CN204504444U - Bonding machine - Google Patents

Abstract

The utility model discloses a kind of bonding machine, comprise frame, the first carrier, send solder apparatus, solder solidification device and be all located at the first transfer device, feeding transfer device and the solidification transfer device in frame, frame has along Y-axis distribution connect solder station and solidification station and along crisscross Y-axis X-axis distribution first processing stroke, the first transfer device order about the first carrier along Y-axis move back and forth in connect solder station and solidification station between; Send solder apparatus and to connect solder station facing, feeding transfer device can order about and send solder apparatus to move back and forth in the first processing stroke, send solder to make to send solder apparatus to moving to the product that the first carrier of connecing solder station loads; Solder solidification device is facing with solidification station, and solidification transfer device can order about solder solidification device and moves back and forth in the first processing stroke, and the solder on the product loaded the first carrier moving to solidification station to make solder solidification device is heating and curing.

Description

Bonding machine

Technical field

The utility model relates to field of welding processing, particularly relates to a kind of bonding machine.

Background technology

As everyone knows, wire rod has been widely used in connecting the electronic equipments such as notebook, digital camera, mobile phone, and when wire rod connects electronic equipment, often need to arrange in the end of wire rod connector, connector then needs to be welded with contact terminal.In the prior art, Product jointing process contact terminal being welded in connector is all undertaken by manual work, namely to be heating and curing the solder such as tin cream or scolding tin by operation electric iron in mode manually, so that contact terminal is welded in connector, thus complete the welding processing of product.

On the one hand, the soldering appliance that the mode of manual work welding uses is very simple and crude, and needs to use multiple different soldering appliance and multiple welding sequence just can complete welding processing operation, causes welding processing to operate very very complicated, length consuming time, makes welding processing inefficiency.On the other hand, easily there is the situation of the failure weldings such as rosin joint in the welding quality disunity of manual work, had a strong impact on the service life of product, and make the qualification rate of welding processing low.Moreover high to the technical requirement of operating personnel, labour intensity is large, need the manpower and materials of at substantial, and work circumstances safe is poor, certain danger is existed to operating personnel, cause human cost to increase, cause the production cost of product to increase, involve great expense.Therefore the processing mode of manual work welding cannot meet the safety of manufacturing now, low cost, high efficiency and high-quality production requirement far away.

Therefore, be badly in need of wanting a kind of bonding machine to overcome above-mentioned Problems existing.

Utility model content

The purpose of this utility model is to provide a kind of bonding machine, and this bonding machine has the advantage that structure is simple, welding processing is simple and convenient, welding processing efficiency is high, welding quality is high, low to operating personnel's technical requirement, work circumstances safe is high, labour intensity is low, saving is artificial and production cost is low.

To achieve these goals, the utility model provides a kind of bonding machine, comprise frame, the first carrier, send solder apparatus, solder solidification device and be all located at the first transfer device, feeding transfer device and the solidification transfer device in described frame, described first carrier is for loading the product of processing to be welded; Described frame have connecing solder station and solidifying station along a Y-axis distribution, described first carrier is located at described first transfer device, and described first transfer device order about described first carrier move back and forth in along described Y-axis described in connect solder station and solidification station between; Described frame also has the first processing stroke along an X-axis distribution, described X-axis crisscrosses described Y-axis, and described first processing stroke is relative with described first transfer device; The described solder apparatus that send is located at described feeding transfer device, and described in send solder apparatus and described to connect solder station facing, send solder apparatus to move back and forth in described first processing stroke along described X-axis described in described feeding transfer device can order about, send solder to send solder apparatus described in making to the described product that described first carrier connecing solder station described in moving to loads; Described solder solidification device is located at described solidification transfer device, and described solder solidification device and described solidification station facing, described solidification transfer device can order about described solder solidification device and move back and forth in described first processing stroke along described X-axis, and the solder on the described product loaded described first carrier moving to described solidification station to make described solder solidification device is heating and curing.

Preferably, described bonding machine also comprises the second carrier and the second transfer device, and described second carrier is for loading the described product of processing to be welded; Described second carrier is located at described second transfer device, and described second transfer device order about described second carrier move back and forth in along described Y-axis described in connect solder station and solidification station between; Described frame also has the second processing stroke being distributed in described first processing stroke side along described X-axis, described second processing stroke is relative with described second transfer device; Send solder apparatus to move back and forth in described second processing stroke along described X-axis described in described feeding transfer device can order about, send solder to send solder apparatus described in making to the described product that described second carrier connecing solder station described in moving to loads; Described solidification transfer device can order about described solder solidification device and move back and forth in described second processing stroke along described X-axis, and the solder on the described product loaded described second carrier moving to described solidification station to make described solder solidification device is heating and curing; And described in send solder apparatus be displaced into described first processing stroke and second processing stroke in one time, described solder solidification device synchronizing moving in described first processing stroke and second processing stroke in another one; Connect described in described first carrier moves to solder station and solidification station in one time, described second carrier synchronizing moving to described in connect solder station and solidification station in another one.

Preferably, described Y-axis and X-axis are arranged and mutually vertical all in the horizontal direction, described frame comprises pedestal, support column and crossbeam, described pedestal is located in the bottom of described support column, described crossbeam is located at the top of described support column along described X-axis, described first transfer device and the second transfer device be spaced apart and side by side be located at described pedestal, described feeding transfer device and solidification transfer device in back to the both sides being located at described crossbeam, and described feeding transfer device and describedly connect solder station homonymy, described solidification transfer device and described solidification station homonymy.

Preferably, described first transfer device comprises the first cross slide way, the first horizontal driver and the first horizontal driving-belt, described first cross slide way is located at described pedestal along described Y-axis, described first horizontal driver is located at described pedestal, described first horizontal driving-belt is located at described pedestal along described Y-axis, and described first horizontal driving-belt is connected to the output of described first horizontal driver, described first carrier slides and is located at described first cross slide way, and described first carrier is connected to described first horizontal driving-belt.

Preferably, described second transfer device comprises the second cross slide way, the second horizontal driver and the second horizontal driving-belt, described second cross slide way is located at described pedestal along described Y-axis, described second horizontal driver is located at described pedestal, described second horizontal driving-belt is located at described pedestal along described Y-axis, and described second horizontal driving-belt is connected to the output of described second horizontal driver, described second carrier slides and is located at described second cross slide way, and described second carrier is connected to described second horizontal driving-belt.

Preferably, described feeding transfer device comprises the 3rd cross slide way, the 3rd horizontal driver and the 3rd horizontal driving-belt, described 3rd cross slide way is located at described crossbeam along described X-axis, described 3rd horizontal driver is located at described crossbeam, described 3rd horizontal driving-belt is located at described crossbeam along described X-axis, and described 3rd horizontal driving-belt is connected to the output of described 3rd horizontal driver, described send solder apparatus slide be located at described 3rd cross slide way, and described in send solder apparatus to be connected to described 3rd horizontal driving-belt.

Preferably, the described solder apparatus that send comprises the first mount pad, first longitudinal rail, first longitudinal drive, first longitudinal driving-belt, first longitudinal slide and solder delivery mechanisms, described first mount pad slides and is located at described 3rd cross slide way, described first longitudinal rail is vertically located at described first mount pad, described first longitudinal drive is located at described first mount pad, described first mount pad is vertically located at by described first longitudinal driving-belt, and described first longitudinal driving-belt is connected to the output of described first longitudinal drive, described first longitudinal slide slides and is located at described first longitudinal rail, and described first longitudinal slide is connected to described first longitudinal driving-belt, described solder delivery mechanisms is located at first longitudinal slide.

Preferably, described solder delivery mechanisms is any one of tin cream injection mechanism, tin silk conveying mechanism and tin sheet conveying mechanism.

Preferably, described solidification transfer device comprises the 4th cross slide way, the 4th horizontal driver and the 4th horizontal driving-belt, described 4th cross slide way is located at described crossbeam along described X-axis, described 4th horizontal driver is located at described crossbeam, described 4th horizontal driving-belt is located at described crossbeam along described X-axis, and described 4th horizontal driving-belt is connected to the output of described 4th horizontal driver, described solder solidification device slides and is located at described 4th cross slide way, and described solder solidification device is connected to described 4th horizontal driving-belt.

Preferably, described solder solidification device comprises the second mount pad, second longitudinal rail, second longitudinal drive, second longitudinal driving-belt, second longitudinal slide and solder are heating and curing mechanism, described second mount pad slides and is located at described 4th cross slide way, described second longitudinal rail is vertically located at described second mount pad, described second longitudinal drive is located at described second mount pad, described second mount pad is vertically located at by described second longitudinal driving-belt, and described second longitudinal driving-belt is connected to the output of described second longitudinal drive, described second longitudinal slide slides and is located at described second longitudinal rail, and described second longitudinal slide is connected to described second longitudinal driving-belt, the described solder mechanism that is heating and curing is located at second longitudinal slide.

Preferably, described solder be heating and curing mechanism be electric iron be heating and curing in mechanism, Hot-blast Heating curing mechanism, PULSE HEATING curing mechanism, LASER HEATING curing mechanism, radiation heating curing mechanism and high-frequency induction heating curing mechanism any one.

Compared with prior art, because the first carrier of bonding machine of the present utility model is located at the first transfer device, and the first transfer device order about the first carrier along Y-axis move back and forth in connect solder station and solidification station between; Frame also has the first processing stroke along an X-axis distribution, X-axis crisscrosses Y-axis, and the first processing stroke is relative with the first transfer device; Solder apparatus is sent to be located at feeding transfer device, and send solder apparatus and connect solder station facing, feeding transfer device can order about and send solder apparatus to move back and forth in the first processing stroke along X-axis, send solder to make to send solder apparatus to moving to the product that the first carrier of connecing solder station loads; Solder solidification device is located at solidification transfer device, and solder solidification device is facing with solidification station, solidification transfer device can order about solder solidification device and moves back and forth in the first processing stroke along X-axis, and the solder on the product loaded the first carrier moving to solidification station to make solder solidification device is heating and curing.Simple and reasonable, the welding processing of the product of practicing midwifery is operated only can to complete on a machine, and without the need to using multiple soldering appliance to complete welding processing operation, welding processing is operated more simple and convenient, consuming time short, thus the efficiency of welding processing is improved greatly.On the other hand, instead of the welding manner of manual work, make welding quality unified, and the situation of the failure weldings such as rosin joint can be prevented, ensure the quality of welding, improve the qualification rate of welding processing, make the welding that product is solid and reliable, thus ensure the service life of product.Moreover, reduce the technical requirement to operating personnel, labour intensity is low, save artificial and decrease operating personnel, reduce human cost, the security of working environment improves greatly, to ensure the personal safety of operating personnel, thus the production cost of product is reduced greatly, cost is more cheap.Therefore, the safety of manufacturing now, low cost, high efficiency and high-quality production requirement can be better met.

Accompanying drawing explanation

Fig. 1 is that the bonding machine of the utility model first embodiment moves to combination schematic perspective view when connecing solder station at the first carrier.

Fig. 2 is that Fig. 1 is in the schematic diagram at another visual angle.

Fig. 3 is the combination schematic perspective view of bonding machine when the first carrier moves to solidification station of the utility model first embodiment.

The combination schematic perspective view that Fig. 4 is the first transfer device of the bonding machine of the utility model first embodiment, the second transfer device is located at pedestal.

Fig. 5 is the feeding transfer device of the bonding machine of the utility model first embodiment, solidification transfer device is located at the combination schematic perspective view of frame.

Fig. 6 is that Fig. 5 is in the schematic diagram at another visual angle.

Fig. 7 is the combination schematic perspective view sending solder apparatus of the bonding machine of the utility model first embodiment.

Fig. 8 is the combination schematic perspective view of the solder solidification device of the bonding machine of the utility model first embodiment.

Fig. 9 is the combination schematic perspective view that the movable tool clamping of the bonding machine of the utility model first embodiment has product.

The welding processing flow chart of Figure 10 corresponding to the bonding machine of the utility model first embodiment.

The welding processing flow chart of Figure 11 corresponding to the bonding machine of the utility model second embodiment.

Detailed description of the invention

In order to describe technology contents of the present utility model, structural feature in detail, accompanying drawing is coordinated to be described further below in conjunction with embodiment.

Refer to Fig. 1 to Fig. 3, the bonding machine 100 of the utility model first embodiment comprises frame 10, first carrier 20, send solder apparatus 40, solder solidification device 50 and is all located at the first transfer device 60, feeding transfer device 80 and the solidification transfer device 90 in frame 10, first carrier 20 is for loading the product 201 of processing to be welded, wherein, the welding processing of product 201 can be the welding processing between contact terminal (not marking in figure) and connector (not marking in figure), but not as limit, do not repeat them here.Frame 10 has along one Y-axis distribution connecing solder station and solidification station, the first carrier 20 is located at the first transfer device 60, and the first transfer device 60 order about the first carrier 20 along Y-axis move back and forth in connect solder station and solidification station between.Frame 10 also has the first processing stroke along an X-axis distribution, X-axis crisscrosses Y-axis, and the first processing stroke is relative with the first transfer device 60, and specifically, in the present embodiment, the first processing stroke is positioned at directly over the first transfer device 60; More excellent, in the present embodiment, Y-axis and X-axis arrange all in the horizontal direction and mutually vertically, make layout structure more reasonable, but not as limit.Solder apparatus 40 is sent to be located at feeding transfer device 80, and send solder apparatus 40 and connect solder station facing, feeding transfer device 80 can order about and send solder apparatus 40 to move back and forth in the first processing stroke along X-axis, to make to send solder apparatus 40 to send solder to moving to the product 201 that the first carrier 20 of connecing solder station loads, be namely by the product 201 sending solder apparatus 40 to be delivered to by solder to load at the first carrier 20 connecing solder station.Solder solidification device 50 is located at solidification transfer device 90, and solder solidification device 50 is facing with solidification station, solidification transfer device 90 can order about solder solidification device 50 and moves back and forth in the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 moving to solidification station to make solder solidification device 50 is heating and curing.Simple and reasonable, the welding processing of product 201 is operated only can to complete on a machine, and without the need to using multiple soldering appliance to complete welding processing operation, welding processing is operated more simple and convenient, consuming time short, thus the efficiency of welding processing is improved greatly.On the other hand, instead of the welding manner of manual work, make welding quality unified, and the situation of the failure weldings such as rosin joint can be prevented, ensure the quality of welding, improve the qualification rate of welding processing, make the welding that product 201 is solid and reliable, thus ensured the service life of product 201.Moreover, reduce the technical requirement to operating personnel, labour intensity is low, save artificial and decrease operating personnel, reduce human cost, the security of working environment improves greatly, to ensure the personal safety of operating personnel, thus the production cost of product 201 is reduced greatly, cost is more cheap.Particularly, as follows

Comparatively the superior, in the present embodiment, it is also product 201 for loading processing to be welded that the bonding machine 100 of the present embodiment also comprises the second carrier 30 and the second transfer device 70, second carrier 30.Second carrier 30 is located at the second transfer device 70, and the second transfer device 70 order about the second carrier 30 along Y-axis move back and forth in connect solder station and solidification station between.Frame 10 also has the second processing stroke being distributed in the first processing stroke side along X-axis, the second processing stroke is relative with the second transfer device 70, and specifically, in the present embodiment, the second processing stroke is positioned at directly over the second transfer device 70.Feeding transfer device 80 can order about and send solder apparatus 40 to move back and forth in the second processing stroke along X-axis, to make to send solder apparatus 40 to send solder to moving to the product 201 that the second carrier 30 of connecing solder station loads, be namely by the product 201 sending solder apparatus 40 to be delivered to by solder to load at the second carrier 30 connecing solder station.Solidification transfer device 90 can order about solder solidification device 50 and moves back and forth in the second processing stroke along X-axis, and the solder on the product 201 loaded the second carrier 30 moving to solidification station to make solder solidification device 50 is heating and curing.During the one sending solder apparatus 40 to be displaced in the first processing stroke and the second processing stroke, the another one of solder solidification device 50 synchronizing moving in the first processing stroke and the second processing stroke; When first carrier 20 moves to the one connect in solder station and solidification station, the second carrier 30 synchronizing moving is to the another one connect in solder station and solidification station.Namely, send solder apparatus 40 to move to connect solder station the first carrier 20 and the second carrier 30 in the product 201 that loads of one send solder operation time, solder on the product 201 that solder solidification device 50 synchronously loads the another one moved in the first carrier 20 of solidification station and the second carrier 30 is heating and curing operation, thus avoid the machining gap occurring wait, the product 201 of greater number can be welded within the unit interval, the efficiency of welding processing is further enhanced, further to reduce production cost.Specifically, in the present embodiment, as shown in Figure 1, the first carrier 20 is positioned at and connects solder station, send solder apparatus 40 to be displaced into the first processing stroke; And the second carrier 30 is positioned at solidification station, solder solidification device 50 is displaced into the second processing stroke.As shown in Figure 3, the first carrier 20 is positioned at solidification station, send solder apparatus 40 to be displaced into the second processing stroke; And the second carrier 30 is positioned at and connects solder station, solder solidification device 50 is displaced into the first processing stroke.

Wherein, frame 10 comprises pedestal 11, support column 12 and crossbeam 13, pedestal 11 is located in the bottom of support column 12, crossbeam 13 is located at the top of support column 12 along X-axis, first transfer device 60 and the second transfer device 70 in spaced apart and side by side be located at pedestal 11, feeding transfer device 80 and solidification transfer device 90 in back to the both sides being located at crossbeam 13, and feeding transfer device 80 with connect solder station homonymy, solidification transfer device 90 and solidification station homonymy, make the layout structure of the bonding machine 100 of the present embodiment more reasonable.

Refer to Fig. 4, first transfer device 60 comprises the first cross slide way 61, first horizontal driver 62 and the first horizontal driving-belt 63, first cross slide way 61 is located at pedestal 11 along Y-axis, first horizontal driver 62 is located at pedestal 11, and the first horizontal driver 62 is specifically preferably motor, but not as limit; First horizontal driving-belt 63 is located at pedestal 11 along Y-axis, and the first horizontal driving-belt 63 is connected to the output of the first horizontal driver 62, first carrier 20 slides and is located at the first cross slide way 61, and the first carrier 20 is connected to the first horizontal driving-belt 63, namely, by the first horizontal driver 62 order about the first carrier 20 along Y-axis move back and forth in connect solder station and solidification station between, thus realize the first transfer device 60 and order about the first carrier 20 and move back and forth in along Y-axis and connect between solder station and solidification station, and there is simple and reasonable advantage.

Simultaneously, second transfer device 70 comprises the second cross slide way 71, second horizontal driver 72 and the second horizontal driving-belt 73, second cross slide way 71 is located at pedestal 11 along Y-axis, second horizontal driver 72 is located at pedestal 11, and the second horizontal driver 72 is specifically preferably motor, but not as limit; Second horizontal driving-belt 73 is located at pedestal 11 along Y-axis, and the second horizontal driving-belt 73 is connected to the output of the second horizontal driver 72, second carrier 30 slides and is located at the second cross slide way 71, and the second carrier 30 is connected to the second horizontal driving-belt 73, namely, by the second horizontal driver 72 order about the second carrier 30 along Y-axis move back and forth in connect solder station and solidification station between, thus realize the second transfer device 70 and order about the second carrier 30 and move back and forth in along Y-axis and connect between solder station and solidification station, and there is simple and reasonable advantage.

Refer to Fig. 1 and Fig. 5, feeding transfer device 80 comprises the 3rd cross slide way 81, the 3rd horizontal driver 82 and the 3rd horizontal driving-belt 83,3rd cross slide way 81 is located at crossbeam 13 along X-axis, 3rd horizontal driver 82 is located at crossbeam 13, and the 3rd horizontal driver 82 is specifically preferably motor, but not as limit, 3rd horizontal driving-belt 83 is located at crossbeam 13 along X-axis, and the 3rd horizontal driving-belt 83 is connected to the output of the 3rd horizontal driver 82, send solder apparatus 40 to slide and be located at the 3rd cross slide way 81, and send solder apparatus 40 to be connected to the 3rd horizontal driving-belt 83, namely, being ordered about by the 3rd horizontal driver 82 send solder apparatus 40 to process between stroke along X-axis back and forth switch movement in the first processing stroke and second, thus realize feeding transfer device 80 and order about and give solder apparatus 40 to process between stroke along X-axis back and forth switch movement in the first processing stroke and second, and there is simple and reasonable advantage.

Refer to Fig. 1, Fig. 5 and Fig. 7, solder apparatus 40 is sent to comprise the first mount pad 41, first longitudinal rail 42, first longitudinal drive 43, first longitudinal driving-belt 44, first longitudinal slide 45 and solder delivery mechanisms 46, first mount pad 41 slides and is located at the 3rd cross slide way 81, first longitudinal rail 42 is vertically located at the first mount pad 41, first longitudinal drive 43 is located at the first mount pad 41, and the first longitudinal drive 43 is specifically preferably motor, but not as limit; The first mount pad 41 is vertically located at by first longitudinal driving-belt 44, and first longitudinal driving-belt 44 is connected to the output of the first longitudinal drive 43, first longitudinal slide 45 slides and is located at the first longitudinal rail 42, and first longitudinal slide 45 is connected to first longitudinal driving-belt 44, solder delivery mechanisms 46 is located at first longitudinal slide 45.Thus realize ordering about solder delivery mechanisms 46 by the first longitudinal drive 43 and being vertically moved downward to the first carrier 20 or the second carrier 30 being close to and being positioned at and connecing solder station, to give solder to being positioned at the product 201 that the first carrier 20 of connecing solder station or the second carrier 30 load; And order about solder delivery mechanisms 46 by the first longitudinal drive 43 and be vertically moved upward to and safe dodge position, the obstruction of the first carrier 20 and the second carrier 30 can not be subject to during to ensure that solder delivery mechanisms 46 moves along X-axis, also the obstruction of the product 201 that the first carrier 20 or the second carrier 30 load can not be subject to, welding processing operation can be carried out safely smoothly, and structure is rationally safer.More excellently be, in the present embodiment, solder apparatus 40 is sent also to comprise the first accessory drive band 47, the first mount pad 41 is vertically located at by this first accessory drive band 47, and the first accessory drive band 47 is connected between first longitudinal driving-belt 44 and the output of the first longitudinal drive 43, first longitudinal drive 43 is ordered about, and drive mechanism that first longitudinal slide 45 moves up and down is more reasonable, but, not as limit.

Refer to Fig. 2, Fig. 5 and Fig. 6, solidification transfer device 90 comprises the 4th cross slide way 91, the 4th horizontal driver 92 and the 4th horizontal driving-belt 93,4th cross slide way 91 is located at crossbeam 13 along X-axis, 4th horizontal driver 92 is located at crossbeam 13, and the 4th horizontal driver 92 is specifically preferably motor, but not as limit, 4th horizontal driving-belt 93 is located at crossbeam 13 along X-axis, and the 4th horizontal driving-belt 93 is connected to the output of the 4th horizontal driver 92, solder solidification device 50 slides and is located at the 4th cross slide way 91, and solder solidification device 50 is connected to the 4th horizontal driving-belt 93, namely, order about solder solidification device 50 by the 4th horizontal driver 92 to process between stroke along X-axis back and forth switch movement in the first processing stroke and second, thus realize solidification transfer device 90 and order about solder solidification device 50 and process between stroke along X-axis back and forth switch movement in the first processing stroke and second, to make solder solidification device 50, the solder moved on product 201 that solidification the first carrier 20 of station or the second carrier 30 load is heating and curing, and there is simple and reasonable advantage.

Refer to Fig. 2, Fig. 6 and Fig. 8, solder solidification device 50 comprises the second mount pad 51, second longitudinal rail 52, second longitudinal drive 53, second longitudinal slide 55 of longitudinal driving-belt 54, second and solder and to be heating and curing mechanism 56, second mount pad 51 slides and is located at the 4th cross slide way 91, second longitudinal rail 52 is vertically located at the second mount pad 51, second longitudinal drive 53 is located at the second mount pad 51, and the second longitudinal drive 53 is specifically preferably motor, but not as limit; The second mount pad 51 is vertically located at by second longitudinal driving-belt 54, and second longitudinal driving-belt 54 is connected to the output of the second longitudinal drive 53, second longitudinal slide 55 slides and is located at the second longitudinal rail 52, and second longitudinal slide 55 is connected to second longitudinal driving-belt 54, the solder mechanism 56 that is heating and curing is located at second longitudinal slide 55.Thus realize ordering about the solder mechanism 56 that is heating and curing by the second longitudinal drive 53 and be vertically moved downward to the first carrier 20 or the second carrier 30 being close to and being positioned at solidification station, to be heating and curing to the solder be positioned on product 201 that the first carrier 20 of connecing solder station or the second carrier 30 load; And order about the solder mechanism 56 that is heating and curing by the second longitudinal drive 53 and be vertically moved upward to and safe dodge position, the obstruction of the first carrier 20 and the second carrier 30 can not be subject to when being heating and curing solder to ensure mechanism 56 moves along X-axis, also the obstruction of the product 201 that the first carrier 20 or the second carrier 30 load can not be subject to, welding processing operation can be carried out safely smoothly, and structure is rationally safer.More excellently be, in the present embodiment, solder solidification device 50 also comprises the second accessory drive band 57, the second mount pad 51 is vertically located at by this second accessory drive band 57, and the second accessory drive band 57 is connected between second longitudinal driving-belt 54 and the output of the second longitudinal drive 53, second longitudinal drive 53 is ordered about, and drive mechanism that second longitudinal slide 55 moves up and down is more reasonable, but, not as limit.More excellently be, in the present embodiment, be heating and curing mechanism 56 of solder is located at second longitudinal slide 55 in setting angle is adjustable, to be heating and curing the angle of mechanism 56 to facilitate adjustment solder, solder is heating and curing, and solder that mechanism 56 can aim on product 201 that the first carrier 20 or the second carrier 30 load is heating and curing, and structure is more reasonable.

Selectively, solder delivery mechanisms 46 may be selected to be tin cream injection mechanism, namely, solder is specifically preferably tin cream, certainly, in other embodiments, solder delivery mechanisms 46 can also be chosen as tin silk conveying mechanism or tin sheet conveying mechanism flexibly according to the user demand of reality, then the solder of tin silk conveying mechanism correspondence conveying is tin silk, and the solder of tin sheet conveying mechanism correspondence conveying is tin sheet, but solder delivery mechanisms 46 and carry solder specifically select type not as limit, do not repeat them here.Accordingly, the solder be heating and curing to the solder mechanism 56 that is heating and curing can be preferably Hot-blast Heating curing mechanism in the present embodiment, certainly, in other embodiments, the solder mechanism 56 that is heating and curing can also be chosen as any one that electric iron is heating and curing in mechanism, PULSE HEATING curing mechanism, LASER HEATING curing mechanism, radiation heating curing mechanism and high-frequency induction heating curing mechanism flexibly according to the user demand of reality, but solder is heating and curing mechanism 56 specifically select type not as limit, do not repeat them here.And tin cream injection mechanism, tin silk conveying mechanism, tin sheet conveying mechanism, electric iron are heating and curing, the concrete structure of mechanism, Hot-blast Heating curing mechanism, PULSE HEATING curing mechanism and LASER HEATING curing mechanism, radiation heating curing mechanism, high-frequency induction heating curing mechanism all can select the structure known by those skilled in the art, therefore does not repeat them here.

The person of meriting attention, refer to Fig. 1 and Fig. 9, in order to shorten the loading of product 201 on the first carrier 20 or the second carrier 30 or the time of dismounting as far as possible, to avoid sending solder apparatus 40 or solder solidification device 50 to process wait in welding processing process, therefore, in the present embodiment, the prior clamping of product 201 is on a movable tool 203, this movable tool 203 can realize quick-fit with the first carrier 20 or the second carrier 30 and install and quick-detachment, thus when loading or dismounting activity tool 203, processing is waited for avoid sending solder apparatus 40 or solder solidification device 50 to occur in welding processing process, guarantee can not affect obstruction and send solder apparatus 40 or solder solidification device 50 normally to carry out welding processing operation.And movable tool 203 and the first carrier 20 or the second carrier 30 realize quick-fit installs and the concrete fit structure of quick-detachment can select structure known by those skilled in the art, for example, locating hole 203a can be offered on movable tool 203, and the locating dowel 203b mutually engaging location fit with locating hole 203a is set on the first carrier 20 and the second carrier 30, to realize the installation location of movable tool 203 on the first carrier 20 or the second carrier 30 and the operation of quick-detachment, but not as limit, do not repeat them here.

Refer to Figure 10, the welding processing flow process 200 corresponding to bonding machine 100 of above-mentioned first embodiment specifically comprises the following steps: first perform (S001) and the product 201 of processing to be welded is loaded into the first carrier 20, first transfer device 60 orders about the first carrier 20 and moves to and connect solder station, feeding transfer device 80 orders about and send solder apparatus 40 to be displaced into the first processing stroke along X-axis, and by sending solder apparatus 40 to send solder to the product 201 that the first carrier 20 loads, until all products 201 loaded the first carrier 20 complete send solder operation; Meanwhile, the product 201 of processing to be welded is loaded into the second carrier 30.Perform again (S002) first transfer device 60 order about the first carrier 20 and move to solidification station, order about solder solidification device 50 by solidification transfer device 90 and be displaced into the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 by solder solidification device 50 is heating and curing, be heating and curing until the solder on all products 201 loaded the first carrier 20 completes; Simultaneously, feeding transfer device 80 orders about and send solder apparatus 40 to be displaced into the second processing stroke along X-axis, and by sending solder apparatus 40 to send solder to the product 201 that the second carrier 30 loads, until all products 201 loaded the second carrier 30 complete send solder operation.Perform (S003) again the product 201 completing welding processing is separated from the first carrier 20, the product 201 of processing to be welded is loaded into the first carrier 20, first transfer device 60 and orders about the first carrier 20 and move to and connect solder station; Meanwhile, the second transfer device 70 orders about the second carrier 30 and moves to solidification station.Perform (S004) feeding transfer device 80 again to order about and send solder apparatus 40 to be displaced into the first processing stroke along X-axis, and by sending solder apparatus 40 to send solder to the product 201 that the first carrier 20 loads, until all products 201 loaded the first carrier 20 complete send solder operation; Simultaneously, solidification transfer device 90 orders about solder solidification device 50 and is displaced into the second processing stroke along X-axis, and the solder on the product 201 loaded the second carrier 30 by solder solidification device 50 is heating and curing, be heating and curing until the solder on all products 201 loaded the second carrier 30 completes.Perform again (S005) first transfer device 60 order about the first carrier 20 and move to solidification station; , the product 201 completing welding processing is separated from the second carrier 30 meanwhile, the product 201 of processing to be welded is loaded into the second carrier 30, second transfer device 70 and orders about the second carrier 30 and move to and connect solder station.Perform (S006) again to solidify transfer device 90 and order about solder solidification device 50 and be displaced into the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 by solder solidification device 50 is heating and curing, be heating and curing until the solder on all products 201 loaded the first carrier 20 completes; Simultaneously, feeding transfer device 80 orders about and send solder apparatus 40 to be displaced into the second processing stroke along X-axis, and send solder apparatus 40 to send solder to the product 201 that the second carrier 30 loads, until all products 201 loaded the second carrier 30 complete send solder operation.Then, continue to perform step (S003), carry out welding processing to circulate, until complete all welding processing operations.

Selectable, in the bonding machine of the utility model second embodiment, according to the user demand of reality, also can simplify its structure, for example, the frame 10 of the bonding machine of the second embodiment only arranged the first transfer device 60, feeding transfer device 80, solidification transfer device 90, first carrier 20, send solder apparatus 40 and solder solidification device 50, and omission arranges the second carrier 30 and the second transfer device 70, the same product 201 that can realize the first carrier 20 loads carries out welding processing.And the bonding machine of this second embodiment is not except arranging the second carrier 30 and the second transfer device 70, and other structure is all identical with the structure of the bonding machine 100 of the first embodiment, therefore, do not repeat them here.

Correspondingly, refer to Figure 11, welding processing flow process 200` corresponding to the bonding machine of the second embodiment specifically comprises the following steps: first perform (S001`) and the product 201 of processing to be welded is loaded into the first carrier 20, first transfer device 60 orders about the first carrier 20 and moves to and connect solder station, feeding transfer device 80 orders about and send solder apparatus 40 to be displaced into the first processing stroke along X-axis, and by sending solder apparatus 40 to send solder to the product 201 that the first carrier 20 loads, until all products 201 loaded the first carrier 20 complete send solder operation.Perform again (S002`) first transfer device 60 order about the first carrier 20 and move to solidification station, order about solder solidification device 50 by solidification transfer device 90 and be displaced into the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 by solder solidification device 50 is heating and curing, be heating and curing until the solder on all products 201 loaded the first carrier 20 completes.Perform (S003`) again the product 201 completing welding processing is separated from the first carrier 20, the product 201 of processing to be welded is loaded into the first carrier 20, first transfer device 60 and orders about the first carrier 20 and move to and connect solder station.Perform (S004`) feeding transfer device 80 again to order about and send solder apparatus 40 to be displaced into the first processing stroke along X-axis, and by sending solder apparatus 40 to send solder to the product 201 that the first carrier 20 loads, until all products 201 loaded the first carrier 20 complete send solder operation.Perform again (S005`) first transfer device 60 order about the first carrier 20 and move to solidification station.Perform (S006`) again to solidify transfer device 90 and order about solder solidification device 50 and be displaced into the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 by solder solidification device 50 is heating and curing, be heating and curing until the solder on all products 201 loaded the first carrier 20 completes.Then, continue to perform step (S003`), carry out welding processing to circulate, until complete all welding processing operations.

Compared with prior art, because the first carrier 20 of bonding machine 100 of the present utility model is located at the first transfer device 60, and the first transfer device 60 order about the first carrier 20 along Y-axis move back and forth in connect solder station and solidification station between; Frame 10 also has the first processing stroke along an X-axis distribution, X-axis crisscrosses Y-axis, and the first processing stroke is relative with the first transfer device 60; Solder apparatus 40 is sent to be located at feeding transfer device 80, and send solder apparatus 40 and connect solder station facing, feeding transfer device 80 can order about and send solder apparatus 40 to move back and forth in the first processing stroke along X-axis, send solder to make to send solder apparatus 40 to moving to the product 201 that the first carrier 20 of connecing solder station loads; Solder solidification device 50 is located at solidification transfer device 90, and solder solidification device 50 is facing with solidification station, solidification transfer device 90 can order about solder solidification device 50 and moves back and forth in the first processing stroke along X-axis, and the solder on the product 201 loaded the first carrier 20 moving to solidification station to make solder solidification device 50 is heating and curing.Simple and reasonable, the welding processing of product 201 is operated only can to complete on a machine, and without the need to using multiple soldering appliance to complete welding processing operation, welding processing is operated more simple and convenient, consuming time short, thus the efficiency of welding processing is improved greatly.On the other hand, instead of the welding manner of manual work, make welding quality unified, and the situation of the failure weldings such as rosin joint can be prevented, ensure the quality of welding, improve the qualification rate of welding processing, make the welding that product 201 is solid and reliable, thus ensured the service life of product 201.Moreover, reduce the technical requirement to operating personnel, labour intensity is low, save artificial and decrease operating personnel, reduce human cost, the security of working environment improves greatly, to ensure the personal safety of operating personnel, thus the production cost of product 201 is reduced greatly, cost is more cheap.Therefore, the safety of manufacturing now, low cost, high efficiency and high-quality production requirement can be better met.

Above disclosedly be only preferred embodiment of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (11)

1. a bonding machine, it is characterized in that, comprise frame, the first carrier, send solder apparatus, solder solidification device and be all located at the first transfer device, feeding transfer device and the solidification transfer device in described frame, described first carrier is for loading the product of processing to be welded; Described frame have connecing solder station and solidifying station along a Y-axis distribution, described first carrier is located at described first transfer device, and described first transfer device order about described first carrier move back and forth in along described Y-axis described in connect solder station and solidification station between; Described frame also has the first processing stroke along an X-axis distribution, described X-axis crisscrosses described Y-axis, and described first processing stroke is relative with described first transfer device; The described solder apparatus that send is located at described feeding transfer device, and described in send solder apparatus and described to connect solder station facing, send solder apparatus to move back and forth in described first processing stroke along described X-axis described in described feeding transfer device can order about, send solder to send solder apparatus described in making to the described product that described first carrier connecing solder station described in moving to loads; Described solder solidification device is located at described solidification transfer device, and described solder solidification device and described solidification station facing, described solidification transfer device can order about described solder solidification device and move back and forth in described first processing stroke along described X-axis, and the solder on the described product loaded described first carrier moving to described solidification station to make described solder solidification device is heating and curing.

2. bonding machine as claimed in claim 1, it is characterized in that, also comprise the second carrier and the second transfer device, described second carrier is for loading the described product of processing to be welded; Described second carrier is located at described second transfer device, and described second transfer device order about described second carrier move back and forth in along described Y-axis described in connect solder station and solidification station between; Described frame also has the second processing stroke being distributed in described first processing stroke side along described X-axis, described second processing stroke is relative with described second transfer device; Send solder apparatus to move back and forth in described second processing stroke along described X-axis described in described feeding transfer device can order about, send solder to send solder apparatus described in making to the described product that described second carrier connecing solder station described in moving to loads; Described solidification transfer device can order about described solder solidification device and move back and forth in described second processing stroke along described X-axis, and the solder on the described product loaded described second carrier moving to described solidification station to make described solder solidification device is heating and curing; And described in send solder apparatus be displaced into described first processing stroke and second processing stroke in one time, described solder solidification device synchronizing moving in described first processing stroke and second processing stroke in another one; Connect described in described first carrier moves to solder station and solidification station in one time, described second carrier synchronizing moving to described in connect solder station and solidification station in another one.

3. bonding machine as claimed in claim 2, it is characterized in that, described Y-axis and X-axis are arranged and mutually vertical all in the horizontal direction, described frame comprises pedestal, support column and crossbeam, described pedestal is located in the bottom of described support column, described crossbeam is located at the top of described support column along described X-axis, described first transfer device and the second transfer device be spaced apart and side by side be located at described pedestal, described feeding transfer device and solidification transfer device in back to the both sides being located at described crossbeam, and described feeding transfer device and describedly connect solder station homonymy, described solidification transfer device and described solidification station homonymy.

4. bonding machine as claimed in claim 3, it is characterized in that, described first transfer device comprises the first cross slide way, the first horizontal driver and the first horizontal driving-belt, described first cross slide way is located at described pedestal along described Y-axis, described first horizontal driver is located at described pedestal, described first horizontal driving-belt is located at described pedestal along described Y-axis, and described first horizontal driving-belt is connected to the output of described first horizontal driver, described first carrier slides and is located at described first cross slide way, and described first carrier is connected to described first horizontal driving-belt.

5. bonding machine as claimed in claim 3, it is characterized in that, described second transfer device comprises the second cross slide way, the second horizontal driver and the second horizontal driving-belt, described second cross slide way is located at described pedestal along described Y-axis, described second horizontal driver is located at described pedestal, described second horizontal driving-belt is located at described pedestal along described Y-axis, and described second horizontal driving-belt is connected to the output of described second horizontal driver, described second carrier slides and is located at described second cross slide way, and described second carrier is connected to described second horizontal driving-belt.

6. bonding machine as claimed in claim 3, it is characterized in that, described feeding transfer device comprises the 3rd cross slide way, 3rd horizontal driver and the 3rd horizontal driving-belt, described 3rd cross slide way is located at described crossbeam along described X-axis, described 3rd horizontal driver is located at described crossbeam, described 3rd horizontal driving-belt is located at described crossbeam along described X-axis, and described 3rd horizontal driving-belt is connected to the output of described 3rd horizontal driver, described send solder apparatus slide be located at described 3rd cross slide way, and described in send solder apparatus to be connected to described 3rd horizontal driving-belt.

7. bonding machine as claimed in claim 6, it is characterized in that, the described solder apparatus that send comprises the first mount pad, first longitudinal rail, first longitudinal drive, first longitudinal driving-belt, first longitudinal slide and solder delivery mechanisms, described first mount pad slides and is located at described 3rd cross slide way, described first longitudinal rail is vertically located at described first mount pad, described first longitudinal drive is located at described first mount pad, described first mount pad is vertically located at by described first longitudinal driving-belt, and described first longitudinal driving-belt is connected to the output of described first longitudinal drive, described first longitudinal slide slides and is located at described first longitudinal rail, and described first longitudinal slide is connected to described first longitudinal driving-belt, described solder delivery mechanisms is located at first longitudinal slide.

8. bonding machine as claimed in claim 7, is characterized in that, described solder delivery mechanisms is any one of tin cream injection mechanism, tin silk conveying mechanism and tin sheet conveying mechanism.

9. bonding machine as claimed in claim 3, it is characterized in that, described solidification transfer device comprises the 4th cross slide way, 4th horizontal driver and the 4th horizontal driving-belt, described 4th cross slide way is located at described crossbeam along described X-axis, described 4th horizontal driver is located at described crossbeam, described 4th horizontal driving-belt is located at described crossbeam along described X-axis, and described 4th horizontal driving-belt is connected to the output of described 4th horizontal driver, described solder solidification device slides and is located at described 4th cross slide way, and described solder solidification device is connected to described 4th horizontal driving-belt.

10. bonding machine as claimed in claim 9, it is characterized in that, described solder solidification device comprises the second mount pad, second longitudinal rail, second longitudinal drive, second longitudinal driving-belt, second longitudinal slide and solder are heating and curing mechanism, described second mount pad slides and is located at described 4th cross slide way, described second longitudinal rail is vertically located at described second mount pad, described second longitudinal drive is located at described second mount pad, described second mount pad is vertically located at by described second longitudinal driving-belt, and described second longitudinal driving-belt is connected to the output of described second longitudinal drive, described second longitudinal slide slides and is located at described second longitudinal rail, and described second longitudinal slide is connected to described second longitudinal driving-belt, the described solder mechanism that is heating and curing is located at second longitudinal slide.

11. bonding machines as claimed in claim 10, it is characterized in that, described solder be heating and curing mechanism be electric iron be heating and curing in mechanism, Hot-blast Heating curing mechanism, PULSE HEATING curing mechanism, LASER HEATING curing mechanism, radiation heating curing mechanism and high-frequency induction heating curing mechanism any one.