CN206169096U - Automatic riveting pressure monitoring device - Google Patents

Abstract

The utility model relates to an automatic riveting pressure monitoring device, including board, control screen, electrical control box, nut feed arrangement, nut block feed arrangement, riveting institutions and unloading cylinder, control screen, electrical control box, nut feed arrangement, nut block feed arrangement, riveting institutions and unloading cylinder be assembled between/be connected between board, nut feed arrangement, nut block feed arrangement, control screen, riveting institutions and unloading cylinder be electric connection electrical control box respectively, riveting institutions includes: riveting support, pressurized cylinder, crimping head and magnet, wherein, crimping head and pressurized cylinder are connected, and crimping head is driven by the pressurized cylinder and carries out up -and -down motion, crimping head is the ducted body, the outer fringe shape of the shape fit nut block of crimping head inner edge, magnet and crimping head connection, the board corresponds crimping head's position, has seted up nut place the platform. This application automatic production replaces the manual work, guarantees that quality performance is high, reaches the safety in production, improves market competitiveness of enterprise.

Description

Automatic riveting pressure monitoring device

Technical field

The utility model is related to a kind of riveting machine, and in particular to combined to a kind of block of automobile nut and nut riveting Automatic riveting pressure monitoring device.

Background technology

With the development of science and technology, the progress of technology, automobile product makes rapid progress, and also fastener products is proposed higher It is required that, and auto parts and components are the key areas that Domestic Automotive Industry participates in globalization.Nut is that one kind can be by plant equipment The part for closely coupling together, it generally uses cooperatively to reach the purpose of fastening parts with bolt, i.e., is worn by by bolt Enter the through hole that connected parts are provided with, parts are fastened in the other end attaching nut of bolt, and on automobile Nut, generally include nut body and with nut body be holistic annular helmet, at present, tire, wheel hub locking spiral shell Female riveting or hex nut fully rely on completion hand-manipulated with the riveting operation of hex nut block.Nut is put with a hand On nut alignment pin below pneumohydraulic pressure-cylinder, another hand loads above nut alignment pin hex nut block In hex nut lid positioning pressing mold；Steel ball plunger lives nut cap crown, and then both hands leave pneumohydraulic pressure-cylinder workspace, press Button, nut guide cylinder is by the direction correcting of hex nut, and the direction with hex nut block is consistent；Pneumohydraulic pressure-cylinder is pushed Nut block is pressed on nut.After pneumohydraulic pressure-cylinder resets, then by the semi-finished product after riveting from nut cap positioning pressing mold Remove.This manual riveting engine efficiency is low, and operation is dynamic to do simple, repetition, machinery, easily sends out industrial accident.Manual operations Riveter it sometimes appear that pushing during, nut block slides from positioning mould and nut is oriented to not positive situation and produces Waste product.

In sum, there is problems with prior art：

Firstth, manual operations is fully relied on, the big efficiency of labor strength is low；

Secondth, operational motion is simple, repeat, machinery, easily sends out industrial accident, forms loss；

3rd, low precision, easily produces waste product to increase company cost.

Therefore, the Combined machining process unit of the block of prior art nut and nut, the place for also being lifted.

Utility model content

The purpose of this utility model is to provide a kind of automatic riveting pressure monitoring device, realizes that nut riveting is automated, and carries High efficiency, it is to avoid the generation of security incident, reduces labor intensity, and reduces human input, reduces cost, to solve existing skill The problem of art.

To achieve the above object, the utility model employs following technical scheme：

A kind of automatic riveting pressure monitoring device, including a board, a control screen, an electric control box, a nut enter Material device, a nut block feed arrangement, a riveting mechanism and a blanking cylinder, annexation therein is, the control flow Curtain, electric control box, nut feed arrangement, nut block feed arrangement, riveting mechanism and machine described in blanking cylinder assembly connection Platform；The nut feed arrangement, nut block feed arrangement, control screen, riveting mechanism and blanking cylinder are electrically connected with The electric control box；The riveting mechanism includes：One riveting support, a pressurized cylinder, a riveting head and a magnet, wherein, institute State riveting support and board connection；Riveting support described in the pressurized cylinder assembly connection；The riveting head and the supercharging Cylinder is connected, and the riveting head is driven by the pressurized cylinder, pumped；The riveting head is ducted body, the riveting The outer rim shape of the form fit nut block of pressure head inner edge, the magnet and the riveting head are connected；The board correspondence institute The position of riveting head is stated, a nut placement platform is offered, the nut placement platform is a platform.

Automatic riveting pressure monitoring device described in the application preferred embodiment, the nut block feed arrangement includes one The block is placed in block vibrating disk, one first cylinder, one first handgrip, one second cylinder and one the 3rd cylinder, nut block In vibrating disk, nut block sequential, second cylinder connects first handgrip；Second cylinder connection described the One cylinder；3rd cylinder stops that nut block is advanced.

Automatic riveting pressure monitoring device described in the application preferred embodiment, the nut feed arrangement includes a nut Vibrating disk, one the 4th cylinder, one second handgrip, one the 5th cylinder and one the 6th cylinder, nut are placed in the nut vibrating disk, Nut sequential, the 5th cylinder connects second handgrip；5th cylinder connects the 4th cylinder；Described Six cylinders stop that nut advances.

Automatic riveting pressure monitoring device described in the application preferred embodiment, machine described in the blanking cylinder assembly connection Platform, the blanking cylinder correspondence nut placement platform.

The design concept of the application be design one kind can be with the block of automatic assembling nut and nut, and can be automatic The device of detection, substitution is artificial, reaches safety in production, saves man-hour reduction expense, improves market competitiveness of enterprises.

Technical scheme as a result of more than so that the utility model has the following advantages effect：

Firstth, the application automated production performance is high, improves production efficiency, reduces human input, reduces cost；

Secondth, the application avoids the generation of security incident, alleviates labour intensity, improves enterprise competitiveness.

Certainly, implement any one specific embodiment of teachings herein, might not simultaneously have the skill of all of the above Art effect.

Brief description of the drawings

Fig. 1 is the connection diagram of the application；

Fig. 2 is the structural representation of the application；

Fig. 3 is the schematic rear view of Fig. 2；

Fig. 4 is the riveting head schematic diagram of the application.

Specific embodiment

For ease of understanding, preferred embodiment of the present utility model is described in further detail below in conjunction with accompanying drawing.

Refer to Fig. 1, Fig. 2 and Fig. 3, a kind of automatic riveting pressure monitoring device, including board 10, control screen 60, electricity Gas control cabinet 20, nut feed arrangement 30, nut block feed arrangement 40, riveting mechanism 50 and blanking cylinder 11, company therein The relation of connecing is, described to control screen 60, electric control box 20, nut feed arrangement 30, nut block feed arrangement 40, riveter Structure 50 and board 10 described in the assembly connection of blanking cylinder 11；The nut feed arrangement 30, nut block feed arrangement 40, control Screen 60, riveting mechanism 50 and blanking cylinder 11 are electrically connected with the electric control box 20；Electric control box 20 includes PLC Unit, magnetic valve etc. are assembled, and electric control box 20 receives nut feed arrangement 30, nut block feed arrangement 40, control screen 60th, the information that riveting mechanism 50 and blanking cylinder 11 are transmitted, sends instruction, allows each device action.

In addition, the riveting mechanism 50 includes：One riveting support 51, a pressurized cylinder 52, a riveting first 53 and a magnet 54, Wherein, the riveting support 51 and the board 10 are connected；Riveting support 51 described in the assembly connection of the pressurized cylinder 52；The riveting Pressure head 53 and the pressurized cylinder 52 are connected, and the riveting first 53 is driven by the pressurized cylinder 52, is pumped；It is described Pressurized cylinder 52 is a kind of hydraulic cylinder, when realizing moving back and forth, can remove deceleration device from, and without drive gap, stable movement； As shown in figure 4, the riveting first 53 is ducted body, the outer rim shape of the form fit nut block of first 53 inner edge of riveting, In the present embodiment, the outer rim shape of nut block is hexagon, but can not be used for limiting the application.The magnet 54 and described Riveting first 53 is connected, the mode of connection, can be the bottom for being assemblied in riveting first 53, or the wall for being assemblied in riveting first 53 In vivo；In the present embodiment, magnet 54 is assemblied in the wall body of riveting first 53, but can not be used for limiting the application, as long as energy Produce the enough magnetic attraction just can be with, so-called enough magnetic attractions are represented, this magnetic attraction can suck up nut block, but It is that the nut block after riveting and nut can not but be sucked up；The position of the correspondence of the board 10 riveting first 53, is provided with One nut placement platform 12, the nut placement platform 12 is a platform.

During work, nut block is first placed on the position of nut placement platform 12, now, under the first time of pressurized cylinder 52 Drop, nut block is by magnet suction riveting first 53；After pressurized cylinder 52 rises, nut is placed on nut placement platform 12, so Afterwards, second decline of pressurized cylinder 52, by nut block and nut riveted, after riveted, pressurized cylinder 52 rises, because magnetic attraction can not Nut block after riveting and nut are sucked up, so the riveting finished product of nut block and nut stays in nut placement platform 12。

Additionally, the nut block feed arrangement 40 includes a block vibrating disk（It is not shown）, one first cylinder 42,1 One handgrip 43, one second cylinder 44 and one the 3rd cylinder 45, nut block are placed in the block vibrating disk 41, and nut block is received To the vibrations sequential of block vibrating disk 41, block vibrating disk 41 is flowed out, come nut block original position, the 3rd cylinder 45 Stop that nut block is advanced, the mode of stop is projected between nut block original position and nut placement platform 12, near nut Block position in situ, when nut block is given a shock slides, stretches out in good time, blocks nut block, will not drop.It is described Second cylinder 44 connects first handgrip 43, and when nut block is come, nut block is in situ, and the second cylinder 44 is pushed, and drives the Downwards, the first handgrip 43 catches nut block to one handgrip 43, and now, the 3rd cylinder 45 is retreated, and no longer stops nut block；It is described Second cylinder 44 connects first cylinder 42, and the first cylinder 42 promotes the second cylinder 44, related by the first handgrip 43 Nut placement platform 12 is shifted in nut block onto.After nut placement platform 12 is come in nut block, the second cylinder 44 is above carried, and drives the Upwards, the first handgrip 43 leaves nut block to one handgrip 43；Then, the first cylinder 42 pulls the second cylinder 44, related by the One handgrip 43 is pulled away from nut placement platform 12.Now, pressurized cylinder 52 declines for the first time, and nut block sucks riveting first 53 by magnet In.

In addition, the nut feed arrangement 30 includes a nut vibrating disk（It is not shown）, one the 4th cylinder 32,1 second grabs Hand 33, one the 5th cylinder 34 and one the 6th cylinder 35, nut are placed in the nut vibrating disk 31, and nut is subject to nut vibrating disk 31 vibrations sequential, outflow nut vibrating disk 31 comes nut original position, and the 6th cylinder 35 stops that nut advances, resistance The mode of gear is projected between nut original position and nut placement platform 12, near nut position in situ, when nut is shaken It is dynamic to slide when coming, stretch out in good time, blocking nut will not drop.5th cylinder 34 connects second handgrip 33, works as nut Come nut in situ, the 5th cylinder 34 is pushed, drive the second handgrip 33 downwards, the second handgrip 33 catches nut, now, the 6th gas Cylinder 35 is retreated, and no longer stops nut；5th cylinder 34 connects the 4th cylinder 32, and the 4th cylinder 32 promotes the 5th cylinder 34, related shifts the nut in the second handgrip 33 onto nut placement platform 12.After nut comes nut placement platform 12, the 5th Cylinder 34 is above carried, and drives the second handgrip 33 upwards, and the second handgrip 33 leaves nut；Then, the 4th cylinder 32 pulls the 5th cylinder 34, related is pulled away from nut placement platform 12 by the second handgrip 33.Now, second decline of pressurized cylinder 52, nut block riveting Attaching nut.

Further, board 10 described in the assembly connection of blanking cylinder 11, the correspondence of blanking cylinder 11 nut is placed Platform 12, after the completion of riveting, magnet is not enough to a nut block and nut is sucked up together, therefore the finished product after riveting stays in nut Finished product is pushed discharge channel 70 by the position of placement platform 12, blanking cylinder 11.

The technological process of the application includes：

First, feeding：

Nut block：Nut block is in situ》Under second cylinder 44》Under second cylinder 44 in place》3rd cylinder 45 is retreated》 3rd cylinder 45 is retreated in place》First cylinder 42 advances》First cylinder 42 advances in place》3rd cylinder 45 advances, the second cylinder On 44》On second cylinder 44 in place》First cylinder 42 is retreated》First cylinder 42 is retreated in place》Under pressurized cylinder 52》Under pressurized cylinder 52 In place》On pressurized cylinder 52》On pressurized cylinder 52 in place.

Nut：Under 5th cylinder 34》Under 5th cylinder 34 in place》6th cylinder 35 is retreated》6th cylinder 35 is retreated in place》 4th cylinder 32 advances》4th cylinder 32 advances in place》6th cylinder 35 advances, on the 5th cylinder 34》Arrived on 5th cylinder 34 Position》4th cylinder 32 is retreated》4th cylinder 32 is retreated in place》Under pressurized cylinder 52》Under pressurized cylinder 52 in place》On pressurized cylinder 52》Increase On cylinder pressure 52 in place.

2nd, blanking process：Blanking cylinder 11 advances》Blanking cylinder 11 advances in place》Blanking cylinder 11 is retreated》Blanking cylinder 11 retreat in place》Repetitive cycling.

Technical scheme as a result of more than so that the utility model has the following advantages effect：

Firstth, the application automated production performance is high, improves production efficiency, reduces human input, reduces cost；

Secondth, the application avoids the generation of security incident, alleviates labour intensity, improves enterprise competitiveness.

Certainly, implement any one specific embodiment of the utility model content, might not simultaneously have all of the above Technique effect.

Disclosed above is only preferred embodiment of the present utility model, but is not used for limiting itself, any to be familiar with In the case of without prejudice to the utility model spiritual connotation, the impartial change done and change all should for those skilled in the art Fall in protection domain of the present utility model.

Claims (4)

1. a kind of automatic riveting pressure monitoring device, it is characterised in that including a board, a control screen, an electric control box, One nut feed arrangement, a nut block feed arrangement, a riveting mechanism and a blanking cylinder, annexation therein is, institute Control screen, electric control box, nut feed arrangement, nut block feed arrangement, riveting mechanism and the assembling of blanking cylinder is stated to connect Connect the board；The nut feed arrangement, nut block feed arrangement, riveting mechanism and blanking cylinder are electrically connected with institute State electric control box；The riveting mechanism includes：

One riveting support, a pressurized cylinder, a riveting head and a magnet, wherein,

The riveting support and the board are connected；Riveting support described in the pressurized cylinder assembly connection；The riveting head and institute Pressurized cylinder connection is stated, the riveting head is driven by the pressurized cylinder, pumped；

The riveting head be ducted body, the outer rim shape of the form fit nut block of the riveting head inner edge, the magnet and The riveting head connection；

The position of the board correspondence riveting head, offers a nut placement platform, and the nut placement platform is one flat Platform.

2. automatic riveting pressure monitoring device as claimed in claim 1, it is characterised in that the nut block feed arrangement bag A block vibrating disk, one first cylinder, one first handgrip, one second cylinder and one the 3rd cylinder are included, nut block is placed described In block vibrating disk, nut block sequential, second cylinder connects first handgrip；Second cylinder connects institute State the first cylinder；3rd cylinder stops that nut block is advanced.

3. automatic riveting pressure monitoring device as claimed in claim 1, it is characterised in that the nut feed arrangement includes Nut vibrating disk, one the 4th cylinder, one second handgrip, one the 5th cylinder and one the 6th cylinder, nut place the nut vibration In disk, nut sequential, the 5th cylinder connects second handgrip；5th cylinder connects the 4th cylinder； 6th cylinder stops that nut advances.

4. automatic riveting pressure monitoring device as claimed in claim 1, it is characterised in that the blanking cylinder assembly connection institute State board, the blanking cylinder correspondence nut placement platform.