CN218702091U - Energy-saving digital printing drying device - Google Patents

Abstract

The utility model discloses an energy-saving digital printing drying device, which belongs to the technical field of digital printing, and comprises a base plate, an insulation can is arranged above the base plate, a plurality of roller assemblies are arranged at the top of the inner side of the insulation can, a drying and conveying assembly is arranged at the position of the insulation can, which is positioned below the plurality of roller assemblies, a feeding plate is arranged at one side of the insulation can, a feeding hole is arranged at the position of the insulation can, which is positioned at one side of the feeding plate close to the insulation can, a discharging plate is arranged at one side of the insulation can, which is far away from the feeding plate, a discharging hole is arranged at the position of the discharging plate, which is positioned at one side of the insulation can, on the insulation can, a discharging hole is arranged at the position of the discharging plate close to one side of the insulation can, and the feeding plate, the discharging plate and the base plate are connected through a sealing device; the utility model discloses a set up closing device for the device can seal feed inlet and discharge gate through two closing plates when needs, thereby has reduced the possibility that heat runs off and impurity gets into the insulation can, and then has improved the practicality of device.

Description

Energy-saving digital printing drying device

Technical Field

The utility model belongs to the technical field of digital printing, concretely relates to energy-conserving digital printing drying device.

Background

Digital printing is the digitization of printing technology. Generally refers to the digitization of part or all of the overall process. For example: laser typesetting, remote plate transmission, digital proofing, computer-to-plate, digital work flow, printing factory ERP and the like belong to the category of digital printing.

Chinese patent application No. 202021571091.1 discloses an energy-saving and environment-friendly drying device for a digital printing machine, which comprises a bottom plate, a drying structure and a conveying structure; a bottom plate: the upper surface of the base plate is provided with a heat insulation box, the front side edge of the upper surface of the base plate is provided with a motor supporting block, the top of the motor supporting block is provided with a rotating motor, a discharge plate is arranged at a discharge port on the left side wall of the heat insulation box, and a feeding plate is arranged at a feed port on the right side wall of the heat insulation box; the drying structure is as follows: is arranged inside the heat preservation box; a transmission structure: the drying structure is arranged in the heat insulation box, the rear end of an output shaft of the rotating motor is fixedly connected with the conveying structure, and the drying structure is respectively positioned at the middle part and the lower end of the conveying structure; wherein: still include the PLC controller, the upper surface front side edge of insulation can is equipped with the PLC controller, and this energy-concerving and environment-protective drying device of digital printing machine can carry out omnidirectional drying process to the paper, improves drying efficiency, can also carry out appropriate spacing to the paper, and intermittent type nature's control electrical apparatus is of value to energy-conservingly.

1. The above-mentioned patent has the problem that the discharge port and the feed port can not be closed when needed, so that heat loss and impurities entering the insulation can are easily caused, and the practicability of the device is reduced; 2. the above-mentioned patent publication has the easy overheated problem of paper after the drying to influence staff's taking easily, and then reduced the convenience of device.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides an energy-conserving digital printing drying device has characteristics that the practicality is high, the convenience is strong.

In order to achieve the above object, the utility model provides a following technical scheme: energy-conserving digital printing drying device, comprising a base plate, the insulation can is installed to the top of bottom plate, a plurality of wheel components are installed at the inboard top of insulation can, on the insulation can and be located a plurality of wheel components and install stoving conveying subassembly by the position of below, one side of insulation can is provided with the delivery sheet, on the insulation can and be located the position that the delivery sheet is close to insulation can one side and seted up the feed inlet, one side that the delivery sheet was kept away from to the insulation can is provided with out the flitch, on the insulation can and be located the position that the play flitch is close to insulation can one side and seted up the discharge gate, be connected through the closing device between delivery sheet and play flitch and the bottom plate, the top that goes out the flitch is provided with heat abstractor.

Preferably, the closing device comprises a closing plate, a moving frame, an electric telescopic rod and supporting frames, the two supporting frames are installed below the bottom plate, the electric telescopic rod is installed below the bottom plate and in a position between the two supporting frames, the closing plate is installed below the feeding plate and the discharging plate, the electric telescopic rod and the two closing plates are connected through the moving frame, and the moving frame is connected with the supporting frames in a sliding mode.

Preferably, the movable frame is designed into a U-shaped shape, and the heat preservation box and the sealing plate are tightly attached to each other.

Preferably, the heat abstractor includes screen panel, lifter plate, set casing, extension spring and fan, and the top of play flitch is provided with the screen panel, and the set casing is installed to the top of insulation can and the position that is located screen panel one side, and the lifter plate is installed to the position that just is located the set casing inboard on the screen panel, installs a plurality of extension springs between the interior top surface of set casing and the outer top surface of lifter plate, and a plurality of fans are installed to the top of screen panel.

Preferably, the heat dissipation device further comprises a T-shaped groove and a T-shaped block, the T-shaped groove is formed in one side, away from the mesh enclosure, of the fixed shell and located on the lifting plate, and the T-shaped block is installed at the position, located on the inner side of the T-shaped groove, of the lifting plate.

Preferably, the heat dissipation device further comprises a separation net, and the separation net is installed on the inner side of the air inlet end of the fan.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up closing device for the device can seal feed inlet and discharge gate through two closing plates when needs, thereby has reduced the possibility that heat runs off and impurity gets into the insulation can, and then has improved the practicality of device.

2. The utility model discloses a set up heat abstractor for the device can carry out the work of dispelling the heat through the paper after the flow of air to the drying in needs, thereby has reduced the staff because of the higher inconvenient possibility of taking the paper of temperature, and then has improved the convenience of device.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of the closure of the present invention;

fig. 4 is a schematic structural view of the heat dissipation device of the present invention.

In the figure: 1. a base plate; 2. a closure device; 21. a closing plate; 22. a movable frame; 23. an electric telescopic rod; 24. a support frame; 3. a drying and conveying assembly; 4. a feeding plate; 5. a feed inlet; 6. a roller assembly; 7. a heat preservation box; 8. a heat sink; 81. a mesh enclosure; 82. a lifting plate; 83. a T-shaped groove; 84. a T-shaped block; 85. a stationary case; 86. an extension spring; 87. separating the net; 88. a fan; 9. a discharge plate; 10. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the present invention provides the following technical solutions: energy-conserving digital printing drying device, comprising a base plate 1, insulation can 7 is installed to bottom plate 1's top, a plurality of wheel components 6 are installed at insulation can 7's inboard top, last and being located a plurality of wheel components 6 and installing stoving conveying subassembly 3 by the position of below, one side of insulation can 7 is provided with delivery sheet 4, last and being located delivery sheet 4 and having offered feed inlet 5 near the position of insulation can 7 one side of insulation can 7, one side that insulation can 7 kept away from delivery sheet 4 is provided with ejection of compact board 9, last and being located the position that ejection of compact board 9 is close to insulation can 7 one side of insulation can and having offered discharge gate 10, be connected through closing device 2 between delivery sheet 4 and ejection of compact board 9 and the bottom plate 1, the top of ejection of compact board 9 is provided with heat abstractor 8.

Specifically, closing device 2 includes closing plate 21, removes frame 22, electric telescopic handle 23 and carriage 24, and two carriages 24 are installed to the below of bottom plate 1, and electric telescopic handle 23 is installed to the below of bottom plate 1 and the position that is located between two carriages 24, and closing plate 21 is all installed to the below of delivery sheet 4 and play flitch 9, connects through removing frame 22 between electric telescopic handle 23 and two closing plates 21, removes sliding connection between frame 22 and the carriage 24.

By adopting the technical scheme, the device can seal the feed inlet 5 and the discharge outlet 10 through the two sealing plates 21 when in need, thereby reducing the possibility of heat loss and impurities entering the heat insulation box 7.

Specifically, the movable frame 22 is designed to have a U-shaped outer shape, and the heat-insulating box 7 and the closing plate 21 are closely attached to each other.

By adopting the technical scheme, the normal work of the movable frame 22 and the normal matching between the heat preservation box 7 and the closing plate 21 are ensured.

When the device is used, when the device is needed, the drying and conveying assembly 3 is operated to properly dehumidify and filter the outside air, the outside air is sent into the heat preservation box 7, the gas inside the heat preservation box 7 is discharged from the discharge port 10 and the feed port 5, then the air supply is stopped, the electric telescopic rod 23 in the sealing device 2 is started, the electric telescopic rod 23 drives the moving frame 22 to ascend until the two sealing plates 21 seal the discharge port 10 and the feed port 5, so that the outside impurities are prevented from entering the heat preservation box 7, the drying and conveying assembly 3 performs energy-saving intermittent heating on the inside of the heat preservation box 7, the two sealing plates 21 can prevent heat from being lost from the discharge port 10 and the feed port 5, when the paper for digital printing needs to be dried, the electric telescopic rod 23 is started, so that the two sealing plates 21 and other structures are sent back to the original height, then the paper is sent into the heat preservation box 7 through the feed plate 4 and the feed port 5, the drying and conveying assembly 3 is operated to convey the paper, in the conveying process, the paper is dried, the paper is limited by the paper component 6, and then the paper is discharged onto the discharge port 9, and the roller frame 24 and the bottom plate 1 play a supporting role.

Example 2

The present embodiment is different from embodiment 1 in that: the heat dissipation device 8 comprises a mesh enclosure 81, a lifting plate 82, a fixed shell 85, an extension spring 86 and a fan 88, the mesh enclosure 81 is arranged above the discharge plate 9, the fixed shell 85 is arranged above the heat insulation box 7 and at the position on one side of the mesh enclosure 81, the lifting plate 82 is arranged on the mesh enclosure 81 and at the position on the inner side of the fixed shell 85, the extension springs 86 are arranged between the inner top surface of the fixed shell 85 and the outer top surface of the lifting plate 82, and the fan 88 is arranged above the mesh enclosure 81.

Through adopting above-mentioned technical scheme for the device can be when needs through the flow of air to the paper work of dispelling the heat after the drying, thereby has reduced the staff and has inconvenient possibility of taking the paper because of the temperature is higher.

Specifically, the heat dissipation device 8 further includes a T-shaped groove 83 and a T-shaped block 84, the T-shaped groove 83 is formed in the side, away from the mesh enclosure 81, of the fixed shell 85, which is located on the lifting plate 82, and the T-shaped block 84 is installed in the position, on the inner side of the T-shaped groove 83, of the lifting plate 82.

Through adopting above-mentioned technical scheme for the removal of lifter plate 82 can obtain certain direction and spacing.

Specifically, the heat dissipation device 8 further includes a separation net 87, and the separation net 87 is installed on the inner side of the air inlet end of the fan 88.

Through adopting above-mentioned technical scheme, prevent that impurity from getting into fan 88.

When the heat dissipation device is used in the embodiment, when the dried paper needs to be subjected to auxiliary heat dissipation, each fan 88 in the heat dissipation device 8 is started, each fan 88 blows air to the paper, so that the paper is cooled, and the separation net 87 plays a role in isolating impurities; when the paper needs to be prevented from being blown away in the heat dissipation process, the mesh enclosure 81 is pressed down to drive the lifting plate 82 and the T-shaped block 84 to descend along the T-shaped groove 83 in the fixed shell 85 against the force of the extension spring 86 until the mesh enclosure 81 covers the discharge plate 9 and the paper thereon, and then the fans 88 are started to blow and dissipate the heat.

The utility model discloses a middle bottom plate 1, by the stoving structure, the stoving conveying subassembly 3 that rotation axis and conveyer belt are constituteed, feed plate 4, wheel components 6 that is constituteed by gyro wheel and connecting rod, insulation can 7 and go up the structure and the principle of structure and play flitch 9 and have been disclosed in the energy-concerving and environment-protective drying device of the digital printing machine that chinese patent application No. 202021571091.1 discloses, its theory of operation is that when using, place bottom plate and top structure to the work area, later through the regulation and control of PLC controller, the air-blower operates, after properly dehumidifying and filtering the wind of external world through the air strainer, drum into the inside of insulation can, and discharge the gas of insulation can inside from discharge gate and feed inlet, later the air-blower stops to operate, the electric heating rod heats the gas of insulation can inside, hot-air escapes to the top by insulation can bottom, after the temperature of insulation can top reaches the stoving temperature requirement, the temperature sensor transmits a signal to the PLC controller for analysis, the electric heating rod stops heating through the regulation and control of the PLC controller, when the temperature at the top of the heat preservation box is lower than the drying temperature requirement, the temperature sensor transmits the signal to the PLC controller for analysis, the electric heating rod continues heating air through the regulation and control of the PLC controller, the electric heating rod is arranged at the middle part and the lower end of the conveyor belt and can indirectly transmit heat to the conveyor belt while heating the ambient air, paper drying is more favorable, the paper can be more comprehensively dried due to the fact that hot air mostly gathers at the top of the box body, intermittent heating is favorable for saving energy, when printing paper flows to the upper surface of the feeding plate, the paper is scratched to the feeding port of the heat preservation box under the action of gravity, the infrared sensor at the middle part of the right side face of the heat preservation box detects the movement of the paper and transmits the signal to the PLC controller for analysis, afterwards under motor support block's support, regulation and control through the PLC controller, the rotating electrical machines begins the operation, the output shaft of rotating electrical machines drives the rotation axis rotation on right side, rotation axis rotation drives conveyer belt and left rotation axis rotation, the conveyer belt drives the paper and moves the stoving to the left, the through-hole of conveyer belt upper surface is convenient for carry out drying process more comprehensively to the paper, improve drying efficiency, the inside relative paper of gyro wheel of connecting rod bottom U template rotates simultaneously, and then carried out the restriction to the position of paper when transporting, after the paper is gone out from insulation can left side discharge gate completely, paper stop motion, the infrared ray sensor on right side gives the PLC controller with the signal transfer who detects and carries out the analysis, regulation and control through the PLC controller, the rotating electrical machines stop operation, and then energy-conserving purpose has been reached.

The utility model discloses well electric telescopic handle 23's structure and principle have been disclosed in chinese patent application number 202123375009.5 a fabricated building supporting seat for among the building engineering, and its theory of operation is with electric energy conversion kinetic energy.

The utility model discloses a theory of operation and use flow: when the device is needed, the drying and conveying assembly 3 is operated to properly dehumidify and filter outside air, the air is sent into the heat preservation box 7, the air in the heat preservation box 7 is discharged from the discharge port 10 and the feed port 5, then air supply is stopped, the electric telescopic rod 23 in the sealing device 2 is started, the electric telescopic rod 23 drives the movable frame 22 to ascend until the two sealing plates 21 seal the discharge port 10 and the feed port 5, so that outside impurities are prevented from entering the heat preservation box 7, then the drying and conveying assembly 3 performs energy-saving intermittent heating on the interior of the heat preservation box 7, the two sealing plates 21 can prevent heat from being lost from the discharge port 10 and the feed port 5, when the digitally printed paper needs to be dried, the electric telescopic rod 23 is started, so that the two sealing plates 21 and other structures are sent back to the original height, then the paper is sent into the heat preservation box 7 through the feed plate 4 and the feed port 5, the drying and conveying assembly 3 is operated to convey the paper, the heat in the heat preservation box 7 dries the paper in the conveying process, the paper 6 limits the position of the paper, then the paper is discharged onto the discharge plate 9 through the discharge port 10, and the drying roller 1 plays a role of supporting frame; when the dried paper needs to be subjected to auxiliary heat dissipation, each fan 88 in the heat dissipation device 8 is started, each fan 88 blows air to the paper, so that the paper is dissipated, and the separation net 87 plays a role in isolating impurities; when the paper needs to be prevented from being blown away in the heat dissipation process, the mesh enclosure 81 is pressed down to drive the lifting plate 82 and the T-shaped block 84 to descend along the T-shaped groove 83 in the fixed shell 85 against the force of the extension spring 86 until the mesh enclosure 81 covers the discharge plate 9 and the paper thereon, and then the fans 88 are started to blow and dissipate the heat.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Energy-conserving digital printing drying device, including the bottom plate, its characterized in that: the insulation can is installed to the top of bottom plate, a plurality of wheel components are installed at the inboard top of insulation can, the stoving conveying subassembly is installed to the position that just is located a plurality of wheel components and leans on the below on the insulation can, one side of insulation can is provided with the delivery sheet, the feed inlet has been seted up to the position that just is located the delivery sheet and is close to insulation can one side on the insulation can, one side that the delivery sheet was kept away from to the insulation can is provided with out the flitch, the discharge gate has been seted up to the position that just is located out the flitch and is close to insulation can one side on the insulation can, be connected through closing device between delivery sheet and play flitch and the bottom plate, the top of going out the flitch is provided with heat abstractor.

2. The energy-saving digital printing dryer according to claim 1, wherein: the sealing device comprises a sealing plate, a moving frame, an electric telescopic rod and supporting frames, wherein the two supporting frames are installed below the bottom plate, the electric telescopic rod is installed below the bottom plate and in a position between the two supporting frames, the sealing plate is installed below the feeding plate and the discharging plate, the electric telescopic rod and the two sealing plates are connected through the moving frame, and the moving frame is in sliding connection with the supporting frames.

3. The energy-saving digital printing dryer according to claim 2, wherein: the movable frame is designed into a U-shaped shape, and the heat preservation box and the sealing plate are tightly attached to each other.

4. The energy-saving digital printing dryer according to claim 1, wherein: the heat dissipation device comprises a mesh enclosure, a lifting plate, a fixed shell, extension springs and fans, wherein the mesh enclosure is arranged above the discharge plate, the fixed shell is arranged above the heat insulation box and in the position on one side of the mesh enclosure, the lifting plate is arranged on the mesh enclosure and in the position on the inner side of the fixed shell, the extension springs are arranged between the inner top surface of the fixed shell and the outer top surface of the lifting plate, and the fans are arranged above the mesh enclosure.

5. The energy-saving digital printing and drying device according to claim 4, wherein: the heat dissipation device further comprises a T-shaped groove and a T-shaped block, the T-shaped groove is formed in one side, away from the mesh enclosure, of the lifting plate on the fixed shell, and the T-shaped block is installed at the position, located on the inner side of the T-shaped groove, of the lifting plate.

6. The energy-saving digital printing and drying device according to claim 4, wherein: the heat dissipation device further comprises a separation net, and the separation net is installed on the inner side of the air inlet end of the fan.

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