CN209208265U - Printing Production Systems - Google Patents
Printing Production Systems Download PDFInfo
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- CN209208265U CN209208265U CN201821739819.XU CN201821739819U CN209208265U CN 209208265 U CN209208265 U CN 209208265U CN 201821739819 U CN201821739819 U CN 201821739819U CN 209208265 U CN209208265 U CN 209208265U
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Abstract
The utility model discloses a kind of Printing Production Systems, the printing machine of feed end including multilayer circulation continuous tunnel furnace and set on multilayer circulation continuous tunnel furnace, the printing material that press printing is completed is conveyed to multi-layer tunnel furnace, multilayer circulation continuous tunnel furnace includes shell, conveyer belt and material rotaring machine tool hand in multihearth, dry channel is equipped in the shell, compartment of terrain is arranged in dry channel conveyer belt in the up-down direction in furnace described in multilayer, printing material for being transmitted interband conversion by the material rotaring machine tool hand in the furnace of different layers, so that printing material can be recycled on conveyer belt in the furnace of different layers.The utility model Printing Production Systems can reduce the space occupied of multilayer circulation continuous tunnel furnace and Printing Production Systems, enable multilayer circulation continuous tunnel furnace and Printing Production Systems to be suitable for more small-sized production site, and cost-saved.
Description
Technical field
The utility model relates to printing material technical field of drying, in particular to a kind of Printing Production Systems.
Background technique
In printing technology, need that/drying and processing, related skill is dried to the printing material (such as sheet stock) of printing
In art, continuous tunnel furnace is set in the output end of printing equipment, continuous tunnel furnace has hot air circulating system, single layer conveyer belt etc., and printing is set
The printing material of standby printing is entered in the dry channel of continuous tunnel furnace by single layer conveyer belt, and the hot wind circulated is to printing material
It is dried.
But above-mentioned tunnel furnace structure has the following problems: some printing materials need to dry the long time, this is just
Increase since needing to increase the length of continuous tunnel furnace to drying duration of the printing material in the dry channel of continuous tunnel furnace, to will increase
The space occupied of continuous tunnel furnace and Printing Production Systems, to will increase production cost.
Utility model content
The main purpose of the utility model is to propose a kind of Printing Production Systems, it is intended to solve print production in the related technology
The larger technical problem in system footprint space.
To achieve the above object, the utility model proposes a kind of Printing Production Systems, comprising:
Conveyer belt and material rotaring machine tool hand in multilayer circulation continuous tunnel furnace, including shell, multihearth, the shell is interior to be equipped with drying
Channel, compartment of terrain is arranged in the dry channel conveyer belt in the up-down direction in furnace described in multilayer, conveyer belt in the furnace
For transmitting printing material, the material rotaring machine tool hand is installed on the shell, and the material rotaring machine tool hand is for existing printing material
Transmission interband conversion in the furnace of different layers, passes so that the printing material can recycle on conveyer belt in the furnace of different layers
It send;And
Printing machine, set on the feed end of the multilayer circulation continuous tunnel furnace, conveyer belt includes first layer conveyer belt in the furnace,
The printing material of the press printing is delivered to the first layer conveyer belt.
Optionally, the printing machine is arranged with two groups, and printing machine described in two groups is respectively arranged at the multilayer circulation tunnel
The two sides of furnace.
Optionally, the quantity of printing machine described in every group is set as one, two or three.
Optionally, the quantity of printing machine described in every group is set as more, and the Printing Production Systems further include described in correspondence
The blowing sensor of the discharge position setting of printing machine, the blowing sensor for detect on the first layer conveyer belt whether
There are printing material, the printing machine puts printing material according to the detection signal of the blowing sensor in its discharge position
Set the idle area on first layer conveyer belt.
Optionally, conveyer belt further includes second layer conveyer belt and third layer conveyer belt in the furnace;
The material rotaring machine tool hand includes the first material rotaring machine tool hand and the second material rotaring machine tool hand, and the first material rotaring machine tool hand is set
In the discharge end of the first layer conveyer belt, the first material rotaring machine tool hand is used to turn the printing material on first layer conveyer belt
It changes on second layer conveyer belt;The second material rotaring machine tool hand be set to the second layer conveyer belt discharge end, described second turn
Material manipulator is used to the printing material on second layer conveyer belt being transformed into third layer conveyer belt.
Optionally, the first layer conveyer belt, second layer conveyer belt and third layer conveyer belt are from top to bottom sequentially distributed;Or
Person,
The first layer conveyer belt, second layer conveyer belt and third layer conveyer belt are from bottom to top sequentially distributed.
Optionally, when the first layer conveyer belt, second layer conveyer belt and third layer conveyer belt are from top to bottom sequentially distributed
When:
The feeding end of the second layer conveyer belt protrudes from the discharge end of the first layer conveyer belt, first material rotaring machine
Tool hand is set to the top of the feeding end of the second layer conveyer belt;And/or
The feeding end of the third layer conveyer belt protrudes from the discharge end of the second layer conveyer belt, second material rotaring machine
Tool hand is set to the top of the feeding end of the third layer conveyer belt.
Optionally, the first material rotaring machine tool hand includes the first guiding arm component and the first crawl section, first guiding
Arm component installation upwardly extends on the housing and in the sender of the first layer conveyer belt, and first crawl section exists
The first guiding arm component is slidably connected on the direction of transfer of the first layer conveyer belt, first crawl section is for grabbing
Take simultaneously trans-printing material.
Optionally, the Printing Production Systems further include material receiving desk, and the material receiving desk is set to the multilayer circulation tunnel
The discharge end of furnace, with the printing material for receiving the multilayer circulation continuous tunnel furnace output.
Optionally, the output end of the third layer conveyer belt is equipped with the cooling section of preset length, and the cooling section protrudes from
Remaining other layer of conveyer belt.
The utility model Printing Production Systems, by the way that multilayer circulation continuous tunnel furnace is arranged: conveyer belt in multihearth is arranged and sets
Set material rotaring machine tool hand, it can be achieved that printing material transmitted in different layers furnace between shuttling movement, so as to not increase multilayer circulation
In the case where tunnel furnace length, extends drying time of the printing material in multilayer circulation continuous tunnel furnace, followed so as to reduce multilayer
The space occupied of ring continuous tunnel furnace and Printing Production Systems, so that multilayer circulation continuous tunnel furnace and Printing Production Systems can be applicable in
In more small-sized production site, thus cost-saved.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.
Fig. 1 is the structural schematic diagram of one embodiment of the utility model Printing Production Systems;
Fig. 2 is the partial enlarged view in Fig. 1 at A;
Fig. 3 is the structural schematic diagram at one embodiment of multilayer circulation continuous tunnel furnace, one visual angle in Fig. 1;
Fig. 4 is the partial enlarged view in Fig. 3 at B;
Fig. 5 is the structural schematic diagram at another visual angle of multilayer circulation continuous tunnel furnace in Fig. 3;
Fig. 6 is the partial enlarged view in Fig. 5 at C;
Fig. 7 is the structural schematic diagram of another one state of embodiment of multilayer circulation continuous tunnel furnace in Fig. 1;
Fig. 8 is the partial enlarged view in Fig. 7 at D;
Fig. 9 is the structural schematic diagram of another state of multilayer circulation continuous tunnel furnace in Fig. 7;
Figure 10 is the partial enlarged view in Fig. 5 at E;
Figure 11 is the structural schematic diagram of the first material rotaring machine tool hand in Fig. 3;
Figure 12 is the partial enlarged view in Figure 11 at F;
Figure 13 is the schematic diagram of internal structure of the first material rotaring machine tool hand in Figure 11;
Figure 14 is the structural schematic diagram of suction plate component in Figure 11;
Figure 15 is the structural schematic diagram of suction disc in Figure 14;
Figure 16 is the structural schematic diagram that support frame is grabbed in Figure 11;
Figure 17 is the structural schematic diagram of material receiving desk in Fig. 1.
Drawing reference numeral explanation:
Label | Title | Label | Title |
1000 | Printing Production Systems | 31231 | Suction disc |
100 | Multilayer circulation continuous tunnel furnace | 312311 | Suction disc ontology |
10 | Shell | 312312 | Rotation section |
11 | Dry channel | 31232 | Sealing plate |
20 | Conveyer belt in furnace | 3124 | Grab Power Component |
21 | First layer conveyer belt | 31241 | Grab cylinder |
22 | Second layer conveyer belt | 313 | First crawl sensor |
23 | Third layer conveyer belt | 32 | Second material rotaring machine tool hand |
31 | First material rotaring machine tool hand | 200 | Printing machine |
311 | First guiding arm component | 210 | Printing equipment |
3111 | Leading truck | 2101 | Print station |
3112 | Directive slide track | 2102 | Folder |
3113 | It is oriented to transfer tape assemble | 220 | Feeding device |
312 | First crawl section | 2201 | Feeding platform |
3121 | Slider assembly | 2202 | Feeding manipulator |
3122 | Grab support frame | 2301 | Discharge manipulator |
31221 | Support portion | 300 | Material receiving desk |
31222 | Interconnecting piece | 2 | Printing material |
3123 | Suction plate component |
The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise
Under every other embodiment obtained, fall within the protection scope of the utility model.
It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding,
Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture)
Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.
In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the
Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning
The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one
A this feature.In addition, the meaning of the "and/or" occurred in full text is, and including three schemes arranged side by side, by taking " A and/or B " as an example,
The scheme met simultaneously including A scheme or B scheme or A and B.In addition, the technical solution between each embodiment can be mutual
In conjunction with, but must be based on can be realized by those of ordinary skill in the art, when mutual lance occurs in the combination of technical solution
Shield or cannot achieve when, will be understood that the combination of this technical solution is not present, also not in the protection scope of the requires of the utility model
Within.
The utility model proposes a kind of Printing Production Systems.
In an embodiment of the utility model, as shown in Fig. 1-17, the Printing Production Systems 1000 include multilayer circulation
Continuous tunnel furnace 100 and printing machine 200.The printing machine 200 is set to the feed end of multilayer circulation continuous tunnel furnace 100, the printing machine 200
The printing material 2 of printing is conveyed to multilayer circulation continuous tunnel furnace 100, with dry in multilayer circulation continuous tunnel furnace 100.
Specifically, the multilayer circulation continuous tunnel furnace 100 includes:
Shell 10, the shell 10 have dry channel 11;
Conveyer belt 20 in multihearth, compartment of terrain is arranged in dry channel 11 in the up-down direction, conveyer belt in the furnace
20 for transmitting printing material 2;And
Material rotaring machine tool hand is installed on shell 10, and the material rotaring machine tool hand in the furnace of different layers for passing printing material 2
It send and converts between band 20, so that printing material 2 can be recycled on conveyer belt 20 in the furnace of different layers.
Specifically, conveyer belt 20 includes at least one layer of the printing material 2 for receiving the printing of printing machine 200 in the furnace
Conveyer belt and one layer of conveyer belt for exporting printing material 2;Hot air circulating system is equipped in the dry channel 11.
In the present embodiment, as shown in Fig. 1-17, conveyer belt 20 includes first layer conveyer belt 21, the printing in the furnace
The printing material 2 that machine 200 prints is delivered to first layer conveyer belt 21, i.e., first layer conveyer belt 21 is for receiving the print of printing machine 200
The printing material 2 of brush.
It should be noted that material rotaring machine tool hand is a kind of material transfering device, it is all to can be realized the device for turning material function
Referred to as material rotaring machine tool hand.
When the work of Printing Production Systems 1000, printing machine 200 prints printing material 2, and the printing that printing machine 200 prints
Material 2 is conveyed to first layer conveyer belt 21, and first layer conveyer belt 21 carries printing material 2 and enters in dry channel 11, dry logical
Printing material 2 is dried in the hot wind circulated in road 11;When printing material 2 moves to the defeated of first layer conveyer belt 21
When outlet (i.e. end), printing material 2 is transformed into another layer of conveyer belt by material rotaring machine tool hand, to continue in dry channel 11
Movement, loops back and forth like this: when printing material 2 moves to the output end of one layer of conveyer belt, material rotaring machine tool hand always will print
Brush material 2 is transformed into another layer of conveyer belt;When printing material 2 is transformed into that layer of conveyer belt for exporting printing material 2,
When printing material 2 moves to the end of this layer, printing material 2 is exported.
It is appreciated that the utility model Printing Production Systems 1000, by the way that multilayer circulation continuous tunnel furnace 100 is arranged: setting is more
Layer furnace in conveyer belt 20 and material rotaring machine tool hand is set, it can be achieved that printing material 2 transmitted in different layers furnace between shuttling movement, from
And printing material 2 can be extended in multilayer circulation continuous tunnel furnace 100 in the case where not increasing multilayer circulation 100 length of continuous tunnel furnace
Drying time, so as to reduce the space occupied of multilayer circulation continuous tunnel furnace 100 and Printing Production Systems 1000, so that more
Layer circulation continuous tunnel furnace 100 and Printing Production Systems 1000 can be suitable for more small-sized production site, thus cost-saved.
In the present embodiment, as shown in Fig. 1-17, the printing machine 200 include printing equipment 210, feeding device 220 and
Discharging device.The printing equipment 210 includes print station 2101 and the folder 2102 for being movably arranged at 2101 top of print station, print
Brush part 2102 is for printing printing material 2 on print station 2101.The feeding device 220 include feeding platform 2201 and
It is set to the feeding manipulator 2202 of 2201 top of feeding platform, the feeding platform 2201 is for placing printing material 2, the feeding
Manipulator 2202 moves back and forth between print station 2101 and feeding platform 2201, with for by printing material 2 from feeding platform 2201
It is transported to print station 2101.The discharging device includes discharging manipulator 2301, the discharging manipulator 2301 reciprocating motion in
Between print station 2101 and first layer conveyer belt 21, for the printing material being completed for printing 2 to be transferred to first layer conveyer belt
21。
In this way, making Printing Production Systems 1000 compact-sized, space occupied is small.
Certainly, in other embodiments, can also be completed by setting discharging platform and multiple discharging manipulators 2301 etc.
The transfer of printing material 2, such as: printing material 2 is transferred to by discharging platform by a discharging manipulator 2301, then by another
Printing material 2 is transferred to first layer conveyer belt 21 from discharging platform by discharging manipulator 2301;In this way, to adapt to complicated production ring
Border.
Further, as shown in Fig. 1-17, the printing machine 200 is arranged with two groups, and printing machine 200 described in two groups is set respectively
The two sides of multilayer circulation continuous tunnel furnace 100 are placed in, to be laid with two rows of printing materials 2 on first layer conveyer belt 21.In this way, can be improved
The production efficiency of multi-layer tunnel furnace and Printing Production Systems 1000.
Specifically, the printing material 2 of the conveying of printing machine 200 described in two groups is in first layer conveyer belt 21 as shown in Fig. 1-17
Width direction on be formed with two rows, the material rotaring machine tool hand is provided with two groups, and material rotaring machine tool hand described in two groups is respectively arranged on furnace
The two sides of interior conveyer belt 20, to be respectively used to shift two rows of printing materials 2.
In actual production, the quantity of every group of printing machine 200 can be set according to actual needs.
Normally, the quantity of every group of printing machine 200 may be configured as one, Liang Tai, three or four.
In the present embodiment, as shown in Fig. 1-17, the quantity of every group of printing machine 200 is set as two.
Further, when the quantity of every group of printing machine 200 is set as more, it is anti-in group to avoid that various ways can be used
Printing material 2 only stacks, for example, the discharging frequency of every printing machine 200 can be arranged by programming, thus to avoid
Printing material 2 stacks.
In the present embodiment, blowing can be detected whether by blowing sensor.Specifically, the Printing Production Systems
1000 further include the blowing sensor (not shown) of the discharge position setting of corresponding printing machine 200, and the blowing sensor is used for
With the presence or absence of there is printing material 2 on detection first layer conveyer belt 21, the printing machine 200 is in its discharge position according to the blowing
Printing material 2 is placed into the idle area on first layer conveyer belt 21 by the detection signal of sensor.In this way, printing machine can be improved
Printing material 2 also can be improved so that the production efficiency of Printing Production Systems 1000 not only can be improved in 200 blowing accuracy
Yields.
Specifically, the output end of conveyer belt 20 is equal in other layer of furnace in addition to one layer of conveyer belt for exporting printing material 2
Equipped with material rotaring machine tool hand, for printing material 2 to be transferred to next layer.
For the number of plies of conveyer belt 20 in the furnace of multi-layer tunnel furnace, it will be understood that if in the furnace conveyer belt 20 the number of plies
Excessively, then it not only will increase the structural complexity of multilayer circulation continuous tunnel furnace 100, but also the temperature in dry channel 11 can be made
Distribution is serious uneven, to will affect dry mass.Therefore in the furnace number of plies of conveyer belt 20 be usually arranged as two layers, three layers,
Four layers, five layers etc..Certainly, the number of plies of conveyer belt 20 may be alternatively provided as more layers in the furnace, at this point, can be followed by improving hot wind
Loop system improves in-furnace temperature.
Further, as shown in Fig. 1-17, the number of plies of conveyer belt 20 is set as three layers in the furnace.
Specifically, conveyer belt 20 further includes second layer conveyer belt 22 and third layer conveyer belt 23 in the furnace, third layer is passed
The printing material 2 for sending band 23 to be also used to export dry completion.
The material rotaring machine tool hand includes the first material rotaring machine tool hand 31 and the second material rotaring machine tool hand 32, the first material rotaring machine tool
Hand 31 is set to the discharge end of first layer conveyer belt 21, and the first material rotaring machine tool hand 31 is used for the print on first layer conveyer belt 21
Brush material 2 is transformed on second layer conveyer belt 22;The second material rotaring machine tool hand 32 is set to the discharge end of second layer conveyer belt 22,
The second material rotaring machine tool hand 32 is used to the printing material 2 on second layer conveyer belt 22 being transformed into third layer conveyer belt 23.
So, it can be achieved that printing material 2 is being converted between conveyer belt 20 in the furnace of different layers;Moreover, by will be passed in furnace
It send the number of plies of band 20 to be set as three layers, can largely improve the energy utilization rate of hot air circulating system, further reduce
Cost.
In addition, can avoid following for multilayer by setting three layers (or other odd-levels) for the number of plies of conveyer belt 20 in furnace
The printing machine 200 that ring continuous tunnel furnace 100 is fed and the material receiving desk 300 (or other collecting equipments) for rewinding are located at multilayer circulation
The same end of continuous tunnel furnace 100 interferes to can avoid printing machine 200 with material receiving desk 300, so as to simplify multilayer circulation tunnel
The structure of road furnace 100.
It should be pointed out that when the number of plies of conveyer belt 20 in furnace is arranged two layers or when other even levels, need printing machine 200 and
Material receiving desk 300 (or other collecting equipments) is set to the same end of multilayer circulation continuous tunnel furnace 100, at this point, can increase the length of respective layer
Degree is to avoid printing machine 200 from interfering with each other with material receiving desk 300.
In the particular embodiment, in the furnace number of plies of conveyer belt 20 selection, can design according to actual needs;This
Embodiment is only illustrated by taking " in furnace the number of plies of conveyer belt 20 be three layers " as an example, is not used to limit the utility model.
It should be pointed out that first layer conveyer belt 21, second layer conveyer belt 22 and third layer conveyer belt 23 are in the up-down direction
Sequence can be in any permutation, it is only necessary to which installation site and structure to corresponding material rotaring machine tool hand are made adaptation and changed.
Based on the inventive concept for simplifying structure, can make: the first layer conveyer belt 21, second layer conveyer belt 22 and third layer
Conveyer belt 23 is from top to bottom sequentially distributed, alternatively, the first layer conveyer belt 21, second layer conveyer belt 22 and third layer conveyer belt
23 are from bottom to top sequentially distributed.
In the present embodiment, as shown in Fig. 1-17, the first layer conveyer belt 21, second layer conveyer belt 22 and third layer are passed
Band 23 is sent from top to bottom to be sequentially distributed.
Specifically, the feeding end of the second layer conveyer belt 22 protrudes from the discharge end of first layer conveyer belt 21, described
One material rotaring machine tool hand 31 is set to the top of the feeding end of second layer conveyer belt 22.So set, the first material rotaring machine tool hand can be convenient for
31 convert the printing material 2 on first layer conveyer belt 21 to the second layer.
Certainly, the feeding end of second layer conveyer belt 22 can also be made to be aligned with the discharge end of first layer conveyer belt 21 or substantially right
Together, and control 31 componental movement of the first material rotaring machine tool hand between first layer conveyer belt 21 and second layer conveyer belt 22 with by first
Printing material 2 on layer conveyer belt 21 is converted to the second layer;Etc..
Specifically, the feeding end of the third layer conveyer belt 23 protrudes from the discharge end of the second layer conveyer belt 22, institute
The second material rotaring machine tool hand 32 is stated set on the top of the feeding end of the third layer conveyer belt 23.So set, second turn can be convenient for
Expect manipulator 32 by the conversion of printing material 2 on second layer conveyer belt 22 to third layer.
Certainly, the feeding end of third layer conveyer belt 23 can also be made to be aligned with the discharge end of second layer conveyer belt 22 or substantially right
Together, and control 32 componental movement of the second material rotaring machine tool hand between second layer conveyer belt 22 and third layer conveyer belt 23 with by second
Printing material 2 on layer conveyer belt 22 is converted to third layer;Etc..
In a particular embodiment, conveyer belt 20 both can be set to a conveyer belt in every layer of furnace, may be alternatively provided as more
A conveyer belt is spliced, can sets itself according to the actual situation.
In the present embodiment, as shown in Fig. 1-17, the first layer conveyer belt 21 includes a conveyer belt, and described first
The feeding end of layer conveyer belt 21 has splicing section, and the splicing section protrudes from conveyer belt 20 in the furnace of other layers, the splicing section
For receiving the printing material 2 of the conveying of printing machine 200.In this way, the overall structure of multilayer circulation continuous tunnel furnace 100 can be simplified.Specifically
, the discharging manipulator 2301 of the printing machine 200 moves back and forth between print station 2101 and splicing section, will print
Material 2 transfers to splicing section from print station 2101.
In another embodiment of the utility model, as shown in Fig. 1-17, the first layer conveyer belt 21 includes two head
Tail is adjacent and the identical conveyer belt of direction of transfer, wherein a conveyer belt is set to the feeding end of first layer conveyer belt 21, and protrudes from
Conveyer belt 20 in the furnace of other layers, with the printing material 2 for receiving the conveying of printing machine 200.In this way, second turn can be easily installed
Expect manipulator 32 etc..
In a particular embodiment, as shown in Fig. 1-17, can make: the first material rotaring machine tool hand 31 and the second material rotaring machine tool hand
32 structure is essentially identical, is illustrated by taking the first material rotaring machine tool hand 31 as an example below.
Specifically, the first material rotaring machine tool hand 31 includes the first guiding arm component 311 and the first crawl section 312, it is described
The first guiding installation of arm component 311 upwardly extends on the housing 10 and in the sender of first layer conveyer belt 21, and described first grabs
Portion 312 is taken to be slidably connected to the first guiding arm component 311, first crawl section on the direction of transfer of first layer conveyer belt 21
312 for grabbing simultaneously trans-printing material 2.So, it can be achieved that trans-printing material 2.
Specifically, the first guiding arm component 311 includes leading truck 3111, directive slide track 3112 and guiding conveyer belt group
Part 3113, the directive slide track 3112 and guiding transfer tape assemble 3113 are installed on the leading truck 3111, and described first grabs
Portion 312 is taken to be slidably connected on directive slide track 3112, and first crawl section 312 is also attached to guiding transfer tape assemble
3113, the guiding transfer tape assemble 3113 is for driving the sliding of the first crawl section 312.
Specifically, first crawl section 312 has feeding position and pendulum discharge position, first crawl section 312 is located at
When feeding position, the printing material 2 on first layer conveyer belt 21 is grabbed;It, will when first crawl section 312 is located at pendulum discharge position
Its printing material 2 grabbed is placed in second layer conveyer belt 22.
In a particular embodiment, the structure type of first crawl section 312 and motion mode have very much, as long as being able to achieve
Grab simultaneously trans-printing material 2.
In the present embodiment, as shown in Fig. 1-17, first crawl section 312 includes slider assembly 3121, crawl support
Frame 3122, suction plate component 3123 and crawl Power Component 3124, transmission of the slider assembly 3121 in first layer conveyer belt 21
The first guiding arm component 311 is slidably connected on direction, and the slider assembly 3121 is in the width side of first layer conveyer belt 21
It upwardly extends, the crawl support frame 3122 is installed on slider assembly 3121, and the suction plate component 3123 is installed in rotation on
It grabs on support frame 3122, the suction plate component 3123 is located at the exit side of first layer conveyer belt 21, the crawl Power Component
3124 for driving suction plate component 3123 to rotate.
Specifically, the crawl support frame 3122 and suction plate component 3123 are located at the top of slider assembly 3121.
The suction plate component 3123 has splicing state and turns material state:
In the splicing state, the discharge end of the 3123 adjacent first layer conveyer belt 21 of suction plate component, for receiving
The printing material 2 transmitted from first layer conveyer belt 21;
In described turn of material state, discharge end pre-determined distance of the suction plate component 3123 far from first layer conveyer belt 21, institute
It states suction plate component 3123 and tilts down predetermined angle, for the printing material 2 in suction plate component 3123 to be transferred to the second layer
Conveyer belt 22.
Specifically, the course of work of the first material rotaring machine tool hand 31 is substantially are as follows: 1) printing on first layer conveyer belt 21
Material 2 moves to its discharge end, and first crawl section 312 moves to it under the drive of the guiding transfer tape assemble 3113
Feeding position, at this point, the suction plate component 3123 is in splicing state, the printing material 2 on first layer conveyer belt 21 is first
Suction plate component 3123 is slid under the driving of layer conveyer belt 21, then, the Suction cup assembly vacuum suction, fixing printing material 2;2)
First crawl section 312 moves to it under the drive of guiding transfer tape assemble 3113 and puts discharge position, grabs Power Component
3124 driving suction plate components 3123 drive printing material 2 to rotate down, and so that suction plate component 3123 is moved to its turn of material state, so
Afterwards, printing material 2 slides from the Suction cup assembly to second layer conveyer belt 22, and then, the Suction cup assembly is in crawl power
Restore splicing state under the driving of component 3124;3) step 1) and 2) is repeated.
It should be noted that the course of work of above-mentioned first material rotaring machine tool hand 31 can carry out adjustment appropriate, as long as energy
It realizes and turns material.
In this way, being arranged by above structure, the first material rotaring machine tool hand 31 the space occupied in the up-down direction can be reduced, from
And it is advantageously implemented the Miniaturization Design of multilayer circulation continuous tunnel furnace 100, be conducive to reduce space occupied.
Specifically, the suction plate component 3123 includes suction disc 31231 and sealing plate 31232, the suction as shown in Fig. 1-17
Multiple suckers through suction disc 31231 are offered on plate 31231, the sealing plate 31232 is mounted on the following table of suction disc 31231
Face.
Further, as shown in Fig. 1-17, the crawl Power Component 3124 includes crawl cylinder 31241, the crawl
Cylinder 31241 is installed in rotation on slider assembly 3121, and the crawl cylinder 31241 is set to crawl support frame 3122
The output end of side far from first layer conveyer belt 21, the crawl cylinder 31241 is rotatably connected at suction plate component 3123,
To drive the suction plate component 3123 to rotate.So, it can be achieved that driving suction plate component 3123 rotates, so that suction plate component 3123 can
In splicing state and turn mutually to convert between material state.
Specifically, the crawl support frame 3122 includes two support portions 31221 being oppositely arranged, institute as shown in Fig. 1-17
It states suction plate component 3123 to be rotationally located between two support portions 31221, the upper end of at least one support portion 31221 is convex
For suction plate component 3123, for limiting printing material 2.In this way, by two support portions 31221 of setting to support suction plate component
3123 rotations, can simplify the structure of crawl support frame 3122;By protruding from the upper end of at least one support portion 31221
Suction plate component 3123 can prevent printing material 2 from falling from suction plate component 3123.
In the present embodiment, as shown in Fig. 1-17, the upper end of two support portions 31221 protrudes from suction plate component
3123。
In the present embodiment, as shown in Fig. 1-17, the suction disc 31231 includes suction disc ontology 312311 and is convexly equipped in described
The rotation section 312312 of 312311 side of suction disc ontology, the rotation section 312312 are rotatably connected with two support portions 31221.
Specifically, described, the crawl support frame 3122 includes interconnecting piece 31222, two support portions as shown in Fig. 1-17
31221 are all connected to interconnecting piece 31222, and the interconnecting piece 31222 is installed on slider assembly 3121.It is grabbed in this way, can be easily installed
Take support frame 3122.
Further, as shown in Fig. 1-17, the first material rotaring machine tool hand 31 further includes the first crawl sensor 313, institute
It states the first crawl sensor 313 to be mounted on the first crawl section 312, the first crawl sensor 313 is for detecting suction disc group
With the presence or absence of there is printing material 2 on part 3123, the first material rotaring machine tool hand 31 is believed according to the detection of the first crawl sensor 313
Number trans-printing material 2.
Specifically, there are two the first crawl settings of sensor 313, and this two first crawl sensor 313 difference
Set on the two sides of suction disc 31231.
Specifically, when the first crawl sensor 313 detects in suction plate component 3123 there are when printing material 2, suction disc group
Part 3123 adsorbs printing material 2 etc..
Certainly, first crawl section 312 may be arranged as other structures form, for example, in the first crawl section 312
In another embodiment, first crawl section 312 includes the suspension arm component for being slidably connected to the first guiding arm component 311, hangs
Suction cup assembly below suspension wall component, the Suction cup assembly can be used for adsorbing the movement of printing material 2;Etc..
According to the structure of the first material rotaring machine tool hand 31 be easy to can to obtain the structure of the second material rotaring machine tool hand 32 and its
Positional relationship in multilayer circulation continuous tunnel furnace 100.Specifically, the second material rotaring machine tool hand 32 includes the second guiding arm component, second
Crawl section and the second crawl sensor, the second guiding arm component are mounted on shell 10 and in second layer conveyer belt 22
Sender upwardly extends, and second crawl section is slidably connected to the second leading arm on the direction of transfer of second layer conveyer belt 22
Component, second crawl section is for grabbing simultaneously trans-printing material 2;Etc., it need not repeat one by one herein.
In the present embodiment, as shown in Fig. 1-17, the material rotaring machine tool hand is provided with two groups, and every group of material rotaring machine tool hand wraps
Include one first material rotaring machine tool hand 31 and one second material rotaring machine tool hand 32.
Further, as shown in Fig. 1-17, the Printing Production Systems 1000 further include material receiving desk 300, the material receiving desk
300 are set to the discharge end of multilayer circulation continuous tunnel furnace 100, with the printing exported for receiving the multilayer circulation continuous tunnel furnace 100
Material 2.In this way, the production efficiency of Printing Production Systems 1000 can be convenient for, the occupied area of Printing Production Systems 1000 is reduced.
Specifically, the corresponding third layer conveyer belt 23 of the material receiving desk 300 is arranged as shown in Fig. 1-17.
Further, as shown in Fig. 1-17, the output end of the third layer conveyer belt 23 is equipped with the cooling section of preset length,
The cooling section protrudes from the feeding end of second layer conveyer belt 22.In this way, can be simple convenient for carrying out cooling treatment to printing material 2
Change 100 structure of multilayer circulation continuous tunnel furnace.
Specifically, the corresponding cooling section setting of the material receiving desk 300.
It should be pointed out that cooling section is set to for defeated when the number of plies of conveyer belt 20 in furnace is set as the number of plies of other quantity
The discharge end of one layer of conveyer belt of printing material 2 out, and cooling section protrudes from other remaining layers.
In another embodiment of multilayer circulation continuous tunnel furnace 100, (in this embodiment, the number of plies of conveyer belt 20 is set in the furnace
It is set to four layers) in, conveyer belt 20 includes first layer conveyer belt 21, second layer conveyer belt 22, third layer conveyer belt 23 in the furnace
And the 4th layer of conveyer belt, the first layer conveyer belt 21 are also used to receive the printing material of press printing, the 4th layer of conveyer belt
It is also used to export the printing material 2 of dry completion.
The material rotaring machine tool hand 30 includes the first material rotaring machine tool hand 31, the second material rotaring machine tool hand 32 and third material rotaring machine tool
Hand, the first material rotaring machine tool hand 31 are set to the discharge end of first layer conveyer belt 21, and the first material rotaring machine tool hand 31 is used for will
Printing material on first layer conveyer belt 21 is transformed on second layer conveyer belt 22;The second material rotaring machine tool hand 32 is set to second
The discharge end of layer conveyer belt 22, the second material rotaring machine tool hand 32 is for the printing material on second layer conveyer belt 22 to be transformed into
On third layer conveyer belt 23;The third material rotaring machine tool hand is set to the discharge end of third layer conveyer belt 23, the third material rotaring machine
Tool hand is used to the printing material on third layer conveyer belt 23 being transformed into the 4th layer of conveyer belt.
Specifically, in another embodiment of multilayer circulation continuous tunnel furnace 100, the multilayer circulation continuous tunnel furnace 100 it is specific
Structure can refer to the above embodiments (number of plies of conveyer belt 20 is set as three layers in the furnace) of multilayer circulation continuous tunnel furnace 100,
This need not be described in detail.
Particularly, in another embodiment of multilayer circulation continuous tunnel furnace 100, printing machine 200 and material receiving desk 300 (or other
Collecting equipment) it is set to the same end of multilayer circulation continuous tunnel furnace 100, to realize the same end retractable in multilayer circulation continuous tunnel furnace 100
Material, to adapt to actual demand.
It should be noted that the utility model Printing Production Systems 1000, have at least the following advantages:
1) it largely realizes and automates continuous continuous productive process, reduce labor intensity of workers, save labour.
2) production efficiency is greatly improved.
3) occupied ground is small, and utilization of area rate can be improved, and can save venue cost.
4) different more reasonable automations can be set according to actual needs (to product or to the different demands of technique)
Assembly line.
The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model,
It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes
It changes, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.
Claims (10)
1. a kind of Printing Production Systems characterized by comprising
Conveyer belt and material rotaring machine tool hand in multilayer circulation continuous tunnel furnace, including shell, multihearth, the shell is interior to be equipped with dry lead to
Road, compartment of terrain is arranged in the dry channel conveyer belt in the up-down direction in furnace described in multilayer, and conveyer belt is used in the furnace
In transmission printing material, the material rotaring machine tool hand is installed on the shell, and the material rotaring machine tool hand is used for printing material not
Transmission interband conversion in the furnace of same layer, so that the printing material can be recycled on conveyer belt in the furnace of different layers;
And
Printing machine, set on the feed end of the multilayer circulation continuous tunnel furnace, conveyer belt includes first layer conveyer belt in the furnace, described
The printing material of press printing is delivered to the first layer conveyer belt.
2. Printing Production Systems as described in claim 1, which is characterized in that the printing machine is arranged with two groups, described in two groups
Printing machine is respectively arranged at the two sides of the multilayer circulation continuous tunnel furnace.
3. Printing Production Systems as claimed in claim 2, which is characterized in that the quantity of printing machine described in every group is set as one
Platform, two or three.
4. Printing Production Systems as claimed in claim 2, which is characterized in that the quantity of printing machine described in every group is set as more
Platform, the Printing Production Systems further include the blowing sensor of the discharge position setting of the corresponding printing machine, and the blowing passes
Sensor is for detecting with the presence or absence of there is printing material on the first layer conveyer belt, and the printing machine is in its discharge position according to institute
Printing material is placed into idle area on first layer conveyer belt by the detection signal for stating blowing sensor.
5. Printing Production Systems as described in claim 1, which is characterized in that conveyer belt further includes second layer transmission in the furnace
Band and third layer conveyer belt;
The material rotaring machine tool hand includes the first material rotaring machine tool hand and the second material rotaring machine tool hand, and the first material rotaring machine tool hand is set to institute
The discharge end of first layer conveyer belt is stated, the first material rotaring machine tool hand is for the printing material on first layer conveyer belt to be transformed into
On second layer conveyer belt;The second material rotaring machine tool hand is set to the discharge end of the second layer conveyer belt, second material rotaring machine
Tool hand is used to the printing material on second layer conveyer belt being transformed into third layer conveyer belt.
6. Printing Production Systems as claimed in claim 5, which is characterized in that the first layer conveyer belt, second layer conveyer belt
And third layer conveyer belt is from top to bottom sequentially distributed;Alternatively,
The first layer conveyer belt, second layer conveyer belt and third layer conveyer belt are from bottom to top sequentially distributed.
7. Printing Production Systems as claimed in claim 6, which is characterized in that when the first layer conveyer belt, the second layer transmit
When band and third layer conveyer belt are from top to bottom sequentially distributed:
The feeding end of the second layer conveyer belt protrudes from the discharge end of the first layer conveyer belt, the first material rotaring machine tool hand
Set on the top of the feeding end of the second layer conveyer belt;And/or
The feeding end of the third layer conveyer belt protrudes from the discharge end of the second layer conveyer belt, the second material rotaring machine tool hand
Set on the top of the feeding end of the third layer conveyer belt.
8. Printing Production Systems as claimed in claim 6, which is characterized in that the first material rotaring machine tool hand includes the first guiding
Arm component and the first crawl section, the first guiding arm component are mounted on the shell and in the first layer conveyer belt
Sender upwardly extends, and first crawl section is slidably connected to described first on the direction of transfer of the first layer conveyer belt
It is oriented to arm component, first crawl section is for grabbing simultaneously trans-printing material.
9. the Printing Production Systems as described in claim 1-8 any one, which is characterized in that the Printing Production Systems are also
Including material receiving desk, the material receiving desk is set to the discharge end of the multilayer circulation continuous tunnel furnace, for receiving the multilayer circulation
The printing material of continuous tunnel furnace output.
10. the Printing Production Systems as described in claim 5-8 any one, which is characterized in that the third layer conveyer belt
Output end be equipped with the cooling section of preset length, the cooling section protrudes from remaining other layer of conveyer belt.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109228645A (en) * | 2018-10-24 | 2019-01-18 | 深圳市威利特自动化设备有限公司 | Printing Production Systems |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109228645A (en) * | 2018-10-24 | 2019-01-18 | 深圳市威利特自动化设备有限公司 | Printing Production Systems |
CN109228645B (en) * | 2018-10-24 | 2024-02-09 | 深圳市威利特自动化设备有限公司 | Printing production system |
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