CN103144814B - Automatic pressing nameplate equipment and control method thereof - Google Patents

Abstract

The present invention discloses a kind of automatic pressing nameplate equipment, and it comprises base, transversal thrust assembly, longitudinal thrust assemblies; Described transversal thrust assembly is arranged on described base; Described longitudinal thrust assemblies is connected with described transversal thrust assembly, and it moves along first direction under the drive of described transversal thrust assembly; Described longitudinal thrust assemblies is provided with pressure head, and this pressure head moves to be overlayed on panel by nameplate along second direction.The invention also discloses a kind of control method of this automatic pressing nameplate equipment.The embodiment of the present invention, by the setting of transversal thrust assembly, longitudinal thrust assemblies, makes overlaying of nameplate achieve automation, not only increases pressure nameplate efficiency, but also saves human cost.<!--1-->

Description

Automatic pressing nameplate equipment and control method thereof

Technical field

The present invention relates to pressure nameplate field, particularly relate to a kind of automatic pressing nameplate equipment and control method thereof.

Background technology

Nameplate refers to after launch products, is fixed on the label on product, is mainly used in some technical data in record manufacturer and nominal operation situation, for the proper use of and unlikely damage equipment of user.Existing product is all by manually overlaying in product surface by nameplate, not only increasing human cost thus, and easily causes nameplate easily to come off because artificial error build-up of pressure is unstable.Therefore, the equipment that a kind of automation that can realize nameplate overlays is needed badly.

Summary of the invention

Main purpose of the present invention is to provide a kind of automatic pressing nameplate equipment, is intended to realize the automation that nameplate overlays, and improves pressure nameplate efficiency.

For reaching above object, the invention provides a kind of automatic pressing nameplate equipment, comprising base, transversal thrust assembly, longitudinal thrust assemblies; Described transversal thrust assembly is arranged on described base; Described longitudinal thrust assemblies is connected with described transversal thrust assembly, and it moves along first direction under the drive of described transversal thrust assembly; Described longitudinal thrust assemblies is provided with pressure head, and this pressure head moves to be overlayed on panel by nameplate along second direction.

Preferably, the first guide rod that described transversal thrust assembly comprises the first cylinder and is connected with the first cylinder, described first cylinder is arranged on described base; The second guide rod that described longitudinal thrust assemblies comprises the contiguous block be fixedly connected with the first guide rod end, the second cylinder be connected with described contiguous block and is connected with the second cylinder; Described pressure head is connected with the end of the second guide rod; And the sense of motion of described first cylinder is first direction, the sense of motion of described second cylinder is second direction.

Preferably, described base is also provided with guide rail, described contiguous block comprises the first contiguous block that vertical feet arranges, the second contiguous block being vertically set on the first contiguous block two ends and the 3rd contiguous block, and the second contiguous block and the 3rd contiguous block extend from the opposing face of the first contiguous block; The bottom surface of described 3rd contiguous block is provided with the chute be connected with slide, and side is provided with and described first guide rod fixed part connected vertically; Described second cylinder is located on the second contiguous block.

Preferably, described longitudinal thrust assemblies also comprises anti-bull stick and Anti-rotary block, and wherein said Anti-rotary block and described pressure head be arranged in parallel, and described anti-bull stick is arranged between the second contiguous block and Anti-rotary block; Described anti-bull stick one end is fixed on described Anti-rotary block, the other end run through after the second contiguous block with the second contiguous block sliding block joint, described second guide rod is connected with pressure head after running through described Anti-rotary block away from one end of the second cylinder.

Preferably, described transversal thrust assembly and longitudinal thrust assemblies are moved under control of the control means, and described control setup comprises:

First control unit, longitudinal thrust assemblies is driven to travel forward along first direction for controlling transversal thrust assembly, make longitudinal thrust assemblies move to the pre-position of panel, the pressure head then controlling longitudinal thrust assemblies moves downward along second direction, to overlay on panel by nameplate;

Second control unit, for overlaying after on panel after a preset time at pressure head by nameplate, controlling pressure head along second direction upward movement, recovering the initial condition of pressure head; Also driving longitudinal thrust assemblies to move backward along first direction for controlling transversal thrust assembly, returning to initial condition;

Power supply unit, for providing power supply for the first control unit and the second control unit.

Preferably, described first control unit comprises the first relay, the first electromagnetic valve, point driving switch, travel switch, the second relay and the second electromagnetic valve; Described second control unit comprises the 3rd relay and time relay; Wherein, time relay is for setting described preset time;

Described point driving switch is connected between the positive pole of power supply unit and negative pole after connecting with the first electromagnetic valve, and the open contact of described first relay is in parallel with point driving switch, and the coil of described first relay is in parallel with the first electromagnetic valve; Between the positive pole being connected to described power supply unit after the coils connected in series of described travel switch and the second relay and negative pole; After the open contact of described second relay and the coils connected in series of time relay, one end is connected with the positive pole of described power supply unit, and the other end is connected with the negative pole of described power supply unit; After the open contact of described time relay is connected with the second electromagnetic valve, between the open contact that one end is connected to described second relay and the coil of described time relay, the other end is connected with the negative pole of described power supply unit; Between the positive pole being connected to described power supply unit after the normally closed contact of described time relay and the coils connected in series of described 3rd relay and negative pole; Normally closed contact one end of described 3rd relay is connected with the positive pole of described power supply unit, and the other end is connected with the input end of described point driving switch;

Described first electromagnetic valve is connected with described transversal thrust electrical component, drives longitudinal thrust assemblies to move for controlling transversal thrust assembly; Described second electromagnetic valve is electrically connected with described longitudinal thrust assemblies, for controlling the ram movement of longitudinal thrust assemblies; Described travel switch is arranged on transversal thrust assembly.

Preferably, described second control unit also comprises resistance, diode and electric capacity, and the positive pole of described diode is connected with the normally closed contact mouth of described time relay, and negative pole is connected with one end of electric capacity, the other end of electric capacity is connected with the negative pole of described power supply unit, resistance and diodes in parallel.

Preferably, the preset time of described time relay setting is 1-30 second.

Present invention also offers a kind of control method of automatic pressing nameplate equipment, this automatic pressing nameplate equipment is above-mentioned automatic pressing nameplate equipment, and described control method comprises the following steps:

Controlling transversal thrust assembly drives longitudinal thrust assemblies to travel forward along first direction, makes longitudinal thrust assemblies move to the pre-position of panel;

The pressure head controlling longitudinal thrust assemblies moves downward along second direction, to overlay on panel by nameplate;

After continuing a preset time, control pressure head along second direction upward movement, recover the initial condition of pressure head;

Controlling transversal thrust assembly drives longitudinal thrust assemblies to move backward along first direction, returns to initial condition.

Preferably, described preset time is 1-30 second.

The embodiment of the present invention, by the setting of transversal thrust assembly, longitudinal thrust assemblies, makes overlaying of nameplate achieve automation, not only increases pressure nameplate efficiency, but also saves human cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of automatic pressing nameplate equipment of the present invention preferred embodiment;

Fig. 2 is the high-level schematic functional block diagram of the control setup controlling automatic pressing nameplate equipment of the present invention;

Fig. 3 is the electrical block diagram of control setup one embodiment of the nameplate of automatic pressing shown in Fig. 2 equipment;

Fig. 4 is the schematic flow sheet of the control method preferred embodiment of automatic pressing nameplate equipment of the present invention.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Technical scheme of the present invention is further illustrated below in conjunction with Figure of description and specific embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

With reference to Fig. 1, the structural representation of a kind of automatic pressing nameplate of the present invention equipment preferred embodiment is proposed.This automatic pressing nameplate equipment comprises base 10, the transversal thrust assembly 20 be arranged on base 10, longitudinal thrust assemblies 30 of being connected with transversal thrust assembly 20, described transversal thrust assembly 20 can drive longitudinal thrust assemblies 30 respect thereto to move along first direction, such as, described longitudinal thrust assemblies 30 moves to the pre-position of panel (not shown) under the drive of described transversal thrust assembly 20 along first direction.This longitudinal thrust assemblies 30 comprises for nameplate being overlayed the pressure head 31 on panel, and respect thereto 10 moves along second direction by this pressure head 31.In the embodiment of the present invention, first direction is the direction parallel with base 10, and second direction is the direction vertical with base 10.

Above-mentioned automatic pressing nameplate equipment also comprises the control setup be electrically connected with transversal thrust assembly 20 and longitudinal thrust assemblies 30, for controlling transversal thrust assembly 20 and longitudinal thrust assemblies 30 is moved.Particularly, first nameplate is placed on the pre-position of panel, and then control transversal thrust assembly 20 and drive longitudinal thrust assemblies 30 respect thereto 10 to move along first direction, thus drive longitudinal thrust assemblies 30 to move to the pre-position of panel, and then pressure head 31 respect thereto 10 controlling longitudinal thrust assemblies 30 moves along second direction, applies pressure to be overlayed on panel by nameplate by pressure head 31.This control setup can be arranged on the optional position of automatic pressing nameplate equipment, such as, on base 10; Also can be independent setting, be electrically connected with automatic pressing nameplate equipment when needing, this control setup can control multiple stage automatic pressing nameplate equipment simultaneously again.

The embodiment of the present invention, by the setting of transversal thrust assembly 20, longitudinal thrust assemblies 30, makes overlaying of nameplate achieve automation, not only increases pressure nameplate efficiency, but also saves human cost.

The first guide rod 22 that above-mentioned transversal thrust assembly 20 comprises the first cylinder 21 and is connected with the first cylinder 21.Described first cylinder 21 is fixedly connected with base 10, and this first cylinder 21 is electrically connected with control setup.The second guide rod 34 that above-mentioned longitudinal thrust assemblies 30 comprises the contiguous block 32 be fixedly connected with the first guide rod 22 end, the second cylinder 33 be connected with described contiguous block 32 and is connected with the second cylinder 33; Described pressure head 31 is connected with the end of the second guide rod 34.One end that described contiguous block 32 comprises vertically disposed first contiguous block 321, first contiguous block 321 with base 10 is fixedly connected with the first guide rod 22, and the other end is vertically installed with the second contiguous block 322, and this second contiguous block 322 is for installing the second cylinder 33.The moving parts (not shown) respect thereto 10 that described control setup can control to be provided with in the first cylinder 21 travels forward along first direction, thus drives the first guide rod 22 to move.Now, contiguous block 32 will move with the first guide rod 22, and drive longitudinal thrust assemblies 30 to move to the desired location of panel.Then the moving parts (not shown) that control setup controls to be provided with in the second cylinder 33 again moves downward in the second direction (i.e. vertical direction in Fig. 1) of base 10, and drive the pressure head 31 on the second guide rod 34 to move, thus the nameplate below pressure head 31 is overlayed on panel.After this state continuance one preset time, the moving parts respect thereto 10 controlling to be provided with in the second cylinder 33, along second direction upward movement, recovers the initial condition of the second cylinder 33.The moving parts respect thereto 10 that last control setup controls to be provided with in the first cylinder 21 moves backward along first direction, recovers the initial condition of the first cylinder 21.

Above-mentioned contiguous block 32 also comprises the 3rd contiguous block 323 be vertically set on one end that the first contiguous block 321 is connected with the first guide rod 22.The bottom of the 3rd contiguous block 323 is provided with chute (not marking in figure), and the side of the 3rd contiguous block 323 is then provided with and described first guide rod 22 fixed part 324 connected vertically.Above-mentioned base 10 is also provided with guide rail 40, and this guide rail 40 is connected with the slide of the 3rd contiguous block 323.By coordinating of chute and guide rail 50, make contiguous block 32 along with the slip of the first guide rod 22 more smooth and easy.

Above-mentioned longitudinal thrust assemblies 30 also comprises anti-bull stick 35 and Anti-rotary block 36, and wherein said Anti-rotary block 36 be arranged in parallel with pressure head 31, and is fixedly connected with described second guide rod 34; Described anti-bull stick 35 is arranged between the second contiguous block 322 and Anti-rotary block 36.Described anti-bull stick 35 one end is fixed on Anti-rotary block 36, and the other end runs through the second contiguous block 322, and the second guide rod 34 runs through, and Anti-rotary block 36 is rear to be connected with pressure head 31.When the second guide rod 34 moves downward, the relatively anti-bull stick 35 of the second contiguous block 322 slides.By the setting of anti-bull stick 35 and Anti-rotary block 36, can prevent pressure head 31 from deflecting when the second guide rod 34 is moved downward with dynamic head 31 and cause nameplate overlay nonconformity.

The above-mentioned control setup of high-level schematic functional block diagram being the control setup preferred embodiment of a kind of automatic pressing of the present invention nameplate equipment with reference to Fig. 2, Fig. 2 comprises:

First control unit 51, longitudinal thrust assemblies 30 is driven to travel forward for controlling transversal thrust assembly 20 along first direction, longitudinal thrust assemblies 30 is made to move to the pre-position of panel, then the pressure head 31 controlling longitudinal thrust assemblies 30 moves downward along second direction, to overlay on panel by nameplate;

Second control unit 52, for overlaying after on panel after a preset time at pressure head 31 by nameplate, controlling pressure head 31 along second direction upward movement, recovering the initial condition of pressure head 31; Also driving longitudinal thrust assemblies 30 to move backward along first direction for controlling transversal thrust assembly 20, returning to initial condition.

Power supply unit 53, for providing power supply for the first control unit 51 and the second control unit 52.

Particularly, with reference to Fig. 3, above-mentioned first control unit 51 comprises the first relay, the first electromagnetic valve km1, point driving switch K, travel switch K1, the second relay and the second electromagnetic valve km2; Above-mentioned second control unit 52 comprises the 3rd relay and time relay.Wherein, time relay is for setting above-mentioned preset time.

The input end of described point driving switch K is connected with the positive pole of power supply unit 53, and mouth is connected with first electromagnetic valve km1 one end, and the other end of the first electromagnetic valve km1 is connected with the negative pole of power supply unit 53.The open contact J1 of described first relay is in parallel with point driving switch K, and the coil R1 of described first relay is in parallel with the first electromagnetic valve km1; Described first electromagnetic valve km1 is electrically connected with the moving parts in the first cylinder 21 in above-mentioned transversal thrust assembly 20, moves for controlling transversal thrust assembly 20.

One end of described travel switch K1 is connected with the positive pole of power supply unit 53, and the other end is connected with one end of the coil R2 of the second relay, and the other end of the coil R2 of described second relay is connected with the negative pole of power supply unit 53.Open contact J2 one end of described second relay is connected with the positive pole of described power supply unit 53, and the other end is connected with one end of the coil SJ of described time relay, and the other end of the coil SJ of described time relay is connected with the negative pole of described power supply unit 53.After connecting with the second electromagnetic valve km2 in open contact SJ1 one end of described time relay, one end is connected to the connecting joint between the open contact J2 of described second relay and the coil SJ of described time relay, and the other end is connected with the negative pole of described power supply unit 53.Normally closed contact SJ2 one end of described time relay is connected with the positive pole of described power supply unit 53, and the other end is connected with one end of the coil R3 of described 3rd relay, and the other end of the coil R3 of described 3rd relay is connected with the negative pole of described power supply unit 53.The normally closed contact J3 of described 3rd relay is connected between the positive pole of described power supply unit 53 and described point driving switch K.Described second electromagnetic valve km2 is electrically connected with the moving parts in the second cylinder 33 of longitudinal thrust assemblies 30, for controlling the motion of longitudinal thrust assemblies 30.In the embodiment of the present invention, travel switch K1 is arranged on transversal thrust assembly 20, for limiting the movement travel of the moving parts in transversal thrust assembly 20.

When above-mentioned automatic pressing nameplate equipment work, first input 220V power supply to power supply unit 53, power supply unit 53 exports DC24V.Then control crawl K switch to be pressed, because the normally closed contact J3 of the 3rd relay is closure state when initial condition, so after point driving switch K is closed, the coil R1 of the first relay is energized, thus the open contact J1 of the first relay closes, first electromagnetic valve km1 energising action, the moving parts promoted in the first cylinder 21 proceeds to travel switch K1 place, travel switch K1 is closed, the coil R2 of the second relay is energized, the open contact J2 of the second relay is caused to close, then the coil SJ of time relay is energized, the open contact SJ1 of time relay closes, the normally closed contact SJ2 of time relay disconnects, second electromagnetic valve km2 is energized, thus the moving parts controlled in the second cylinder 33 runs downwards, drive the second guide rod 34 to promote pressure head 31 and overlay nameplate downwards, when time relay setting preset time then, the open contact SJ1 of time relay disconnects, the normally closed contact SJ2 of time relay closes, second electromagnetic valve km2 power-off, the automatic upward movement of moving parts in second cylinder 33, drives the second guide rod 34 and pressure head 31 to complete to overlay and away from nameplate, simultaneously, the coil R3 of the 3rd relay is energized, the normally closed contact J3 of the 3rd relay is caused to disconnect, the coil R1 dead electricity of the first relay, thus the open contact J1 of the first relay disconnects, the first electromagnetic valve km1 electromagnetism dead electricity, the moving parts in the first cylinder 21 and the first guide rod 22 return original position automatically backward, first guide rod 22 drives the reposition of longitudinal thrust assemblies 30 simultaneously, and whole process forms an automated closed-loop and runs stroke.

Above-mentioned second control unit 52 also comprises resistance R4, diode D and electric capacity C, the positive pole of described diode D is connected with the mouth of the normally closed contact SJ2 of time relay sj, negative pole is connected with one end of electric capacity C, the other end of electric capacity C is connected with the negative pole of power supply unit 53, and resistance R4 is in parallel with diode D.Wherein diode D and resistance R4, electric capacity C form charge-discharge circuit, for making the 3rd relay can not power-off suddenly, avoiding causing circuit to be in a concussion state for a long time, thus reducing the misoperation of the 3rd relay.

With reference to Fig. 4, the schematic flow sheet of the control method preferred embodiment of a kind of automatic pressing nameplate of the present invention equipment is proposed.The structure of this automatic pressing nameplate equipment can refer to noted earlier, just repeats no more at this.The control method of automatic pressing nameplate equipment of the present invention can comprise the following steps:

Step S101, control transversal thrust assembly 20 drive longitudinal thrust assemblies 30 to travel forward along first direction, make longitudinal thrust assemblies 30 move to the pre-position of panel;

This transversal thrust assembly 20 comprises the first cylinder 21 and the first guide rod 22, first the first cylinder 21 controlling transversal thrust assembly 20 obtains electric, thus the first cylinder 21 drives the first guide rod 22 to travel forward, move to the pre-position of panel to drive longitudinal thrust assemblies 30.

Step S102, the pressure head 31 controlling longitudinal thrust assemblies 30 move downward along second direction, to overlay on panel by nameplate;

This longitudinal thrust assemblies 30 comprises the contiguous block 32 be connected with the first guide rod 22, is arranged on the second cylinder 33 and the second guide rod 34 on contiguous block 32.When longitudinal thrust assemblies 30 moves to the pre-position of panel with the first guide rod 22, the second cylinder 33 then controlling longitudinal thrust assemblies 30 obtains electric, thus the second cylinder 33 drives the second guide rod 34 to move downward along second direction, and by application force of exerting pressure to pressure head 31, so that the nameplate below pressure head 31 is overlayed on panel.

After step S103, a lasting preset time, control the pressure head 31 of longitudinal thrust assemblies 30 along second direction upward movement, recover the initial condition of pressure head 31;

When nameplate overlays after on panel by pressure head 31, a preset time will be continued, and after preset time arrives, control the second cylinder 33 power-off retraction of longitudinal thrust assemblies 30, drive the second guide rod 34 along second direction (i.e. vertical direction in Fig. 1) upward movement of base, recover the initial condition of the second cylinder 33.In the present embodiment, this preset time is 1-30 second.

Step S104, control transversal thrust assembly 20 drive longitudinal thrust assemblies 30 to move backward along first direction, return to initial condition.

After the second cylinder 33 has recovered initial condition, then control the first cylinder 21 power-off retraction of transversal thrust assembly 20, thus drive the first guide rod 21 to move backward along first direction, recover the initial condition of the first cylinder 21, longitudinal thrust assemblies 30 returns to initial position simultaneously.

The embodiment of the present invention, by controlling the motion of transversal thrust assembly 20, longitudinal thrust assemblies 30, makes overlaying of nameplate achieve automation, not only increases pressure nameplate efficiency, but also saves human cost.

The foregoing is only the preferred embodiments of the present invention; not thereby its scope of the claims is limited; every utilize specification sheets of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; directly or indirectly be used in the technical field that other are relevant, be all in like manner included in scope of patent protection of the present invention.

Claims (9)

1. an automatic pressing nameplate equipment, is characterized in that, comprises base, transversal thrust assembly, longitudinal thrust assemblies; Described transversal thrust assembly is arranged on described base; Described longitudinal thrust assemblies is connected with described transversal thrust assembly, and it moves along first direction under the drive of described transversal thrust assembly; Described longitudinal thrust assemblies is provided with pressure head, and this pressure head moves to overlay on panel by nameplate along second direction; Described transversal thrust assembly and longitudinal thrust assemblies are moved under control of the control means, and this control setup comprises:

First control unit, longitudinal thrust assemblies is driven to travel forward along first direction for controlling transversal thrust assembly, make longitudinal thrust assemblies move to the pre-position of panel, the pressure head then controlling longitudinal thrust assemblies moves downward along second direction, to overlay on panel by nameplate;

Second control unit, for overlaying after on panel after a preset time at pressure head by nameplate, controlling pressure head along second direction upward movement, recovering the initial condition of pressure head; Also driving longitudinal thrust assemblies to move backward along first direction for controlling transversal thrust assembly, returning to initial condition;

Power supply unit, for providing power supply for the first control unit and the second control unit.

2. automatic pressing nameplate equipment according to claim 1, is characterized in that, the first guide rod that described transversal thrust assembly comprises the first cylinder and is connected with the first cylinder, and described first cylinder is arranged on described base; The second guide rod that described longitudinal thrust assemblies comprises the contiguous block be fixedly connected with the first guide rod end, the second cylinder be connected with described contiguous block and is connected with the second cylinder; Described pressure head is connected with the end of the second guide rod; And the sense of motion of described first cylinder is first direction, the sense of motion of described second cylinder is second direction.

3. automatic pressing nameplate equipment according to claim 2, it is characterized in that, described base is also provided with guide rail, described contiguous block comprises the first contiguous block that vertical feet arranges, the second contiguous block being vertically set on the first contiguous block two ends and the 3rd contiguous block, and the second contiguous block and the 3rd contiguous block extend from the opposing face of the first contiguous block; The bottom surface of described 3rd contiguous block is provided with the chute be connected with slide, and side is provided with and described first guide rod fixed part connected vertically; Described second cylinder is located on described second contiguous block.

4. automatic pressing nameplate equipment according to claim 3, is characterized in that, described longitudinal thrust assemblies also comprises anti-bull stick and Anti-rotary block, and wherein said Anti-rotary block and described pressure head be arranged in parallel, and described anti-bull stick is arranged between the second contiguous block and Anti-rotary block; Described anti-bull stick one end is fixed on described Anti-rotary block, the other end run through after the second contiguous block with the second contiguous block sliding block joint, described second guide rod is connected with pressure head after running through described Anti-rotary block away from one end of the second cylinder.

5. automatic pressing nameplate equipment according to claim 1, is characterized in that, described first control unit comprises the first relay, the first electromagnetic valve, point driving switch, travel switch, the second relay and the second electromagnetic valve; Described second control unit comprises the 3rd relay and time relay; Wherein, time relay is for setting described preset time;

Described point driving switch is connected between the positive pole of power supply unit and negative pole after connecting with the first electromagnetic valve, and the open contact of described first relay is in parallel with point driving switch, and the coil of described first relay is in parallel with the first electromagnetic valve; Between the positive pole being connected to described power supply unit after the coils connected in series of described travel switch and the second relay and negative pole; After the open contact of described second relay and the coils connected in series of time relay, one end is connected with the positive pole of described power supply unit, and the other end is connected with the negative pole of described power supply unit; After the open contact of described time relay is connected with the second electromagnetic valve, between the open contact that one end is connected to described second relay and the coil of described time relay, the other end is connected with the negative pole of described power supply unit; Between the positive pole being connected to described power supply unit after the normally closed contact of described time relay and the coils connected in series of described 3rd relay and negative pole; Normally closed contact one end of described 3rd relay is connected with the positive pole of described power supply unit, and the other end is connected with the input end of described point driving switch;

Described first electromagnetic valve is connected with described transversal thrust electrical component, drives longitudinal thrust assemblies to move for controlling transversal thrust assembly; Described second electromagnetic valve is electrically connected with described longitudinal thrust assemblies, for controlling the ram movement of longitudinal thrust assemblies; Described travel switch is arranged on transversal thrust assembly.

6. automatic pressing nameplate equipment according to claim 5, it is characterized in that, described second control unit also comprises resistance, diode and electric capacity, the positive pole of described diode is connected with the normally closed contact mouth of described time relay, negative pole is connected with one end of electric capacity, the other end of electric capacity is connected with the negative pole of described power supply unit, resistance and diodes in parallel.

7. automatic pressing nameplate equipment according to claim 5, is characterized in that, the preset time of described time relay setting is 1-30 second.

8. a control method for automatic pressing nameplate equipment, is characterized in that, described automatic pressing nameplate equipment is automatic pressing nameplate equipment according to claim 1, and described control method comprises the following steps:

Controlling transversal thrust assembly drives longitudinal thrust assemblies to travel forward along first direction, makes longitudinal thrust assemblies move to the pre-position of panel; The pre-position of described panel is placed with nameplate;

The pressure head controlling longitudinal thrust assemblies moves downward along second direction, to overlay on panel by nameplate;

After continuing a preset time, control pressure head along second direction upward movement, recover the initial condition of pressure head;

Controlling transversal thrust assembly drives longitudinal thrust assemblies to move backward along first direction, returns to initial condition.

9. the control method of automatic pressing nameplate equipment according to claim 8, is characterized in that, described preset time is 1-30 second.