KR0145862B1 - Temperature adjusting device for electrophotographic processor - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a temperature control device of an electrophotographic processor for lowering the temperature by the driving force of the main motor, without using a separate blower fan when lowering the temperature inside the device body.

2. The technical problem to be solved by the invention

The present invention is to provide a device that the noise reduction and the structure is simple to save the labor of assembly.

3. Summary of Solution to Invention

According to the present invention, a drive gear rotated by a driving force of a main motor installed on one surface of a bracket and a second gear are engaged with one side of the drive gear, and the second gear is engaged. One side of the pulley (pulley) is engaged, the one side of the bracket (bracket) is installed on the impeller (impeller) to lower the temperature by injecting the outside air into the device body, the pulley (impley) and the impeller (impeller) Between the belt is connected to transmit the driving force transmitted to the pulley (impley) to the impeller (impeller).

4. Important uses of the invention

The present invention can lower the temperature inside the apparatus main body by the driving force of the main motor, without using a separate blower fan when lowering the temperature inside the apparatus main body, and also print operation of the electrophotographic processor Since the impeller operates only at the time, the power consumption is reduced, and the impeller rotates when the temperature inside the device is lowered, thereby preventing noise pollution, and the structure of the temperature control device is simple and assembled. There is an effect of saving the airborne.

Description

Thermostat of electrophotographic processor

1 is a schematic diagram showing a configuration of an image forming apparatus of a general electrophotographic processor.

2 is a perspective view showing a temperature control device of a conventional electrophotographic processor.

3 is a schematic diagram showing a configuration of a temperature control device of the electrophotographic processor of the present invention.

* Explanation of symbols for main parts of the drawings

10: bracket 12: first gear

14: drive gear 16: second gear

18: pulley 20: belt

22: impeller 24: opening

The present invention relates to an electrophotographic processor such as a laser beam printer, a copier, a general paper facsimile machine, and the like, in particular, when a temperature of the inside of the apparatus is lowered, a separate blowing fan is not used, The temperature control device of the electrophotographic processor for lowering the temperature by the present invention.

A general printing process will be described with reference to FIG. 1 for a commonly used electrophotographic processor.

The surface of the photoconductive drum 50 is electrically uniformly charged by the corona discharge of the charger 42, and the portion charged by the rotation of the photoconductive drum 50 is a latent image forming apparatus. Exposure of the surface of the photoconductive drum 50 by receiving an electrical signal for forming an image through 43 causes an electro-static latent image to form in a portion that receives light in an initial charged state. Wherein the electro-static latent image is developed with a toner while passing through a developer 44 adjacent to the surface of the photoconductive drum 50 to produce a toner image. Then, the recording paper 46 mounted on the paper feeding cassette 47 is subjected to the high pressure action of the transfer machine 48 on the recording paper fed by the paper feeding roller 45, so that the photosensitive drum 50 ( photoconductive drum surface sat A (toner) image is to be transferred onto the recording paper 46. The

In this case, the recording paper 46 is in close contact with the surface of the photoconductive drum 50 by electrostatic force, and the separator 49 serves to separate the close contact with the recording paper 46.

Thereafter, the separated recording paper 46 is transported to pass between the heat roller 51 and the compression roller 52 of the fixing unit, whereby an image is fixed on the surface of the recording paper 46 by heat and pressure. The printed sheet is conveyed to the stacker 53, whereby desired printing is performed.

On the other hand, residual toner and a latent image exist on the surface of the photoconductive drum 50 passing through the transfer machine 48, where the toner is cleaned by a cleaner blade 40. The residual charge is removed by a latent image removal lamp 41 (pro-erase lamp arrey).

Conventionally, as shown in FIG. 2 is a perspective view showing a temperature control device of an electrophotographic processor, and forms a hole 31 on one side of the device body 32 to allow air to enter therein, and the hole A blower fan 30 is installed inside the hole 31, and an airflow tube 33 into which air can enter is installed on one side of the inner frame 34 of the device body 32. The inlet of the air flow pipe 33 is configured to allow the air flow generated in the blowing fan 30 to flow.

Referring to the operating state of the temperature control device configured as described above are as follows.

When the user turns on the power (ON) installed in the device body 32, all the necessary preparation process at the time of printing is completed, and at the same time the blowing fan 30 is rotated by the driving force of the separately installed drive motor (motor).

At this time, when the printing operation is progressed as shown in FIG. 1, the respective devices dissipate heat and the temperature inside the device body 32 is increased.

At the same time, since the blower fan 30 installed on one side of the machine body 32 is always rotating, the blower fan 30 supplies the external cool air to the inside of the machine body 32 through the air flow pipe 33. Inject in to lower the temperature.

In addition, when the user wants to stop the blowing fan 30, when the power of the device main body 32 is turned off (OFF), the blowing fan 30 is not operated.

When using the above method, the cost is increased because a separate blowing fan 30 must be installed in order to lower the temperature inside the device body 32, and the blower fan 30 is directly installed in the device body 32. Since the number of assembling is increased, and when the power supply of the device main body 32 is turned on (ON), the blower fan 30 is rotated at all times, so that the power loss amount is increased, and the blower fan 30 operates separately. Circuit components are required, and the shape of the product is increased by installing the blower fan 30, resulting in aesthetic problems.

In order to solve the above problems, an object of the present invention is to provide a temperature control device for an electrophotographic processor that does not use a separate blowing fan when the temperature inside the device body is lowered.

Another object of the present invention is to provide an apparatus for controlling the temperature inside the apparatus main body by the driving force of the main motor.

It is another object of the present invention to provide a temperature control device having a simple structure.

Still another object of the present invention is to provide an apparatus for reducing noise and saving assembly time.

It is still another object of the present invention to provide an apparatus in which the shape of a product is reduced in size and has an aesthetic effect.

In order to achieve the above object, the present invention is a drive gear that rotates by the driving force of the main motor (main motor) installed on one surface of the bracket (bracket), and a second gear (gear) is engaged with one side of the drive gear. A pulley is coupled to one side of the second gear, and an impeller is installed on one side of the bracket to lower the temperature by injecting external air into the device body. A belt for transmitting a driving force transmitted to the pulley to the impeller is connected between the pulley and the impeller.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the temperature adjusting device of the electrophotographic processor according to the present invention includes a driving gear 14 rotating by a driving force of a main motor installed on one surface of a bracket 10. It is installed, the second gear 16 (gear) is engaged to one side of the drive gear 14, the pulley 18 (pulley) is engaged to one side of the second gear 16 (gear), An upper part of the bracket 10 (bracket) is provided with an impeller 22 (impeller) for lowering the temperature by injecting external cold air into the device body, and the pulley 18 and the impeller 22 are installed. Between the impellers are connected a belt 20 for transmitting the driving force transmitted to the pulley 18 to the impeller 22, and the bracket 10 of the bracket 10 is connected to the impeller 22. One side of the upper portion is an opening 24 for opening the cold air to the device body is formed (opening).

Referring to the operation and effects of the present invention configured as described above are as follows.

As shown in FIG. 1, when the printing operation is started by the driving force of the main motor, the driving gear 14 rotates counterclockwise by the driving force of the main motor, and the driving gear The second gear 16 (gear) rotates clockwise by the rotation of 14, and the pulley 18 (pulley) engaged with the second gear 16 (gear) rotates counterclockwise. The driving force transmitted to the pulley 18 (pulley) is impeller 22 (impeller) is rotated counterclockwise by receiving power by the rotation of the belt 20 (belt).

At this time, when the printing operation proceeds as shown in FIG. 1, the respective devices dissipate heat and the temperature inside the apparatus main body increases.

At the same time, the impeller 22 (impeller) is injected into the inside of the main body through the opening (24) of the bracket 10 (bracket) by the external cooling air by the driving force of the main motor (temperature) Descend.

When the printing operation is completed by the above process, the main motor is stopped and the driving force is not transmitted to the impeller 22, so the impeller 22 is in a stopped state.

According to the present invention as described above, the temperature adjusting device of the electrophotographic processor does not use a separate blower fan when lowering the temperature inside the device body, and controls the temperature inside the device body by the driving force of the main motor. In addition, since the impeller is operated only during the printing operation of the electrophotographic processor, power consumption is reduced, and since the separate driving motor, blower fan, and circuit components are not used, the structure is simple and productivity is achieved. It is improved, and the impeller (impeller) rotates when the temperature inside the main body of the device to prevent noise pollution, and the structure of the temperature control device is simple, saving assembly labor, and also the shape of the product is miniaturized It has an aesthetic effect.

Claims (3)

In the temperature control device of an electrophotographic processor, the temperature control device includes a drive gear 14 that rotates by a driving force of a main motor installed on one surface of a bracket 10, and the drive gear 14. The second gear 16 (gear) is engaged on one side of the), the pulley 18 (pulley) is engaged on one side of the second gear 16 (gear), the bracket 10 of the (bracket) On one side, an impeller 22 (impeller) is installed to lower the temperature by injecting external cold air into the apparatus body, and the pulley 18 is disposed between the pulley 18 and the impeller 22. Belt 20 (belt) for transmitting the driving force transmitted to the (pulley) to the impeller 22 (impeller) is connected, the outside air is moved to the main body of the bracket (10) (bracket) And an opening (24) for the purpose of controlling the temperature of the electrophotographic processor. 2. The apparatus of claim 1, wherein the impeller is rotated by the driving force of the main motor. 3. The apparatus of claim 2, wherein the impeller is rotated only during the printing operation of the electrophotographic processor.