CN210478162U - Novel printer - Google Patents

Abstract

The utility model discloses a novel printer, include: a U-shaped frame; the cloth printing unit, the cloth conveying unit and the cloth recycling unit are respectively arranged on the U-shaped frame; wherein, still detachable arc heating oven that is provided with in the U type frame, arc heating oven sets up in one side of cloth printing unit, and arc heating oven includes two clearance fit's arc hot plate and arc heat insulating board, constitutes the high temperature passageway that has a cloth transmission between arc hot plate and the arc heat insulating board. Adopt the utility model discloses a printer can make the cloth direct contact with the arc hot plate, improves the contact compactness between the two and effective area of contact, has also prolonged the heat exchange action time between cloth and the arc hot plate simultaneously, makes the heating fixation effect of cloth better, faster, efficiency is higher.

Description

Novel printer

Technical Field

The utility model relates to a printer. More specifically, the utility model relates to a novel printer.

Background

A Printer (Printer) is one of output devices of a computer, and is a device for printing a result of processing of the computer on a relevant medium, mainly a device for printing an operation result or an intermediate result of the computer on paper in a prescribed format in a number, letter, symbol, graphic, and the like that can be recognized by a human.

Present commonly used industrial printer still has more problem in the use, for example, the heating fixation oven of current printer all comprises two baffles that are parallel to each other, cut off out the heating cavity between two baffles, install the heating pipe simultaneously respectively on two baffle inboards, generate heat through the heating pipe and make the gas temperature rise in the heating cavity, when the cloth after printing gets into the heating fixation oven, it carries out the high temperature fixation through the interconversion of high-temperature gas and cloth to the cloth, but because the cloth only can contact with high-temperature gas, and can not directly contact with the baffle, and then lead to the fixation inefficiency, the effect is poor, waste time and energy, it is with high costs to use electricity simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages which will be described later.

To achieve these objects and other advantages in accordance with the purpose of the invention, a novel printer is provided, including:

a U-shaped frame;

the cloth printing unit, the cloth conveying unit and the cloth recycling unit are respectively arranged on the U-shaped frame;

the U-shaped frame is detachably provided with an arc heating oven, the arc heating oven is arranged on one side of the cloth printing unit and comprises two arc heating plates and an arc heat insulation plate in clearance fit, and a high-temperature channel for cloth transmission is formed between each arc heating plate and the corresponding arc heat insulation plate.

Preferably, wherein the cloth printing unit includes:

the moving track is fixedly arranged at the top of the U-shaped frame, and a printing trolley is also arranged on the moving track in a matching manner;

and the horizontal bearing plate is fixedly arranged on the U-shaped frame and is matched with the printing trolley to be arranged right below the printing trolley.

Preferably, wherein the cloth conveying unit includes:

the two horizontal discharging shafts are arranged at a certain interval and are rotatably arranged on the U-shaped rack;

the guide shaft is rotatably arranged on the U-shaped rack;

the glue spreading shaft is rotatably arranged on the U-shaped frame and positioned on one side of the guide shaft, and the glue spreading shaft comprises a rotating shaft and rubber adhered to the circumference of the rotating shaft;

the glue spreading shaft and the material conveying shaft are arranged on the U-shaped rack in a synchronously rotating mode, and are symmetrically arranged on two sides of the lower surface of the horizontal bearing plate in a matching mode;

the U-shaped rack is characterized in that a material pressing shaft tightly pressed on the material conveying shaft is further arranged on one side of the material conveying shaft, rotating bearings are arranged at two ends of the material pressing shaft, two matched inner grooves are formed in the U-shaped rack, the rotating bearings can rotate in the inner grooves in a matched mode, and the material conveying shaft and the material pressing shaft are arranged at the inlet position of the arc-shaped heating oven.

Preferably, the cloth recovering unit includes a first discharging shaft and a second discharging shaft which are closely attached, the first discharging shaft and the second discharging shaft are rotatably arranged on the U-shaped frame through a torque motor, and the first discharging shaft and the second discharging shaft are arranged at the outlet of the arc-shaped heating oven.

Preferably, wherein, the mode that the rubber coating axle with defeated material axle synchronous revolution is: a synchronous motor is arranged on the U-shaped frame, one end of each of the glue coating shaft and the material conveying shaft is provided with a synchronous wheel, the synchronous motors are respectively connected with the synchronous wheels through synchronous belts, and the glue coating shaft and the material conveying shaft are driven to synchronously rotate along the same direction through rotation of the synchronous motors.

Preferably, wherein the arc heating plate comprises: first aluminum plate and rigid coupling set up in first asbestos baffle on the first aluminum plate, be provided with the heating element who is heliciform and/or cockscomb structure in the first aluminum plate.

Preferably, wherein the arc-shaped heat insulation plate comprises: the second aluminum plate and a second asbestos partition plate fixedly arranged on the second aluminum plate.

The utility model discloses at least, include following beneficial effect: through the arc heating oven that sets up, its heating oven that compares in the vertical direction setting makes the cloth when the transmission, can hug closely the setting on the surface of arc hot plate, makes the cloth direct contact with the arc hot plate, improves the contact compactness and the effective area of contact between the two, has also prolonged the heat exchange reaction time between cloth and the arc hot plate simultaneously for the heating fixation effect of cloth is better, speed is faster, efficiency is higher.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic view showing an overall external structure of a printer;

FIG. 2 shows a diagram of the internal structure of the printer;

FIG. 3 shows a diagram of the internal structure of the printer;

FIG. 4 shows a view of a curved heating oven;

FIG. 5 illustrates a prior art oven block diagram;

figure 6 shows a block diagram of the seal and the rectangular extraction tube.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

Fig. 1 shows an implementation form of a novel printer according to the present invention, which includes:

a U-shaped frame 1; the U-shaped frame mainly plays a supporting role.

The cloth printing unit, the cloth conveying unit and the cloth recycling unit are respectively arranged on the U-shaped frame; the cloth that waits to print carries cloth printing unit department through cloth conveying unit at first with the cloth, and the cloth printing unit accomplishes the back of printing to the cloth, and rethread cloth recovery unit realizes retrieving the cloth after the printing fixation to make the cloth accomplish from printing to retrieving whole process.

The U-shaped frame is also detachably provided with an arc heating oven 2, the arc heating oven is arranged on one side of the cloth printing unit, the arc heating oven 2 comprises two arc heating plates 3 and an arc heat insulation plate 4 which are in clearance fit, and a high-temperature channel 5 for cloth transmission is formed between the arc heating plates. The arc heating plate and the arc heat insulation plate which form the arc heating oven are connected with the threaded holes through screws, so that the arc heating plate and the arc heat insulation plate are more convenient and efficient to disassemble and assemble, the arc heating oven is arranged at one end of the cloth printing unit, cloth passes through the cloth printing unit and then directly enters the arc heating oven to be dried at high temperature, the color fixing efficiency is higher, a high-temperature channel arranged between the arc heating plate and the arc heat insulation plate is used for circulating the cloth, meanwhile, the heating oven arranged in the traditional vertical direction is changed into the arc heating oven, the cloth can be tightly attached to the surface of the arc heating plate during transmission, the cloth is directly contacted with the arc heating plate, the contact tightness and the effective contact area between the arc heating plate and the arc heating plate are improved, the heating color fixing effect of the cloth is better, the speed is higher, and the efficiency is higher, the top of the high-temperature channel is also provided with two sealing elements 20 (a horizontal state and a vertical state, the sealing elements are made of Teflon cloth or a silica gel plate) for sealing the top of the high-temperature channel, a certain space is formed between the two sealing elements and the wall of the adjacent U-shaped frame at intervals so that printed cloth can pass through, a rectangular exhaust tube 21 is further arranged between the two sealing elements, the sealing elements in the horizontal direction are fixed on the rectangular exhaust tube, the sealing elements in the vertical direction and the rectangular exhaust tube are fixed on the U-shaped frame, one end of the rectangular exhaust tube is provided with an exhaust fan (not shown), the sealing elements and the rectangular exhaust tube are mainly arranged for sucking the smoke generated by the cloth in the arc-shaped heating oven at high temperature, holes 22 are arranged at the bottom and the side of the rectangular exhaust tube to enable the smoke to circulate, and the holes arranged at the bottom play a main absorption role on the smoke, the holes arranged on the side part mainly absorb smoke overflowing from the gap between the cloth and the sealing element, so that the smoke absorption effect is the best).

In another example, the cloth printing unit includes:

the moving track 6 is fixedly arranged at the top of the U-shaped frame, and a printing trolley 7 is also arranged on the moving track in a matching manner; the printing trolley is provided with a control chip (not shown) and a printing head (not shown), the control chip is in communication connection with an external PC end, the printing trolley moves along a preset track after receiving a control signal of the PC end, and corresponding patterns are printed on cloth through ink jet of the printing head.

And the horizontal bearing plate 8 is fixedly arranged on the U-shaped frame and is matched with the printing trolley to be arranged right below the printing trolley. The horizontal bearing board that sets up is mainly used for placing the cloth, and the width size of horizontal bearing board matches with the width size of cloth, guarantees that the cloth is placed and levels smoothly on horizontal bearing board.

In another example, the cloth conveying unit includes:

two horizontal discharging shafts 9 which are arranged at a certain interval are rotatably arranged on the U-shaped frame; set up the blowing axle mainly used and place the cloth and roll up the material, the interval between the diaxon cooperatees with the book core size of cloth book, makes the cloth roll up and to adapt to the rotation on the blowing axle, and then makes the cloth roll up out from rolling up the core.

The guide shaft 10 is rotatably arranged on the U-shaped frame; the arranged guide shaft is mainly used for primarily guiding the rolled cloth so that the cloth moves along a preset track.

The glue spreading shaft 11 is rotatably arranged on the U-shaped frame and is positioned on one side of the guide shaft 10, and the glue spreading shaft comprises a rotating shaft and rubber adhered to the circumference of the rotating shaft; the rubber coating axle mainly used of setting increases the frictional resistance of cloth in the transmission course, makes the condition that the cloth does not take place to skid, improves the removal accuracy nature of cloth removal transportation in-process simultaneously, and the guide shaft of setting makes the cloth hug closely to the opposite side from one side of rubber coating axle on, and effective area of contact and the scope between increase cloth and the rubber coating axle make the accuracy of cloth displacement distance and position better.

The conveying shaft 12 and the gluing shaft 11 can be synchronously arranged on the U-shaped rack in a rotating mode, and the gluing shaft 11 and the conveying shaft 12 are matched with the horizontal bearing plate 8 and symmetrically arranged on two sides of the lower surface of the horizontal bearing plate; the defeated material axle that sets up mainly makes the cloth remove to the in-process of opposite side from one side of horizontal loading board, and is more steady and balanced, makes the cloth more level and smooth and stretch to guarantee that the pattern of cloth prints the effect better, more clear, clear.

One side of the material conveying shaft 12 is further provided with a material pressing shaft 13 tightly pressed on the material conveying shaft, two ends of the material pressing shaft are provided with rotating bearings (not shown), the U-shaped frame is provided with two inner grooves (not shown) matched with each other, the rotating bearings can be matched and rotated in the inner grooves, and the material conveying shaft 12 and the material pressing shaft 13 are arranged at the inlet position of the arc-shaped heating oven 2. Through the arrangement of the material pressing shaft 13, the material pressing shaft mainly enables the cloth to apply pressing force to the cloth before entering the oven, so that a traditional printer is replaced, the cloth cannot apply force to fix the cloth before entering the oven and can only pass through the oven to fix the cloth, and waste of the cloth is caused, because the cloth needs to be stretched by pulling force in the whole printing and transmission process, wrinkles are avoided, if the cloth cannot be fixed before entering the oven, cloth guiding with the length of 1-2 meters is required to pass through the oven to be fixed, and the cloth guiding with the length of 1-2 meters cannot be utilized and wasted, so that the cloth is pressed and fixed before entering the oven, the situations can be avoided, raw materials are saved, and the cost is controllable.

In another example, the cloth recovering unit includes a first discharging shaft 14 and a second discharging shaft 15 closely attached to each other, both of the first discharging shaft and the second discharging shaft are rotatably disposed on the U-shaped frame through a torque motor (not shown), and the first discharging shaft and the second discharging shaft are disposed at an outlet of the arc-shaped heating oven. Through the first discharging shaft and the second discharging shaft which are arranged, the cloth can be pressed and fixed after high-temperature fixation, and the cloth is more flat and smooth after being recycled and is easy to store and transport.

In another embodiment, the glue applying shaft and the material conveying shaft rotate synchronously in the following manner: a synchronous motor is arranged on the U-shaped frame, one end of each of the glue coating shaft and the material conveying shaft is provided with a synchronous wheel, the synchronous motors are respectively connected with the synchronous wheels through synchronous belts, and the glue coating shaft and the material conveying shaft are driven to synchronously rotate along the same direction through rotation of the synchronous motors. Synchronous motor's rotation hold-in range rotates, and the hold-in range drives the rubber coating axle simultaneously again and defeated material axle rotates simultaneously, and then makes the rotation simultaneity and the syntropy of rubber coating axle and defeated material axle better, guarantees that the transportation of cloth is more steady, high-efficient.

In another example, the arc heating plate includes: the aluminum plate comprises a first aluminum plate 16 and a first asbestos baffle plate 17 fixedly arranged on the first aluminum plate, wherein a heating element (not shown) in a spiral shape and/or a sawtooth shape is arranged in the first aluminum plate. High temperature resistant glue of accessible bonds or the form of joint is fixed between first aluminum plate and the first asbestos baffle, through setting up heating element, make the temperature in the first aluminum plate rise fast, and then with air heat exchange on every side, make the air temperature rise and form high temperature steam, the first asbestos baffle that sets up simultaneously is used for cooperateing in first aluminum plate, keep warm the high temperature that produces first aluminum plate, reduce the speed that the heat scatters and disappears, it is better to make high temperature fixation effect, heating element also can set up on the side that high temperature passageway was kept away from at first aluminum plate.

In another example, the arcuate thermal shield comprises: a second aluminum plate 18 and a second asbestos baffle plate 19 fixedly arranged on the second aluminum plate. Also can fix through the form of high temperature resistant glue bonding or joint between second aluminum plate and the second asbestos baffle, the second aluminum plate and the second asbestos baffle that set up also mainly are used for preventing the high temperature that first aluminum plate produced and scatter and disappear at the excessive speed, make the thermal efficiency of cloth fixation higher.

The printing process of the cloth is as follows: firstly, manually placing the whole roll of cloth to be printed on a discharging shaft 9, manually penetrating one end of the cloth through a guide shaft 10, a gluing shaft 11 and a material conveying shaft 12 respectively, enabling the cloth to be determined before entering an arc-shaped heating oven 2 through a material pressing shaft 13, receiving printing data of a terminal by a printing trolley 7 at the moment, printing a pattern on the cloth through moving on a moving track 6, manually penetrating the cloth through the arc-shaped heating oven after the cloth is printed, penetrating and laminating the cloth between a first discharging shaft and a second discharging shaft from the middle of the first discharging shaft and the second discharging shaft (the manual operation is needed at the beginning, once the cloth is laminated by the first discharging shaft and the second discharging shaft, the cloth can be recycled through the rotation of the shafts), and flatly laying the printed cloth on the ground to complete the whole printing operation.

The number of apparatuses and the scale of the process described here are intended to simplify the description of the present invention. Applications, modifications and variations of a new printer of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the applications listed in the specification and the examples. It can be applicable to various and be fit for the utility model discloses a field completely. Additional modifications will readily occur to those skilled in the art. The invention is therefore not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (7)

1. A novel printer, comprising:

a U-shaped frame;

the cloth printing unit, the cloth conveying unit and the cloth recycling unit are respectively arranged on the U-shaped frame;

the U-shaped frame is detachably provided with an arc heating oven, the arc heating oven is arranged on one side of the cloth printing unit and comprises two arc heating plates and an arc heat insulation plate in clearance fit, and a high-temperature channel for cloth transmission is formed between each arc heating plate and the corresponding arc heat insulation plate.

2. The novel printer according to claim 1, characterized in that said cloth printing unit comprises:

the moving track is fixedly arranged at the top of the U-shaped frame, and a printing trolley is also arranged on the moving track in a matching manner;

and the horizontal bearing plate is fixedly arranged on the U-shaped frame and is matched with the printing trolley to be arranged right below the printing trolley.

3. The new printer according to claim 2, characterized in that said cloth feeding unit comprises:

the two horizontal discharging shafts are arranged at a certain interval and are rotatably arranged on the U-shaped rack;

the guide shaft is rotatably arranged on the U-shaped rack;

the glue spreading shaft is rotatably arranged on the U-shaped frame and positioned on one side of the guide shaft, and the glue spreading shaft comprises a rotating shaft and rubber adhered to the circumference of the rotating shaft;

the glue spreading shaft and the material conveying shaft are arranged on the U-shaped rack in a synchronously rotating mode, and are symmetrically arranged on two sides of the lower surface of the horizontal bearing plate in a matching mode;

the U-shaped rack is characterized in that a material pressing shaft tightly pressed on the material conveying shaft is further arranged on one side of the material conveying shaft, rotating bearings are arranged at two ends of the material pressing shaft, two matched inner grooves are formed in the U-shaped rack, the rotating bearings can rotate in the inner grooves in a matched mode, and the material conveying shaft and the material pressing shaft are arranged at the inlet position of the arc-shaped heating oven.

4. The novel printer according to claim 1, wherein the cloth recovery unit comprises a first discharging shaft and a second discharging shaft which are closely attached, the first discharging shaft and the second discharging shaft are rotatably arranged on the U-shaped frame through a torque motor, and the first discharging shaft and the second discharging shaft are arranged at the outlet position of the arc-shaped heating oven.

5. The printer of claim 3, wherein the glue-applying shaft and the material-conveying shaft rotate synchronously in the following manner: a synchronous motor is arranged on the U-shaped frame, one end of each of the glue coating shaft and the material conveying shaft is provided with a synchronous wheel, the synchronous motors are respectively connected with the synchronous wheels through synchronous belts, and the glue coating shaft and the material conveying shaft are driven to synchronously rotate along the same direction through rotation of the synchronous motors.

6. The novel printer of claim 1, wherein said arcuate heating plate comprises: first aluminum plate and rigid coupling set up in first asbestos baffle on the first aluminum plate, be provided with the heating element who is heliciform and/or cockscomb structure in the first aluminum plate.

7. The novel printer of claim 1, wherein said arcuate thermal shield comprises: the second aluminum plate and a second asbestos partition plate fixedly arranged on the second aluminum plate.

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