阅读说明：本技术 一种便于存放的打印设备及其储放方法 (Printing equipment convenient to store and storage method thereof ) 是由 汤振华 万弋林 于 2020-06-03 设计创作，主要内容包括：本发明公开了一种便于存放的打印设备,包括底座、中间平台、喷车,所述中间平台包括用于承放打印材料的打印面,且中间平台上设有导轨；所述喷车与导轨连接且喷车沿导轨至少进行平行于平台表面的纵向或/和横向移动；所述底座设置于中间平台下方与中间平台可拆卸连接。将打印设备模块化,有助于快速、方便的拆解打印设备为多个模块甚至两个模块,从而基于拆分产生的模块进行储放和运输,能够充分利用已有空间,提高仓储、运输效率；且分离模块后能依据需求实现快速、简单的组装还原整机,不仅能保护内部结构不被曝露,且方便预先对模块进行调整,从而在运输后直接快速装配并投入使用,避免到达使用场地后还需耗费过多的人力、物力、时间进行调整。(The invention discloses printing equipment convenient to store, which comprises a base, an intermediate platform and a spraying vehicle, wherein the intermediate platform comprises a printing surface for bearing printing materials, and a guide rail is arranged on the intermediate platform; the spraying vehicle is connected with the guide rail and at least moves longitudinally or/and transversely parallel to the surface of the platform along the guide rail; the base is arranged below the middle platform and is detachably connected with the middle platform. The printing equipment is modularized, so that the printing equipment can be disassembled into a plurality of modules or even two modules quickly and conveniently, the modules generated by the disassembly are stored and transported, the existing space can be fully utilized, and the storage and transportation efficiency is improved; and can realize quick, simple equipment reduction complete machine according to the demand after the separation module, can not only protect inner structure not exposed to the sun, and conveniently adjust the module in advance to direct quick assembly is put into use after the transportation, still need expend too much manpower, material resources, time and adjust after avoiding arriving the use place.)

1. A printing device convenient to store is characterized by comprising a base, a middle platform and a spraying vehicle, wherein the middle platform comprises a printing surface for bearing printing materials, and a guide rail is arranged on the middle platform; the spraying vehicle is connected with the guide rail and at least moves longitudinally or/and transversely parallel to the surface of the platform along the guide rail; the base is arranged below the middle platform and is detachably connected with the middle platform.

2. The printing apparatus of claim 1, wherein the intermediate platform comprises a support adjustment frame and a printing platform, the support adjustment frame being detachably connected to the base; the printing platform is arranged on the supporting and adjusting frame, and the surface of the printing platform is a printing surface; the guide rail sets up on print platform or/and support alignment jig, spout the car and be connected with the guide rail through the car support that spouts that sets up in print platform top, spout the car support and carry out the longitudinal movement that is on a parallel with print platform along the guide rail at least, spout the car and remove along with spouting car support removal, and carry out the lateral shifting that is on a parallel with print platform at least on spouting the car support.

3. The printing apparatus of claim 2, wherein the support frame includes side members disposed on both sides and a plurality of cross members disposed between the side members, and a top end of the cross member is lower than a top end of the side member; a front limiting strip and a rear limiting strip are further arranged between the longitudinal beams on the two sides in the longitudinal direction, and the top ends of the limiting strips are higher than the top ends of the cross beams; the guide rail is fixed on the outer side of the longitudinal beam, and a driving mechanism for driving the spraying vehicle bracket to move is further fixed on the outer side of the longitudinal beam.

4. The printing device of claim 3, wherein the cross-sectional shape of the longitudinal beam in a plane perpendicular to the longitudinal direction of the longitudinal beam comprises a first cross plate, an end of the first cross plate near the printing platform extends downward to form a first vertical plate, and an end of the first cross plate far away from the printing platform extends upward to form a second vertical plate.

5. The printing apparatus for facilitating storage of claim 3, wherein a plurality of height-adjusting members are arranged on top of the cross beam, the height-adjusting members include a rotating portion and a raised portion, the rotating portion is rotated to drive the raised portion to move and adjust a height of a top end of the height-adjusting member relative to the cross beam.

6. The printing device convenient to store as claimed in claim 5, wherein the cross-sectional shape of the cross beam on a plane perpendicular to the length direction of the cross beam comprises a third vertical plate and an upper transverse plate and a lower transverse plate which are formed by extending the upper end and the lower end of the third vertical plate to the same side, and the length of the upper transverse plate is greater than that of the lower transverse plate; the height-adjusting part is characterized in that supporting pieces are arranged on two sides of the height-adjusting part and between the upper transverse plate and the lower transverse plate of the cross beam, and each supporting piece comprises a first supporting plate parallel to the lower transverse plate, a second supporting plate located between the end part of the upper transverse plate and the end part of the lower transverse plate and a side plate perpendicular to the length direction of the cross beam.

7. The printing device convenient to store as claimed in claim 1, wherein the intermediate platform comprises a printing platform, the printing platform comprises a top plate, a partition frame and a bottom plate which are sequentially arranged from top to bottom, the top plate is provided with a plurality of negative pressure holes, the bottom plate is provided with a plurality of air suction holes, the partition frame divides the printing platform into a plurality of independent adsorption areas, and a honeycomb core is arranged in each independent adsorption area.

8. The printing device convenient to store as claimed in claim 7, wherein the partition frame partitions the printing platform into a plurality of L-shaped independent adsorption areas which are arranged in a field-shaped or radial manner, each independent adsorption area corresponds to at least one air suction hole, and the air suction holes are connected with pipelines and control valves.

9. The printing device convenient for storage according to claim 1, wherein the printing surface is provided with a plurality of negative pressure holes and a plurality of grooves, and at least part of the negative pressure holes are respectively arranged on one sides of the bottom surfaces of the grooves, which are close to the side surfaces of the grooves, and are combined with the grooves to form negative pressure eccentric holes.

10. A method of storing a plurality of printing apparatuses as claimed in any one of claims 1 to 9 for storage, comprising the steps of:

s1, separating the middle platform and the base of each printing device;

s2, carrying out spray vehicle staggered overlapping placement on the intermediate platforms of the plurality of printing devices;

and S3, placing the bases of the plurality of printing devices in a stacked or vertical arrangement mode.

Technical Field

The invention relates to the technical field of printers, in particular to a printing device convenient to store and a storage method thereof.

Background

Disclosure of Invention

The invention aims to overcome at least one defect of the prior art, provides printing equipment convenient to store, realizes a modular structure, can disassemble modules and immediately restore the whole machine based on a modular stable structure, and is convenient for storage, transportation and quick use after being transported to a use place.

The printing equipment convenient to store comprises a base, an intermediate platform and a spraying vehicle, wherein the intermediate platform comprises a printing surface for bearing printing materials, and a guide rail is arranged on the intermediate platform; the spraying vehicle is connected with the guide rail and at least moves longitudinally or/and transversely parallel to the surface of the platform along the guide rail; the base is arranged below the middle platform and is detachably connected with the middle platform. The printing surface of the middle platform is used for bearing printing materials, and the spraying vehicle connected with the guide rail of the middle platform moves above the printing surface and prints the printing materials. The base is arranged below the middle platform and at least plays a supporting role for the middle platform and the spraying vehicle connected with the middle platform. Preferably, be equipped with a plurality of negative pressure holes on the printing face, the negative pressure hole helps adsorbing the printing material, makes the printing material level and smooth, improves and prints the effect. Preferably, the guide rail sets up in the both sides of middle platform or on the surface, spout the car and be connected with the guide rail directly or indirectly, if spout the car set up with on the car crossbeam that spouts that the guide rail is connected, spout the car promptly and be connected with middle platform guide rail through indirect connected mode, and spout the car and move along the guide rail direction through spouting the car crossbeam and spout the car and realize being on a parallel with the vertical, lateral shifting on platform surface for the removal that spouts the car crossbeam to the messenger spouts the car and moves about on whole printing face, and prints the printing material on the printing face. Preferably, the base is a cuboid structure formed by mutually fixing a plurality of long beams.

The base sets up in middle platform below and not only helps supporting middle platform and the car that spouts of connecting in middle platform, still can dismantle through being connected with middle platform and make whole printing equipment become including middle platform and the first module that spouts the car, the second module including the base, middle platform and the car that spouts that is connected with middle platform guide rail form relatively independent first module promptly, the base forms relatively independent second module, wherein first module mainly is responsible for the printing function, the second module mainly plays the supporting role to first module. And for printing equipment, the most main factor influencing the printing effect is the matching of the printing surface and the spraying vehicle, and the middle platform and the spraying vehicle are combined to form the first module with stable internal structure, so that the position relation of the printing surface relative to the spraying vehicle is not influenced after the first module and the second module are separated.

And when printing apparatus is modular structure, first, the relative independence of second module, then can disassemble printing apparatus earlier and place after for the module again, also need not disassemble printing apparatus into scattered part, when needs use, only need can use with two module mutual equipment that single printing apparatus corresponds. Especially when needing to store a plurality of printing apparatus, can place a plurality of printing apparatus second modules with mode such as piling up, place a plurality of printing apparatus's first module with modes such as dislocation pile up, the dislocation pile up spout the car dislocation between a plurality of printing apparatus first modules and pile up and place, spout the car dislocation and place the mode and can guarantee to spout the car and keep stable position for corresponding middle platform and middle platform printing surface, need readjust when avoiding using and spout the position of car and middle platform. Besides, the first modules and the second modules of the plurality of printing devices can be alternately stacked to reduce the occupied space, or the first modules and the second modules are laterally arranged and sequentially arranged to be stored. Store a plurality of printing apparatus through above-mentioned arbitrary mode and can both make full use of the space in the vertical direction, make full use of storage space reduces the storage burden. And in the aspect of the transportation of printing equipment, the single transportation volume can be greatly improved, and the cost can be saved while the transportation efficiency is improved.

More importantly, after the printing equipment is modularized, the printing equipment is convenient to store and transport, and compared with the prior art, the printing equipment can also realize the pre-adjustment of the individual modules. Although the finished large printer in the prior art is already assembled, the finished large printer needs to be adjusted again to be put into use after being transported to a use place, because the large printing equipment in the prior art does not have the modularization characteristic and the high coupling characteristic, and a plurality of assembled components show zero dispersion, that is, the position deviation of any component in the transportation process and the like can cause the change of another component with poor relevance, so that the large printer needs to be adjusted for many times to be put into use after being transported to the use place. Moreover, due to the scattering of the components, the adjusted objects become parts of the whole large-scale printer, the positions needing to be checked and adjusted are more, and the time consumed by the corresponding operation is increased; as set in the prior art: the base, the guide rail and the spraying vehicle beam are generally connected into a whole, the platform is fixed on the base, and the guide rail is fixed on the base and arranged on two sides of the platform; because print platform is fixed in on the base, partial part of base takes place position change and probably leads to print platform, spouts the car and all changes to at least need adjust the part of base, carry out the matching adjustment between platform and the car of spouting after base part adjustment, just can make and spout the car and can normally print the printing material on the platform. In addition, in order to maintain stability during printing and facilitate installation of the existing printing equipment, the existing printing equipment can only be used for fixing the spraying vehicle bracket on the base through the guide rail and fixing the printing platform on the base, which is also one of the reasons that modularization of the printing equipment is difficult to think in the prior art. Compared with the prior art, the modular printing equipment has the stable structures of the first module and the second module, so that the first module or/and the second module can be adjusted in advance before transportation or use, and the modular printing equipment can be put into use only by assembling the two modules after reaching a use site. Even if the adjustment is needed, the first module and the second module of the printing device are relatively independent, so the adjustment of any module has no influence or little influence on the other module, and the complicated adjustment process is avoided. Meanwhile, the adjustment process based on the existing large printer takes the whole large printer as an object, and the complex structure and the smaller operation space of the printer obviously bring difficulty to the adjustment, so that the adjustment process is complex and time-consuming. The file of the invention is relatively independent of the middle platform and the base, and when the printing equipment needs to be adjusted, the adjustment is only needed in a targeted manner, so that the adjustment difficulty can be obviously reduced, and the adjustment efficiency can be improved.

The printing equipment is divided into a plurality of modules, namely, the related components are combined in the same module, which is beneficial to disassembling the printing equipment into a small number of modules or even two modules, so that the printing equipment can be placed in a split mode, the stability of the components in the modules can be maintained, the complete machine can be quickly and simply assembled and restored, the confidentiality of the internal structure can be maintained, and the possibility of counterfeiting and the like can be reduced; and the split type storage rack is divided into a few modules or even two modules, so that the storage rack is placed in a mode of fully utilizing the space, and the storage and transportation efficiency is improved.

Preferably, the middle platform comprises a supporting and adjusting frame and a printing platform, wherein the supporting and adjusting frame is detachably connected with the base and at least used for placing the printing platform; the printing platform is arranged on the supporting and adjusting frame, and the surface of the printing platform is a printing surface; the guide rail sets up on print platform or/and support alignment jig, spout the car and be connected with the guide rail through the car support that spouts that sets up in print platform top, spout the car support and carry out the longitudinal movement that is on a parallel with print platform along the guide rail at least, spout the car and remove along with spouting car support removal, and carry out the lateral shifting that is on a parallel with print platform at least on spouting the car support.

Under the prerequisite of guaranteeing relative base independence, adopt inside components of a whole that can function independently structure to help implementing more detailed adjustment and optimization to middle platform, with middle platform componentization when guaranteeing middle platform for the independence of base promptly, not only help combining the part and realize more diversified combination, also conveniently carry out swift adjustment based on supporting the alignment jig. And the support adjusting frame is used as a main body bearing structure of the middle platform, so that the stability of the middle platform is enhanced, and the spraying vehicle is convenient to bear, so that the middle platform and the spraying vehicle connected with the middle platform can be more easily formed into a relatively independent module. The printing platform is arranged on the supporting and adjusting frame, so that strong association in the middle platform is realized, and the position of the printing platform can be adjusted based on the supporting and adjusting frame. The printing platform is arranged on the supporting and adjusting frame, the upper surface of the printing platform is the printing surface of the middle platform, and the printing surface can be combined with the spray cart above the printing surface to realize the printing process. The guide rail is arranged on the printing platform or/and the supporting and adjusting frame, and is beneficial to movement relative to the printing platform or/and the supporting and adjusting frame after the spraying vehicle bracket is connected with the guide rail, so that the spraying vehicle on the spraying vehicle bracket is driven to print on a printing area. The longitudinal and transverse movement of the spraying vehicle relative to the printing platform can be realized by combining the longitudinal movement parallel to the printing platform of the spraying vehicle support and the transverse movement parallel to the printing platform of the spraying vehicle relative to the spraying vehicle support, so that the printing surface is completely covered. In addition, the spraying vehicle can also move in the vertical direction relative to the spraying vehicle bracket, so that the spraying vehicle is beneficial to moving to a specific height to be matched with other components in the printing process or before and after printing.

Preferably, the supporting and adjusting frame comprises longitudinal beams arranged on two sides and a plurality of cross beams arranged between the longitudinal beams on the two sides, the cross beams and the longitudinal beams form an installation position of the printing platform together, and the top ends of the cross beams are lower than the top ends of the longitudinal beams; a front limiting strip and a rear limiting strip are further arranged between the longitudinal beams on the two sides in the longitudinal direction, and the top ends of the limiting strips are higher than the top ends of the cross beams; the guide rail is fixed on the outer side of the longitudinal beam, and a driving mechanism for driving the spraying vehicle bracket to move is further fixed on the outer side of the longitudinal beam.

The cross beam arranged between the side beams is combined with the side beams to form a stable support structure, so that the printing platform is placed and installed conveniently, the top end of the cross beam is lower than the top end of the longitudinal beam, the printing platform can be positioned when placed between the two side beams, and the printing platform is prevented from being separated in the cross beam direction, namely the direction perpendicular to the longitudinal beam. More preferably, the distance between the top ends of the longitudinal beams is equal to the width of the printing platform, so that the printing platform is not shifted in the direction vertical to the longitudinal beams. Through the front and rear limiting strips with the top ends higher than the top end of the cross beam, the printing platform cannot be separated from the supporting and adjusting frame in the longitudinal beam direction, namely the direction perpendicular to the cross beam, and the printing platform is limited to move in the plane direction by combining the side beam. More preferably, the distance between the top ends of the front and rear limiting strips is equal to the length of the printing platform in the longitudinal direction, and the printing platform is completely locked in the longitudinal direction.

When the guide rail is arranged on the printing platform, the printing platform has higher strength requirement, and the printing platform is used as a replaceable and optimizable part, and when the guide rail is arranged on the printing platform, the guide rail and the spraying vehicle connected with the guide rail are required to be adjusted when the printing platform is replaced and optimized. If the guide rail is arranged on the supporting and adjusting frame, the printing platform can have relative independence, and the supporting and adjusting frame is mainly used for connecting the base and providing a mounting position for the printing platform, so that the guide rail does not need to be replaced in the processes of storage, transportation, use and the like, and the guide rail is arranged on the supporting and adjusting frame, so that the guide rail and the spraying vehicle directly or indirectly connected with the guide rail have higher stability. The guide rail is arranged on the outer side of the longitudinal beam, so that the space on the outer side of the side beam is fully utilized, the inner side of the side beam has enough space, and the side beam is beneficial to bearing the printing platform. And because of supporting the alignment jig with the base is connected, sets up guide rail and actuating mechanism in the longeron outside, helps further supporting with the help of the base, is convenient for carry out the bearing to spouting the car, spouting car support.

Preferably, the cross-sectional shape of the longitudinal beam on a plane perpendicular to the longitudinal direction of the longitudinal beam comprises a first transverse plate, one end of the first transverse plate close to the printing platform extends downwards to form a first vertical plate, and one end of the first transverse plate far away from the printing platform extends upwards to form a second vertical plate. First diaphragm, first riser and second riser form the print platform bearing position of this side curb girder jointly, first diaphragm, first riser can form the accommodation space in this side curb girder outside, help actuating mechanism to set up in this accommodation space to avoid increasing the whole ascending length of printing apparatus in the crossbeam direction for installation actuating mechanism, make actuating mechanism and support alignment jig compact structure, save space, further make things convenient for placing, transportation etc. of printing apparatus. And the combination of the first transverse plate and the second vertical plate can ensure that the second vertical plate limits the position of the printing platform while supporting. The side beam which comprises the first transverse plate, the first vertical plate, the second vertical plate and the symmetrical distribution can realize the bearing and the limit of the supporting adjusting frame on the printing platform, and can provide the accommodating space for installing the driving structure, so that the structure of the printing equipment is more compact and stable.

Preferably, the cross-sectional shape of the cross beam on the plane perpendicular to the length direction of the cross beam comprises a third vertical plate and an upper transverse plate and a lower transverse plate, wherein the upper end and the lower end of the third vertical plate extend towards the same side to form the upper transverse plate and the lower transverse plate, and the length of the upper transverse plate is greater than that of the lower transverse plate. The upper transverse plate forms an upper supporting surface of the cross beam, the lower transverse plate forms a lower supporting surface of the cross beam, and the lower transverse plate is helpful for providing bolts and the like to fix the fixing piece installation control between the cross beam and the base. The third vertical plate is used as the connection of the upper transverse plate and the lower transverse plate, and plays a role in supporting the cross beam in the vertical direction. The length of the upper transverse plate is larger than that of the lower transverse plate, which is beneficial to providing enough supporting surface to reduce the corresponding pressure, thereby reducing the required strength of the cross beam and being beneficial to reducing the cost and replacing materials. The third riser forms upper transverse plate, the lower transverse plate that length differs to the homonymy extension and still helps reserving the space between upper transverse plate and the lower transverse plate, is convenient for optimize the crossbeam structure and provides the inside operating space of crossbeam.

Preferably, a plurality of height-adjusting pieces are arranged on the top of the cross beam, each height-adjusting piece comprises a rotating part and a lifting part, and the rotating part is rotated to drive the lifting parts to move and adjust the height of the top ends of the height-adjusting pieces relative to the cross beam. The rotating part drives the lifting part to move up and down in a thread driving mode, and the height of the top end of the lifting part relative to the top end of the cross beam is changed; when the lifting part continuously moves upwards, the corresponding side of the printing platform is jacked up and moves upwards, and when the specific position of the printing platform is higher, the lifting part of more than one height-adjusting piece below the corresponding position of the specific position is adjusted to move downwards, so that the specific position or one side of the specific position of the printing platform can be lowered, namely the height of each point of the printing platform above the cross beam can be adjusted through the height-adjusting piece on the cross beam. More preferably, when the cross member is composed of the third vertical plate, the upper horizontal plate, and the lower horizontal plate, the rotating portion is disposed between the upper horizontal plate and the lower horizontal plate.

Drawings

Fig. 1 is a front view of the embodiment.

Fig. 2 is a block diagram of an embodiment.

Fig. 3 is a structural view of a base of the embodiment.

Fig. 4 is a diagram of an intermediate platform structure of the embodiment.

Fig. 5 is a structural view (one) of a support adjusting frame of the embodiment.

Fig. 6 is a structural view of the supporting and adjusting frame of the embodiment (ii).

Fig. 7 is a cross-member structure view of the embodiment.

Fig. 8 is a structural view of a support member of the embodiment.

FIG. 9 is a partial structural diagram of the first embodiment.

Fig. 10 is a partial structural diagram of the embodiment (ii).

Fig. 11 is a perspective view of the whole device of the embodiment.

Fig. 12 is a perspective view of the whole machine of the embodiment (ii).

FIG. 13 is a schematic structural diagram of a field-shaped partitioned printing platform according to an embodiment.

FIG. 14 is a schematic structural diagram of an L-shaped partitioned printing platform according to an embodiment.

FIG. 15 is a front view of a partitioned printing platform of an embodiment.

In the figure: 1. a base; 2. an intermediate platform; 21. supporting the adjusting frame; 211. a guide rail; 212. a stringer; 2121. a first transverse plate; 2122. a first vertical plate; 2123. a second vertical plate; 213. a cross beam; 2131. a third vertical plate; 2132. an upper transverse plate; 2133. a lower transverse plate; 214. a limiting strip; 22. a printing platform; 221. a top plate; 2211. a negative pressure hole; 2212. a groove; 2213. negative pressure eccentric hole; 2214. layout; 222. a partition frame; 2221. partition bars; 223. a base plate; 2231. an air exhaust hole; 224. a honeycomb core; 225. a pipeline; 2251. a control valve; 226. a negative pressure pump; 3. spraying the vehicle; 31. spraying a vehicle bracket; 311. a waste ink collecting device; 3111. a waste ink tray; 3112. the UV lamp can extend and retract the light curtain; 31121. a chassis; 31122. a blade; 32. a connecting plate; 4. a drive mechanism; 5. an L-shaped plate; 6. a base plate; 7. a height adjusting piece; 71. a rotating part; 72. a raising section; 8. a support member; 81. a first support plate; 82. a second support plate; 83. side plates.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.