CN206870591U - A kind of vertical glass cover-plate ink solidification equipment - Google Patents

Abstract

The utility model belongs to ink solidification equipment technical field, a kind of vertical glass cover-plate ink solidification equipment is provided, including for picking up glass cover-plate and the glass cover-plate being transported to the loading assemblies in holding tray, the preheating casing for being contained with the holding tray of glass cover-plate for placing multilayer and being heated to the glass cover-plate on the holding tray, for placing the multilayer holding tray from the preheating casing out and the thermostatic box that is handled the glass cover-plate on the holding tray and cooling box for cooling down the glass cover-plate in the thermostatic box out, and for picking up the blanking component of the glass cover-plate from the cooling box out, it is connected between the preheating casing and the cooling box and is used for the recirculation assembly for transmitting the vacant holding tray；It is low can so to solve existing ink solidification equipment cleanliness factor, is not easy to continuous automatic production, while the problem of curing efficiency is low.

Description

A kind of vertical glass cover-plate ink solidification equipment

Technical field

The utility model belongs to ink solidification equipment technical field, more particularly to a kind of vertical glass cover-plate ink solidification is set It is standby.

Background technology

Escutcheon on the glass cover-plate of mobile phone or flat board and logo marks are all to be heating and curing after ink silk screen printing to work it out , the presently used ink solidification equipment arrived is hot air tunnel stove, ir tunnel stove and hot-air oven.Wherein hot air tunnel stove is clean Cleanliness is low, high energy consumption, and floor space is big, it has not been convenient to realizes continuous automatic production；And although ir tunnel stove cleanliness factor is higher, But high energy consumption, floor space are big, continuous automatic production can not be equally realized；Last hot-air oven because cleanliness factor itself is low, Product rejection rate is high, can not realize online production.In addition during above-mentioned several curing apparatus are heating and curing, it solidifies It is inefficient.

Utility model content

The purpose of this utility model is to provide a kind of vertical glass cover-plate ink solidification equipment, it is intended to solves existing oil The problem of black curing apparatus cleanliness factor is low, is not easy to continuous automatic production, while curing efficiency is low.

The utility model so solves：A kind of vertical glass cover-plate ink solidification equipment, including picked up for positioning Glass cover-plate and the glass cover-plate is transported in holding tray loading assemblies, for placing multilayer be contained with glass cover-plate The holding tray and on the holding tray the glass cover-plate heat preheating casing, for placing multilayer from the preheating The holding tray come out in casing and the thermostatic box and use that are heat-treated to the glass cover-plate on the holding tray In the cooling box for cooling down the glass cover-plate in the thermostatic box out, and for positioning pickup from the cooler bin The blanking component of the glass cover-plate in body out, it is connected between the preheating casing and the cooling box and for passing Pass the recirculation assembly of the vacant holding tray.

Further, the vertical glass cover-plate ink solidification equipment also includes cabinet, the preheating casing, the constant temperature Casing and the cooling box are both connected on the cabinet, and preheating casing, the thermostatic box and the cooler bin Body adjacent connection successively.

Further, the slide rail for being available for loading assemblies and the blanking component to move is also associated with the cabinet, it is described Preheating casing, the thermostatic box and the cooling box are respectively positioned on the top of the slide rail.

Further, the loading assemblies include being available for horizontally slipping along the slide rail the first sliding block, be connected to it is described On first sliding block and the second sliding block that can be slid back and forth on first sliding block and be connected on second sliding block and can on 3rd sliding block of lower movement, and be connected on the 3rd sliding block and for draw the glass cover-plate the first pick-up piece and First pick-up piece is driven to pick up the first actuator of the glass cover-plate.

Further, the blanking component includes being available for horizontally slipping along the slide rail Four-slider, be connected to it is described On Four-slider and the 5th sliding block that can be slid back and forth on the Four-slider and be connected on the 5th sliding block and can on 6th sliding block of lower movement, and be connected on the 6th sliding block and for draw the glass cover-plate the second pick-up piece and Second pick-up piece is driven to pick up the second actuator of the glass cover-plate.

Further, the vertical glass cover-plate ink solidification equipment also includes being connected on the cabinet and can be described pre- Moved between hot tank body, the thermostatic box and the cooler bin and transmit the transmitting assembly of the holding tray.

Further, the transmitting assembly is before the preheating casing, the thermostatic box and the cooling box Side, the slideway that the transmitting assembly includes being connected in the cabinet, the support member that is mobily connected on the slideway and on Lower movement is connected to the pushing plate group on the support member, and the pushing plate group, which includes multilayer, can be driven to front and back one by one To mobile movable plate, the holding tray spacing can be connected on the uppermost movable plate, and through multiple movable plates Being removed and placed into for the holding tray is realized in cooperation.

Further, it is equipped with the preheating casing, the thermostatic box and the cooling box and is available for depositing respectively The standing groove of multiple holding trays, space, and any two neighboring placement are left between the two neighboring standing groove The gap length between groove is identical.

Further, it is provided with the preheating cabinet body and is available for uniformly adding to being connected to its internal multiple described glass cover-plate The heating module of heat and the first row stomata for being easy to waste gas discharge in the preheating cabinet body；It is provided with the thermostatic box and is available for pair It is connected to the thermostat module of its internal multiple glass cover-plate heated at constant temperature processing and is easy to waste gas in the thermostatic box The second row stomata of discharge；The refrigerating module for being easy to cool to glass cover-plate is connected with the cooling box and is easy to described cold But the 3rd steam vent that waste gas is discharged in casing.

Further, the recirculation assembly include be connected in the cabinet tape loop, be connected on the cabinet simultaneously The the first jacking component transmitted for completing the holding tray between the tape loop and the preheating casing, and be connected to On the cabinet and for completing the second jacking group that the holding tray transmits between the tape loop and the cooling box Part.

The technology that vertical glass cover-plate ink solidification equipment provided by the utility model has relative to existing technology is imitated Fruit is：By preheating casing, thermostatic box and the setting of cooling box, and then gone again after the pre- heat cure of ink on glass cover-plate Heated at constant temperature solidifies, and finally cools down again, and so designing can be more preferable than cooling effect after simple be heating and curing；Feeding group simultaneously The setting of part, blanking component and recirculation assembly allows the whole process of glass cover-plate ink solidification to be performed fully automatic, and Because the setting of recirculation assembly allows the process of glass cover-plate ink solidification continuously to carry out automatically, and then the efficiency produced It is higher；Finally preheat placed in casing, thermostatic box and cooling box the holding tray quantity of glass cover-plate for it is multiple and mutually every Open, can so make it that the cleanliness factor in solidification process is higher.

Brief description of the drawings

, below will be to embodiment or prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the overall structure diagram for the vertical glass cover-plate ink solidification equipment that the utility model embodiment provides.

Fig. 2 is that the structure of the overlook direction for the vertical glass cover-plate ink solidification equipment that the utility model embodiment provides is shown It is intended to.

Fig. 3 is the overall structure stereogram for the vertical glass cover-plate ink solidification equipment that the utility model embodiment provides One.

Fig. 4 is the overall structure stereogram for the vertical glass cover-plate ink solidification equipment that the utility model embodiment provides Two.

Fig. 5 is the overall structure stereogram for the vertical glass cover-plate ink solidification equipment that the utility model embodiment provides Three.

Fig. 6 is the partial enlarged drawing of part A in Fig. 5.

Fig. 7 is the partial enlarged drawing of part B in Fig. 5.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or it is connected on another element.When an element is known as " being connected to " another element, it can To be directly to another element or be indirectly connected on another element.

It is to be appreciated that term " length ", " width ", " on ", " under ", "front", "rear", "left", "right", " vertical ", The orientation or position relationship of the instruction such as " level ", " top ", " bottom " " interior ", " outer " are to be closed based on orientation shown in the drawings or position System, it is for only for ease of and describes the utility model and simplified description, rather than the device or element of instruction or hint meaning is necessary With specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

It refer to shown in accompanying drawing 1 and Fig. 3, Fig. 4, in the utility model embodiment, there is provided a kind of vertical glass cover leaf fat Black curing apparatus, including transport the transport component of the holding tray 20, for being heated to the glass cover-plate 21 in holding tray 20 Preheating casing 11, the thermostatic box 12 for carrying out heated at constant temperature to the glass cover-plate 21 in holding tray 20 and solid for cooling down Change the cooling box 13 for the glass cover-plate 21 completed.The transport component includes picking up the glass cover-plate 21 and running fix is connected to The blanking group of the glass cover-plate 21 of loading assemblies 30 and positioning pickup from the cooling box 13 out in the holding tray 20 Part 40, and the recirculation assembly 60 circulated for realizing the holding tray 20 between the loading assemblies 30 and the blanking component 40, The recirculation assembly 60 is connected between the preheating casing 11 and the cooling box 13 and for transmitting the vacant holding tray 20.Should Can be located by connecting multilayer holding tray 20 in preheating casing 11, and each layer of holding tray 20 can be furnished with single chamber door to realize The clean protection of heating process；Can also be located by connecting multilayer holding tray 20 in the same thermostatic box 12, same each layer Holding tray 20 can be furnished with single chamber door to realize that the clean of heating process is protected, and enter putting in thermostatic box 12 Put disk 20 first pass through preheating casing 11 it is heated；So alternating temperature or only progress heated at constant temperature ink are only carried out than simple Solidification effect it is more preferable.The cooling box 13 is used to cool down the glass cover-plate 21 rushed in the thermostatic box 12 out.

The vertical glass cover-plate ink solidification equipment of design above, by preheating casing 11, thermostatic box 12 and cooler bin The setting of body 13, and then row heated at constant temperature solidifies again after the pre- heat cure of ink on glass cover-plate 21, finally cools down, so sets again Meter can be more preferable than cooling effect after simple be heating and curing；Simultaneously loading assemblies 30, blanking component 40 and recirculation assembly 60 Setting allows the whole process of the ink solidification of glass cover-plate 21 to be performed fully automatic, and because the setting of recirculation assembly 60 makes Obtain the process of the ink solidification of glass cover-plate 21 continuously can be carried out automatically, and then be produced more efficient；Finally preheat casing 11st, the quantity of holding tray 20 of glass cover-plate 21 is placed in thermostatic box 12 and cooling box 13 to be multiple and be spaced from each other, so It can make it that the cleanliness factor in solidification process is higher.

Specifically, as shown in figures 1 and 3, in the utility model embodiment, the vertical ink solidification of glass cover-plate 21 is set Standby also to include cabinet 10, the preheating casing 11, the thermostatic box 12 and the cooling box 13 are both connected on the cabinet 10, and The preheating casing 11, the thermostatic box 12 and the cooling box 13 adjacent connection successively, namely as in the present embodiment, Far Left Preheating casing 11, centre is thermostatic box 12, and the rightmost side is cooling box 13；Certainly according to the transport side of holding tray 20 To the position of the cooling box 13 and preheating casing 11 can also be replaced.It is close between each casing, so as to realize equipment Miniaturization；Preheating casing 11 is set before thermostatic box 12, except causing the curing ink solidification effect of glass cover-plate 21 more preferable, may be used also Sufficiently to utilize heat energy, so as to realize the effect of energy-conservation.

Specifically, as shown in figures 1 and 3, in the utility model embodiment, it is also associated with being available for feeding on the cabinet 10 Component 30 and the slide rail of the blanking component 40 movement, the slide rail are preferably to be divided into two parts, respectively the first slide rail 15 and second Slide rail 16, the loading assemblies 30 are slidably connected on the first slide rail 15, and the blanking component 40 is slidably connected at second slide rail 16 On, and the slide rail 16 of the first slide rail 15 and second is horizontally disposed.The preheating casing 11, the thermostatic box 12 and should Cooling box 13 is both preferably positioned at the top of the slide rail.So allow for feeding, blanking and the cyclic process of holding tray 20 all Carried out in the bottom of cabinet 10, and push process of the solidification and holding tray 20 of the ink of glass cover-plate 21 between each casing exists The top of cabinet 10 is carried out.

Specifically, in the utility model embodiment, the loading assemblies 30 and the blanking component 40 include being used for Absorption connects the pick-up piece of the glass cover-plate 21 and drives the three-dimensional mobile drive component of the pick-up piece.The drive component is slided It is dynamic to be connected on slide rail, and it is transported to holding tray 20 by driving the three-dimensional movement of the pick-up piece to pick up glass cover-plate 21 from raw material area On, or it is transported to discharging area after the glass cover-plate 21 on holding tray 20 is picked up.

In the present embodiment, as shown in Figures 5 to 7, the pick-up piece includes sucker part 352 (452) and is connected to the sucker Support column 351 (451) above part 352 (452), and be connected on the support column 351 (451) and the support column can be driven The tumbler 34 (44) that 351 (451) rotate.The sucker part 352 (452) the horn-like structure that preferably Open Side Down, the support Post 351 (451) is connected to the top of the sucker part 352 (452) and set in vertical direction, and the tumbler 34 (44) is connected to this On drive component, and the drive component can by drive the sucker part 352 (452) move down draw glass cover-plate 21 after Move up, the position being then moved horizontally to where holding tray 20, by adjusting front and back position and according to glass cover-plate 21 Both forward and reverse directions can drive tumbler 34 (44) rotation make it that the direction of the placement of each piece of glass cover-plate 21 is all consistent, most rear-guard The dynamic Component driver sucker part 352 (452) moves down so that corresponding glass cover-plate 21 is placed on 20 specific position of holding tray Put.

In the present embodiment, the transport component also includes being connected on the drive component and aids in the pick-up piece to draw or release Put the vacuum subassembly (not shown) of the glass cover-plate 21.Pass through the setting of the vacuum subassembly so that sucker part 352 (452) is drawn It is more stable with the process of release glass cover-plate 21.

In the present embodiment, as shown in Figure 6 and Figure 7, the holding tray 20 is provided with and is available for connecting multiple glass cover-plates 21 Link slot 22, the keeper for the glass cover-plate 21 that is located by connecting is additionally provided with the link slot 22, it is two neighboring to be connected to the company The spacing between the glass cover-plate 21 in access slot 22 is equal.The process that the drive component moves left and right on slide rail passes through control System is controlled so that the distance moved every time is preset, while the setting of keeper can ensure the quilt of glass cover-plate 21 It is more effective when being placed on link slot 22.

In the present embodiment, the design and cooperation of holding tray 20, transport component and slide rail are passed through so that glass to be solidified Cover plate 21 is transported to holding tray 20 through loading assemblies 30, after the completion of the glass cover-plate 21 in holding tray 20 solidifies, through blanking component 40 will solidify the blanking of glass cover-plate 21 completed, and then holding tray 20 is recycled to loading assemblies 30 by recirculation assembly 60, has been reappeared A Cheng Xin wheel feeding, solidification and blanking, and circulate always, it can so show continuous automatic production, improve production efficiency.

Specifically, as shown in Figure 5 and Figure 6, in the utility model embodiment, the loading assemblies 30 include the first driving group Part and the first pick-up piece 35, the first sliding block 31 that first drive component is available for horizontally slipping along the slide rail, be connected to this first On sliding block 31 and the second sliding block 32 that can be slid back and forth on first sliding block 31 and be connected on second sliding block 32 and can on 3rd sliding block 33 of lower movement, first pick-up piece 35 are connected on the 3rd sliding block 33, and first drive component also includes First pick-up piece 35 is driven to pick up the first actuator (not shown) of the glass cover-plate 21.

In the present embodiment, first sliding block 31 is moved left and right along the first slide rail 15 under control of the control system, So that moved between holding tray 20 of first pick-up piece 35 in the raw material area of glass cover-plate 21 and rack, so as to realize glass cover The feeding of plate 21, second sliding block 32 can be moved forward and backward relative to first sliding block 31 under control of the control system, Glass cover-plate 21 can be so placed in holding tray 20 in multiple rows of, can so prevent glass cover-plate 21 on holding tray 20 Solidification effect that is overlapping and influenceing ink.The tumbler 34 is connected between the 3rd sliding block 33 and the first pick-up piece 35, and the 3rd Sliding block 33 is moved up and down to realize the pickup of glass cover-plate 21 and release with the first pick-up piece 35 under control of the control system, The tumbler 34 can ensure that direction and order are all consistent when each glass cover-plate 21 is placed.

Specifically, as shown in figure 5 and figure 7, in the utility model embodiment, the blanking component 40 includes the second driving group Part and the second pick-up piece 45, second drive component include be available for horizontally slipping along the slide rail Four-slider 41, be connected to this On Four-slider 41 and the 5th sliding block 42 that can be slid back and forth on the Four-slider 41 and it is connected on the 5th sliding block 42 simultaneously 6th sliding block 43 moving up and down, second pick-up piece 45 are connected on the 6th sliding block 43, and second drive component also wraps Include the second actuator (not shown) for driving second pick-up piece 45 to pick up the glass cover-plate 21.

In the present embodiment, the Four-slider 41 is moved left and right along the second slide rail 16 under control of the control system, So that the second pick-up piece 45 moves between the discharging area of holding tray 20 and glass cover-plate 21, so as to realize under glass cover-plate 21 Material.5th sliding block 42 can be moved forward and backward relative to the Four-slider 41 under control of the control system, so can be with By the sorting placement of glass cover-plate 21 to specific blanking region, the blanking of glass cover-plate 21 so can be more efficiently completed. The tumbler 44 is connected between the 6th sliding block 43 and the second pick-up piece 45, the 6th sliding block 43 band under control of the control system The second pick-up piece 45 to move up and down to realize the pickup of glass cover-plate 21 and release, the tumbler 44 can ensure each glass Direction and order are all consistent when cover plate 21 is placed.

Specifically, as shown in Figures 2 to 4, in the utility model embodiment, the vertical ink solidification of glass cover-plate 21 is set It is standby also to include being connected on the cabinet 10 and moving and pass between the preheating casing 11, the thermostatic box 12 and the cooler bin The transmitting assembly 50 of the holding tray 20 is passed, namely the transmitting assembly 50 is used to that the holding tray 20 of multiple glass cover-plates 21 will to be placed with It is transported in preheating casing 11, waits to take out the holding tray 20 out of preheating casing 11 after the completion of preheating and be pushed to constant temperature immediately Isothermal curing is carried out in casing 12, after the completion of to be solidified, holding tray 20 is taken out from thermostatic box 12 and is transferred to cooler bin Cooled down in body 13.

In the utility model embodiment, the transmitting assembly 50 is located at the preheating casing 11, the thermostatic box 12 and this is cold But the front of casing 13, and the transmitting assembly 50 include be connected in the cabinet 10 slideway 17, be mobily connected in the cunning Support member 52 on road 17 and move up and down the pushing plate group 51 being connected on the support member 52.The pushing plate group 51 includes multilayer The movable plate of fore-and-aft direction movement can be driven to one by one, and the holding tray 20 spacing can be connected to the uppermost movable plate On, and coordinate through multiple movable plates and realize being removed and placed into for the holding tray 20.

In the present embodiment, the support member 52 support column 351 (451) that preferably vertical direction is set, the support member 52 On vertically be provided be available for the chute that pushing plate group 51 moves up and down, so design can be moved up and down by pushing plate Realize the preheating casing 11, multilayer holding tray 20 is removed and placed into the thermostatic box 12 and the cooling box 13.

In the present embodiment, the pushing plate group 51 includes multiple movable plates stacked, when requirement holding tray 20 is pushed to When in casing, the movable plate positioned at the bottom first moves relative to support member 52, and drives all movable plates to move forward；Connect The movable plate for layer second from the bottom moves forward with remaining movable plate, so moves forward successively from top to bottom, until most Holding tray 20 is pushed in casing by the movable plate on upper strata；When needing to take out holding tray 20, then the movable plate of the superiors is spacing It is moved rearwards after connecting the holding tray 20, then the movable plate movement of the second layer, is so moved rearwards successively from top to bottom so that Holding tray 20 is removed；Then it is moved on the glide path 17 of support member 52 in face of next casing, the push of holding tray 20 is entered； The fully automated progress of whole process so that production it is more efficient.

Specifically, as shown in figure 1, in the utility model embodiment, the preheating casing 11, the thermostatic box 12 and this is cold But the standing groove 14 for being available for depositing multiple holding trays 20 respectively is equipped with casing 13, the preheating casing 11 and the thermostatic box Infrared heating device is equipped with 12 standing groove 14, can so ensure that the glass cover-plate 21 in each holding tray 20 is heated more What is added is uniform, and space is left between the two neighboring standing groove 14, and so design can ensure the glass cover of each holding tray 20 Plate 21 is heated more balanced, and the gap length between any two neighboring standing groove 14 is identical in addition, so designs more Add control when facilitating the transmission holding tray 20 of transmitting assembly 50.

Specifically, it is provided with and is available for being connected to as shown in figure 1, in the utility model embodiment, in the preheating casing 11 Heating module that its internal multiple glass cover-plate 21 uniformly heats and be easy to that waste gas is discharged in the preheating casing 11 first Steam vent 111；It is provided with the thermostatic box 12 and is available for handling being connected to its internal multiple heated at constant temperature of glass cover-plate 21 Thermostat module and the second row stomata 121 of being easy to waste gas in the thermostatic box 12 to discharge；It is connected with just in the cooling box 13 In the refrigerating module to cool to glass cover-plate 21 and it is easy to the 3rd steam vent 131 that waste gas is discharged in the cooling box 13.This One steam vent 111, the steam vent 131 of second row stomata 121 and the 3rd are respectively positioned on the top of the cabinet 10, are so easy to the row of gas Go out and recycle.

Specifically, as shown in figure 1, in the utility model embodiment, the recirculation assembly 60 includes being connected to the cabinet 10 Inside it is available for holding tray 20 to connect and drives tape loop 63 that the holding tray 20 moves, drives the holding tray 20 to connect or depart from this to follow The drive component of annulus 63 and match somebody with somebody to merge with the drive component and can clamp or release the support component 61 of the holding tray 20, the driving Component and the tape loop 63 are respectively positioned on the lower section of the support component 61, and the support component 61 is located at the tape loop respectively including multiple Support frame 612 above 63 both ends, the drive component preferably comprise two jacking components, it is de- respectively to support the holding tray 20 From the support component 61 and drive the first jacking component 64a that the holding tray 20 is connected on the tape loop 63 and support and be connected to The holding tray 20 on the tape loop 63 moves up and is located by connecting on the second upper jacking component of the support component 61 64b.Each lower section of support frame 612 is connected with the jacking component.

The loop structure of 21 holding tray of glass cover-plate 20 so designed, passes through tape loop 63, drive component and support component 61 design and cooperation so that the holding tray 20 for placing glass cover-plate 21 can be in the work by the first jacking component 64a With lower disengaging tape loop 63 and deliver to support component 61 and clamp, be so easy to the positioning of glass cover-plate 21 to place；Also may be used simultaneously Removed with the holding tray 20 that would sit idle for by the second jacking component 64b from support component 61 and be transported to first through tape loop 63 Jack at component 64a；So as to realize the feeding of whole glass cover-plate 21, solidification and the circulation of blanking, and then can realize continuous Automated production, improve production efficiency.

Specifically, as shown in figure 1, in the utility model embodiment, the loop structure of 21 holding tray of glass cover-plate 20 is also Including being connected in cabinet 10 and being used for the circulation motor 62 for driving the tape loop 63 to rotate, the quantity of the circulation motor 62 is more Individual, in a ring, the quantity of circulation motor 62 is both ends that are multiple and being distributed in the tape loop 63 to the tape loop 63, namely this is followed Annulus 63 is set in multiple circulation motors 62, drives tape loop 63 to rotate when being rotated in order to circulation motor 62.

Specifically, as shown in Fig. 1, Fig. 6 and Fig. 7, in the utility model embodiment, the support component 61 also includes connection On the cabinet 10 and it is used to support the support base 611 of the support frame 612 and is connected on the support base 611 and is used to drive this Support frame 612 connects or unclamped the driving structure 613 of the holding tray 20.Also it is extended with the support frame 612 and is available for being located by connecting The alignment pin 614 of the holding tray 20, the bottom of holding tray 20 also to should alignment pin 614 be arranged with positioning hole.

In the present embodiment, the driving structure 613 drives the movement of support frame 612 that the holding tray 20 positioning can be caused to connect It is connected on two neighboring support frame 612, or drives the support frame 612 to move so that between two neighboring support frame 612 It is big away from becoming, and then jacking component can drive the holding tray 20 to be connected to tape loop 63 up.The quantity of the support base 611 is more Individual, the first jacking component 64a and the second jacking equal mobile links of component 64b are between the two neighboring support base 611.

In the utility model embodiment, the holding tray 20 is provided with multiple positioning holes, and the holding tray 20 is determined through multiple this Position hole is located by connecting on the alignment pin 614 on the two neighboring support frame 612.It is preferably four positioning in the present embodiment Hole, it is separately positioned on four angles of holding tray 20, each support frame 612 is provided with two alignment pins 614；First jacking For component 64a drive connections when the holding tray 20 on tape loop 63 rises, the driving structure 613 first drives support frame 612 to two Side, which is moved, make it that the spacing between two neighboring support frame 612 is bigger, and then is easy to holding tray 20 to pass through, and treats the first jacking component When holding tray 20 to be pushed up to 64a the top of support frame 612, driving structure 613 drives support frame 612 mobile towards centre so that Spacing between two neighboring support frame 612 diminishes, then jack component move down cause holding tray 20 on positioning hole with Alignment pin 614 on support frame 612 is connected so that holding tray 20 is stably connected with two neighboring support frame 612.

Specifically, as shown in figure 1, in the utility model embodiment, the first jacking component 64a and the second jacking component 64b structure is identical, and includes being used to support connecting the support plate 641 of the holding tray 20, connecting the lower section of support plate 641 Connecting seat 642 and the drive rod 643 being movably connected between the support plate 641 and the connecting seat 642.

In the present embodiment, the upper end of drive rod 643 is connected on the bottom of support plate 641, and on the drive rod 643 End is connected at the center of the support plate 641, and the drive rod 643 can move up and down relative to the connecting seat 642.So design can Make it that it is more steady that drive rod 643 supports the holding tray 20 to move in movement.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. A kind of 1. vertical glass cover-plate ink solidification equipment, it is characterised in that：Including for positioning pickup glass cover-plate and by institute State loading assemblies that glass cover-plate is transported in holding tray, be contained with the holding tray of glass cover-plate and right for placing multilayer The preheating casing of glass cover-plate heating on the holding tray, the institute come out for placing multilayer from the preheating casing The thermostatic box stating holding tray and be heat-treated to the glass cover-plate on the holding tray and for cooling down the constant temperature In casing out the glass cover-plate cooling box, and for position pickup from the cooling box come out described in The blanking component of glass cover-plate, it is connected between the preheating casing and the cooling box and for transmitting vacant described put Put the recirculation assembly of disk.
2. 2. vertical glass cover-plate ink solidification equipment as claimed in claim 1, it is characterised in that：The vertical glass cover leaf fat Black curing apparatus also includes cabinet, and preheating casing, the thermostatic box and the cooling box are both connected to the cabinet On, and preheating casing, the thermostatic box and the cooling box adjacent connection successively.
3. 3. vertical glass cover-plate ink solidification equipment as claimed in claim 2, it is characterised in that：It is also associated with the cabinet The slide rail for being available for loading assemblies and the blanking component to move, preheating casing, the thermostatic box and the cooling box It is respectively positioned on the top of the slide rail.
4. 4. vertical glass cover-plate ink solidification equipment as claimed in claim 3, it is characterised in that：The loading assemblies include can For horizontally slipped along the slide rail the first sliding block, be connected on first sliding block and can on first sliding block front and rear cunning Dynamic the second sliding block and it is connected on second sliding block and the 3rd sliding block moving up and down, and is connected to the described 3rd and slides On block and for drawing the first pick-up piece of the glass cover-plate and driving first pick-up piece to pick up the glass cover-plate First actuator.
5. 5. vertical glass cover-plate ink solidification equipment as claimed in claim 3, it is characterised in that：The blanking component includes can For horizontally slipped along the slide rail Four-slider, be connected on the Four-slider and can on the Four-slider front and rear cunning Dynamic the 5th sliding block and it is connected on the 5th sliding block and the 6th sliding block moving up and down, and is connected to the described 6th and slides On block and for drawing the second pick-up piece of the glass cover-plate and driving second pick-up piece to pick up the glass cover-plate Second actuator.
6. 6. vertical glass cover-plate ink solidification equipment as claimed in claim 2, it is characterised in that：The vertical glass cover-plate ink Curing apparatus also includes being connected on the cabinet and can be between the preheating casing, the thermostatic box and the cooler bin Move and transmit the transmitting assembly of the holding tray.
7. 7. vertical glass cover-plate ink solidification equipment as claimed in claim 6, it is characterised in that：The transmitting assembly is located at institute The front of preheating casing, the thermostatic box and the cooling box is stated, the transmitting assembly includes being connected in the cabinet Slideway, the support member that is mobily connected on the slideway and move up and down the pushing plate group being connected on the support member, The pushing plate group includes the movable plate that multilayer can be driven to fore-and-aft direction movement one by one, and the holding tray spacing can connect On the uppermost movable plate, and coordinate through multiple movable plates and realize being removed and placed into for the holding tray.
8. 8. the vertical glass cover-plate ink solidification equipment as described in claim any one of 1-7, it is characterised in that：The preheating cabinet The standing groove for being available for depositing multiple holding trays respectively is equipped with body, the thermostatic box and the cooling box, it is adjacent Space is left between two standing grooves, and the gap length between any two neighboring standing groove is identical.
9. 9. the vertical glass cover-plate ink solidification equipment as described in claim any one of 1-7, it is characterised in that：The preheating cabinet The heating module for being available for uniformly heating to the multiple described glass cover-plates for being connected to its inside is provided with vivo and is easy to the preheating The first row stomata that waste gas is discharged in casing；It is provided with and is available for being connected to its internal multiple glass in the thermostatic box The thermostat module of cover plate heated at constant temperature processing and the second row stomata for being easy to waste gas discharge in the thermostatic box；The cooler bin The refrigerating module for being easy to cool to glass cover-plate is connected with vivo and is easy to the 3rd exhaust that waste gas is discharged in the cooling box Hole.
10. 10. the vertical glass cover-plate ink solidification equipment as described in claim any one of 2-7, it is characterised in that：The circulation Tape loop that component includes being connected in the cabinet, it is connected on the cabinet and is followed described for completing the holding tray The the first jacking component transmitted between annulus and the preheating casing, and be connected on the cabinet and be used to complete described put Put the second jacking component that disk transmits between the tape loop and the cooling box.