CN110228276A - Air-flotation type print drying system - Google Patents

Abstract

A kind of air-flotation type print drying system, including workbench, with the capping of workbench rotation connection, the hot blast feeding pipe being connect with workbench, the air blower being connect with hot blast feeding pipe, the hot blast feeding unit being connect in workbench and with hot blast feeding pipe, it is respectively arranged at two outlet air collecting boxs at workbench both ends, the exhaust pipe being connect with outlet air collecting box, it is set to the suction unit at the top of capping, it is set to the first position inductor of side of the outlet air collecting box towards capping and the bottom close to outlet air collecting box, be set to capping one end inner sidewall on and close to capping top second position inductor and and air blower, suction unit, the controller that first position inductor and second position inductor are all connected with；Offer one or more through-holes at the top of capping, suction unit is arranged in through hole, and the air entry of suction unit is towards workbench.So using dynamic drying mode, drying efficiency height and reduction drying time.

Description

Air-flotation type print drying system

Technical field

The present invention relates to dimensional printing goods manufacture technology field, especially a kind of air-flotation type print drying system.

Background technique

Dimensional printing goods, such as paper, woven fabric can be printed by way of silk-screen printing, and dimensional printing goods are through silk rolling After net press printing, need to be dried by drying unit, it, in this way can be with so that the rapid ink drying of dimensional printing goods Improve printing quality.But the dimensional printing goods non-refractory as made of silk-screen printing, very high temperature cannot be provided Environment is dried.The drying efficiency of traditional standing type drying mode is lower, and the time for needing to expend is longer.

Summary of the invention

In view of this, the present invention provides a kind of using dynamic drying mode, drying efficiency height and reduces drying time Air-flotation type print drying system, to solve the above problems.

A kind of air-flotation type print drying system is rotatablely connected including workbench, with the first side of workbench Capping, connect with workbench hot blast feeding pipe, connect with hot blast feeding pipe air blower, be located at workbench in and with The hot blast feeding unit of hot blast feeding pipe connection, two outlet air collecting boxs for being respectively arranged at workbench both ends are received with outlet air Header connection exhaust pipe, be set to capping top suction unit, be set to outlet air collecting box towards capping side and The first position inductor of the bottom of close outlet air collecting box is set on the inner sidewall of capping one end and close to the top of capping Second position inductor and the control that is all connected with air blower, suction unit, first position inductor and second position inductor Device processed；One or more through-holes are offered at the top of capping, suction unit is arranged in through hole, and the air entry court of suction unit To workbench.

Further, it is provided with flip lid cylinder in the middle part of second side of the workbench, covers towards workbench Connecting column, the end of connecting column and the output axis connection of flip lid cylinder have been provided projectingly in the middle part of the side of second side.

Further, the two sides for being covered in connecting column are respectively arranged with leader.

Further, the bottom of the hot blast feeding unit offers the air inlet being connected to hot blast feeding pipe, and top is opened Equipped with several for air port.

Further, the side of the outlet air collecting box towards capping offers several collection ports, the side far from capping It is provided with exhaust outlet, exhaust pipe is connected to exhaust outlet.

Further, the bottom at the both ends of the capping offers opening.

Further, the first position inductor and second position inductor are photoelectric sensor.

Compared with prior art, air-flotation type print drying system of the invention includes that workbench and work are flat Platform the first side rotation connection capping, connect with workbench hot blast feeding pipe, connect with hot blast feeding pipe air blower, The hot blast feeding unit that connect in workbench and with hot blast feeding pipe is respectively arranged at two of workbench both ends and goes out Wind collecting box, the exhaust pipe being connect with outlet air collecting box, be set to capping top suction unit, be set to outlet air collecting box The first position inductor of side towards capping and the bottom close to outlet air collecting box is set on the inner sidewall of capping one end And close to capping top second position inductor and with air blower, suction unit, first position inductor and the second position The controller that inductor is all connected with；One or more through-holes are offered at the top of capping, suction unit is arranged in through hole, and inhales The air entry of gas unit is towards workbench.So using dynamic drying mode, drying efficiency height and reduction drying time.

Detailed description of the invention

The embodiment of the present invention is described below in conjunction with attached drawing, in which:

Fig. 1 is the side schematic view of air-flotation type print drying system provided by the invention.

Fig. 2 is the fractionation schematic diagram of air-flotation type print drying system provided by the invention.

Specific embodiment

Specific embodiments of the present invention are further elaborated below based on attached drawing.It should be understood that herein The explanation of the embodiment of the present invention is not intended to limit the scope of protection of the present invention.

Please refer to Fig. 1 and Fig. 2, air-flotation type print drying system provided by the invention include workbench 10, with The capping 20 of the first side rotation connection of workbench 10, the hot blast feeding pipe 30 and hot blast feeding being connect with workbench 10 The air blower of the connection of pipe 30, is set the hot blast feeding unit 40 connecting in workbench 10 and with hot blast feeding pipe 30 respectively Two outlet air collecting boxs 60 for being placed in 10 both ends of workbench, are set to capping at the exhaust pipe 70 connecting with outlet air collecting box 60 20 top suction unit 80, be set to workbench 10 second side middle part flip lid cylinder 90, be set to outlet air collection Case 60 towards on the side at the middle part of workbench 10 first position inductor 110, be set on the inner sidewall of 20 one end of capping Second position inductor 120 and with air blower, suction unit 80, flip lid cylinder 90, first position inductor 110 and second Set the controller that inductor 120 is all connected with.

The top of workbench 10 offers the first accommodation groove 11, and hot blast feeding unit 40 is fixedly installed on the first accommodation groove 11 bottom, capping 20 offer the second accommodation groove towards the bottom of workbench 10, and a dimensional printing goods 100 are located at hot wind confession It answers on unit 40.

The bottom of hot blast feeding unit 40 offers the air inlet being connected to hot blast feeding pipe 30, and top offers several confessions Air port.

After capping 20 is closed with workbench 10, two outlet air collecting boxs 60 are located on the outside of the both ends of capping 20.

Outlet air collecting box 60 offers several collection ports 61 towards 10 middle part of workbench or towards the side of capping 20, out Wind collecting box 60 is provided with exhaust outlet far from the side at 10 middle part of workbench or capping 20, and exhaust pipe 70 is connected to exhaust outlet.

In other embodiments, exhaust outlet be may also set up in other sides of outlet air collecting box 60, such as top surface.

The top of capping 20 offers one or more through-holes, and suction unit 80 is arranged in through hole, and suction unit 80 Air entry be located at capping 20 in.

First side of capping 20 is rotatablely connected by the first side of hinge and workbench 10, and flip lid cylinder 90 is fixedly installed In the middle part of the second side of workbench 10 far from its first side, and the output shaft for renovating cylinder 90 is arranged towards capping 20；Envelope Lid 20 has been provided projectingly connecting column 22, end and the flip lid cylinder 90 of connecting column 22 in the middle part of second side far from its first side Export axis connection.After the output shaft for renovating cylinder 90 is protruding, capping 20 will simultaneously around hinge be upward with respect to workbench 10 Rotation, so that capping 20 is in the open state；After the output shaft for renovating cylinder 90 is shunk, capping 20 opposite will work flat Platform 10 rotates down, so that capping 20 is in closed state.

The bottom at the both ends of capping 20 offers opening 23, so that the second accommodation groove when capping 20 is in closed state It is connected to the collection port 61 of outlet air collecting box 60.

First position inductor 110 is set to outlet air collecting box 60 towards the side of capping 20 and close to outlet air collecting box 60 Bottom position；Second position inductor 120 is set on the inner sidewall at 20 both ends of capping and close to the top of capping 20 Position.

Second side of capping 20 is respectively arranged with leader 21 in the two sides of connecting column 22.

When work, hot wind is passed through hot blast feeding pipe 30 and hot blast feeding unit 40 to dimensional printing goods 100 by air blower Bottom ventilation, to be dried to dimensional printing goods 100.Hot wind is flowed to the both ends of workbench 10 later, passes through collection port 61 enter outlet air collecting box 60, and are discharged by exhaust pipe 70.

Meanwhile the upward air-breathing of suction unit 80, suction unit 80 and hot blast feeding unit 40 function such that plane prints Brush product 100 float between hot blast feeding unit 40 and capping 20, realize and are carried out with dynamic drying mode to dimensional printing goods 100 Drying.In this drying mode, dimensional printing goods 100 are under the action of buoyancy and gravity in hot blast feeding unit 40 and capping It floats between 20, and the printing face of dimensional printing goods 100 will not be contacted with capping 20, will not destroy printed patterns.

First position inductor 110 and second position inductor 120 are photoelectric sensor.

First position inductor 110 is used for the extreme lower position of induction planes printed matter 100, and second position inductor 120 is used In the extreme higher position of induction planes printed matter 100.Controller controls air blower after receiving the signal of first position inductor 110 And suction unit 80 increases power, so that dimensional printing goods 100 float upwards；Controller receives second position inductor 120 Signal after control air blower and suction unit 80 and reduce power so that dimensional printing goods 100 move down.

Controller also can control flip lid cylinder 90 and work, to be automatically opened or closed capping 20.

Compared with prior art, air-flotation type print drying system of the invention includes workbench 10 and work The capping 20 of the first side rotation connection of platform 10, the hot blast feeding pipe 30 and hot blast feeding pipe 30 being connect with workbench 10 The air blower of connection, is respectively arranged at the hot blast feeding unit 40 connecting in workbench 10 and with hot blast feeding pipe 30 Two outlet air collecting boxs 60 at 10 both ends of workbench, the exhaust pipe 70 connecting with outlet air collecting box 60 are set to 20 top of capping The suction unit 80 in portion, be set to side of the outlet air collecting box 60 towards capping 20 and the bottom close to outlet air collecting box 60 the One position sensor 110, be set to capping 20 one end inner sidewall on and close to capping 20 top second position inductor 120 and the controller that is all connected with air blower, suction unit 80, first position inductor 110 and second position inductor 120； The top of capping 20 offers one or more through-holes, and suction unit 80 is arranged in through hole, and the air entry of suction unit 80 In capping 20.So using dynamic drying mode, drying efficiency height and reduction drying time.

The foregoing is merely a prefered embodiment of the invention, is not used to limitation protection scope of the present invention, any in the present invention Modification, equivalent replacement or improvement in spirit etc., all cover in scope of the presently claimed invention.

Claims (7)

1. a kind of air-flotation type print drying system, it is characterised in that: the first side including workbench and workbench It is the capping of rotation connection, the hot blast feeding pipe being connect with workbench, the air blower being connect with hot blast feeding pipe, flat positioned at work The hot blast feeding unit that is connect in platform and with hot blast feeding pipe, two outlet air collecting boxs for being respectively arranged at workbench both ends, The exhaust pipe that is connect with outlet air collecting box, be set to capping top suction unit, be set to outlet air collecting box towards capping Side and close to outlet air collecting box bottom first position inductor, be set to capping one end inner sidewall on and close to envelope The second position inductor at the top of lid and equal with air blower, suction unit, first position inductor and second position inductor The controller of connection；Offering one or more through-holes at the top of capping, suction unit is arranged in through hole, and suction unit Air entry is towards workbench.

2. air-flotation type print drying system as described in claim 1, it is characterised in that: the second of the workbench Be provided with flip lid cylinder in the middle part of side, capping towards being provided projectingly connecting column in the middle part of the side of second side of workbench, The end of connecting column and the output axis connection of flip lid cylinder.

3. air-flotation type print drying system as claimed in claim 2, it is characterised in that: the connecting column that is covered in Two sides are respectively arranged with leader.

4. air-flotation type print drying system as described in claim 1, it is characterised in that: the hot blast feeding unit Bottom offers the air inlet being connected to hot blast feeding pipe, and top offers several for air port.

5. air-flotation type print drying system as described in claim 1, it is characterised in that: the outlet air collecting box direction The side of capping offers several collection ports, and the side far from capping is provided with exhaust outlet, and exhaust pipe is connected to exhaust outlet.

6. air-flotation type print drying system as described in claim 1, it is characterised in that: the bottom at the both ends of the capping Portion offers opening.

7. air-flotation type print drying system as described in claim 1, it is characterised in that: the first position inductor And second position inductor is photoelectric sensor.