CN205366785U - Plate cooling strorage device - Google Patents

Abstract

The utility model relates to a printed circuit board cooling technique field especially discloses a plate cooling strorage device, including the frame, install in pan feeding mechanism, discharge mechanism and the elevating system of frame, to install and deposit the mechanism in elevating system's layering, the layering is deposited the mechanism and is located the frame, and elevating system installs in the first driving piece of guide rail including the guide rail that is fixed in the frame, sliding connection in the loading board of guide rail, the layering is deposited the mechanism and is installed in the loading board, and first driving piece is connected in the loading board, temperature after plate press mold processing procedures such as printed circuit board are accomplished is higher, unable straight dash receiver, and carry the layering with the higher plate of temperature from pan feeding mechanism and place in depositing the mechanism this moment, makes it reduce to the room temperature from high temperature, then export the plate from the mechanism is deposited in the layering through discharge mechanism, need not the manual work and receive and release the plate, increases substantially the production efficiency of plate.

Description

A kind of plate cooled and stored device

Technical field

This utility model relates to printed circuit board (PCB) cooling technology field, in particular discloses a kind of plate cooled and stored device.

Background technology

In the Making programme of the plates such as printed circuit board (PCB), press mold processing procedure is wherein important one operation, current various plate is required for carrying out image transfer operation, press mold processing procedure is the dual function by external high temperature Yu pressure, dry film is softened and is firmly attached on the copper face of the plates such as circuit board, form photoresistance film, prepare for follow-up image transfer.

Press mold processing procedure complete after plate temperature higher, be easily caused plate and contact with each other if now directly receiving plate and be bonded together, also additionally, high temperature plate touches low-melting object can bond and damage, therefore need to carry out cooling process before receiving plate.It is undertaken by artificial taking plate that traditional cooling processes operation, and production efficiency is low, and operator's imprudence is touched high temperature plate and also can be burnt, and there is potential safety hazard.Currently also have and utilize mechanical hand that high temperature plate moves the mode carrying out cooling down to cooling area, but owing to not having custom-designed storing unit, multiple plates can take substantial amounts of space.

Summary of the invention

In order to overcome the shortcoming and defect existed in prior art, the purpose of this utility model is in that to provide a kind of plate cooled and stored device, it is not necessary to artificial folding and unfolding plate, increases substantially the production efficiency of plate.

For achieving the above object, a kind of plate cooled and stored device of the present utility model, including framework, it is installed in the feeding mechanism of framework, discharging mechanism and elevating mechanism, it is installed in the layering holding structure of elevating mechanism, layering holding structure is positioned at framework, feeding mechanism, discharging mechanism lays respectively at the both sides of layering holding structure, described elevating mechanism includes the guide rail being fixed on framework, it is installed in the first actuator of guide rail, it is slidably connected to the loading plate of guide rail, layering holding structure is installed in loading plate, first actuator is connected to loading plate for driving loading plate to move.

Further, the height of described guide rail is not less than two times of the height of layering holding structure.

Further, described elevating mechanism also includes balance weight mechanism, and balance weight mechanism is connected to loading plate, and balance weight mechanism and loading plate lay respectively at the both sides of guide rail.

Further, described balance weight mechanism includes slide bar, balancing weight, roller and rope body, slide bar is installed in guide rail, slide bar and loading plate lay respectively at the both sides of guide rail, balancing weight is slidably connected to slide bar, roller is installed in the upper end of guide rail, and rope body is installed in roller, and the two ends of rope body connect balancing weight and loading plate respectively.

Further, described elevating mechanism also includes the threaded rod being installed in guide rail, and loading plate is connected to threaded rod, and the first actuator is connected to threaded rod for driving threaded rod to rotate.

Further, described feeding mechanism, discharging mechanism include the bracing frame being installed in framework respectively, are installed in the second actuator of framework or bracing frame, are installed in the first cylinder of bracing frame, and the second actuator is connected to the first cylinder for driving the first cylinder to rotate.

Further, described plate cooled and stored device also includes magnetic couplings group, and magnetic couplings group includes the first magnetic part being installed in framework, is installed in the second magnetic part of layering holding structure, and the second magnetic part and the first magnetic part are oppositely arranged.

Further, described layering holding structure includes the support body being installed in loading plate, and support body is equiped with multiple spaced bracket, each bracket is equiped with the second magnetic part respectively, bracket is equiped with second tin roller, and the second magnetic part is connected to second tin roller, and the second actuator is connected to the first magnetic part.

Further, described bracket is removably plugged in support body.

Further, described plate cooled and stored device also includes cooler bin and is connected to the electric cabinet of cooler bin, and framework, feeding mechanism, discharging mechanism and elevating mechanism are installed in cooler bin.

The beneficial effects of the utility model: the plate press mold processing procedures such as printed circuit board (PCB) complete after temperature higher, cannot directly receive plate, now plate higher for temperature is conveyed into cooling layering holding structure from feeding mechanism, after a plate is put in layering holding structure, elevating mechanism drives layering holding structure rising predetermined altitude, follow-up plate continues to be entered layering holding structure by feeding mechanism, until layering holding structure fills plate, after plate is reduced to room temperature from high temperature, again through discharging mechanism, plate is exported one by one from layering holding structure, without artificial folding and unfolding plate, increase substantially the production efficiency of plate.

Accompanying drawing explanation

Fig. 1 is the perspective view after cooler bin of the present utility model is connected with electric cabinet；

Fig. 2 is top view of the present utility model；

Fig. 3 is right view of the present utility model；

Fig. 4 is the perspective view of elevating mechanism of the present utility model；

Fig. 5 is the front view of elevating mechanism of the present utility model；

Fig. 6 is perspective view of the present utility model；

Fig. 7 is the close-up schematic view of part A in Fig. 6.

Accompanying drawing labelling includes:

1 framework 21 feeding mechanism 22 discharging mechanism

23 bracing frame 24 second actuator 25 first cylinders

3 elevating mechanism 30 guide rail 31 first actuators

32 loading plate 33 balance weight mechanism 34 slide bars

35 balancing weight 36 rollers 37 are restricted body

38 threaded rods 4 are layered holding structure 40 support body

41 bracket 42 second tin roller 5 magnetic couplings groups

50 first magnetic part 51 second magnetic part 6 cooler bins

60 cooling fan 7 electric cabinets.

Detailed description of the invention

For the ease of the understanding of those skilled in the art, below in conjunction with embodiment and accompanying drawing, this utility model being further described, the content that embodiment is mentioned is not to restriction of the present utility model.

Refer to shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5, a kind of plate cooled and stored device of the present utility model, including framework 1, it is installed in the feeding mechanism 21 outside framework 1, discharging mechanism 22 and elevating mechanism 3, being installed in the layering holding structure 4 on elevating mechanism 3, layering holding structure 4 is positioned at framework 1, and feeding mechanism 21, discharging mechanism 22 lay respectively at the both sides of layering holding structure 4, preferably, feeding mechanism 21 and discharging mechanism 22 are positioned at the opposite sides of layering holding structure.Described elevating mechanism 3 includes the guide rail 30 being fixed on framework 1, it is installed in the first actuator 31 on guide rail 30, it is slidably connected at the loading plate 32 on guide rail 30, layering holding structure 4 is arranged on loading plate 32, first actuator 31 is connected with loading plate 32, and the first actuator 31 is used for driving loading plate 32 to move along guide rail 30.

Time actually used, the plate press mold processing procedures such as printed circuit board (PCB) complete after temperature higher, cannot directly receive plate, now plate higher for temperature is conveyed into layering holding structure 4 from feeding mechanism 21 and cools down, after a plate is put in layering holding structure 4, elevating mechanism 3 drives layering holding structure 4 to rise or fall predetermined altitude, the follow-up plate carried by feeding mechanism 21 goes successively in layering holding structure 4, until layering holding structure 4 fills plate, after plate is reduced to room temperature from high temperature, again through discharging mechanism 22, plate is exported one by one from layering holding structure 4, without artificial folding and unfolding plate, increase substantially the production efficiency of plate, multiple plates can be simultaneously charged in layering holding structure 4, also without taking bigger parking space.

Generally hollow rectangular-shaped of described framework 1, in order to increase the intensity of framework 1, framework 1 adopts metal material to make, such as rustless steel etc.；In order to alleviate the weight of framework 1, it is preferable that framework 1 is processed by aluminum or aluminum alloy.According to specific needs, those skilled in the art can be equiped with multiple spike (not shown)s in the lower end of framework 1, and framework 1 can be securely placed in precalculated position by spike, it is prevented that framework 1 unbalance stress and send out into rollover.

Refer to shown in Fig. 4 and Fig. 5, described elevating mechanism 3 also includes balance weight mechanism 33, balance weight mechanism 33 is connected with loading plate 32, balance weight mechanism 33 and loading plate 32 lay respectively at the both sides of guide rail 30, owing to layering holding structure 4 is fixed on loading plate 32, along with increasing of the plate in layering holding structure 4, the weight of layering holding structure 4 will be more and more heavier, the weight of loading plate 32 side of elevating mechanism 3 will more than the weight of opposite side, now elevating mechanism 3 is susceptible to rollover owing to both sides weight is unequal, balance weight mechanism 33 is for increasing on elevating mechanism 3 weight with loading plate 32 opposite side, and then the weight of balance guide rail 30 both sides, elevating mechanism 3 is avoided to turn on one's side.

Described balance weight mechanism 33 includes slide bar 34, balancing weight 35, roller 36 and rope body 37, slide bar 34 is substantially cylindrical, slide bar 34 is installed on guide rail 30, as required, it is possible to increasing the quantity of slide bar 34, slide bar 34 and loading plate 32 lay respectively at the both sides of guide rail 30, balancing weight 35 is slidably connected on slide bar 34, for example, it is possible to offer through hole (not shown) on balancing weight 35, balancing weight 35 is set on slide bar 34 by through hole.Roller 36 is installed in the upper end of guide rail 30, and rope body 37 is installed on roller 36 and the two ends of rope body 37 lay respectively at the both sides of roller 36, the two ends of rope body 37 be connected on balancing weight 35 with on loading plate 32.

Refer to shown in Fig. 3 and Fig. 4, after plate is sequentially placed in order in layering holding structure 4, relative to after put into layering holding structure 4 in plate, first put into the plate in layering holding structure 4 longer for cool time, also room temperature can be cooled at first, in order to ensure that the plate first put in layering holding structure 4 first exports, in the present embodiment, the height of described guide rail 30 is not less than two times of the height of layering holding structure 4, and namely the height of guide rail 30 is more than or equal to two times of the height being layered holding structure 4.

After plate is conveyed in layering holding structure 4, elevating mechanism 3 drives layering holding structure 4 move up or move down preset distance, follow-up plate goes successively in layering holding structure 4, elevating mechanism 3 drives layering holding structure 4 move again up or move down preset distance, so circulation carries out, after layering holding structure 4 fills plate, loading plate 32 rises to extreme higher position along guide rail 30 or is reduced to extreme lower position, and now the height of guide rail 30 is two times of the height of layering holding structure 4.When needs export plate, elevating mechanism 3 drives layering holding structure 4 decline or raise, until the plate put at first in layering holding structure 4 is concordant with discharging mechanism 22.

In the present embodiment, described elevating mechanism 3 also includes the threaded rod 38 being installed on guide rail 30, and loading plate 32 is connected on threaded rod 38, for instance, installing the nut (not shown) matched with threaded rod 38 on loading plate 32, loading plate 32 is located on threaded rod 38 by nut sleeve.First actuator 31(such as drive motor) it is fixed on the lower end of guide rail 30, the first actuator 31 is connected on threaded rod 38 by gear or driving-chain etc., and the first actuator 31 drives threaded rod 38 to rotate and then realizes loading plate 32 and moves up and down along guide rail 30.

Refer to shown in Fig. 2, Fig. 3, Fig. 6 and Fig. 7, described feeding mechanism 21, discharging mechanism 22 structure roughly the same, feeding mechanism 21, discharging mechanism 22 include the bracing frame 23 being installed on framework 1 respectively, bracing frame 23 is generally rectangular, it is installed in the second actuator 24(such as drive motor on framework 1 or on bracing frame 23), being installed in the first cylinder 25 on bracing frame 23, the second actuator 24 is connected on the first cylinder 25 for driving the first cylinder 25 to rotate.When plate larger in size, those skilled in the art can increase the quantity of the first cylinder 25 as required, it is ensured that plate has enough power and enters in layering holding structure 4.

Refer to shown in Fig. 3, Fig. 6 and Fig. 7, plate cooled and stored device also includes magnetic couplings group 5, magnetic couplings group 5 includes the first magnetic part 50 being installed on framework 1, it is installed in the second magnetic part 52 on layering holding structure 4, second magnetic part 52 and the first magnetic part 50 are oppositely arranged, adsorbed each other by magnetic force between first magnetic part 50 and the second magnetic part 52, in guaranteeing that in layering holding structure 4, the deposit position of plate is generally aligned in the same plane with the position of feeding mechanism 21, discharging mechanism 22, it is ensured that plate stably enters in layering holding structure 4.Owing to layering holding structure 4 needs to move up and down in framework 1, in order to facilitate the first magnetic part 51 and the second magnetic part 52 to depart from, preferably, between the first magnetic part 51 and the second magnetic part 52, there is gap so that the first magnetic part 51 directly contacts with the second magnetic part 52.

Described layering holding structure 4 includes the support body 40 being installed on loading plate 32, and support body 40 is substantially rectangular-shaped, the size being smaller in size than framework 1 of support body 40, it is ensured that support body 40 can enter in framework 1.Being equiped with multiple upper and lower spaced bracket 41 on support body 40, each bracket 41 is equiped with second magnetic part 52 respectively, certainly, the second magnetic part 52 can be installed in position corresponding with bracket 41 on support body 40 by those skilled in the art.Bracket 41 is also equiped with second tin roller 42, second magnetic part 52 is connected on second tin roller 42, second actuator 24 is connected on the first magnetic part 50 by conveyer belt or driving-chain, second actuator 24 drives the first magnetic part 50 to rotate when rotating, when first magnetic part 50 rotates, owing to the second magnetic part 52 and the first magnetic part 50 intercouple, the second magnetic part 52 rotates along with the first magnetic part 50, the second magnetic part 52 when rotating related second tin roller 42 rotate.According to specific needs, those skilled in the art can increase the quantity of second tin roller 42.

Described magnetic couplings group 5 provides power for giving layering holding structure 4, it is ensured that the plate entered from feeding mechanism 21 arrives precalculated position, also ensures that the plate left in layering holding structure 4 can export from discharging mechanism 22.Such as, when plate enters from feeding mechanism 21, plate is positioned on the first cylinder 25 of feeding mechanism 21, first cylinder 25 rotates and then drives plate to move, continue to move to after on the second tin roller 42 that plate enters layering holding structure 4, plate progressively disengages the first cylinder 25 of feeding mechanism 21, then relies on the rotation of second tin roller 42 to transport plate to precalculated position.For another example, when needs plate exports, the second tin roller 42 of layering holding structure 4 rotates, plate on related second tin roller 42 moves, continue to move to after on the first cylinder 25 that plate enters discharging mechanism 22, plate progressively disengages the second tin roller 42 of layering holding structure 4, then relies on rotation output from layering holding structure 4 of the first cylinder 25 of discharging mechanism 22.

In the present embodiment, described bracket 41 is removably plugged in support body 40, after bracket 41 uses for a long time, meeting covered with dust and other foreign material on bracket 41, now easily bracket 41 can be extracted out, clean out and reinstall in support body 40 afterwards, simple to operate, quick.Additionally, when one of them bracket 41 damages, it is not necessary to change whole layering holding structure 4, it is only necessary to extracted out by the bracket 41 of damage, replace with new bracket 41.

Refer to shown in Fig. 1 and Fig. 6, in order to accelerate the rate of cooling of plate, described plate cooled and stored device also includes cooler bin 6 and the electric cabinet 7 being connected with cooler bin 6, framework 1, feeding mechanism 21, discharging mechanism 22 and elevating mechanism 3 are installed in cooler bin 6, electric cabinet 7 can pass through the mode of cable or wireless connections and be connected with cooler bin 6, is operated by electric cabinet 7 and sets the parameters such as length cool time of cooler bin 6, chilling temperature height.So that the homogeneous temperature in cooler bin 6, as required, it is possible to installing cooling fan 60 on cooler bin 6, cooling fan 60 ensures that the air of cooler bin 6 flows rapidly, and then makes the temperature of regional in cooler bin 6 quickly keep consistent.Certainly, according to specific needs, those skilled in the art can increase the quantity of cooling fan 60.

Known this utility model is have above-described good characteristic in sum, is made it on using, promotes the usefulness not having in conventional art and have practicality, become the product of a great practical value.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this specification content should not be construed as restriction of the present utility model.

Claims (10)

1. a plate cooled and stored device, including framework, it is installed in the feeding mechanism of framework, discharging mechanism and elevating mechanism, it is installed in the layering holding structure of elevating mechanism, layering holding structure is positioned at framework, feeding mechanism, discharging mechanism lay respectively at the both sides of layering holding structure, it is characterized in that: described elevating mechanism includes being fixed on the guide rail of framework, it is installed in the first actuator of guide rail, it is slidably connected to the loading plate of guide rail, layering holding structure is installed in loading plate, and the first actuator is connected to loading plate for driving loading plate to move.

2. plate cooled and stored device according to claim 1, it is characterised in that: the height of described guide rail is not less than two times of the height of layering holding structure.

3. plate cooled and stored device according to claim 1, it is characterised in that: described elevating mechanism also includes balance weight mechanism, and balance weight mechanism is connected to loading plate, and balance weight mechanism and loading plate lay respectively at the both sides of guide rail.

4. plate cooled and stored device according to claim 3, it is characterized in that: described balance weight mechanism includes slide bar, balancing weight, roller and rope body, slide bar is installed in guide rail, slide bar and loading plate lay respectively at the both sides of guide rail, balancing weight is slidably connected to slide bar, roller is installed in the upper end of guide rail, and rope body is installed in roller, and the two ends of rope body connect balancing weight and loading plate respectively.

5. plate cooled and stored device according to claim 1, it is characterised in that: described elevating mechanism also includes the threaded rod being installed in guide rail, and loading plate is connected to threaded rod, and the first actuator is connected to threaded rod for driving threaded rod to rotate.

6. plate cooled and stored device according to claim 1, it is characterized in that: described feeding mechanism, discharging mechanism include being installed in the bracing frame of framework respectively, it is installed in the second actuator of framework or bracing frame, being installed in the first cylinder of bracing frame, the second actuator is connected to the first cylinder for driving the first cylinder to rotate.

7. plate cooled and stored device according to claim 6, it is characterized in that: described plate cooled and stored device also includes magnetic couplings group, magnetic couplings group includes the first magnetic part being installed in framework, being installed in the second magnetic part of layering holding structure, the second magnetic part and the first magnetic part are oppositely arranged.

8. plate cooled and stored device according to claim 7, it is characterized in that: described layering holding structure includes being installed in the support body of loading plate, support body is equiped with multiple spaced bracket, each bracket is equiped with the second magnetic part respectively, bracket is equiped with second tin roller, second magnetic part is connected to second tin roller, and the second actuator is connected to the first magnetic part.

9. plate cooled and stored device according to claim 8, it is characterised in that: described bracket is removably plugged in support body.

10. plate cooled and stored device according to claim 1, it is characterised in that: described plate cooled and stored device also includes cooler bin and is connected to the electric cabinet of cooler bin, and framework, feeding mechanism, discharging mechanism and elevating mechanism are installed in cooler bin.