CN211075048U - Air-floating type screen printing product drying system - Google Patents
Air-floating type screen printing product drying system Download PDFInfo
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- CN211075048U CN211075048U CN201920770481.2U CN201920770481U CN211075048U CN 211075048 U CN211075048 U CN 211075048U CN 201920770481 U CN201920770481 U CN 201920770481U CN 211075048 U CN211075048 U CN 211075048U
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Abstract
An air-floating silk-screen printing product drying system comprises a working platform, a sealing cover rotationally connected with the working platform, a hot air supply pipe connected with the working platform, an air blower connected with the hot air supply pipe, a hot air supply unit located in the working platform and connected with the hot air supply pipe, two air outlet collecting boxes respectively arranged at two ends of the working platform, an exhaust pipe connected with the air outlet collecting boxes, an air suction unit arranged at the top of the sealing cover, a first position sensor arranged on the side surface of the air outlet collecting box facing the sealing cover and close to the bottom of the air outlet collecting boxes, a second position sensor arranged on the inner side wall of one end of the sealing cover and close to the top of the sealing cover, and a controller connected with the air blower, the air suction unit, the first position sensor and the second position sensor; one or more through holes are formed in the top of the sealing cover, the air suction unit penetrates through the through holes, and the air suction port of the air suction unit faces the working platform. Thus, the dynamic drying mode is adopted, the drying efficiency is high, and the drying time is shortened.
Description
Technical Field
The utility model relates to a plane printed matter preparation technical field, especially an air supporting formula screen printing article drying system.
Background
The plane presswork, like paper, weave etc. and can print through screen printing's mode, the plane presswork passes through screen printing machine printing back, needs to dry through drying device for the printing ink rapid draing of plane presswork can improve print quality like this. However, the screen-printed flat printed matter is not resistant to high temperature, and therefore cannot be dried in a high temperature environment. The traditional standing drying mode has low drying efficiency and needs long time consumption.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides an adopt dynamic drying mode, drying efficiency is high and reduce air supporting formula screen printing article drying system of drying time to solve above-mentioned problem.
An air-floating silk-screen printing product drying system comprises a working platform, a sealing cover rotationally connected with a first side of the working platform, a hot air supply pipe connected with the working platform, an air blower connected with the hot air supply pipe, a hot air supply unit positioned in the working platform and connected with the hot air supply pipe, two air outlet collecting boxes respectively arranged at two ends of the working platform, an exhaust pipe connected with the air outlet collecting boxes, an air suction unit arranged at the top of the sealing cover, a first position sensor arranged on the side surface of the air outlet collecting box facing the sealing cover and close to the bottom of the air outlet collecting boxes, a second position sensor arranged on the inner side wall of one end of the sealing cover and close to the top of the sealing cover, and a controller connected with the air blower, the air suction unit, the first position sensor and the second position sensor; one or more through holes are formed in the top of the sealing cover, the air suction unit penetrates through the through holes, and the air suction port of the air suction unit faces the working platform.
Furthermore, a flip cylinder is arranged in the middle of the second side of the working platform, a connecting column is arranged in the middle of the side face, facing the second side of the working platform, of the sealing cover in a protruding mode, and the tail end of the connecting column is connected with an output shaft of the flip cylinder.
Furthermore, the two sides of the connecting column of the sealing cover are respectively provided with a handle.
Furthermore, the bottom of the hot air supply unit is provided with an air inlet communicated with the hot air supply pipe, and the top of the hot air supply unit is provided with a plurality of air supply ports.
Furthermore, a plurality of collecting openings are formed in one side, facing the sealing cover, of the air outlet collecting box, an air outlet is formed in one side, away from the sealing cover, of the air outlet collecting box, and the exhaust pipe is communicated with the air outlet.
Furthermore, the bottom of both ends of closing cap all seted up the opening.
Furthermore, the first position sensor and the second position sensor are both photoelectric sensors.
Compared with the prior art, the utility model discloses an air supporting formula screen printing article drying system includes work platform, the closing cap of rotating the connection with the first side of work platform, the hot-blast supply pipe of being connected with work platform, the air-blower of being connected with the hot-blast supply pipe, the hot-blast supply unit that is located work platform and is connected with the hot-blast supply pipe, set up in two air-out collecting boxes at work platform both ends respectively, the blast pipe of being connected with the air-out collecting box, set up in the suction unit at the top of closing cap, set up in the side of air-out collecting box towards the closing cap and near the first position inductor of the bottom of air-out collecting box, set up on the inside wall of closing cap one end and near the second position inductor of the top of closing cap and the controller that all is connected with air-blower, suction unit, first position inductor; one or more through holes are formed in the top of the sealing cover, the air suction unit penetrates through the through holes, and the air suction port of the air suction unit faces the working platform. Thus, the dynamic drying mode is adopted, the drying efficiency is high, and the drying time is shortened.
Drawings
Embodiments of the present invention are described below with reference to the accompanying drawings, in which:
fig. 1 is a schematic side view of the air-floating screen printed matter drying system provided by the present invention.
Fig. 2 is a schematic diagram of the separation of the air-floating type screen printing product drying system provided by the utility model.
Detailed Description
The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.
Referring to fig. 1 and 2, the air-floating drying system for silk-screen printing products provided by the present invention comprises a work platform 10, a sealing cover 20 rotatably connected to a first side of the work platform 10, a hot air supply pipe 30 connected to the work platform 10, an air blower connected to the hot air supply pipe 30, a hot air supply unit 40 located in the work platform 10 and connected to the hot air supply pipe 30, two air outlet collection boxes 60 respectively disposed at two ends of the work platform 10, an air exhaust pipe 70 connected to the air outlet collection boxes 60, an air suction unit 80 disposed at a top of the sealing cover 20, a flip cylinder 90 disposed at a middle portion of a second side of the work platform 10, a first position sensor 110 disposed on a side of the air outlet collection boxes 60 facing the middle portion of the work platform 10, a second position sensor 120 disposed on an inner sidewall of one end of the sealing cover 20, and an air blower, an air suction unit 80, a flip cylinder 90, The first position sensor 110 and the second position sensor 120 are connected to a controller.
The top of the working platform 10 is provided with a first accommodating groove 11, the hot air supply unit 40 is fixedly arranged at the bottom of the first accommodating groove 11, the bottom of the sealing cover 20 facing the working platform 10 is provided with a second accommodating groove, and a plane printed matter 100 is located on the hot air supply unit 40.
The bottom of the hot air supply unit 40 is provided with an air inlet communicated with the hot air supply pipe 30, and the top is provided with a plurality of air supply ports.
After the sealing cover 20 and the working platform 10 are closed, the two air outlet collection boxes 60 are respectively located at the outer sides of the two ends of the sealing cover 20.
The air outlet collection box 60 is provided with a plurality of collection ports 61 towards the middle of the working platform 10 or towards one side of the sealing cover 20, an air outlet is arranged at one side of the air outlet collection box 60 far away from the middle of the working platform 10 or the sealing cover 20, and the exhaust pipe 70 is communicated with the air outlet.
In other embodiments, the exhaust port may be disposed on other sides of the exhaust collection box 60, such as the top surface.
One or more through holes are formed in the top of the sealing cover 20, the air suction unit 80 is arranged at the through holes in a penetrating manner, and an air suction port of the air suction unit 80 is located in the sealing cover 20.
The first side of the sealing cover 20 is rotatably connected with the first side of the working platform 10 through a hinge, the flip cylinder 90 is fixedly arranged in the middle of the second side of the working platform 10 far away from the first side, and the output shaft of the flip cylinder 90 is arranged towards the sealing cover 20; the middle part of the second side of the cover 20 away from the first side thereof is protrudingly provided with a connection column 22, and the end of the connection column 22 is connected with the output shaft of the flip cylinder 90. When the output shaft of the flip cylinder 90 extends outward, the cover 20 will rotate upward relative to the working platform 10 and around the hinge, so that the cover 20 is in an open state; when the output shaft of the flip cylinder 90 is contracted, the cover 20 will rotate downward relative to the working platform 10, so that the cover 20 is in a closed state.
The bottom of the two ends of the sealing cover 20 are both provided with openings 23, so that the second accommodating groove is communicated with the collecting opening 61 of the air outlet collecting box 60 when the sealing cover 20 is in a closed state.
The first position sensor 110 is disposed at a position on one side of the outlet air collection box 60 facing the cover 20 and close to the bottom of the outlet air collection box 60; the second position sensor 120 is disposed on the inner sidewalls of the two ends of the cover 20 and near the top of the cover 20.
A handle 21 is disposed on the second side of the cover 20 and on both sides of the connecting column 22.
In operation, the blower ventilates hot air to the bottom of the flat printed product 100 through the hot air supply pipe 30 and the hot air supply unit 40 to dry the flat printed product 100. The hot air then flows to both ends of the working platform 10, enters the outlet air collection box 60 through the collection port 61, and is discharged through the exhaust pipe 70.
Meanwhile, the suction unit 80 sucks air upwards, and the suction unit 80 and the hot air supply unit 40 work together to float the plane printed matter 100 between the hot air supply unit 40 and the cover 20, so that the plane printed matter 100 is dried in a dynamic drying manner. In this drying manner, the flat printed matter 100 floats between the hot air supply unit 40 and the cover 20 by buoyancy and gravity, and the printing surface of the flat printed matter 100 does not contact the cover 20, and the printed pattern is not damaged.
The first position sensor 110 and the second position sensor 120 are both photoelectric sensors.
The first position sensor 110 is used to sense the lowest position of the flat printed product 100, and the second position sensor 120 is used to sense the highest position of the flat printed product 100. The controller controls the blower and suction unit 80 to increase power after receiving the signal of the first position sensor 110, so that the plane printed matter 100 floats upwards; the controller receives the signal from the second position sensor 120 and controls the blower and suction unit 80 to reduce power, so that the flat printed product 100 moves downward.
The controller can also control the operation of the flip cylinder 90 to automatically open or close the cover 20.
Compared with the prior art, the air-floating silk-screen printing product drying system of the utility model comprises a working platform 10, a sealing cover 20 rotationally connected with the first side of the working platform 10, a hot air supply pipe 30 connected with the working platform 10, an air blower connected with the hot air supply pipe 30, a hot air supply unit 40 positioned in the working platform 10 and connected with the hot air supply pipe 30, two air outlet collecting boxes 60 respectively arranged at the two ends of the working platform 10, the exhaust pipe 70 is connected with the air outlet collection box 60, the air suction unit 80 is arranged at the top of the sealing cover 20, the first position sensor 110 is arranged on the side surface, facing the sealing cover 20, of the air outlet collection box 60 and is close to the bottom of the air outlet collection box 60, the second position sensor 120 is arranged on the inner side wall of one end of the sealing cover 20 and is close to the top of the sealing cover 20, and the controller is connected with the air blower, the air suction unit 80, the first position sensor 110 and the second position sensor 120; one or more through holes are formed in the top of the sealing cover 20, the air suction unit 80 is arranged at the through holes in a penetrating manner, and an air suction port of the air suction unit 80 is located in the sealing cover 20. Thus, the dynamic drying mode is adopted, the drying efficiency is high, and the drying time is shortened.
The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.
Claims (7)
1. An air supporting formula screen printing article drying system which characterized in that: the device comprises a working platform, a sealing cover rotationally connected with a first side of the working platform, a hot air supply pipe connected with the working platform, an air blower connected with the hot air supply pipe, a hot air supply unit positioned in the working platform and connected with the hot air supply pipe, two air outlet collecting boxes respectively arranged at two ends of the working platform, an exhaust pipe connected with the air outlet collecting boxes, an air suction unit arranged at the top of the sealing cover, a first position sensor arranged on the side surface of the air outlet collecting boxes facing the sealing cover and close to the bottom of the air outlet collecting boxes, a second position sensor arranged on the inner side wall of one end of the sealing cover and close to the top of the sealing cover, and a controller connected with the air blower, the air suction unit, the first position sensor and the second position sensor; one or more through holes are formed in the top of the sealing cover, the air suction unit penetrates through the through holes, and the air suction port of the air suction unit faces the working platform.
2. The air-floating screen-printed product drying system of claim 1, wherein: the middle part of the second side of the working platform is provided with a flip cylinder, the middle part of the side face of the sealing cover facing the second side of the working platform is provided with a connecting column in a protruding mode, and the tail end of the connecting column is connected with an output shaft of the flip cylinder.
3. The air-floating screen-printed product drying system of claim 2, wherein: and the sealing cover is respectively provided with a handle at two sides of the connecting column.
4. The air-floating screen-printed product drying system of claim 1, wherein: the bottom of the hot air supply unit is provided with an air inlet communicated with the hot air supply pipe, and the top of the hot air supply unit is provided with a plurality of air supply ports.
5. The air-floating screen-printed product drying system of claim 1, wherein: a plurality of collecting openings are formed in one side, facing the sealing cover, of the air outlet collecting box, an air outlet is formed in one side, far away from the sealing cover, of the air outlet collecting box, and the exhaust pipe is communicated with the air outlet.
6. The air-floating screen-printed product drying system of claim 1, wherein: the bottom at both ends of closing cap all is seted up the opening.
7. The air-floating screen-printed product drying system of claim 1, wherein: the first position sensor and the second position sensor are both photoelectric sensors.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920770481.2U CN211075048U (en) | 2019-05-27 | 2019-05-27 | Air-floating type screen printing product drying system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920770481.2U CN211075048U (en) | 2019-05-27 | 2019-05-27 | Air-floating type screen printing product drying system |
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| Publication Number | Publication Date |
|---|---|
| CN211075048U true CN211075048U (en) | 2020-07-24 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920770481.2U Active CN211075048U (en) | 2019-05-27 | 2019-05-27 | Air-floating type screen printing product drying system |
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| CN (1) | CN211075048U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110228276A (en) * | 2019-05-27 | 2019-09-13 | 浙江美声智能系统有限公司 | Air-flotation type print drying system |
-
2019
- 2019-05-27 CN CN201920770481.2U patent/CN211075048U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110228276A (en) * | 2019-05-27 | 2019-09-13 | 浙江美声智能系统有限公司 | Air-flotation type print drying system |
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