CN208932471U - Magnetic carrying tool separates feeding machanism - Google Patents

Abstract

The utility model relates to printed-board technology fields, and in particular to a kind of magnetic carrying tool separation feeding machanism.It includes: rack, feeding module, feeding module and material toggling module；Feeding module is set in rack, is gradually passed down to splicing station for stacking magnetic carrying tool in the vertical direction, and by the magnetic carrying tool stacked；Feeding module is located at the lower section of splicing station；Material toggling module is set at splicing station, for stirring the magnetic carrying tool being located on splicing station, so that the magnetic carrying tool separates with the magnetic carrying tool being positioned above and falls to feeding module.Magnetic carrying tool is supported by feeding module and is gradually passed down to splicing station, material toggling module acts on the magnetic carrying tool for being moved to splicing station, so that the magnetic carrying tool is separated with the magnetic carrying tool of top, cause the magnetic carrying tool to fall to feeding module, is one by one transferred out magnetic carrying tool by feeding module；Realize magnetic carrying tool is automatically separated feed, high production efficiency.

Description

Magnetic carrying tool separates feeding machanism

Technical field

The utility model relates to printed-board technology fields, and in particular to a kind of magnetic carrying tool separation feeding machanism.

Background technique

In the prior art, relevant circuit is made on pcb board, generallys use print solder paste, and then patch flows back The techniques such as weldering, circuit is printed on pcb board.It is easily bent deformation since pcb board is relatively thin, cannot directly carry out printing tin The techniques such as cream and patch, need for pcb board to be put into magnetic carrying tool, could complete the printing patch work of pcb board.

Magnetic carrying tool common at present includes for carrying the support plate of pcb board, on support plate and for cooperating support plate Position the steel disc and multiple magnet being embedded on support plate of pcb board.Magnet adsorb steel disc so that pcb board be fixed on support plate and In space between steel disc.When multiple magnetic carrying tools are stacked, there is gap between the edge of two neighboring magnetic carrying tool, And the magnet of neighbouring two magnetic carrying tools aligns arrangement, is mutually attached together by the magnetic force of magnet.Work as needs When separating carrier, need manually one by one to take out magnetic carrying tool, to realize the separation of magnetic carrying tool, production efficiency is low.

Utility model content

The purpose of this utility model is to provide a kind of magnetic carrying tool separation feeding machanism, to solve hand in the prior art The work point problem low from magnetic carrying tool bring production efficiency.

The purpose of this utility model is achieved through the following technical solutions:

The utility model provides a kind of magnetic carrying tool separation feeding machanism, comprising: rack, feeding module, feeding module and Material toggling module；Feeding module is set in the rack, is carried for stacking magnetic carrying tool in the vertical direction, and by the magnetism stacked Tool is gradually passed down to splicing station；Feeding module is located at the lower section of the splicing station, for transmitting magnetic carrying tool；Material toggling Module is set at the splicing station, for stirring the magnetic carrying tool being located on the splicing station, so that the magnetic carrying tool It is separated with the magnetic carrying tool being positioned above and falls to the feeding module.

Preferably, the feeding module includes feed bin, support unit and splicing unit；Feed bin is set in the rack, and For accommodating magnetic carrying tool；The bin bottom has discharge port, and constitutes the splicing station；Support unit, which has, to be corresponded to The supporting element of the splicing station setting；The supporting element can protrude into opposite between two neighboring magnetic carrying tool in the horizontal direction The magnetic carrying tool being located above the supporting element is supported in two gaps, or opposite two far from magnetic carrying tool in the horizontal direction End, and magnetic carrying tool is made to fall to feeding module under the effect of gravity；Splicing unit is located at the lower section of the feed bin, and having can rise The material receiving of drop；The material receiving can rise to connect with the splicing station, and in supporting element far from magnetic carrying tool Opposite end when, magnetic carrying tool is supported in splicing station；The material receiving can drop to the biography of the feeding module Send the lower section in face.

Preferably, the splicing unit includes receiving cylinder；The output shaft of the receiving cylinder and the material receiving phase Even；Via the driving of the receiving cylinder, so that the material receiving is in the lower section of the transmission plane of the feeding module and described It is moved up and down between splicing station, and then gradually supports the magnetic carrying tool for dropping to the splicing station.

Preferably, the support unit includes the support cylinder of at least a pair of opposing；The output of the support cylinder Axis is connected with the supporting element；Via the driving of the support cylinder, the supporting element is enabled to protrude into phase in the horizontal direction Opposite two gaps between adjacent two magnetic carrying tools, or in the horizontal direction far from the opposite end of magnetic carrying tool.

Preferably, the distance between the supporting element and the splicing station are the thickness of single magnetic carrying tool.

Preferably, the feed bin includes two limit plates being set in the rack；Two limit plates are oppositely arranged, And there is a material stock space for being used to accommodate magnetic carrying tool between two limit plates.

Preferably, the feeding module further includes the first photoelectric sensor on the feed bin；First photoelectricity Sensor is used to detect the stack height of the magnetic carrying tool in the feed bin, and for being electrically connected with peripheral control unit.

Preferably, the feeding module includes the Belt Conveying component positioned at the lower section of the splicing station and feeding Motor；The output shaft of the feeding motor is connect with the Belt Conveying Component driver.

Preferably, the feeding module further includes the second photoelectricity arranged corresponding to the transmission plane of the Belt Conveying component Sensor；Second photoelectric sensor is used to detect the position of the magnetic carrying tool fallen to the Belt Conveying component, and with The feeding motor is electrically connected.

Preferably, the material toggling module includes the material toggling cylinder being fixed on the outside of the splicing station, and is set to material toggling Material toggling part on the output shaft of cylinder；The material toggling part is arranged corresponding to the splicing station；Via the drive of the material toggling cylinder It is dynamic, so that the material toggling part pushes the magnetic carrying tool being located on the splicing station.

As shown from the above technical solution, the advantages of the utility model and have the active effect that feeding module be set to rack on, It is gradually passed down to splicing station for stacking magnetic carrying tool in the vertical direction, and by the magnetic carrying tool stacked, and is dialled Expect that module is arranged corresponding to splicing station, and feeding module is located at the lower section of splicing station；Multiple stacked magnetic carrying tools Splicing station is supported by feeding module and is gradually passed down to, material toggling module acts on the magnetic load for being moved to splicing station Tool, so that the magnet of the magnetic carrying tool of the magnet and top of the magnetic carrying tool misplaces, and then the magnetic carrying tool and its top Magnetic force between adjacent magnetic carrying tool weakens, and causes the magnetic carrying tool to fall to feeding module, by feeding module one by one by magnetic Property carrier transfers out；Modules cooperate, and realize magnetic carrying tool is automatically separated feed, high production efficiency.

Detailed description of the invention

The utility model is described in detail by following preferred embodiments and attached drawing for ease of explanation,.

Fig. 1 is the structural schematic diagram that the utility model magnetic carrying tool separates feeding machanism preferred embodiment；

Fig. 2 is the front view that magnetic carrying tool shown in FIG. 1 separates feeding machanism；

Fig. 3 is the rearview that magnetic carrying tool shown in FIG. 1 separates feeding machanism；

Fig. 4 is the partial enlargement diagram of the magnetic carrying tool separation feeding machanism in Fig. 3 shown in A.

Label declaration: 1, rack；2, feeding module；21, feed bin；211, limit plate；212, L shaped plate；22, support unit； 221, cylinder is supported；222, supporting element；23, splicing unit；231, receiving cylinder；232, material receiving；24, the first photoelectric sensing Device；3, feeding module；31, Belt Conveying component；4, material toggling module；41, material toggling cylinder；42, material toggling part；500, magnetic carrying tool.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation The utility model is further described in example.It should be appreciated that specific embodiment described herein is only used to explain this reality With novel, it is not used to limit the utility model.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for Convenient for description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance or implicitly indicates indicated technology The quantity of feature.Define " first " as a result, the feature of " second " can explicitly or implicitly include it is one or more The feature.The meaning of " plurality " is two or more in the description of the present invention, unless otherwise clearly specific It limits.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection.It can be mechanical connection, be also possible to be electrically connected.Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements or the interaction relationship of two elements.For those of ordinary skill in the art and Speech, can understand the concrete meaning of above-mentioned term in the present invention as the case may be.

The utility model provides a kind of magnetic carrying tool separation feeding machanism, and for placement will to be laminated, simultaneously mutually magnetic absorption will exist Magnetic carrying tool together separates outside transmission one by one.The magnetic carrying tool is mainly used for carrying pcb board.

Referring to Fig. 1, it includes rack 1, feeding module 2, feeding module that magnetic carrying tool, which separates feeding machanism, in the present embodiment 3 and material toggling module 4.Wherein, feeding module 2 is fixed in rack 1, for stacking magnetic carrying tool 500 in the vertical direction, And for gradually transmitting magnetic carrying tool 500 downwards；Material toggling module 4 is used to stir the single magnetic carrying tool that feed mechanism transmitting comes 500, and the magnetic carrying tool 500 is made to fall naturally；Feeding module 3 is arranged in 4 lower section of material toggling module, for being transmitted one by one by material toggling Module 4 is stirred and the magnetic carrying tool 500 that falls.Modules cooperate, and realize magnetic carrying tool 500 is automatically separated confession Material, high production efficiency.

It please refers to Fig.1 to Fig.3, feeding module 2 includes feed bin 21, support unit 22, splicing unit 23 and the first photoelectric transfer Sensor 24.Feed bin 21 includes that two limit plates 211 positioned opposite and two one-to-one correspondence are formed in two limit plates 211 Lower end L shaped plate 212；The upper end of two limit plates 211 has a feed inlet, and the lower end of two limit plates 211 has one Discharge port, the discharge port constitute splicing station.Two limit plates 211 are arranged in the top of feeding module 3.Two limit plates 211 One is constituted each parallel to vertical direction, and between two limit plates 211 for accommodating the material stock space of magnetic carrying tool 500.L shape Plate 212 is fixed in rack 1, and the transverse part of L shaped plate 212 is connected with the lower end of limit plate 211.First photoelectric sensing Device 24 is installed therein on the edge of a limit plate 211, and is used to detect the stacking height of the magnetic carrying tool 500 in feed bin 21 Degree.First photoelectric sensor 24 is electrically connected with peripheral control unit, and is used to control to outside to send alarm signal, to prompt to grasp Work person.First photoelectric sensor 24 is reflective photoelectric sensor.

Fig. 1 and Fig. 4 are please referred to, support unit 22 includes that at least two one-to-one correspondence are fixed on two L shaped plates 212 Support cylinder 221 on the top surface of transverse part, and the supporting element 222 being mounted on the output shaft of support cylinder 221.Branch The output shaft for supportting cylinder 221 is horizontally extending, via the driving of support cylinder 221, so that supporting element 222 passes through limit plate 211 and protrude into or leave material stock space, to support or unclamp magnetic carrying tool 500.It is connect it is noted that supporting element 222 is located at Expect the top of station, and is the thickness of single magnetic carrying tool 500 with the distance between splicing station.Certainly, supporting element 222 with connect The thickness of two magnetic carrying tools 500 or the thickness of three magnetic carrying tools 500 can also be used in the distance between material station, so that branch Support member 222 is directed at the gap between two neighboring magnetic carrying tool 500.Certainly, the phase that cylinder 221 can also will be supported to be fixed on feed bin To in two side mouths, support and transmitting to magnetic carrying tool 500 can also be realized without limit plate 221 is needed guiding through.

Wherein, support cylinder 221 is six, i.e. uniformly installs in a L shaped plate 212 there are three support cylinder 221, and another Uniformly there are three support cylinder 221, and three support cylinders 221 and the other three support cylinder for installation in one L shaped plate 212 221 is positioned opposite correspondingly.Certainly, support cylinder 221 is also mountable in rack 1.Supporting element 222 uses sheet, with Adapt to the gap of two neighboring magnetic carrying tool 500.

Fig. 3 and Fig. 4 are please referred to, splicing unit 23 includes the receiving cylinder 231, Yi Jian for being fixed on 3 lower section of feeding module Dress, which is fixed on the output shaft of receiving cylinder 231, connects material receiving 232.The output shaft of receiving cylinder 231 prolongs along the vertical direction It stretches, via the driving of receiving cylinder 231, enables and connect material receiving 232 and rise to splicing station.Via receiving cylinder 231 Driving, enable the lower section for connecing the transmission plane that material receiving 232 drops to feeding module 3.

Fig. 1 and Fig. 3 are please referred to, feeding module 3 includes the second photoelectric sensor (not shown), is mounted on supporter Feeding motor (not shown) and two Belt Conveying components 31 being mounted below splicing station.The supporter is adopted With rack 1.Two Belt Conveying components 31 are parallel to each other, and are spaced apart from each other.Two Belt Conveying components 31 and feeding motor Output shaft be drivingly connected, and the spacing of two Belt Conveying components 31 is less than the spacing of two limit plates 211.Two belts The spacing of conveying assembly 31 is slightly less than the width of magnetic carrying tool 500, and two Belt Conveying components 31 are located at the lower section of splicing station. There is an activity space, which moves up and down for connecing material receiving 232 between two Belt Conveying components 31.Skin Length direction with conveying assembly 31 is roughly parallel to one of 211 place plane of limit plate, and is parallel to horizontal plane.Second Photoelectric sensor is fixed on the lower section of two Belt Conveying components 31, and for detecting the magnetism fallen to Belt Conveying component 31 The position of carrier 500.Second photoelectric sensor is reflective photoelectric sensor.

Material toggling module 4 includes the material toggling cylinder 41 being fixed on the outside of splicing station, and is mounted on material toggling gas Material toggling part 42 on the output shaft of cylinder 41.The output shaft of material toggling cylinder 41 is parallel to the length direction of Belt Conveying component 31.It dials The output shaft of material cylinder 41 is located in one of the outside of limit plate 211.Material toggling part 42 includes the output shaft with material toggling cylinder 41 Connected connecting plate and the switch-plate being formed on connecting plate, switch-plate are protruded out to material stock space.Via the drive of material toggling cylinder 41 It is dynamic, so that the switch-plate of material toggling part 42 is into or away from splicing station.

The working principle of the present embodiment referring to FIG. 1 to FIG. 4: when supporting element 222 is in the state for protruding into feed bin 21, Multiple magnetic carrying tools 500 are stacked in the vertical direction on supporting element 222, to fill it up with feed bin 21.The driving of receiving cylinder 231 connects Material receiving 232 rises to splicing station, at this time magnetic carrying tool 500 it is whole with to connect the distance between material receiving 232 be single The thickness of magnetic carrying tool 500.Support cylinder 221 drives supporting element 222 to leave feed bin 21, i.e. supporting element 222 leaves magnetic carrying tool 500 opposite end, whole fall to of magnetic carrying tool 500 connect on material receiving 232.Support cylinder 221 drives supporting element 222 to be worn It crosses limit plate 211 and protrudes into opposite two gaps between two neighboring magnetic carrying tool 500, supporting element 222 is located at support The magnetic carrying tool 500 of top, and the magnetic carrying tool 500 for being located at 222 lower section of supporting element is then carried by the magnetism above magnetic force and its Tool 500 is connected.Receiving cylinder 231 drives the lower section for connecing the transmission plane that material receiving 232 drops to two Belt Conveying components 31.

The end for the single magnetic carrying tool 500 that material toggling cylinder 41 drives material toggling part 42 to act on splicing station, makes It obtains the magnetic carrying tool 500 to rotate, and then the magnet of the magnet of the magnetic carrying tool 500 and the magnetic carrying tool 500 above it is sent out Raw dislocation, the magnetic force for causing the magnetic carrying tool 500 to be subject to weakens, and falls to two Belt Conveying components under gravity On 31 transmission plane, the opposite end of the magnetic carrying tool 500 fits in the transmission plane of two Belt Conveying components 31.Second photoelectricity Sensor-triggered, feeding motor drives two Belt Conveying components 31 to work, and then magnetic carrying tool 500 is sent out.Work as magnetic After property carrier 500 leaves the overlay area of splicing station, receiving cylinder 231 drives again to be connect material receiving 232 and rises to splicing Station, and support unit 22, material toggling module 4 and feeding module 3 repeat above-mentioned movement.Repeatedly, it will be folded in feed bin 21 The magnetic carrying tool 500 set is separated and is sent out one by one, transmits magnetic carrying tool 500 one by one for external organisation of working.Work as feed bin When the stack height of magnetic carrying tool 500 in 21 drops to the detection position of the first photoelectric sensor 24, the first photoelectric sensor 24 peripheral control unit on board sends alarm signal, to remind operator that magnetic carrying tool 500 is added to feed bin 21 in time.When So, magnetic carrying tool 500 can also be added to feed bin 21 when magnetic carrying tool separates feeding machanism work in operator.

The utility model at least has the following advantages:

1, material toggling module 4 connects with splicing station, and feeding module 3 is located at the lower section of splicing station；It is multiple stacked Magnetic carrying tool 500 supported by feeding module 2 and be gradually passed down to splicing station, material toggling module 4 is acted on to be moved to and be connect Expect the magnetic carrying tool 500 of station, so that the magnet of the magnet of the magnetic carrying tool 500 and the magnetic carrying tool of top 500 misplaces, And then the magnetic force between the magnetic carrying tool 500 and magnetic carrying tool 500 adjacent above it weakens, and causes under the magnetic carrying tool 500 Feeding module 3 is dropped down onto, is one by one transferred out magnetic carrying tool 500 by feeding module 3；Compact-sized, modules cooperate, Realize magnetic carrying tool 500 is automatically separated feed, high production efficiency.

2, when the stack height of the magnetic carrying tool 500 in feed bin 21 drops to the detection position of the first photoelectric sensor 24 When, peripheral control unit of first photoelectric sensor 24 on board sends alarm signal, can remind operator in time to feed bin 21 Magnetic carrying tool 500 is added, realizes and does not shut down charging.

In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically implementation The description of mode ", " example ", " specific example " or " some examples " etc. means embodiment or example is combined to describe specific Feature, structure, material or feature are contained at least one embodiment or example of the utility model.In this specification In, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, the specific spy of description Sign, structure, material or feature can be combined in any suitable manner in any one or more embodiments or example.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of magnetic carrying tool separates feeding machanism characterized by comprising

Rack；

Feeding module is set in the rack, for stacking magnetic carrying tool in the vertical direction, and by the magnetic carrying tool stacked by It is secondary to be passed down to splicing station；

Feeding module, positioned at the lower section of the splicing station, for transmitting magnetic carrying tool；

Material toggling module is set at the splicing station, for stirring the magnetic carrying tool being located on the splicing station, so that should Magnetic carrying tool separates with the magnetic carrying tool being positioned above and falls to the feeding module.

2. magnetic carrying tool according to claim 1 separates feeding machanism, which is characterized in that the feeding module includes；

Feed bin is set in the rack, and for accommodating magnetic carrying tool；The bin bottom has discharge port, and described in constituting Splicing station；

Support unit has the supporting element for corresponding to splicing station setting；The supporting element can protrude into phase in the horizontal direction The magnetic carrying tool being located above the supporting element is supported with respect in two gaps between adjacent two magnetic carrying tools, or along level Opposite end of the direction far from magnetic carrying tool, and magnetic carrying tool is made to fall to feeding module under the effect of gravity；

Splicing unit has liftable material receiving positioned at the lower section of the feed bin；The material receiving can rise to The splicing station connects, and in opposite end of the supporting element far from magnetic carrying tool, magnetic carrying tool is supported in splicing station； The material receiving can drop to the lower section of the transmission plane of the feeding module.

3. magnetic carrying tool according to claim 2 separates feeding machanism, which is characterized in that the splicing unit includes splicing Cylinder；The output shaft of the receiving cylinder is connected with the material receiving；Via the driving of the receiving cylinder, so that described connect Material platform moves up and down between the lower section and the splicing station of the transmission plane of the feeding module, and then gradually supports decline To the magnetic carrying tool of the splicing station.

4. magnetic carrying tool according to claim 2 separates feeding machanism, which is characterized in that the support unit includes at least The support cylinder of a pair of opposing；The output shaft of the support cylinder is connected with the supporting element；Via the support cylinder Driving, enable the supporting element to protrude into opposite two gaps between two neighboring magnetic carrying tool in the horizontal direction, or In the horizontal direction far from the opposite end of magnetic carrying tool.

5. magnetic carrying tool according to claim 2 separates feeding machanism, which is characterized in that the supporting element and the splicing The distance between station is the thickness of single magnetic carrying tool.

6. magnetic carrying tool according to claim 2 separates feeding machanism, which is characterized in that the feed bin includes two and is set to Limit plate in the rack；Two limit plates are oppositely arranged, and have one to be used to accommodate between two limit plates The material stock space of magnetic carrying tool.

7. magnetic carrying tool according to claim 2 separates feeding machanism, which is characterized in that the feeding module further includes setting In the first photoelectric sensor on the feed bin；First photoelectric sensor is used to detect the magnetic carrying tool in the feed bin Stack height, and for being electrically connected with peripheral control unit.

8. magnetic carrying tool according to claim 1 separates feeding machanism, which is characterized in that the feeding module includes being located at The Belt Conveying component and feeding motor of the lower section of the splicing station；The output shaft of the feeding motor and the belt Conveying assembly is drivingly connected.

9. magnetic carrying tool according to claim 8 separates feeding machanism, which is characterized in that the feeding module further includes pair Second photoelectric sensor of the transmission plane arrangement of Belt Conveying component described in Ying Yu；Second photoelectric sensor for detect to The position for the magnetic carrying tool that the Belt Conveying component is fallen, and be electrically connected with the feeding motor.

10. magnetic carrying tool according to claim 1 separates feeding machanism, which is characterized in that the material toggling module includes solid Material toggling cylinder on the outside of the splicing station, and the material toggling part on the output shaft of material toggling cylinder；The material toggling part It is arranged corresponding to the splicing station；Via the driving of the material toggling cylinder, so that the material toggling part, which pushes, is located at the splicing Magnetic carrying tool on station.