801), the other end of connector (1802) is fixed with connecting rod (1803), and the front end of connecting rod (1803) is provided with rotation axis (1804), one side that rotation axis (1804) kept away from connecting rod (1803) distributes and has division board (1805), division board (1805) constitute through rotation axis (1804), connecting rod (1803) and connector (1802) and electric putter (1801 and pull the structure, and a rotating structure is formed between the partition plate (1805) and the rotating shaft (1804), the friction blocks (10) are symmetrically distributed along the central axis of the main board jig (8), and the width of each friction block (10) is smaller than that between two sides of the baffle (5).

2. The array device with anti-reverse and shunt delivery functions for patch production according to claim 1, wherein: the slide rails (2) are symmetrically distributed along the central line of the base (1), and the base (1) is horizontally and vertically placed.

3. The array device with anti-reverse and shunt delivery functions for patch production according to claim 1, wherein: baffle (5) are along the outer wall both sides evenly distributed of main belt (6), and are parallel form distribution between baffle (5) and base (1).

4. The array device with anti-reverse and shunt delivery functions for patch production according to claim 1, wherein: the transmission structure (7) comprises a motor (701), a fixing frame (702), a transmission gear (703), a main shaft (704), a connecting belt (705), a belt pulley (706), a transmission shaft (707), a connecting gear (708) and a limit key (709) inside, the two sides of the outer wall of the motor (701) are connected with a fixing frame (702), the outer wall of one end of the motor (701) is attached with a transmission gear (703), the middle part of the inner side of the transmission gear (703) penetrates through a main shaft (704), and one end of the main shaft (704) is distributed with a connecting belt (705), the top of the connecting belt (705) is provided with a belt pulley (706), and a transmission shaft (707) penetrates through the middle part of the inner side of the belt pulley (706), connecting gears (708) are symmetrically distributed on two sides of the central axis of the transmission shaft (707), and a limit key (709) is installed on one side of the outer wall of each connecting gear (708).

5. The array device with anti-reverse and shunt delivery functions for patch production according to claim 1, wherein: the screw rods (11) are distributed along the center line of the supporting block (4), and the external threads of the screw rods (11) are symmetrically distributed along the center line of the screw rods (11).

6. The array device with anti-reverse and shunt delivery functions for patch production according to claim 1, wherein: the material conveying plates (14) are distributed in an inclined shape, and the inclined angle of the material conveying plates (14) is 30 degrees.