CN205571740U - Automatic feed device of button radium carving machine - Google Patents

Abstract

The utility model relates to an automatic feed device of button radium carving machine. This automatic feed device, the tool that will load the button transmits many radium carving machines to and carries out the radium carving, and it includes roller chain mechanism, elevating system and belt transmission unit. Roller chain mechanism transmits the tool to entry station that radium carving machine corresponds through the roller chain, and elevating system sets up in roller chain mechanism to after tool jack -up, flow in the quick -witted entry position of radium carving that corresponds, the belt transmission unit sets up in elevating system, and the belt transmission unit transmits the tool to radium carving machine through the belt. This automatic feed device is concentrated and is put in the raw materials, saves the manual work, improves work efficiency, prevents operating the injury that probably receives laser and smoke and dust.

Description

A kind of automatic feeder of button laser engraving machine

Technical field

This utility model relates to the automatic feeder of a kind of button laser engraving machine.

Background technology

At present in P+R button production process, need semi-finished product button is carried out laser laser carving processing.Existing button laser carving is manual hand manipulation, one man operation's unit.Operator is only responsible for processed product to put into Working position, after laser carving, product is taken out, simple to operate.But, laser engraving machine needs an operator, and production efficiency is low and labor cost high, and owing to being manual operation, laser carving button of low quality, and poor stability and yields are low.

Utility model content

This utility model is in order to overcome the deficiencies in the prior art, and purpose aims to provide the automatic feeder of a kind of button laser engraving machine, and this automatic feeder concentrates throwing raw materials, saves artificial, improves work efficiency, prevent from operating and may be injured by laser and flue dust.

In order to solve above-mentioned technical problem, the basic technical scheme that the utility model proposes is:

Concrete, this utility model provides the automatic feeder of a kind of button laser engraving machine, the tool loading button is transferred to multiple stage laser engraving machine and carries out laser carving, including:

Roller chain drives mechanism；Tool is transferred to the entrance station of laser engraving machine by described roller chain drives mechanism by roller chain；

Elevating mechanism；Described elevating mechanism is arranged in roller chain drives mechanism, and the entrance station of elevating mechanism location and laser engraving machine is relative, in order to the position corresponding with the entrance station of laser engraving machine by tool jack-up；

Belt transport unit；Described belt transport unit is arranged in elevating mechanism, and tool is transferred to laser engraving machine by belt by belt transport unit.

Further, described roller chain drives mechanism includes:

Roller chain carriage unit；Described roller chain carriage unit supports described roller chain；

Two supports；One end of described roller chain carriage unit accepted by described first support, and the other end of described roller chain carriage unit accepted by the second support；

First motor；Described first motor is arranged in described first support；

It is arranged at first main drive gear of one end of described roller chain carriage unit；The output shaft of described first main drive gear and the first motor couples, and drives roller chain to rotate；

And be arranged at described roller chain carriage unit the other end second from drive mechanism；Described second is rotated by the drive of roller chain from drive mechanism.

Further, described first main drive gear includes being respectively symmetrically and is arranged at roller chain carriage unit both sides and identical two main drive gear unit and first driven sprocket；

Each described main drive gear unit all includes driving shaft, the first drive sprocket and the first rolling bearing units；

Described first drive sprocket is arranged at one end of driving shaft, and the first driven sprocket is arranged at the other end of driving shaft, and the first rolling bearing units and driving shaft couple and be arranged between the first drive sprocket and the first driven sprocket；

Described first drive sprocket and roller chain connect and drive roller chain to rotate, and the first driven sprocket and roller chain connect and rotated by the rotation of roller chain.

Further, arranging first and anti-jump take turns between described first drive sprocket and the first rolling bearing units, described first anti-jump takes turns and driving shaft couples.

Further, described second includes being respectively symmetrically from drive mechanism and is arranged at roller chain carriage unit both sides and identical two from gear train unit；

Described include the second driven sprocket, backstand and the first tensioning shaft from gear train unit；Described second driven sprocket and roller chain connect and are rotated by the rotation of roller chain, and the second driven sprocket and the first tensioning shaft couple；Described first tensioning shaft and backstand couple.

Further, described backstand and the second driven sprocket arrange second and anti-jump take turns, and described second anti-jump takes turns and the first tensioning shaft couples.

Further, described roller chain carriage unit includes at certain intervals and symmetrically arranged two roller chain balladeur trains and symmetrically arranged two connecting plates, first connecting plate and the second connecting plate may be contained between two roller chain balladeur trains, and two roller chain balladeur trains are the first roller chain balladeur train and the second roller chain balladeur train.

Further, it is provided for stopping the stop cylinder advancing or retreating of base plate between described first roller chain balladeur train and the second roller chain balladeur train.

Further, described belt transport unit includes the second motor, the second drive sprocket, the 3rd driven sprocket and symmetrically arranged two belt transmission mechanisms；

Described second motor and the second drive sprocket couple, and the second drive sprocket drives the 3rd driven sprocket to rotate by roller chain；

Described first belt transmission mechanism and the second belt transmission mechanism all include drive pulley, driven pulley, belt, the second rolling bearing units and rotary shaft；Described 3rd driven sprocket and described rotary shaft couple and are arranged at one end that the centre of rotary shaft, drive pulley and rotary shaft couple and be arranged at rotary shaft, and the other end of rotary shaft and the first belt transmission mechanism or the second belt transmission mechanism couple；Described drive pulley is rotated by belt drive driven pulley, and the second rolling bearing units and rotary shaft couple and be arranged between the second drive sprocket and the 3rd driven sprocket.

Further, described first belt transmission mechanism and the second belt transmission mechanism all include tensioning plate and the second tensioning shaft, and described tensioning plate is coupled by the second tensioning shaft and driven pulley.

The beneficial effects of the utility model are: the tool loading button is transferred to the entrance station of laser engraving machine by roller chain drives mechanism, elevating mechanism jack-up tool, tool is made to be in the position corresponding with the entrance station of laser engraving machine, tool is sent in laser engraving machine by belt transport unit, thus completes automatically feed action.This process, it is not necessary to artificial participation can complete to throw in the button raw material required for laser engraving machine, has therefore saved cost of labor, has improve production efficiency.

Accompanying drawing explanation

Fig. 1 provides the axonometric chart of the automatic feeder of a kind of button laser engraving machine for this utility model embodiment.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the right view of Fig. 1.

The structural representation of the belt transport unit that Fig. 4 provides for this utility model embodiment.

Detailed description of the invention

It is described further below with reference to 1 to 4 pair of this utility model of accompanying drawing, but protection domain of the present utility model should not limited with this.For convenience of explanation and understand that the orientation that the noun of locality that the technical solution of the utility model, following description are used all is shown with accompanying drawing is as the criterion.

Refer to the axonometric chart that Fig. 1, Fig. 1 provide the automatic feeder of a kind of button laser engraving machine for this utility model embodiment.As it is shown in figure 1, the tool loading button can be transferred to multiple stage laser engraving machine by this automatic feeder carries out laser carving.Wherein, this automatic feeder includes roller chain drives mechanism 50, elevating mechanism 60 and belt transport unit 70.Tool is transferred to the entrance station of laser engraving machine by roller chain drives mechanism 50 by roller chain, elevating mechanism 60 is arranged in roller chain drives mechanism 50, and elevating mechanism 60 location is relative with the entrance station of laser engraving machine, so as the position corresponding with the entrance station of laser engraving machine by tool jack-up, belt transport unit 70 is arranged in elevating mechanism 60, and tool is transferred to laser engraving machine by belt by belt transport unit 70.

As it is shown in figure 1, roller chain drives mechanism 50 includes that roller chain carriage unit the 10, first support the 11, second support the 12, first motor the 13, first main drive gear 14 and second is from drive mechanism 15.Roller chain carriage unit 10 back-up roller subchain (not shown), one end of roller chain carriage unit 10 accepted by first support 11, the other end of roller chain carriage unit 10 accepted by second support 12, first motor 13 is arranged in the first support 11, first main drive gear 14 is arranged at one end of roller chain carriage unit 10, the output shaft of the first main drive gear 14 and the first motor 13 couples, and drive roller chain to rotate, second is arranged at the other end of roller chain carriage unit 10 from drive mechanism 15, second is rotated by the drive of roller chain from drive mechanism 15, so that base plate 16 is transferred on the entrance station of laser engraving machine.

Roller chain carriage unit 10 includes two roller chain balladeur trains and two connecting plates, first roller chain balladeur train 101 and the second roller chain balladeur train 102 are symmetrical arranged at certain intervals, first connecting plate 103 and the second connecting plate 104 are symmetrical arranged, and the first connecting plate 103 and the second connecting plate 104 may be contained between two roller chain balladeur trains, equidistant to ensure the spacing between the first roller chain balladeur train 101 and the second roller chain balladeur train 102.

First support 11 of the present embodiment and the second support 12 use aluminium section, and aluminium section will form support by corner brace.The corner equal foot cup 17 of the bottom of the first support 11 and the second support 12, this foot cup 17, for adjusting support height, to adapt to different landform, enables complete machine held stationary reliably working.The bottom of the first support 11 and the second support 12 also sets up castor 18, and this castor 18 can facilitate complete machine to change work place with complete machine at ground moving.

Refer to the left view that Fig. 2, Fig. 2 are Fig. 1.As in figure 2 it is shown, the present embodiment the first main drive gear 14 includes being respectively symmetrically is arranged at roller chain carriage unit both sides and identical two main drive gear unit and first driven sprocket 143.Each main drive gear unit all includes driving shaft the 141, first drive sprocket 142 and the first rolling bearing units 144.First drive sprocket 142 is arranged at one end of driving shaft 141, and the first driven sprocket 143 is arranged at the other end of driving shaft 141, and the first rolling bearing units 144 and driving shaft 141 couple and be arranged between the first drive sprocket 142 and the first driven sprocket 143.First drive sprocket 142 and roller chain connect and drive roller chain to rotate, and the first driven sprocket 143 and roller chain connect and rotated by the rotation of roller chain, thus from one end of this automatic feeder, base plate 16 is transferred to the other end.

Beat to produce when preventing base plate 16 from flowing into and out or impact, being provided with first between the first drive sprocket 142 and the first rolling bearing units 144 and anti-jump take turns 145, first anti-jump take turns 145 and driving shaft 141 couple.

Refer to the right view that Fig. 3, Fig. 3 are Fig. 1.As it is shown on figure 3, second includes being respectively symmetrically from drive mechanism 15 and is arranged at roller chain carriage unit both sides and identical two from gear train unit.Wherein, the second driven sprocket 151, backstand 152 and the first tensioning shaft 153 are included from gear train unit.Second driven sprocket 151 and roller chain connect and are rotated by the rotation of roller chain, and the second driven sprocket 151 and the first tensioning shaft 153 couple, and the first tensioning shaft 153 and backstand 152 couple.Operator makes roller chain tensioning by regulating the first tensioning shaft 153, makes the work that this automatic feeder is relatively reliable.Roller chain from the first main drive gear 14 to the second from the transition of drive mechanism 15, it may appear that a vacant locations, this vacant locations have influence on transmission base plate time stability and accuracy.The present embodiment arranges a roller chain guide 19, as shown in Figure 1 second from the transition position of drive mechanism 15 and the first main drive gear 14.This roller chain guide 19 ensure that the place of roller chain run transition smooths, without impact.

Beating to produce when preventing base plate 16 from flowing into and out or impact, backstand 152 and the second driven sprocket 151 arrange second and anti-jump take turns 154, second anti-jump take turns 154 and first tensioning shaft 153 couple.

Refer to the structural representation of the belt transport unit that Fig. 4, Fig. 4 provide for this utility model embodiment.Belt transport unit 70 includes the second motor the 701, second drive sprocket the 702, the 3rd driven sprocket 703 and symmetrically arranged two belt transmission mechanisms.Second motor 701 and the second drive sprocket 702 couple, and the second drive sprocket 702 drives the 3rd driven sprocket 703 to rotate by roller chain.First belt transport unit 704 and the second belt transport unit 705 all include drive pulley 7001, driven pulley 7002, belt the 7003, second rolling bearing units 7004 and rotary shaft 7005.3rd driven sprocket 703 and rotary shaft 7005 couple and are arranged at the centre of rotary shaft 7005, drive pulley 7001 and rotary shaft 7005 couple and are arranged at one end of rotary shaft 7005, and the other end of rotary shaft 7005 and the first belt transmission mechanism 704 or the second belt transmission mechanism 705 couple.Drive pulley 7001 drives driven pulley 7002 to rotate by belt 7003, and the second rolling bearing units 7004 and rotary shaft 7005 couple and be arranged between the second drive sprocket 702 and the 3rd driven sprocket 703.First belt transmission mechanism 704 and the second belt transmission mechanism 705 all include that tensioning plate 7006 and the second tensioning shaft 7007, tensioning plate 7006 are coupled by the second tensioning shaft 7007 and driven pulley 7002.

The tool loading button is transferred to the entrance station of laser engraving machine by roller chain drives mechanism 50, elevating mechanism 60 jack-up tool, making tool be in the position corresponding with the entrance station of laser engraving machine, tool is sent in laser engraving machine by belt transport unit 70, thus completes automatically feed action.This process, it is not necessary to artificial participation can complete to throw in the button raw material required for laser engraving machine, has therefore saved cost of labor, has improve production efficiency.

This automatic feeder be button laser engraving machine production line in a wherein ring.When first base plate is in this automatic feeder, in order to prevent from being in the second base plate after the first base plate and the first base plate collides, between the first roller chain balladeur train 101 and the second roller chain balladeur train 102, it is provided for stopping the stop cylinder 20 advancing or retreating of base plate.When stopping cylinder 20 air inlet, by piston rod, base plate 16 is limited in specific position, makes base plate 16 can not continue to move to or retreat.

The announcement of book and teaching according to the above description, above-mentioned embodiment can also be changed and revise by this utility model those skilled in the art.Therefore, this utility model is not limited to detailed description of the invention disclosed and described above, should also be as falling in scope of the claims of the present utility model to modifications and changes more of the present utility model.Although additionally, employ some specific terms in this specification, but these terms are merely for convenience of description, this utility model is not constituted any restriction.

Claims (10)

1. an automatic feeder for button laser engraving machine, is transferred to multiple stage laser engraving machine by the tool loading button and carries out laser carving, it is characterised in that including:

Roller chain drives mechanism；Tool is transferred to the entrance station of laser engraving machine by described roller chain drives mechanism by roller chain；

Elevating mechanism；Described elevating mechanism is arranged in roller chain drives mechanism, and the entrance station of elevating mechanism location and laser engraving machine is relative, in order to the position corresponding with the entrance station of laser engraving machine by tool jack-up；

Belt transport unit；Described belt transport unit is arranged in elevating mechanism, and tool is transferred to laser engraving machine by belt by belt transport unit.

The automatic feeder of button laser engraving machine the most according to claim 1, it is characterised in that described roller chain drives mechanism includes:

Roller chain carriage unit；Described roller chain carriage unit supports described roller chain；

Two supports；One end of described roller chain carriage unit accepted by described first support, and the other end of described roller chain carriage unit accepted by the second support；

First motor；Described first motor is arranged in described first support；

It is arranged at first main drive gear of one end of described roller chain carriage unit；The output shaft of described first main drive gear and the first motor couples, and drives roller chain to rotate；

And be arranged at described roller chain carriage unit the other end second from drive mechanism；Described second is rotated by the drive of roller chain from drive mechanism.

The automatic feeder of button laser engraving machine the most according to claim 2, it is characterised in that described first main drive gear includes being respectively symmetrically and is arranged at roller chain carriage unit both sides and identical two main drive gear unit and first driven sprocket；

Each described main drive gear unit all includes driving shaft, the first drive sprocket and the first rolling bearing units；

Described first drive sprocket is arranged at one end of driving shaft, and the first driven sprocket is arranged at the other end of driving shaft, and the first rolling bearing units and driving shaft couple and be arranged between the first drive sprocket and the first driven sprocket；

Described first drive sprocket and roller chain connect and drive roller chain to rotate, and the first driven sprocket and roller chain connect and rotated by the rotation of roller chain.

The automatic feeder of button laser engraving machine the most according to claim 3, it is characterised in that arrange first between described first drive sprocket and the first rolling bearing units and anti-jump take turns, described first anti-jump takes turns and driving shaft couples.

The automatic feeder of button laser engraving machine the most according to claim 2, it is characterised in that described second includes being respectively symmetrically from drive mechanism and be arranged at roller chain carriage unit both sides and identical two from gear train unit；

Described include the second driven sprocket, backstand and the first tensioning shaft from gear train unit；Described second driven sprocket and roller chain connect and are rotated by the rotation of roller chain, and the second driven sprocket and the first tensioning shaft couple；Described first tensioning shaft and backstand couple.

The automatic feeder of button laser engraving machine the most according to claim 5, it is characterised in that described backstand and the second driven sprocket arrange second and anti-jump take turns, described second anti-jump takes turns and the first tensioning shaft couples.

The automatic feeder of button laser engraving machine the most according to claim 2, it is characterized in that, described roller chain carriage unit includes at certain intervals and symmetrically arranged two roller chain balladeur trains and symmetrically arranged two connecting plates, first connecting plate and the second connecting plate may be contained between two roller chain balladeur trains, and two roller chain balladeur trains are the first roller chain balladeur train and the second roller chain balladeur train.

The automatic feeder of button laser engraving machine the most according to claim 7, it is characterised in that be provided for stopping the stop cylinder advancing or retreating of base plate between described first roller chain balladeur train and the second roller chain balladeur train.

The automatic feeder of button laser engraving machine the most according to claim 1, it is characterised in that described belt transport unit includes the second motor, the second drive sprocket, the 3rd driven sprocket and symmetrically arranged two belt transmission mechanisms；

Described second motor and the second drive sprocket couple, and the second drive sprocket drives the 3rd driven sprocket to rotate by roller chain；

Described first belt transmission mechanism and the second belt transmission mechanism all include drive pulley, driven pulley, belt, the second rolling bearing units and rotary shaft；Described 3rd driven sprocket and described rotary shaft couple and are arranged at one end that the centre of rotary shaft, drive pulley and rotary shaft couple and be arranged at rotary shaft, and the other end of rotary shaft and the first belt transmission mechanism or the second belt transmission mechanism couple；Described drive pulley is rotated by belt drive driven pulley, and the second rolling bearing units and rotary shaft couple and be arranged between the second drive sprocket and the 3rd driven sprocket.

The automatic feeder of button laser engraving machine the most according to claim 9, it is characterized in that, described first belt transmission mechanism and the second belt transmission mechanism all include tensioning plate and the second tensioning shaft, and described tensioning plate is coupled by the second tensioning shaft and driven pulley.