CN211054674U - Drying mechanism of printing machine - Google Patents

Abstract

The utility model discloses a drying mechanism of a printing machine, the structure of which comprises a joint rod, a hot gas generator, a conduction block, a conveying pipe, a heat dissipation plate, a fixed valve block, a joint pipe and a hot gas control block, when the hot gas generator conveys hot gas to the heat dissipation plate through the conduction block and the conveying pipe, the hot gas control block on the heat dissipation plate can detect the heat in the heat dissipation plate, when the temperature is too high, the heat is absorbed by the heat absorption block and comes to a sliding groove through a conduit rod to heat a thermal expansion medium in the sliding groove, so that the sliding block is pushed to move by expansion of the thermal expansion block, two aperture adjusting blocks are continuously close, thereby adjusting the aperture of heat energy conveying, reducing the heat energy conveying capacity, and through improving the structure of equipment, when the equipment is used, the heat energy flow in the drying mechanism can be automatically controlled, avoid the heat in the heating panel too much, cause the destruction to the fibre on the printed matter.

Description

Drying mechanism of printing machine

Technical Field

The utility model relates to a drying mechanism of printing machine belongs to printing machine equipment technical field.

Background

The drying mechanism of the printing machine equipment is one of accessories on the printing machine, and can convey heat energy to dry printed objects which are printed with ink and not completely dried, but the prior art still has the following defects:

when the drying mechanism of the printing machine equipment is used, heat energy transmission on the drying mechanism is usually quantitative, so that the heat dissipation plate is continuously subjected to quantitative heat energy transmission under the condition of long-time use, the temperature in the heat dissipation plate is continuously increased, and the phenomenon that the temperature is overhigh and fibers on printed articles are damaged is easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a drying mechanism of printing machine to prior art printing machine equipment drying mechanism of solution is when using, and heat energy transport on it often is quantitative supply, leads to it under long-time the use, and the continuous heat energy that receives the quota of heating panel is carried, leads to the continuous rising of temperature in it, thereby easily the high temperature appears, leads to the problem of destruction to the fibre on the printed matter.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a drying mechanism of printing machine, its structure includes joint pole, hot gas generator, conduction piece, conveyer pipe, heating panel, fixed valve piece, joint pipe, hot gas control piece, the right-hand member of joint pole welds with the left end of heating panel, the perpendicular welding in top of heating panel has the joint pipe, fixed valve piece and joint pipe structure as an organic whole, hot gas control piece and the left end of heating panel structure as an organic whole, hot gas control piece includes the sliding tray, links up push rod, shell, fixture block, bore regulating block, circulation passageway, export, heat absorption piece, pipe pole, sliding block, the top of sliding tray welds with the top in the shell mutually, it is structure as an organic whole to link up push rod and sliding block, fixture block and shell structure as an organic whole, the perpendicular welding in the middle part of the top of bore regulating block has linked up the push rod, circulation passageway and shell structure as an organic whole, the outlet is arranged at the right end of the shell, the left end of the heat absorption block is welded with the right end of the pipe rod, the pipe rod is horizontally welded at the right end of the sliding groove, the sliding block is horizontally embedded in the sliding groove, the caliber adjusting block is arranged on the circulation channel, and the shell and the left end of the heat dissipation plate are of an integrated structure.

Furthermore, the right end of the conducting block is welded with the left end of the conveying pipe.

Further, the delivery pipe is located below the hot gas generator.

Furthermore, the bottom end of the hot gas generator and the conduction block are of an integrated structure.

Furthermore, the right end of the conveying pipe is welded with the left end of the hot air control block.

Further, the outlet is a circular hole with the diameter of 3cm and the thickness of 0.3 cm.

Furthermore, the connecting push rod is of a cylindrical structure with the diameter of 0.5cm and the height of 1 cm.

Advantageous effects

The utility model relates to a drying mechanism of a printing machine, which fixes the whole equipment on the printing machine through a connecting rod and a fixed valve block, so that the whole equipment can dry the printed product, when a hot gas generator conveys hot gas to a heat dissipation plate through a conduction block and a conveying pipe, a hot gas control block on the heat dissipation plate can detect the heat in the heat dissipation plate, when the temperature is too high, the heat is absorbed by a heat absorption block and enters a sliding groove through a conduit rod, a thermal expansion medium in the heat absorption block is heated, the thermal expansion medium expands to push the sliding block to move, two aperture adjusting blocks are continuously close to each other, thereby adjusting the aperture of the heat energy conveying, reducing the heat energy conveying capacity, and through improving the structure of the equipment, when the equipment is used, the heat energy flow in the drying mechanism can be automatically controlled, and the excessive heat in the heat dissipation plate is avoided, causing damage to the fibers on the printed article.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a drying mechanism of a printing machine according to the present invention;

FIG. 2 is a schematic cross-sectional detail structure diagram of the right view of the hot gas control block of the present invention;

fig. 3 is a schematic cross-sectional detailed structure diagram of the hot gas control block after the operation of the right view of the present invention.

In the figure: the device comprises an engagement rod-1, a hot gas generator-2, a conduction block-3, a conveying pipe-4, a heat dissipation plate-5, a fixed valve block-6, an engagement pipe-7, a hot gas control block-8, a sliding groove-8A, an engagement push rod-8B, a shell-8C, a clamping block-8D, a caliber adjusting block-8E, a circulation channel-8F, an outlet-8G, a heat absorption block-8H, a conduit rod-8I and a sliding block-8J.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1, fig. 2 and fig. 3, the present invention provides a technical solution of a drying mechanism of a printing machine: the structure of the device comprises a joint rod 1, a hot gas generator 2, a conduction block 3, a conveying pipe 4, a heat dissipation plate 5, a fixed valve block 6, a joint pipe 7 and a hot gas control block 8, wherein the right end of the joint rod 1 is welded with the left end of the heat dissipation plate 5, the top end of the heat dissipation plate 5 is vertically welded with the joint pipe 7, the fixed valve block 6 and the joint pipe 7 are of an integrated structure, the hot gas control block 8 and the left end of the heat dissipation plate 5 are of an integrated structure, the hot gas control block 8 comprises a sliding groove 8A, a joint push rod 8B, a shell 8C, a clamping block 8D, an aperture adjusting block 8E, a circulation channel 8F, an outlet 8G, a heat absorption block 8H, a conduit rod 8I and a sliding block 8J, the top end of the sliding groove 8A is welded with the top end in the shell 8C, the joint push rod 8B and the sliding block 8J are, the middle part of the top end of the caliber adjusting block 8E is vertically welded with a connecting push rod 8B, the circulation channel 8F and the shell 8C are of an integrated structure, the outlet 8G is arranged at the right end of the shell 8C, the left end of the heat absorption block 8H is welded with the right end of a conduit rod 8I, the conduit rod 8I is horizontally welded on the right end of a sliding groove 8A, a sliding block 8J is horizontally embedded on the sliding groove 8A, the caliber adjusting block 8E is arranged on the circulation channel 8F, the shell 8C and the left end of a heat dissipation plate 5 are of an integrated structure, the right end of the conduction block 3 is welded with the left end of the conveying pipe 4, the conveying pipe 4 is positioned below the hot gas generator 2, the bottom end of the hot gas generator 2 and the conduction block 3 are of an integrated structure, the right end of the conveying pipe 4 is welded with the left end of the hot gas control block 8, the outlet 8G is, the thickness is 0.3cm, the connection push rod 8B is a cylindrical structure with the diameter of 0.5cm and the height of 1 cm.

For example, when a printer King worker installs the drying mechanism, the whole device is fixed on a printing machine through the connecting rod 1 and the fixed valve block 6 to dry a printed product, when the hot gas generator 2 conveys hot gas to the heat dissipation plate 5 through the conduction block 3 and the conveying pipe 4, the hot gas control block 8 on the heat dissipation plate 5 can detect the heat in the heat dissipation plate 5, when the temperature is too high, the heat is absorbed by the heat absorption block 8H and enters the sliding groove 8A through the pipe rod 8I to heat a thermal expansion medium in the sliding groove, so that the thermal expansion medium expands to push the sliding block 8J to move, the two aperture adjusting blocks 8E are continuously close to each other, the aperture of heat energy conveying is adjusted, and the heat energy conveying amount is reduced.

The utility model solves the problems that when the drying mechanism of the printing machine equipment in the prior art is used, the heat energy transmission on the drying mechanism is always quantitative supply, and the heating panel is continuously conveyed by the rated heat energy under the long-time use, so that the temperature in the heating panel is continuously increased, and the fiber on the printed matter is easily damaged due to overhigh temperature, through the mutual combination of the parts, the drying mechanism of the printing machine fixes the whole equipment on the printing machine through the connecting rod 1 and the fixed valve block 6, so that the printed product is dried, when the hot gas generator 2 conveys the hot gas to the heating panel 5 through the conduction block 3 and the conveying pipe 4, the hot gas control block 8 on the heating panel 5 can detect the heat in the heating panel 5, and when the temperature is overhigh, the heat is absorbed through the heat absorption block 8H, on coming to sliding tray 8A through pipe pole 8I, heat the thermal energy medium in it, make its inflation promote sliding block 8J to remove, make two continuous being close to of aperture regulating block 8E, thereby adjust the bore of carrying heat energy, reduce the heat energy transport volume, through improve equipment's structure, make equipment when using, can control the heat energy flow in the stoving mechanism automatically, avoid the heat in the heating panel too much, cause the destruction to the fibre on the printed matter.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a stoving mechanism of printing machine, its structure includes joint pole (1), hot gas generator (2), conduction block (3), conveyer pipe (4), heating panel (5), standing valve piece (6), joint pipe (7), steam control piece (8), its characterized in that:

the right-hand member of joining pole (1) welds with the left end of heating panel (5), the bottom and the conduction piece (3) of hot gas generator (2) are integrated structure, the right-hand member of conveyer pipe (4) welds with the left end of steam control piece (8), the perpendicular welding in top of heating panel (5) has joining pipe (7), fixed valve piece (6) and joining pipe (7) are integrated structure, steam control piece (8) and the left end of heating panel (5) are integrated structure, steam control piece (8) include sliding tray (8A), join push rod (8B), shell (8C), fixture block (8D), bore regulating block (8E), circulation passageway (8F), export (8G), heat absorption block (8H), pipe pole (8I), sliding block (8J), the top of sliding tray (8A) welds with the top in the shell (8C), the connecting push rod (8B) and the sliding block (8J) are of an integrated structure, the clamping block (8D) and the shell (8C) are of an integrated structure, the connecting push rod (8B) is perpendicularly welded in the middle of the top end of the caliber adjusting block (8E), the circulating channel (8F) and the shell (8C) are of an integrated structure, the outlet (8G) is arranged at the right end of the shell (8C), the left end of the heat absorbing block (8H) is welded with the right end of the guide pipe rod (8I), the guide pipe rod (8I) is horizontally welded to the right end of the sliding groove (8A), the sliding block (8J) is horizontally embedded into the sliding groove (8A), the caliber adjusting block (8E) is arranged on the circulating channel (8F), and the shell (8C) and the left end of the heat dissipation plate (5) are of an integrated structure.

2. The drying mechanism of a printing press according to claim 1, wherein: the right end of the conduction block (3) is welded with the left end of the conveying pipe (4), and the conveying pipe (4) is located below the hot gas generator (2).

3. The drying mechanism of a printing press according to claim 1, wherein: the outlet (8G) is a round hole with the diameter of 3cm and the thickness of 0.3 cm.

4. The drying mechanism of a printing press according to claim 1, wherein: the connecting push rod (8B) is of a cylindrical structure with the diameter of 0.5cm and the height of 1 cm.

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