CN218915827U - Heat supply and air distribution system of efficient multilayer printed matter dryer - Google Patents

Abstract

The utility model relates to the technical field of a heat supply and air distribution system of a printed matter dryer, in particular to a heat supply and air distribution system of a high-efficiency multilayer printed matter dryer. The utility model has the advantages that: can be when entering into multilayer printed matter dryer's inside to the printed matter and carry out the stoving operation, can carry out the opening of multilayer printed matter dryer's both sides and close to a certain extent, thereby reduce the quick loss of multilayer printed matter dryer inside heat, thereby make the temperature at multilayer printed matter dryer top heat up and carry out the stoving operation, thereby make multilayer printed matter dryer's drying efficiency more high-efficient, through the cooperation between link plate, the motor, the pivot, flabellum and the heater strip, can carry out quick heating operation to the temperature at multilayer printed matter dryer top and reduce the time of stoving.

Description

Heat supply and air distribution system of efficient multilayer printed matter dryer

Technical Field

The utility model relates to the technical field of a heat supply and air distribution system of a printed matter dryer, in particular to a heat supply and air distribution system of a high-efficiency multilayer printed matter dryer.

Background

The dryer heat supply and air distribution system refers to a system for drying products through hot air, printed matters, books and newspapers printed, pictures and the like. The printing machine is a general name of various printed products, and a heat supply and air distribution system of a dryer is needed when the printed products are dried.

The utility model discloses a heat supply and air distribution system of a multilayer green printed matter dryer, and relates to the technical field of heat supply and air distribution systems of printed matter dryers, wherein the heat supply and air distribution system is disclosed in the Chinese patent application number CN 202021703193.4. The heat supply and wind distribution system of the multilayer green printed matter dryer comprises the multilayer green printed matter dryer, wherein the right side of the multilayer green printed matter dryer is provided with a first rectangular groove, the right side of the multilayer green printed matter dryer is provided with a second rectangular groove, but the device still has some defects in the using process, and when the printed matter is dried, the two sides of the dryer are open, so that part of heat in the dryer is dissipated, and the drying efficiency is affected.

Disclosure of Invention

The object of the present utility model is to solve at least one of the technical drawbacks.

Therefore, an object of the present utility model is to provide a heat and air supplying and distributing system of a high-efficiency multi-layer printed matter dryer, so as to solve the problems mentioned in the background art and overcome the defects in the prior art.

In order to achieve the above object, an embodiment of an aspect of the present utility model provides a heat supply and wind distribution system of a high-efficiency multilayer printed matter dryer, including a multilayer printed matter dryer and an air cylinder, one side of the multilayer printed matter dryer is provided with a slide way, one side of the slide way is fixedly provided with an inductive switch, one end of an output shaft of the air cylinder is fixedly provided with a lifting plate, one side of the lifting plate is fixedly provided with a first sealing door and a second sealing door, one side of the second sealing door is fixedly provided with a sliding block, and the inside of the second sealing door is provided with a heating wire and an auxiliary drying device, and the technical effects achieved by adopting the above scheme are that: through putting the printed matter on the conveyer belt of multilayer printed matter drying apparatus, then cylinder operation drives the lifter plate and carries out the operation that descends, then the decline of lifter plate makes first sealing door and second sealed the operation that descends, when reaching certain altitude, slider and slide bottom's inductive switch contact, thereby to multilayer printed matter drying apparatus both sides are sealed to a certain extent, thereby can effectively prevent thermal loss, drive the pivot through motor operation and rotate, then the rotation of pivot makes the flabellum rotate, wind gets into then carries out the heating operation through the heater strip from the air intake, thereby blow to multilayer printed matter drying apparatus's upper strata and carry out quick intensification operation, thereby reduce the time of stoving, improve the efficiency of stoving.

By the preferred quantity of arbitrary scheme described above, inductive switch is two, two inductive switch symmetric distribution is in the top and the bottom of slide, the quantity of slide is four, four slide symmetric distribution is in multilayer printed matter drying apparatus's both sides, adopts the technical effect that above-mentioned scheme reached to be: the first sealing door and the second sealing door can be lifted or lowered to a certain degree through the induction type switch to stop operation.

By the preferred mode of arbitrary scheme, the shape of slider is the same with the shape of slide, the inner wall sliding connection of slide has the slider, the quantity of slider is two, two slider symmetric distribution is in one side of first sealed and second sealing door, adopts the technical effect that above-mentioned scheme reached: the sliding block slides on the inner wall of the slideway, so that the sliding of the first sealing door and the second sealing door can be guided on one hand, and the first sealing door and the second sealing door can be contacted with the inductive switch to stop working on the other hand.

By the preferred in above-mentioned arbitrary scheme, the second sealing door includes door plant, mount pad and mounting groove, one side fixedly connected with mount pad of door plant, one side that the mount pad is close to the door plant is provided with the mounting groove, one side of mount pad is provided with the air intake, adopts the technical effect that above-mentioned scheme reached to be: the auxiliary drying device can perform positive-yield heating and drying operation through the mounting seat and the mounting groove.

By the preferred of above-mentioned arbitrary scheme, auxiliary drying device includes even board, motor, pivot and flabellum, the inner wall fixed mounting of mounting groove has even board, even one side fixed mounting of board has the motor, one side of motor has the pivot through shaft coupling fixed mounting, the one end fixed mounting of pivot has the flabellum, adopts the technical effect that above-mentioned scheme reached to be: the rotating shaft is driven to rotate through motor operation, then the fan blades rotate through rotation of the rotating shaft, wind enters from the air inlet and then is heated through the heating wire, so that the wind blows to the upper layer of the multilayer printed matter dryer to carry out rapid heating operation, drying time is shortened, and drying efficiency is improved.

By the preferred of above-mentioned arbitrary scheme, the pivot pierces through the link plate, the motor is located one side of air intake, the quantity of motor is three, and three the motor equidistance distributes in one side of link plate, adopts the technical effect that above-mentioned scheme reached to be: the rotating shaft is driven to rotate through motor operation, then the fan blades rotate through rotation of the rotating shaft, wind enters from the air inlet and then is heated through the heating wire, so that the wind blows to the upper layer of the multilayer printed matter dryer to carry out rapid heating operation, drying time is shortened, and drying efficiency is improved.

By the preferred of above-mentioned arbitrary scheme, the inner wall fixed mounting of mounting groove has the heater strip, the heater strip is located one side of flabellum, the top fixedly connected with mounting panel of multilayer printed matter drying-machine, the top fixed mounting of mounting panel has the cylinder, adopts the technical effect that above-mentioned scheme reached to be: the fan blade can be heated by the heating wire.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

1. this high-efficient multilayer printed matter drying apparatus heat supply divides wind system, through the cooperation between cylinder, lifter plate, first sealing door, second sealing door, slide, inductive switch and the slider, can be when entering into multilayer printed matter drying apparatus's inside to the printed matter and carry out the stoving operation, can carry out the opening of multilayer printed matter drying apparatus's both sides and close to a certain extent, thereby reduce the quick loss of the inside thermal of multilayer printed matter drying apparatus can be reduced to open-ended size, thereby the intensification that makes multilayer printed matter drying apparatus top can be quick carries out the stoving operation, thereby it is more efficient to make multilayer printed matter drying apparatus's drying efficiency.

2. This high-efficient multilayer printed matter drying apparatus heat supply divides wind system through the cooperation between link plate, motor, pivot, flabellum and the heater strip, can descend the back at the second sealing door, can carry out quick intensification operation to the temperature at multilayer printed matter drying apparatus top through motor and heater strip to reduce the time of stoving, improve the efficiency of stoving.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic side sectional view of a first embodiment of the present utility model;

FIG. 3 is a schematic view of the structure at A according to the first embodiment of the present utility model;

FIG. 4 is a schematic cross-sectional view of a first embodiment of the present utility model;

fig. 5 is a schematic diagram of a structure at B according to a first embodiment of the present utility model.

Wherein: 1-multilayer printed matter dryer, 2-mounting plate, 3-cylinder, 4-lifter plate, 5-first sealing door, 6-second sealing door, 601-door plant, 602-mount pad, 603-mounting groove, 7-slide, 8-inductive switch, 9-slider, 10-auxiliary drying device, 1001-link plate, 1002-motor, 1003-pivot, 1004-flabellum, 11-heater strip, 12-air intake.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings, but the scope of the present utility model is not limited to the following.

Embodiment one: as shown in fig. 1 to 5, the efficient multi-layer printed matter dryer heat supply wind distribution system comprises a multi-layer printed matter dryer 1 and a cylinder 3, wherein a slide way 7 is arranged on one side of the multi-layer printed matter dryer 1, an inductive switch 8 is fixedly arranged on one side of the slide way 7, a lifting plate 4 is fixedly arranged at one end of an output shaft of the cylinder 3, a first sealing door 5 and a second sealing door 6 are fixedly arranged on one side of the lifting plate 4, a sliding block 9 is fixedly arranged on one side of the second sealing door 6, a heating wire 11 and an auxiliary drying device 10 are arranged in the second sealing door 6, a printed matter is placed on a conveyor belt of the multi-layer printed matter dryer 1, then the cylinder 3 operates to drive the lifting plate 4 to conduct descending operation, then the descending operation of the lifting plate 4 enables the first sealing door 5 and the second sealing 6 to conduct descending operation, when a certain height is reached, the sliding block 9 is in contact with the inductive switch 8 at the bottom of the slide way, accordingly, two sides of the multi-layer printed matter dryer 1 are sealed to a certain extent, loss of heat can be effectively prevented, the motor 1002 is used to drive the rotating shaft 1003 to rotate, then 1003 is rotated, the fan blades 12 is enabled to rotate, the fan blades 11 are enabled to enter the air inlet to rotate, the drying operation is fast, the drying operation is shortened, the drying operation is carried out, and the drying time is shortened, and the drying operation is carried out, and the drying time is shortened.

As an alternative technical scheme of the utility model, the number of the induction type switches 8 is two, the two induction type switches 8 are symmetrically distributed at the top and the bottom of the slide ways 7, the number of the slide ways 7 is four, the four slide ways 7 are symmetrically distributed at two sides of the multilayer printed matter dryer 1, and the operation can be stopped when the first sealing door 5 and the second sealing door 6 ascend or descend to a certain degree through the induction type switches 8.

As an alternative technical scheme of the utility model, the shape of the sliding block 9 is the same as that of the sliding way 7, the sliding blocks 9 are slidably connected to the inner wall of the sliding way 7, the number of the sliding blocks 9 is two, the two sliding blocks 9 are symmetrically distributed on one side of the first sealing door 5 and one side of the second sealing door 6, and the sliding blocks 9 slide on the inner wall of the sliding way 7, so that on one hand, the sliding of the first sealing door 5 and the second sealing door 6 can be guided, and on the other hand, the sliding blocks can be contacted with the inductive switch 8 to stop the operation of the first sealing door 5 and the second sealing door 6.

As an alternative technical scheme of the utility model, the second sealing door 6 comprises a door plate 601, a mounting seat 602 and a mounting groove 603, wherein the mounting seat 602 is fixedly connected to one side of the door plate 601, the mounting groove 603 is arranged on one side of the mounting seat 602 close to the door plate 601, the air inlet 12 is arranged on one side of the mounting seat 602, and the auxiliary drying device 10 can perform positive-yield heating and drying operation through the mounting seat 602 and the mounting groove 603.

As an alternative technical scheme of the present utility model, the auxiliary drying device 10 includes a connection plate 1001, a motor 1002, a rotating shaft 1003 and fan blades 1004, the connection plate 1001 is fixedly installed on the inner wall of the installation groove 603, the motor 1002 is fixedly installed on one side of the connection plate 1001, the rotating shaft 1003 is fixedly installed on one side of the motor 1002 through a coupling, the fan blades 1004 are fixedly installed on one end of the rotating shaft 1003, the rotating shaft 1003 is driven to rotate through the operation of the motor 1002, then the fan blades 1004 are rotated through the rotation of the rotating shaft 1003, wind enters from the air inlet 12 and then is heated through the heating wire 11, and thus the wind is blown to the upper layer of the multilayer printed matter dryer 1 to perform rapid heating operation, thereby shortening the drying time and improving the drying efficiency.

As an alternative technical scheme of the utility model, the rotating shaft 1003 penetrates through the connecting plate 1001, the motor 1002 is positioned at one side of the air inlet 12, the number of the motors 1002 is three, the three motors 1002 are equidistantly distributed at one side of the connecting plate 1001, the rotating shaft 1003 is driven to rotate by the operation of the motors 1002, then the fan blades 1004 are rotated by the rotation of the rotating shaft 1003, and air enters from the air inlet 12 and then passes through the heating wire 11 to perform heating operation, so that the air is blown to the upper layer of the multilayer printed matter dryer 1 to perform rapid heating operation, drying time is shortened, and drying efficiency is improved.

As an alternative technical scheme of the utility model, the inner wall of the installation groove 603 is fixedly provided with the heating wire 11, the heating wire 11 is positioned on one side of the fan blade 1004, the top of the multilayer printed matter dryer 1 is fixedly connected with the installation plate 2, the top of the installation plate 2 is fixedly provided with the air cylinder 3, and the heating wire 11 can heat the wind blown by the fan blade 1004.

The heat supply and air distribution system of the high-efficiency multilayer printed matter dryer has the following working principle: through putting the printed matter on the conveyer belt of multilayer printed matter dryer 1, then cylinder 3 operation drives lifter plate 4 and carries out the decline operation, then lifter plate 4's decline makes first sealing door 5 and second sealing 6 carry out the decline operation, slider 9 and the inductive switch 8 of slide 7 bottom contact when reaching certain height, thereby make the opening leave certain space to the closure of multilayer printed matter dryer 1 both sides to a certain extent, thereby can effectively prevent quick loss of heat, drive pivot 1003 through motor 1002 operation and rotate, then the rotation of pivot 1003 makes flabellum 1004 rotate, the wind gets into from air intake 12 then carries out the heating operation through heater wire 11, thereby blow to the upper strata of multilayer printed matter dryer 1 and carry out quick intensification operation, thereby reduce the time of stoving, improve the efficiency of stoving.

To sum up, this high-efficient multilayer printed matter dryer heat supply divides wind system, through the cooperation between cylinder 3, lifter plate 4, first sealing door 5, second sealing door 6, slide 7, between inductive switch 8 and the slider 9, can be when entering into multilayer printed matter dryer 1's inside and carry out the stoving operation to the printed matter, can carry out the opening of the both sides of multilayer printed matter dryer 1 and close to a certain extent and make the opening keep certain space, reduce the open-ended size and consequently can reduce multilayer printed matter dryer 1 inside thermal dissipation, thereby make the temperature at multilayer printed matter dryer 1 top heat up carry out the stoving operation, thereby make multilayer printed matter dryer 1's drying efficiency more high-efficient, through the cooperation between link plate 1001, motor 1002, pivot 1003, flabellum 1004 and heater strip 11, can carry out quick heating operation to multilayer printed matter dryer 1 top's temperature through motor 1002 and heater strip 11 after second sealing door 6 descends, thereby reduce the time of stoving, the efficiency of drying is improved.

In the second embodiment, the heat supply and air distribution system of the efficient multilayer printed matter dryer is provided with the auxiliary drying device 10 in the first sealing door 5 on the basis of the above embodiment, so that the temperature of the top of the multilayer printed matter dryer 1 can be more efficiently and rapidly increased.

Claims (7)

1. The utility model provides a high-efficient multilayer printed matter drying apparatus heat supply divides wind system, includes multilayer printed matter drying apparatus (1) and cylinder (3), its characterized in that: one side of multilayer printed matter dryer (1) is provided with slide (7), one side fixed mounting of slide (7) has inductive switch (8), one end fixed mounting of cylinder (3) output shaft has lifter plate (4), one side fixed mounting of lifter plate (4) has first sealing door (5) and second sealing door (6), one side fixed mounting of second sealing door (6) has slider (9), the inside of second sealing door (6) is provided with heater strip (11) and auxiliary drying device (10).

2. The efficient multi-layer print dryer hot air distribution system of claim 1, wherein: the number of the induction type switches (8) is two, the two induction type switches (8) are symmetrically distributed at the top and the bottom of the slide ways (7), the number of the slide ways (7) is four, and the four slide ways (7) are symmetrically distributed at the two sides of the multilayer printed matter dryer (1).

3. The efficient multi-layered print dryer hot air distribution system of claim 2, wherein: the shape of the sliding blocks (9) is the same as that of the sliding ways (7), the sliding blocks (9) are connected to the inner wall of the sliding ways (7) in a sliding mode, the number of the sliding blocks (9) is two, and the two sliding blocks (9) are symmetrically distributed on one sides of the first sealing door (5) and the second sealing door (6).

4. A high efficiency multi-layer print dryer heating and air distribution system as set forth in claim 3 wherein: the second sealing door (6) comprises a door plate (601), a mounting seat (602) and a mounting groove (603), one side of the door plate (601) is fixedly connected with the mounting seat (602), one side, close to the door plate (601), of the mounting seat (602) is provided with the mounting groove (603), and one side of the mounting seat (602) is provided with an air inlet (12).

5. The high-efficiency multi-layer printed matter dryer heat supply and air distribution system as claimed in claim 4, wherein: the auxiliary drying device (10) comprises a connecting plate (1001), a motor (1002), a rotating shaft (1003) and fan blades (1004), wherein the connecting plate (1001) is fixedly arranged on the inner wall of the mounting groove (603), the motor (1002) is fixedly arranged on one side of the connecting plate (1001), the rotating shaft (1003) is fixedly arranged on one side of the motor (1002) through a coupler, and the fan blades (1004) are fixedly arranged at one end of the rotating shaft (1003).

6. The efficient multi-layer print dryer hot air distribution system of claim 5, wherein: the rotating shaft (1003) penetrates through the connecting plate (1001), the motors (1002) are located on one side of the air inlet (12), the number of the motors (1002) is three, and the three motors (1002) are equidistantly distributed on one side of the connecting plate (1001).

7. The efficient multi-layer print dryer hot air distribution system of claim 6, wherein: the inner wall fixed mounting of mounting groove (603) has heater strip (11), heater strip (11) are located one side of flabellum (1004), the top fixedly connected with mounting panel (2) of multilayer printed matter drying-machine (1), the top fixed mounting of mounting panel (2) has cylinder (3).

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