CN211147200U - Ink box intelligent control spin dryer - Google Patents

Abstract

The utility model discloses an ink horn intelligent control drier, it includes: the actuating mechanism comprises an actuating motor and a rotating mechanism, and the rotating mechanism comprises a rotating main shaft, a rotating arm and a placing frame; the rotating main shaft is used for being coaxially connected with an output shaft of the actuating motor; one end of the spiral arm is fixed on the shaft body of the rotating main shaft along the radial direction, and the other end of the spiral arm is connected with the placing frame; the structure of the placing frame is adapted to the shape of the box body of the ink box and is used for placing the ink box; a water throwing groove is arranged on one side, back to the rotating main shaft, of the placing frame and is opposite to the printing nozzle on the ink box. The utility model discloses can realize carrying out batchization centrifugation to the ink horn after wasing and spin-dry, accelerate the drying process of ink horn to keep the degree of drying uniformity of each ink horn.

Description

Ink box intelligent control spin dryer

Technical Field

The utility model belongs to the technical field of the printer consumptive material, a ink horn intelligent control drier is related to particularly.

Background

Ink jet printers are a common consumable for printers. The structure of the product on the market at present generally fixes the printing nozzle and the box body of the ink box into a whole. Such ink cartridges may be refilled and then used after the user runs out of ink. However, in practice, the ink box with the structure is found to be easy to be dried and blocked by the original residual ink in the ink box to cause poor printing effect if the ink box is directly filled with the ink after being placed for a long time. Therefore, an important technology for realizing the regeneration and the use of the ink box when the inner cavity of the ink box is cleaned regularly is provided. The existing method for cleaning the inner cavity of the ink box is simple and rough, and meanwhile, a drying mode of heating the ink box is generally adopted after the cleaning is finished, and the problem of the scheme is that: the internal structure of the ink cartridge is complicated, and the ink injection hole and the nozzle are small. It takes a long time for the heating to achieve complete drying of the inner cavity. But this in-process is difficult to control heating temperature, and heating temperature is too high for a long time, causes the box body to warp easily or the inner structure damages, leads to the poor or thoroughly condemned problem of ink horn printing. Therefore, how to develop a new type of drying device for ink cartridge to overcome the above problems is the direction of research needed by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ink horn intelligent control drier can realize carrying out batchization centrifugation to the ink horn after wasing and spin-dry, has accelerateed the drying process of ink horn to keep the degree of drying uniformity of each ink horn.

The technical scheme adopted is as follows:

an ink cartridge intelligent control drier, which comprises: the actuating mechanism comprises an actuating motor and a rotating mechanism, and the rotating mechanism comprises a rotating main shaft, a rotating arm and a placing frame; the rotating main shaft is used for being coaxially connected with an output shaft of the executing motor; one end of the spiral arm is fixed on the shaft body of the rotating main shaft along the radial direction, and the other end of the spiral arm is connected with the placing frame; the structure of the placing frame is adapted to the shape of the box body of the ink box and is used for placing the ink box; and a water throwing groove is arranged on one side of the placing frame, which is opposite to the main shaft, and the printing nozzle on the ink box extends out of the placing frame.

By adopting the technical scheme: the ink box to be dried is placed in the placing frame, the execution motor is started to drive the rotating main shaft to rotate by itself, and the rotating main shaft drives the rotating arm, the placing frame and the ink box to do circular motion with the rotating main shaft as the center of circle and the rotating arm as the radius. Accumulated water in the ink box is thrown out by the printing nozzle under the action of centrifugal force. Therefore, the accumulated water in the ink box can be quickly cleaned. The scheme can be used together with heating and drying, and the drying process is greatly shortened by firstly drying before heating. In practice, a plurality of spiral arms can be uniformly arranged in the radial direction of the rotating main shaft, so that the rotating main shaft is more balanced and stable in the rotating process, batch synchronous spin-drying of a plurality of ink boxes at the same time can be realized, the spin-drying degree of each ink box is effectively kept consistent, and the working efficiency is improved.

Preferably, in the above-mentioned ink cartridge intelligent control drier: the actuating mechanism further comprises a water collecting barrel; the top opening of the water collecting barrel and the rotating mechanism are positioned in the barrel body of the water collecting barrel.

By adopting the technical scheme: in the water throwing process, accumulated water thrown out by the printing nozzle is blocked by the inner wall of the water collecting barrel and flows to the bottom of the water collecting barrel to be collected. Therefore, on one hand, the thrown accumulated water is prevented from splashing everywhere. On the other hand, the method is beneficial to carrying out centralized treatment and discharge on the gathered accumulated water in the subsequent step and avoiding generating environmental pollution.

More preferably, in the spin dryer with the intelligent ink box control, the spin dryer comprises: the bottom wall of the water collecting barrel is provided with a boss which is formed by inwards sinking; the execution motor is arranged below the boss, and an output shaft of the execution motor penetrates through the boss to extend into the water collecting barrel and is coaxially connected with the rotating main shaft.

By adopting the technical scheme: in the water throwing process, accumulated water thrown out by the printing nozzle is collected in an annular groove formed between the edge of the boss and the inner wall of the water collecting barrel after being blocked by the inner wall of the water collecting barrel. And actuating motor settles in the boss below of being formed by the inside sunken of water drum diapire, when guaranteeing water drum bottom and actuating motor bottom parallel and level, can enough prevent that the actuating motor contact from assembling the ponding in the water drum bottom, also need not additionally to set up the support body and raise the water drum and make it be located the actuating motor top, more shortened the requirement to actuating motor output shaft length to make placing of water drum more stable.

More preferably, in the spin dryer with the intelligent ink box control, the spin dryer comprises: the actuating mechanism further comprises a water collecting barrel cover, and the water collecting barrel cover is used for covering the top of the water collecting barrel; and a groove is arranged on the water collecting barrel cover, and a weight pressing block is fixed in the groove.

By adopting the technical scheme: in the process of carrying out the motor start-up and getting rid of water, cover the water collecting bucket top with the water collecting bucket lid, prevent that the ponding of throwing away from splashing away from the water collecting bucket top after striking the water collecting bucket inner wall. Simultaneously, to the vibrations that produce among the actuating motor start-up process to the weight piece that sets up in the recess increases actuating mechanism's whole weight by a wide margin, promotes equipment's stability, overcomes the vibrations of actuating motor during operation and influences actuating mechanism's stability.

Further preferably, in the spin dryer with the intelligent ink box control, the spin dryer comprises: the frequency converter is connected with the execution motor and is used for adjusting the rotating speed of the execution motor.

By adopting the technical scheme: the adjustment of the output rotating speed of the executing motor is realized by the frequency converter, and the condition that the centrifugal force is insufficient due to the over-slow rotating speed of the rotating mechanism or the printing nozzle is loosened due to the over-fast rotating speed is avoided.

Still further preferably, in the spin dryer with the intelligent control of the cartridge: the industrial personal computer is connected with the frequency converter and is used for controlling the frequency converter to work.

By adopting the technical scheme: and the industrial personal computer is used for realizing the remote control of the frequency converter. Meanwhile, in practice, a single industrial personal computer can realize multi-thread synchronous remote control of a plurality of frequency converters, and the drying processing quantity of the ink boxes at the same time is increased.

Still further preferably, in the spin dryer with the intelligent control of the cartridge: the industrial personal computer is connected with the touch screen control panel.

By adopting the technical scheme: and the staff realizes the instruction input of the industrial personal computer through the touch screen control panel.

Compared with the prior art, the utility model discloses simple structure easily realizes. The method can realize the centrifugal spin-drying of the cleaned ink boxes in batch, accelerate the drying process of the ink boxes and keep the consistency of the drying degree of each ink box.

Drawings

The present invention is described in further detail with reference to the accompanying drawings and the embodiments:

fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of the actuator of FIG. 1;

FIG. 3 is a top view of the water collection bucket cover of FIG. 2 with the water collection bucket cover removed;

fig. 4 is an enlarged schematic view of the placement frame and the ink cartridge of fig. 3.

The corresponding relation between each reference mark and the part name is as follows:

1. an actuator; 2. a frequency converter; 3. an industrial personal computer; 4. a touch screen control panel; 5. an ink cartridge; 11. an actuator motor; 12. a rotation mechanism; 13. a water collection barrel; 14. a water collection barrel cover; 121. rotating the main shaft; 122. a swing arm; 123. placing the frame; 1231. a water throwing groove; 131. a boss; 141. a load bearing groove; 142. a weight block; 51. and a print nozzle.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the above description will be further described with reference to various embodiments.

As shown in fig. 1 to 4, embodiment 1 of the present invention:

an ink cartridge intelligent control drier, which comprises: the device comprises an execution mechanism 1, a frequency converter 2, an industrial personal computer 3 and a touch screen control panel 4. The touch screen control panel 4 is connected with the industrial personal computer 3, and the industrial personal computer 3 is connected with the 4 frequency converters 2 and is used for multithreading synchronous control of the 4 frequency converters 2. And each frequency converter 2 is connected with an actuating mechanism 1.

Specifically, the method comprises the following steps: each actuator 1 includes an actuator motor 11, a rotating mechanism 12, a water collecting bucket 13 and a water collecting bucket cover 14. The frequency converters 2 are respectively connected with an actuating motor 11 and adjust the rotating speed of the actuating motor 11. The rotating mechanisms 12 respectively comprise a rotating main shaft 121, and the rotating main shafts 121 are coaxially connected with the output shaft of the actuating motor 11; and 2 radial distribution of the axle body of the main rotating shaft 121 has 2 radial arms 122, 2 radial arms 122 connect with a placing frame 123 respectively.

The structure of the placing frame 123 is adapted to the shape of the ink box body and is used for placing the ink box 5; a water throwing groove 1231 is arranged on one side, back to the rotating main shaft 121, of the placing frame 123; the water throwing groove 1231 is opposite to the printing nozzle 51 on the ink box 5, so that the printing nozzle 51 in the ink box 5 extends out of the placing frame 123 through the water throwing groove 1231. The top of the water collecting barrel 13 is opened, and the rotating mechanism 12 is positioned in the barrel body of the water collecting barrel 13. A boss 131 formed by inwards sinking is arranged on the bottom wall of the water collecting barrel 13; the actuating motor 11 is arranged below the boss 131, and an output shaft of the actuating motor passes through the boss 131 and extends into the water collecting barrel 13. The water collecting barrel cover 14 is used for covering the top opening of the water collecting barrel 13; the water collecting barrel cover 14 is provided with a bearing groove 141, and a weight pressing block 142 is fixed in the bearing groove 141.

The working process of the equipment is as follows:

the ink box to be dried is placed in the placing frame of each group of executing mechanisms 1, the printing nozzle 51 on the ink box 5 extends out of the placing frame, the worker then starts each executing motor 11, outputs a control instruction to the industrial personal computer 3, controls each frequency converter 2 by the industrial personal computer 3 to adjust the output rotating speed of each executing motor 11, each executing motor 11 respectively drives a rotating main shaft 121 with an output shaft coaxially connected with the executing motor to rotate by itself, simultaneously covers the top of a water collecting barrel 13 by a water collecting barrel cover 14, and the rotating main shaft 121 drives a rotating arm 122, the placing frame 123 and the ink box 5 to do circular motion with the axis of the rotating main shaft 121 as the center of a circle and the rotating arm 122 as the radius. The accumulated water in the ink cartridge 5 is thrown out by the print nozzle 51 under the centrifugal force. The accumulated water thrown out by the print nozzle 51 is blocked by the inner wall of the water collecting barrel 13 and collected in the annular groove formed between the edge of the boss 131 and the inner wall of the water collecting barrel 13 at the bottom of the water collecting barrel 13. The dried ink box 5 is taken out from the actuating mechanism 1 and heated and dried in the next step, so that the heating and drying time period can be greatly shortened, and the aim of protecting the ink box 5 is fulfilled.

The above description is only for the specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. The protection scope of the present invention is subject to the protection scope of the claims.

Claims (7)

1. The utility model provides an ink horn intelligent control drier which characterized in that includes: the device comprises an execution mechanism (1), wherein the execution mechanism (1) comprises an execution motor (11) and a rotating mechanism (12), and the rotating mechanism (12) comprises a rotating main shaft (121), a rotating arm (122) and a placing frame (123);

the rotating main shaft (121) is used for being coaxially connected with an output shaft of the actuating motor (11); one end of the spiral arm (122) is fixed on the shaft body of the rotary main shaft (121) along the radial direction, and the other end is connected with the placing frame (123); the structure of the placing frame (123) is adapted to the shape of the ink box body and is used for placing the ink box; a water throwing groove (1231) is arranged on one side, back to the rotating main shaft (121), of the placing frame (123), and the water throwing groove (1231) is opposite to a printing nozzle on the ink box.

2. The intelligent cartridge control dryer of claim 1, wherein: the actuating mechanism (1) further comprises a water collecting barrel (13); the top of the water collecting barrel (13) is opened, and the rotating mechanism (12) is positioned in the barrel body of the water collecting barrel (13).

3. The intelligent cartridge control dryer of claim 2, wherein: a boss (131) which is formed by inwards sinking is arranged on the bottom wall of the water collecting barrel (13); the actuating motor (11) is arranged below the boss (131), and an output shaft of the actuating motor penetrates through the boss (131) to extend into the water collecting barrel (13) and is coaxially connected with the rotating main shaft (121).

4. The intelligent cartridge control dryer of claim 2, wherein: the actuating mechanism (1) further comprises a water collecting barrel cover (14), and the water collecting barrel cover (14) is used for covering the top of the water collecting barrel (13); and a bearing groove (141) is arranged on the water collecting barrel cover (14), and a weight pressing block (142) is fixed in the bearing groove (141).

5. The intelligent cartridge control dryer of any one of claims 1-4, wherein: the device is characterized by further comprising a frequency converter (2), wherein the frequency converter (2) is connected with the execution motor (11) and is used for adjusting the rotating speed of the execution motor (11).

6. The intelligent cartridge control dryer of claim 5, wherein: still include industrial computer (3), industrial computer (3) are connected converter (2), are used for controlling converter (2) work.

7. The intelligent cartridge control dryer of claim 6, wherein: the industrial personal computer (3) is connected with the touch screen control panel (4).

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