CN205571309U - Automatic riveting production facility of ladder - Google Patents

Abstract

The utility model provides an automatic riveting production facility of ladder, includes left processing agency and right processing agency, left side processing agency includes left discharge mold group, locates moving to left of left discharge mold group one side from the left hand right side and carries module and left punching press module and locate the upper left material module of left discharge mold group opposite side, left panel beating module and left panel beating material loading module from the left hand right side, right side processing agency includes right discharge mold group, locates moving to right of right discharge mold group one side from the left hand right side and carries module and right punching press module and locate the upper right material module of right discharge mold group opposite side, right panel beating module and right panel beating material loading module from the left hand right side, left side discharge mold group and the cooperation of right discharge mold group link. Owing to adopt foretell structural design, a left side that processes the ladder respectively through left processing agency and right processing agency is promptly erect the body and is erect the body with the right side, has not only reduced manual work by a wide margin, has also eliminated the potential safety hazard when reducing the cost of labor, and production efficiency is high in addition, product yields height.

Description

A kind of ladder automatization riveting produces equipment

Technical field

This utility model relates to mechanical field, and specifically, it is that a kind of ladder automatization riveting produces equipment.

Background technology

Ladder is one of people's daily life tools.

The existing mode of production of ladder uses artificial loading, manually picks and places accessory, manual operation riveting, not only production efficiency is low, and manually produces and make people easily produce fatigue, there is potential safety hazard, different additionally, due to artificial skilled operation degree, the product produced is very different.

Therefore, prior art needs to be improved and improves.

Utility model content

In place of the deficiencies in the prior art, the purpose of this utility model is to provide a kind of ladder automatization riveting and produces equipment, and this production equipment not only production efficiency is high, and product yields is high, and potential safety hazard is extremely low.

For achieving the above object, this utility model be the technical scheme is that

A kind of ladder automatization riveting produces equipment, including left organisation of working and right organisation of working, described left organisation of working includes left discharging module, it is located at moving to left of left discharging module side from left to right carry module and left punching press module and be located at the upper left material module of left discharging module opposite side, left panel beating module and left panel beating feeding module from left to right；Described right organisation of working includes right discharging module, is located at moving to right of right discharging module side from left to right and carries module and right punching press module and be located at the upper right material module of right discharging module opposite side, right panel beating module and right panel beating feeding module from left to right；Left discharging module is connected cooperation with right discharging module.

Preferably, upper left material module is identical with upper right material modular structure, described upper left material module includes several supports, same one end of those support longerons has placed rotating power transmission shaft, at those support longerons, main driving wheel all it is arranged with on this power transmission shaft, the other end of those support longerons is equipped with corresponding with main driving wheel from drive, and belt tension is in main driving wheel with between drive；The lower section of those support longerons is provided with a rack beam, and rack beam is provided with several fixed mounts, and those fixed mounts are provided with front sub-material cylinder and rear sub-material cylinder；In those supports, the outside of left socle is provided with the motor driving drive axis, and the outside of right support is provided with positioning cylinder；It is provided with electric cabinet below the support that right support is adjacent.

Preferably, it is identical with moving to right load modular structure to move to left load module, the described load module that moves to left includes frame and is located at the transfer electric cabinet of frame side, frame is provided with the first riser, the side of the first riser is provided with two first slide rails, this two first slide rail is provided with the first slide plate that can horizontally slip along it, is provided with the first cylinder driving the first slide plate slides between two first slide rails；First slide plate is provided with the second riser, and the side of the second riser is provided with the second slide rail, this second slide rail be provided with can along it the second slide plate of slide anteroposterior, the second riser is additionally provided with drive the second slide plate slides the second cylinder；Second slide plate is provided with the 3rd riser, the side of the 3rd riser is provided with the 3rd slide rail, 3rd slide rail is provided with the 3rd slide plate that can slide up and down along it, the 3rd cylinder driving the 3rd slide plate slides it is additionally provided with on 3rd riser, the lower section of the 3rd slide plate also has a bar shaped support, and the lower surface of this bar shaped support is provided with several jaw cylinders.

Preferably, left punching press module is identical with right punching press modular structure, described left punching press module includes punch press and is arranged at positioning component on punch press board, positioning component includes two sliding rails, the cylinder slided along jig and the drive jig of two sliding rail slide anteroposterior, jig is provided with section brace plate.

Preferably, left panel beating module is identical with right panel beating modular structure, and described left panel beating module includes high frame and is located at the low frame of high frame side, and high frame workbench is provided with robot arm, and the end of this robot arm is provided with grasping jig；Low frame workbench is provided with iron plate vibrating disk and at least one rivet vibrating disk, and iron plate vibrating disk is connected by passage and parts material cylinder on the left side on high frame workbench, and rivet vibrating disk is connected by passage and parts material cylinder on the right side on high frame workbench.

Preferably, left panel beating feeding module is identical with right panel beating feeding modular structure, described left panel beating feeding module includes bar shaped frame and is arranged at the first identical servo elevating mechanism of the structure at bar shaped frame two ends and the second servo elevating mechanism, and bar shaped frame is provided with charging tray and drives the feeding cylinder of charging tray motion；Near the second servo elevating mechanism charging tray be symmetrically arranged on two with the first positioning cylinder and the second positioning cylinder；Second servo elevating mechanism includes fixed plate, is arranged at the guide rail of fixed plate medial surface, the supporting plate moved up and down along guide rail, drives the servo cylinder that supporting plate moves up and down；The lower section of flitch is provided with conveyer belt and drives the motor of transmission V belt translation.

Preferably, described left discharging module includes left socle, the left leather belt being located on left socle, and drives the left discharging motor of left leather belt transmission.

Preferably, described right discharging module includes right support, the right leather belt being located on right support, and drives the right discharging motor of right leather belt transmission；The middle part of right support is provided with pressure block cylinder, and right-hand member is provided with backgauge air cylinder structure, corresponding to be provided with below this backgauge cylinder mechanism collection briquetting slideway, this collection briquetting slideway be arranged right below disposable box.

Compared with prior art, the beneficial effects of the utility model are:

Owing to using above-mentioned structure design, i.e. process the left setting body of ladder and right setting body respectively by left organisation of working and right organisation of working, only need manually section bar, iron plate, rivet to be respectively put into charging tray, in iron plate vibrating disk and rivet vibrating disk, after completed automatic charging and accessory, and riveting process by machine, manual work is not only greatly reduced, also eliminating potential safety hazard while reducing cost of labor, and production efficiency is high, product yields is high.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment；

Accompanying drawing 2 is the structural representation of this utility model a kind of ladder automatization's riveting production equipment upper left material module；

Accompanying drawing 3 is that this utility model a kind of ladder automatization riveting produces equipment and moves to left the structural representation carrying module；

Accompanying drawing 4 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment left punching press module；

Accompanying drawing 5 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment left panel beating module；

Accompanying drawing 6 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment left panel beating feeding module；

Accompanying drawing 7 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment left discharging module；

Accompanying drawing 8 is the structural representation that this utility model a kind of ladder automatization riveting produces equipment right discharging module.

nullIn figure, each label is respectively: (1) left discharging module，(2) load module is moved to left，(3) left punching press module，(4) upper left material module，(5) left panel beating module，(6) left panel beating feeding module，(7) right discharging module，(8) load module is moved to right，(9) right punching press module，(10) upper right material module，(11) right panel beating module，(12) right panel beating feeding module，(13) support，(14) support longeron，(15) power transmission shaft，(16) main driving wheel，(17) from drive，(18) belt，(19) rack beam，(20) fixed mount，(21) front sub-material cylinder，(22) sub-material cylinder afterwards，(23) motor，(24) positioning cylinder，(25) electric cabinet，(26) frame，(27) transfer electric cabinet，(28) first risers，(29) (30) first slide rail，(31) first slide plates，(32) first cylinders，(33) second risers，(34) second slide rails，(35) second slide plates，(36) second cylinders，(37) the 3rd risers，(38) the 3rd slide rails，(39) the 3rd slide plates，(40) the 3rd cylinders，(41) bar shaped support，(42) jaw cylinder，(43) punch press，(44) (45) sliding rail，(46) jig，(47) cylinder，(48) section brace plate，(49) high frame，(50) low frame，(51) robot arm，(52) grasping jig，(53) iron plate vibrating disk，(54) rivet vibrating disk，(55) material cylinder is parted on the left side，(56) material cylinder is parted on the right side，(57) bar shaped frame，(58) first servo elevating mechanisms，(59) second servo elevating mechanisms，(60) charging tray，(61) feeding cylinder，(62) first positioning cylinders，(63) second positioning cylinders，(64) fixed plate，(65) guide rail，(66) supporting plate，(67) servo cylinder，(68) conveyer belt，(69) motor，(70) left socle，(71) left leather belt，(72) left discharging motor，(73) left socle，(74) right leather belt，(75) right discharging cylinder，(76) pressure block cylinder，(77) backgauge air cylinder structure，(78) briquetting slideway is collected，(79) disposable box.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings:

Refer to Fig. 1, this utility model one ladder automatization riveting produces equipment, including left organisation of working and right organisation of working, described left organisation of working includes left discharging module 1, it is located at moving to left of left discharging module 1 side from left to right carry module 2 and left punching press module 3 and be located at the upper left material module 4 of left discharging module 1 opposite side, left panel beating module 5 and left panel beating feeding module 6 from left to right；Described right organisation of working includes right discharging module 7, it is located at moving to right of right discharging module 7 side from left to right carry module 8 and right punching press module 9 and be located at the upper right material module 10 of right discharging module 7 opposite side, right panel beating module 11 and right panel beating feeding module 12 from left to right；Left discharging module 1 is connected cooperation with right discharging module 7, by above-mentioned structure design, left organisation of working and right organisation of working process the left setting body of ladder and right setting body respectively, manually section bar, iron plate, rivet are respectively put in charging tray, iron plate vibrating disk and rivet vibrating disk, after completed automatic charging and accessory by machine, and riveting process, manual work is not only greatly reduced, while reducing cost of labor, also eliminates potential safety hazard, and production efficiency is high, product yields is high.

Refer to Fig. 2, upper left material module 4 is identical with upper right material module 10 structure, described upper left material module 4 includes five supports 13, same one end of those support longerons 14 has placed rotating power transmission shaft 15, at those support longerons, main driving wheel 16 all it is arranged with on this power transmission shaft 15, the other end of those support longerons is equipped with corresponding with main driving wheel from drive 17, and belt 18 is tensioned to main driving wheel 16 and between drive 17；The lower section of those support longerons is provided with a rack beam 19, and rack beam 19 is provided with five fixed mounts 20, and those fixed mounts are provided with front sub-material cylinder 21 and rear sub-material cylinder 22；In those supports, the outside of left socle is provided with the motor 23 driving drive axis, and the outside of right support is provided with positioning cylinder 24；It is provided with electric cabinet 25 below the support that right support is adjacent, by above-mentioned structure design, section bar is manually put on belt 18, when above section bar walks to rack beam 19, front sub-material cylinder 21 and rear sub-material cylinder 22 are by section bar jack-up, then by positioning cylinder 24, whole section bars are positioned, wait that the jaw cylinder 42 moving to left load mould comes to capture section bar.

Refer to Fig. 3, it is identical with moving to right load module 8 structure to move to left load module 2, the described load module that moves to left includes frame 26 and is located at the transfer electric cabinet 27 of frame side, frame is provided with the first riser 28, the side of the first riser 28 is provided with two first slide rails 29 and 30, this two first slide rail is provided with the first slide plate 31 that can horizontally slip along it, is provided with the first cylinder 32 driving the first slide plate slides between two first slide rails；First slide plate is provided with the second riser 33, and the side of the second riser is provided with the second slide rail 34, this second slide rail be provided with can along it the second slide plate 35 of slide anteroposterior, the second riser is additionally provided with drive the second slide plate slides the second cylinder 36；Second slide plate is provided with the 3rd riser 37, the side of the 3rd riser is provided with the 3rd slide rail 38, 3rd slide rail is provided with the 3rd slide plate 39 that can slide up and down along it, the 3rd cylinder 40 driving the 3rd slide plate slides it is additionally provided with on 3rd riser, the lower section of the 3rd slide plate also has a bar shaped support 41, the lower surface of this bar shaped support is provided with a jaw cylinder 42, by above-mentioned structure design, after the section bar of upper left material module 4 completes location, first cylinder 32, second cylinder 36 and the 3rd cylinder 40 action, move to jaw cylinder 42 complete above section bar to capture and sent by section bar on section brace plate 48, the most each reset.

Refer to Fig. 4, left punching press module 3 is identical with right punching press module 9 structure, described left punching press module includes punch press 43 and is arranged at positioning component on punch press board, positioning component includes two sliding rails 44 and 45, the cylinder 47 slided along jig 46 and the drive jig of two sliding rail slide anteroposterior, section brace plate 48 is installed on jig, by above-mentioned structure design, punch press 43 action, by the iron plate put in jig 46 and rivet riveting on the section bar on section brace plate 48.

Refer to Fig. 5, left panel beating module 5 is identical with right panel beating module 11 structure, described left panel beating module includes high frame 49 and is located at the low frame 50 of high frame side, and high frame workbench is provided with robot arm 51, and the end of this robot arm is provided with grasping jig 52；Low frame workbench is provided with iron plate vibrating disk 53 and three rivet vibrating disks 54, iron plate vibrating disk 53 connects parting on the left side on high frame workbench by passage and expects cylinder 55, rivet vibrating disk 54 connects parting on the right side on high frame workbench by passage and expects cylinder 56, by above-mentioned structure design, after moving to left load module and putting the profile into section brace plate 48, robot arm 51 is put in jig 46 and is treated on the position of riveting after capturing iron plate, rivet respectively, then reset.

Refer to Fig. 6, left panel beating feeding module 6 is identical with right panel beating feeding module 12 structure, described left panel beating feeding module includes bar shaped frame 57 and is arranged at the first servo elevating mechanism 58 and the second servo elevating mechanism 59 that the structure at bar shaped frame two ends is identical, and bar shaped frame 57 is provided with charging tray 60 and drives the feeding cylinder 61 of charging tray motion；Near the second servo elevating mechanism charging tray be symmetrically arranged on two with the first positioning cylinder 62 and the second positioning cylinder 63；Second servo elevating mechanism includes fixed plate 64, is arranged at the guide rail 65 of fixed plate medial surface, the supporting plate 66 moved up and down along guide rail, drives the servo cylinder 67 that supporting plate moves up and down；The lower section of flitch is provided with conveyer belt 68 and drives the motor 69 of transmission V belt translation, by above-mentioned structure design, panel beating is manually put in charging tray 60, when panel beating is delivered between the first positioning cylinder 62 and the second positioning cylinder 63, by the first positioning cylinder 62 and the second positioning cylinder 63, panel beating is positioned, wait that robot arm 51 captures sheet metal component.

Refer to Fig. 7, described left discharging module 1 includes left socle 70, the left leather belt 71 being located on left socle, and drive the left discharging motor 72 of left leather belt transmission, by above-mentioned structure design, left leather belt 71 rotates under the drive of left discharging motor 72 always, and the product that riveting is good is delivered to next operation.

Referring to Fig. 8, described right discharging module 7 includes right support 73, the right leather belt 74 being located on right support, and drives the right discharging motor 75 of right leather belt transmission；The middle part of right support is provided with pressure block cylinder 76, right-hand member is provided with backgauge air cylinder structure 77, corresponding to being provided with collection briquetting slideway 78 below this backgauge cylinder mechanism, this collection briquetting slideway be arranged right below disposable box 79, by above-mentioned structure design, after moving to left load module feeding, the briquetting of on raw material pressure rivet is put on pressure block cylinder 76, briquetting is put on right leather belt 74 outflow by pressure block cylinder 76 action, owing to the right-hand member of right leather belt 74 has backgauge air cylinder structure 77, as next operation does not comes feeding, briquetting is slipped in disposable box 79 by backgauge air cylinder structure 77 then action through collecting briquetting slideway 78.

To sum up, this utility model is designed by above-mentioned structure, and present in solution prior art, production efficiency is low, there is the problems such as potential safety hazard, has production efficiency high, the features such as product yield is high, potential safety hazard is low.

Above in conjunction with accompanying drawing, this utility model is carried out exemplary description; obvious realization of the present utility model is not subject to the restrictions described above; as long as have employed the various improvement that technical solutions of the utility model are carried out; or the most improved say that design of the present utility model and technical scheme are applied to other occasions, all in protection domain of the present utility model.

Claims (8)

1. a ladder automatization riveting produces equipment, it is characterized in that, including left organisation of working and right organisation of working, described left organisation of working includes left discharging module, it is located at moving to left of left discharging module side from left to right carry module and left punching press module and be located at the upper left material module of left discharging module opposite side, left panel beating module and left panel beating feeding module from left to right；Described right organisation of working includes right discharging module, is located at moving to right of right discharging module side from left to right and carries module and right punching press module and be located at the upper right material module of right discharging module opposite side, right panel beating module and right panel beating feeding module from left to right；Left discharging module is connected cooperation with right discharging module.

2. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterized in that, upper left material module is identical with upper right material modular structure, described upper left material module includes several supports, same one end of those support longerons has placed rotating power transmission shaft, all being arranged with main driving wheel at those support longerons on this power transmission shaft, the other end of those support longerons is equipped with corresponding with main driving wheel from drive, and belt tension is in main driving wheel with between drive；The lower section of those support longerons is provided with a rack beam, and rack beam is provided with several fixed mounts, and those fixed mounts are provided with front sub-material cylinder and rear sub-material cylinder；In those supports, the outside of left socle is provided with the motor driving drive axis, and the outside of right support is provided with positioning cylinder；It is provided with electric cabinet below the support that right support is adjacent.

3. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterized in that, it is identical with moving to right load modular structure to move to left load module, the described load module that moves to left includes frame and is located at the transfer electric cabinet of frame side, frame is provided with the first riser, the side of the first riser is provided with two first slide rails, and this two first slide rail is provided with the first slide plate that can horizontally slip along it, is provided with the first cylinder driving the first slide plate slides between two first slide rails；First slide plate is provided with the second riser, and the side of the second riser is provided with the second slide rail, this second slide rail be provided with can along it the second slide plate of slide anteroposterior, the second riser is additionally provided with drive the second slide plate slides the second cylinder；Second slide plate is provided with the 3rd riser, the side of the 3rd riser is provided with the 3rd slide rail, 3rd slide rail is provided with the 3rd slide plate that can slide up and down along it, the 3rd cylinder driving the 3rd slide plate slides it is additionally provided with on 3rd riser, the lower section of the 3rd slide plate also has a bar shaped support, and the lower surface of this bar shaped support is provided with several jaw cylinders.

4. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterized in that, left punching press module is identical with right punching press modular structure, described left punching press module includes punch press and is arranged at positioning component on punch press board, positioning component includes two sliding rails, the cylinder slided along jig and the drive jig of two sliding rail slide anteroposterior, jig is provided with section brace plate.

5. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterized in that, left panel beating module is identical with right panel beating modular structure, described left panel beating module includes high frame and is located at the low frame of high frame side, high frame workbench is provided with robot arm, and the end of this robot arm is provided with grasping jig；Low frame workbench is provided with iron plate vibrating disk and at least one rivet vibrating disk, and iron plate vibrating disk is connected by passage and parts material cylinder on the left side on high frame workbench, and rivet vibrating disk is connected by passage and parts material cylinder on the right side on high frame workbench.

6. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterized in that, left panel beating feeding module is identical with right panel beating feeding modular structure, described left panel beating feeding module includes bar shaped frame and is arranged at the first identical servo elevating mechanism of the structure at bar shaped frame two ends and the second servo elevating mechanism, and bar shaped frame is provided with charging tray and drives the feeding cylinder of charging tray motion；Near the second servo elevating mechanism charging tray be symmetrically arranged on two with the first positioning cylinder and the second positioning cylinder；Second servo elevating mechanism includes fixed plate, is arranged at the guide rail of fixed plate medial surface, the supporting plate moved up and down along guide rail, drives the servo cylinder that supporting plate moves up and down；The lower section of flitch is provided with conveyer belt and drives the motor of transmission V belt translation.

7. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterised in that described left discharging module includes left socle, the left leather belt being located on left socle, and drives the left discharging motor of left leather belt transmission.

8. ladder automatization as claimed in claim 1 riveting produces equipment, it is characterised in that described right discharging module includes right support, the right leather belt being located on right support, and drives the right discharging motor of right leather belt transmission；The middle part of right support is provided with pressure block cylinder, and right-hand member is provided with backgauge air cylinder structure, corresponding to be provided with below this backgauge cylinder mechanism collection briquetting slideway, this collection briquetting slideway be arranged right below disposable box.