CN112743978A

CN112743978A - Efficient full-automatic anhydrous printing and dyeing equipment

Info

Publication number: CN112743978A
Application number: CN202011534930.7A
Authority: CN
Inventors: 张安达
Original assignee: Changzhou Anda Environmental Protection Technology Co ltd
Current assignee: Changzhou Anda Environmental Protection Technology Co ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-05-04

Abstract

The application relates to efficient full-automatic waterless printing and dyeing equipment, which comprises a drying box body, wherein a drying assembly is arranged in the drying box body, and the drying assembly comprises a bearing plate, an air blowing piece and a heat conducting piece; the top wall of the bearing plate is provided with a plurality of preset holes in a penetrating mode, the air blowing piece is located in the preset holes, and the heat conducting piece is located below the bearing plate; two ends of the bearing plate in the length direction are respectively provided with a lifting assembly, and the lifting assembly comprises an extension plate and a driving piece; the extension plates are positioned at two ends of the length direction of the bearing plate, and side edge holes which are convenient for the extension plates to pass through and move up and down are arranged on the outer side wall of the drying box in a penetrating way; the driving piece is located the both ends of stoving box length direction, the piston rod and the extension board fixed connection of driving piece. This application has the effect that improves anhydrous printing and dyeing equipment to the drying efficiency of cloth.

Description

Efficient full-automatic anhydrous printing and dyeing equipment

Technical Field

The application relates to the field of anhydrous printing and dyeing equipment, in particular to efficient full-automatic anhydrous printing and dyeing equipment.

Background

In the traditional production process of the fabric, the fabric is subjected to high-temperature steaming and washing steps after being printed so as to ensure the color fastness of the printed fabric, and a large amount of waste sewage is generated during steaming and washing, so that the sewage is very easy to influence and destroy the local ecological environment.

Anhydrous printing and dyeing is a clean printing and dyeing technology that can realize cloth printing and dyeing without using liquid water, and anhydrous printing and dyeing equipment possesses the characteristics that the pollution is still less and the emission is lower than traditional printing and dyeing equipment, so by wide application in the textile production field.

Chinese patent publication No. CN207567476U discloses a full-automatic waterless printing and dyeing apparatus, which includes a printing and dyeing assembly and a drying assembly. The printing and dyeing assembly comprises a printing and dyeing roller and a printing and dyeing box, the printing and dyeing roller can convey the cloth to be printed and dyed to the printing and dyeing box, and the dye in the printing and dyeing box is attached to the outer surface of the cloth when the cloth passes through. The drying assembly comprises a limiting part and a heating assembly, the limiting part can guide the cloth to be transmitted, a through hole is formed in the roller body of the limiting part, and high-temperature air flow is communicated with the through hole to accelerate the drying of the dye on the outer surface of the cloth. The heating component improves the temperature of the cloth passing area through the fan with the heating wires, and further accelerates the drying of the dye on the cloth.

In view of the above-mentioned related technologies, the inventor believes that there are defects that the drying efficiency of the anhydrous printing and dyeing equipment to the cloth is low, and then it is difficult to ensure the color fastness of the dye on the cloth, and the defective rate of the finished cloth is increased.

Disclosure of Invention

In order to improve the problem that anhydrous printing equipment is on the low side to the drying efficiency of cloth, this application provides a full-automatic anhydrous printing equipment of efficient.

The application provides a full-automatic anhydrous printing equipment of efficient adopts following technical scheme:

an efficient full-automatic waterless printing and dyeing device comprises a drying box body, wherein a drying assembly is arranged in the drying box body, and comprises a bearing plate, an air blowing piece and a heat conducting piece; the top wall of the bearing plate is provided with a plurality of preset holes in a penetrating mode, the air blowing piece is located in the preset holes, and the heat conducting piece is located below the bearing plate; two ends of the bearing plate in the length direction are respectively provided with a lifting assembly, and the lifting assembly comprises an extension plate and a driving piece; the extension plates are positioned at two ends of the length direction of the bearing plate, and side edge holes which are convenient for the extension plates to pass through and move up and down are arranged on the outer side wall of the drying box in a penetrating way; the driving piece is located the both ends of stoving box length direction, the piston rod and the extension board fixed connection of driving piece.

By adopting the technical scheme, the air blowing part blows normal-temperature air flow downwards, the heat conducting part emits high-temperature heat waves outwards, and the normal-temperature air flow passes through the high-temperature heat wave area and then is changed into high-temperature air flow; meanwhile, when the driving piece is in a standby state, the heat conducting piece and the bearing plate are close to the cloth, so that the high-temperature airflow reaches a specific area of the cloth quickly, the time is short, the drying strength is high, and the drying efficiency of the cloth can be greatly improved in the process; the driving piece can make its piston rod overhanging after doing work, and at this moment, the board of accepting is in the take-up to a take the altitude, and this process makes the high temperature air current can cover more broad area on the cloth, and then when guarantee stoving intensity can make the dyestuff dry, has enlarged the instantaneous drying area of cloth to the drying efficiency of stoving subassembly to the cloth has been improved.

Preferably, the top wall of the drying box body penetrates through and is provided with an operation hole, a step groove is formed in the top wall of the drying box body around the periphery of the operation hole, and a covering plate used for plugging the operation hole is arranged in the step groove.

Through adopting above-mentioned technical scheme, the lid closes the board and sits and locate the step inslot to stabilize the closing cap handle hole, and then reduce the outside phenomenon of loss of high temperature heat wave, the high temperature state in the guarantee drying box, and the drying efficiency of guarantee cloth.

Preferably, a positioning assembly is arranged between the cover plate and the drying box body together, and comprises an abutting strip and a limiting block; the butt strip rotates and sets up in stoving box roof, the stopper is located the lid board roof, stopper wherein one end is provided with the guide way that the butt strip of being convenient for supports into.

Through adopting above-mentioned technical scheme, the butt strip can make its length direction's one end support into the guide way through rotating in, and then makes butt strip gland closure board and stoving box simultaneously, and this process has effectively reduced the hot unrestrained phenomenon that promotes gland board upper and lower beat, displacement of high temperature, has ensured the position stability of gland board in the step inslot.

Preferably, a connecting assembly is arranged between the heat conducting piece and the bearing plate together, and the connecting assembly comprises a top connecting rod and a fixed ring plate; the top connecting rod is positioned on the top wall of the bearing plate, and a through hole for the top connecting rod to pass through is arranged on the top wall of the bearing plate in a penetrating manner; the fixing ring plate rotates and is arranged on the top wall of the bearing plate, the outer side wall of the top connecting rod is provided with a limiting groove which is convenient for the fixing ring plate to abut into, and one end of the fixing ring plate is provided with a yielding plane.

By adopting the technical scheme, the fixed ring plate is abutted into the inner cavity of the limiting groove so as to limit the position of the jacking rod in the through hole, thereby reducing the displacement phenomenon of the jacking rod relative to the bearing plate and ensuring the position stability of the heat-conducting piece suspended below the bearing plate; the abdicating plane can make the fixed ring plate completely separate from the limit groove, so that the butting rod can move in the through hole.

Preferably, the outer edge of the butting rod is provided with a butting component, and the butting component comprises an installation coaming, an elastic part and a fixing part; the elastic piece is located installation bounding wall roof, the top connects the pole outer fringe is located to the installation bounding wall cover, the elastic piece cover is located the top and connects the pole outer fringe, the mounting is used for fixed connection mounting panel and accepts the board.

Through adopting above-mentioned technical scheme, behind mounting fixed connection installation bounding wall and the heat-conducting piece, the elastic component is cup jointed in the butt-joint pole outer fringe steadily, after the butt-joint pole slips a certain distance in the through hole, the one end that the elastic component kept away from the installation bounding wall can support tightly in accepting the board diapire, and then make the heat-conducting piece and accept to produce the opposite force of certain intensity between the board, after the retaining ring board supported the spacing inslot cavity, the position at butt-joint pole height direction both ends is restricted simultaneously, and then make the butt-joint pole stably be located the through hole inner chamber, and further improved the position stability of heat-conducting piece in accepting the board below.

Preferably, the top wall of the bearing plate is provided with a plurality of containing grooves, and force applying rods are arranged in the containing grooves.

Through adopting above-mentioned technical scheme, application of force pole is convenient for operating personnel and is snatched with the hand, and then so that operating personnel quick adjustment accepts the position of board in the drying box, has improved the operating efficiency that operating personnel installed, dismantled and accept board and relevant subassembly.

Preferably, a clamping component is arranged between the extension plate and the bearing plate together, and the fixing component comprises an end plate and a clamping piece; the end plate is located on the end wall of the extending plate facing the bearing plate, and the clamping piece is used for fixedly connecting the end plate and the bearing plate.

Through adopting above-mentioned technical scheme, the tip board passes the side hole and offsets the back with the end wall of accepting board length direction, and the card firmware can fix the connection tip board and accept the board, and then so that the extension board is fixed in the one end of accepting board length direction, and the driving piece of being convenient for is through adjusting the upper and lower position of extension board to the regulation is accepted the board and is put at the internal height position of stoving case.

Preferably, a fixing assembly is arranged between the driving member and the extension plate, and the fixing assembly comprises a fitting plate, a fixing rod and a fixing nut; the dead lever is located and accepts the board diapire, the attachment plate is located the piston rod of driving piece towards the one end of extension board, the attachment plate roof runs through the joint hole that is provided with a plurality of dead levers of being convenient for and passes, fixation nut screw-thread fit is in the dead lever outer fringe.

By adopting the technical scheme, the fixing rod can penetrate through the clamping hole until the top wall of the attaching plate is abutted against the bottom wall of the bearing plate, and the fixing nut can be screwed on the outer edge of the fixing rod so as to fix the attaching plate on the bottom wall of the bearing plate; the rigging board has improved the piston rod of accepting the board driving piece and the area of contact who accepts the board, and then has ensured the driving piece to the lift stability of extension board, and simultaneously, the rigging board can ensure with extension board fixed connection and accept the stability of board at the decline in-process.

Preferably, a clamping assembly is arranged between the attachment plate and the piston rod of the driving member, and the clamping assembly comprises a sleeve joint barrel and a locking member; the socket joint section of thick bamboo is located the one end of the piston rod length direction of driving piece, the rigging board roof runs through and is provided with the adaptation hole that the socket joint section of thick bamboo of being convenient for supported into, the body of rod screw-thread fit of lock piece is in the socket joint section of thick bamboo, the rigging board roof is provided with the subsider that the end of the lock piece of being convenient for supported into around the adaptation hole periphery.

Through adopting above-mentioned technical scheme, the cup joint section of thick bamboo supports into adaptation hole inner chamber to inject the position of the relative piston rod of driving piece of binding plate, the body of rod of locking piece can be screwed up at the cup joint section of thick bamboo internal thread, and then in order to be fixed in the one end of the piston rod length direction of driving piece with the binding plate is stable.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the air blowing part blows normal-temperature airflow, the heat conducting part emits high-temperature heat waves, and the normal-temperature airflow passes through the high-temperature heat wave area and then is changed into high-temperature airflow so as to guarantee the drying strength of the cloth; when the driving piece is in standby, the distance between the high-temperature airflow and the cloth is short, the drying speed is high, and the dryness is high; when the driving piece is manufactured, the distance between the bearing plate and the cloth is enlarged, the coverage area of high-temperature airflow on the cloth is enlarged, and the drying efficiency of the drying assembly on the cloth is improved on the premise of ensuring enough drying strength;

2. the elastic part is tightly propped against the bottom wall of the bearing plate through the compression deformation of the elastic part, and then after the fixing ring plate is propped into the inner cavity of the limiting groove, the position stability of the heat conducting part below the bearing plate is greatly improved, and the drying stability of high-temperature airflow to the cloth is ensured.

Drawings

FIG. 1 is a schematic structural diagram of a high-efficiency fully-automatic waterless printing and dyeing device according to an embodiment of the present application;

FIG. 2 is a schematic view of the positional relationship of the driving member, the receiving plate and the heat conductive member;

FIG. 3 is an exploded view of the cover plate and the drying box in positional relationship;

FIG. 4 is an exploded view of the connection of the driver and extension plate;

fig. 5 is an enlarged schematic view of a portion a in fig. 4.

Description of reference numerals: 1. drying the box body; 11. an operation hole; 12. a side hole; 13. a step groove; 14. covering the plywood; 15. presetting holes; 2. a drying assembly; 21. a bearing plate; 211. an accommodating groove; 212. a force application rod; 213. a through hole; 22. a blower member; 23. a heat conductive member; 3. a lifting assembly; 31. an extension plate; 32. a drive member; 4. a clamping component; 41. an end plate; 42. a clamping and fixing piece; 5. a fixing assembly; 51. attaching a plate; 511. an adapter hole; 512. a settling tank; 513. a clamping hole; 52. fixing the rod; 53. fixing a nut; 6. clamping the assembly; 61. sleeving a sleeve; 62. a locking member; 7. a connecting assembly; 71. a top connecting rod; 711. a limiting groove; 72. a stationary ring plate; 721. a yielding plane; 8. a propping component; 81. mounting a coaming; 82. an elastic member; 83. a fixing member; 9. a positioning assembly; 91. an abutment bar; 92. a limiting block; 921. a guide groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses full-automatic anhydrous printing and dyeing equipment of efficient. Referring to fig. 1 and 2, the drying cabinet 1 is provided. Drying assembly 2 is provided with in the stoving box 1, and drying assembly 2 is including accepting board 21, blast air piece 22 and heat-conducting piece 23, and blast air piece 22 and heat-conducting piece 23 all with accept board 21 fixed connection, and the both ends of accepting board 21 length direction are provided with lifting unit 3 respectively. Lifting unit 3 can go up and down a take-up plate 21 certain height in drying box 1, and then in order to shorten the distance of air-blast piece 22, heat-conducting piece 23 and cloth, improves drying unit 2 and to the drying efficiency of cloth, ensures the yields of finished product cloth.

Referring to fig. 2 and 3, a plurality of receiving grooves 211 are symmetrically formed in the top wall of the receiving plate 21, a force applying rod 212 is welded in the receiving grooves 211 along the horizontal direction, and the force applying rod 212 is convenient for an operator to grab so that the operator can move the receiving plate 21. The top wall of the drying box body 1 is provided with an operation hole 11 along the thickness direction in a penetrating manner, the operation hole 11 is convenient for an operator to place the bearing plate 21 into the inner cavity of the drying box body 1 and quickly take out the bearing plate for overhauling and renewing.

Referring to fig. 2 and 3, the lifting assembly 3 includes an extension plate 31 and a driving member 32, and in this embodiment, the driving member 32 is an electric cylinder fixed on the ground by bolts. The lateral wall of the drying box body 1 is provided with a lateral hole 12 along the thickness direction, and the lateral hole 12 extends along the height direction of the drying box body 1. One end of the extension plate 31 in the length direction can pass through the side hole 12 and abut against the end wall of the bearing plate 21 in the length direction, and the clamping component 4 is arranged between the extension plate 31 and the bearing plate 21.

Referring to fig. 4, the trim member 4 includes an end plate 41 and a trim piece 42, and in the present embodiment, the trim piece 42 is a bolt. The end plate 41 is welded to an end of the extension plate 31 facing the receiving plate 21 in the longitudinal direction, and the height dimension of the end plate 41 is larger than that of the extension plate 31. The side wall of the end plate 41 away from the extension plate 31 can abut against the end wall of the receiving plate 21 in the length direction, and the rod body of the locking member 42 can penetrate through the end plate 41 and be screwed into a predetermined threaded groove of the end wall of the receiving plate 21 in the length direction, so that the end plate 41 and the receiving plate 21 are fixedly connected. At this time, one end of the extension plate 31 away from the receiving plate 21 is located outside the drying box 1.

Referring to fig. 4, the piston rods of the driving members 32 are located below the extension plate 31, and a fixing member 5 is disposed between each driving member 32 and the extension plate 31. The fixing assembly 5 includes a joint plate 51, a fixing rod 52 and a fixing nut 53, in this embodiment, the fixing rod 52 is a screw rod vertically welded to the bottom wall of the extension plate 31, and the fixing nut 53 is a hexagonal nut capable of being screwed on the outer edge of the fixing rod 52.

Referring to fig. 4, the attachment plate 51 is located at an end of the piston rod of the driving member 32 facing the extension plate 31, and the engaging member 6 is disposed therebetween. The clamping assembly 6 comprises a sleeve 61 and a locking piece 62, in this embodiment, the sleeve 61 is a cylinder with a thread protrusion on the inner side wall, the cylinder is perpendicularly welded on the end wall of the piston rod of the driving member 32 facing the extension plate 31, the locking piece 62 is a bolt, and the rod body of the locking piece 62 can be screwed in the inner cavity of the sleeve 61.

Referring to fig. 4, an adaptation hole 511 is penetratingly formed at a top wall of the adaptation plate 51 in a thickness direction thereof, and a settling tank 512 is formed at the top wall of the adaptation plate 51 around an outer circumference of the adaptation hole 511. When attaching plate 51 is placed on the piston rod of driving piece 32 along the horizontal direction, extend a section of thick bamboo and support into adaptation hole 511 inner chamber, and extend bobbin roof and inner bottom wall in subsidence groove 512 and be in coplane state, but the body of rod screw thread of locking piece 62 is in a section of thick bamboo 61 inner chamber of cup jointing, and the end of locking piece 62 can support into subsidence groove 512 inner chamber, and the end of locking piece 62 supports socket 61 and attaching plate 51 simultaneously, and then so that attaching plate 51 and driving piece 32's piston rod fixed connection.

Referring to fig. 4, the top wall of the attachment plate 51 is provided with a number of engaging holes 513 along the thickness direction, the number of the fixing rods 52 is equal to the number of the fixing rods 52, the fixing rods 52 can pass through the engaging holes 513, and when the top wall of the attachment plate 51 abuts against the bottom wall of the receiving plate 21, the fixing nuts 53 can be screwed on the outer edges of the fixing rods 52, so that the attachment plate 51 is fixedly connected with the receiving plate 21. At this time, the driving member 32 can make its piston rod extend and contract by doing work, so as to make the extension plate 31 move up and down in the side hole 12 along the longitudinal direction, and accordingly, the receiving plate 21 is lifted up and down by a certain height in the drying box 1.

Referring to fig. 4, in the present embodiment, the air blowing member 22 is a fan with an electric motor, and the heat conductive member 23 is an electrothermal fin. The top wall of the receiving plate 21 is penetrated through preset holes 15 equal to the number of the air blowing pieces 22 in the thickness direction, and the air blowing pieces 22 are fixed in the preset holes 15 by screws.

Referring to fig. 4 and 5, the heat conduction member 23 is located below the bearing plate 21, and a connection assembly 7 is jointly disposed between the heat conduction member 23 and the bearing plate 21, wherein the connection assembly 7 includes a top connection rod 71 and a fixed ring plate 72. The top connecting rod 71 is vertically welded to the top wall of the guide member, a limiting groove 711 is formed in the outer side wall of the top connecting rod 71, a tightening component 8 is arranged on the outer edge of the top connecting rod 71, and the tightening component 8 is located below the limiting groove 711.

Referring to fig. 4, the fastening assembly 8 includes a mounting enclosure 81, an elastic member 82 and a fixing member 83. In this embodiment, the mounting enclosure 81 is a square plate with a through hole on the top wall, the elastic member 82 is a compression spring, and the fixing member 83 is a bolt. The elastic element 82 is vertically welded to the top wall of the mounting enclosing plate 81, the elastic element 82 is disposed around the periphery of the through hole of the mounting enclosing plate 81, and when the mounting enclosing plate 81 is sleeved on the outer edge of the top connecting rod 71 through the through hole, the elastic element 82 is also sleeved on the outer edge of the top connecting rod 71. The bottom wall of the mounting enclosing plate 81 abuts against the top wall of the heat conducting member 23, and the rod body of the fixing member 83 can penetrate through the mounting enclosing plate 81 and be screwed in a preset thread groove of the top wall of the heat conducting member 23, so that the mounting enclosing plate 81 is fixed on the top wall of the heat conducting member 23.

Referring to fig. 4 and 5, through holes 213 equal to the number of the top rods 71 are formed through the top wall of the receiving plate 21 along the thickness direction, the top rods 71 can pass through the through holes 213, and the limiting grooves 711 are located above the receiving plate 21, at this time, one end of the elastic element 82 away from the mounting enclosure plate 81 abuts against the bottom wall of the receiving plate 21, and the elastic element 82 is in a compressed state.

Referring to fig. 5, the fixing ring plate 72 is rotatably disposed on the top wall of the receiving plate 21 by a pin, and one end of the fixing ring plate 72 can be pushed into the inner cavity of the limiting groove 711, so as to limit the position of the top connecting rod 71 in the through hole 213 and ensure the position stability of the heat conducting member 23 below the receiving plate 21. One end of the fixing ring plate 72 is provided with a relief plane 721, and the relief plane 721 can make the fixing ring plate 72 separate from the guide slot 921, so that the butting rod 71 can slide relative to the through hole 213.

Referring to fig. 4, the heat conducting member 23 can emit high-temperature heat waves after being electrified, the air conducting member blows air downwards through rotation, the blown normal-temperature air flow is changed into high-temperature air flow after passing through a high-temperature heat wave area, the high-temperature air flow can dry the cloth through environment temperature rise while air drying the outer surface of the cloth, and then the drying efficiency of the dye on the cloth is accelerated.

Referring to fig. 3, drying box 1 roof is provided with step groove 13 around operation hole 11 periphery, cup joints the inslot and is provided with lid plywood 14, and lid plywood 14 can shutoff operation hole 11 completely, and then reduces the outside loss of heat in drying box 1, ensures the high temperature in the drying box 1. A positioning assembly 9 is arranged between the cover plate 14 and the drying box body 1, and the positioning assembly 9 comprises an abutting strip 91 and a limiting block 92.

Referring to fig. 3, the abutting strips 91 are rotatably arranged on the top wall of the drying box body 1 through pins, the limit blocks 92 are welded on the top wall of the cover plate 14, and one end of each limit block 92 is provided with a guide groove 921. The rotatable butt strip 91 of operating personnel makes in its length direction's one end supports into guide way 921, and then in order to inject the position of lid plate 14 in step groove 13, reduces the phenomenon that lid plate 14 breaks away from step groove 13, ensures the drying efficiency of stoving subassembly 2 to the cloth.

The implementation principle of the efficient full-automatic anhydrous printing and dyeing equipment in the embodiment of the application is as follows: when the driving member 32 is in the standby state, the receiving plate 21 is at a lower position, and the heat conducting member 23 is closer to the top wall of the cloth. At this time, the air blowing member 22 blows a normal temperature air flow downward, and the heat conducting member 23 radiates a high temperature heat wave after being energized, so as to raise the temperature inside the drying cabinet 1. Meanwhile, the air flow blown by the blowing member 22 becomes a high-temperature air flow after passing through a high-temperature hot wave area, so that the specific area on the cloth is air-dried and heat-supplied in a concentrated manner, the drying speed of the local position of the cloth is increased, and the overall drying efficiency of the cloth is improved.

The driving member 32 is started to make the piston rod of the driving member extend outwards, at this time, the bearing plate 21 is lifted upwards by a certain height, the coverage of the airflow blown by the blowing member 22 on the cloth is wider, the drying area of the cloth in unit time is enlarged while the drying strength is ensured to dry the dye, and the drying efficiency of the drying assembly 2 on the cloth is further improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a full-automatic anhydrous printing and dyeing equipment of efficient, includes stoving box (1), its characterized in that: a drying assembly (2) is arranged in the drying box body (1), and the drying assembly (2) comprises a bearing plate (21), an air blowing piece (22) and a heat conducting piece (23); the top wall of the bearing plate (21) is provided with a plurality of preset holes (15) in a penetrating mode, the air blowing piece (22) is located in the preset holes (15), and the heat conducting piece (23) is located below the bearing plate (21); two ends of the bearing plate (21) in the length direction are respectively provided with a lifting component (3), and the lifting component (3) comprises an extension plate (31) and a driving piece (32); the extension plates (31) are positioned at two ends of the bearing plate (21) in the length direction, and side holes (12) which are convenient for the extension plates (31) to pass through and move up and down are arranged on the outer side wall of the drying box body (1) in a penetrating manner; the driving part (32) is located at two ends of the drying box body (1) in the length direction, and a piston rod of the driving part (32) is fixedly connected with the extension plate (31).

2. An efficient fully automatic waterless printing apparatus as defined in claim 1, further comprising: the top wall of the drying box body (1) is provided with an operation hole (11) in a penetrating mode, a step groove (13) is formed in the top wall of the drying box body (1) around the periphery of the operation hole (11), and a covering plate (14) used for blocking the operation hole (11) is arranged in the step groove (13).

3. An efficient fully automatic waterless printing apparatus as defined in claim 2, wherein: a positioning assembly (9) is arranged between the cover plate (14) and the drying box body (1), and the positioning assembly (9) comprises a butting strip (91) and a limiting block (92); butt strip (91) rotate to set up in stoving box (1) roof, stopper (92) are located lid board (14) roof, stopper (92) wherein one end is provided with guide way (921) that butt strip (91) of being convenient for supported into.

4. An efficient fully automatic waterless printing apparatus as defined in claim 1, further comprising: a connecting assembly (7) is arranged between the heat conducting piece (23) and the bearing plate (21), and the connecting assembly (7) comprises a top connecting rod (71) and a fixed ring plate (72); the top connecting rod (71) is positioned on the top wall of the bearing plate (21), and a through hole (213) which is convenient for the top connecting rod (71) to pass through is arranged on the top wall of the bearing plate (21) in a penetrating manner; the fixing ring plate (72) rotates and is arranged on the top wall of the bearing plate (21), a limiting groove (711) which is convenient for the fixing ring plate (72) to abut into is arranged on the outer side wall of the jacking rod (71), and a yielding plane (721) is arranged at one end of the fixing ring plate (72).

5. An efficient fully automatic waterless printing apparatus as defined in claim 4, wherein: the outer edge of the top connecting rod (71) is provided with a propping assembly (8), and the propping assembly (8) comprises an installation enclosing plate (81), an elastic part (82) and a fixing part (83); the elastic part (82) is located the installation bounding wall (81) roof, the pole (71) outer fringe is located in the top to installation bounding wall (81) cover, pole (71) outer fringe is located in the top to elastic part (82) cover, mounting (83) are used for fixed connection mounting panel and accept board (21).

6. An efficient fully automatic waterless printing apparatus as defined in claim 4, wherein: the top wall of the bearing plate (21) is provided with a plurality of containing grooves (211), and force applying rods (212) are arranged in the containing grooves (211).

7. An efficient fully automatic waterless printing apparatus as defined in claim 1, further comprising: a clamping component (4) is arranged between the extension plate (31) and the bearing plate (21), and the fixing component (5) comprises an end plate (41) and a clamping piece (42); the end plate (41) is located on the end wall of the extension plate (31) facing the bearing plate (21), and the clamping piece (42) is used for fixedly connecting the end plate (41) and the bearing plate (21).

8. An efficient fully automatic waterless printing apparatus as defined in claim 7, wherein: a fixing component (5) is arranged between the driving piece (32) and the extension plate (31), and the fixing component (5) comprises a laminating plate (51), a fixing rod (52) and a fixing nut (53); the dead lever (52) are located and accept board (21) diapire, laminating board (51) are located the piston rod of driving piece (32) and extend the one end of board (31) towards, laminating board (51) roof is run through and is provided with a plurality of joint holes (513) that are convenient for dead lever (52) to pass, fixation nut (53) screw-thread fit is in dead lever (52) outer fringe.

9. An efficient fully automatic waterless printing apparatus as defined in claim 8 wherein: a clamping assembly (6) is arranged between the laminating plate (51) and the piston rod of the driving piece (32), and the clamping assembly (6) comprises a sleeve joint barrel (61) and a locking piece (62); socket joint section of thick bamboo (61) are located the one end of the piston rod length direction of driving piece (32), laminating board (51) roof is run through and is provided with adaptation hole (511) that the socket joint section of thick bamboo (61) of being convenient for supported into, the body of rod screw-thread fit of locking piece (62) is in socket joint section of thick bamboo (61), laminating board (51) roof is provided with subsider (512) that the end of the locking piece (62) of being convenient for supported into around adaptation hole (511) periphery.