KR101218462B1 - Heater block for dispenser - Google Patents

Abstract

PURPOSE: A heater block for dispenser is provided to uniformly maintain viscosity of dispenser liquid sprayed through a nozzle. CONSTITUTION: A heater block for dispenser (100) comprises a driving part(10), a nozzle block(20), a nozzle part(30), a syringe part(40), and a heater block(50). The driving part supplies dispenser liquid. The nozzle block is mounted at the bottom surface of the driving part. The nozzle unit is installed at the lower part of the nozzle block. The syringe part supplies the dispenser liquid inside the nozzle unit through the nozzle block. The heater block includes a heater(H) and a temperature sensor(S).

Description

Heater block for dispenser

The present invention relates to a dispenser, and more particularly, to a dispenser mounted in close contact with a nozzle unit for injecting the dispenser liquid to maintain a constant viscosity of the dispenser liquid sprayed through the nozzle, without changing over time. The present invention relates to a heater block for a dispenser capable of having an efficient jetting effect of the dispenser liquid.

In general, the dispenser is a device that serves to apply a predetermined amount of the dispenser liquid supplied through the nozzle to the target position precisely and a predetermined amount, and is used for precise bonding or processing, such as a semiconductor manufacturing process.

As shown in FIGS. 1 and 2, the dispenser includes a rectangular drive unit 10, a nozzle block 20 mounted on a bottom surface of the drive unit 10, and a dispenser disposed below the nozzle block 20. The nozzle unit 30 is divided into a syringe unit 40 mounted on the side of the nozzle block 20.

In addition, the tappet 18 for vibrating (forward and backward movement) movement toward the lower end side of the driving unit 10 is configured to protrude, and the inlet hole of the nozzle block 20 through the centering piece 10a and the sealing member 10b ( 21 is configured to insert-mount the tappet 18.

In addition, the nozzle block 20 has an inlet hole 21 into which the tappet 18 of the drive unit 10 is inserted, and a mounting hole 22 formed at one side thereof and equipped with a syringe portion 40 filled with a dispenser liquid. And a fastening part 23 formed at a bottom surface to which the nozzle part 30 is mounted and coupled.

In addition, the nozzle block 20 has an internal structure in which the dispenser liquid supplied through the syringe portion 40 flows into the inlet hole 21.

The nozzle unit 30 includes a guidance 31 inserted into the coupling part 23 of the nozzle block 20 through the O-ring 34, and a nozzle 32 inserted into the bottom surface of the guidance 31. The cover part 33 covers the guidance 31 and the nozzle 32 and is fastened and fixed to the fastening part 21 of the nozzle block 20.

The nozzle 32 is configured in a funnel shape to eject and dispense the dispenser liquid through the injection hole formed in the center.

On the other hand, the drive unit 10 is an internal configuration as disclosed in the Republic of Korea Patent No. 10-1150139 (Inventive name: dispenser with cooling means) that the applicant has been registered, from the power line (10c) A predetermined power source (a pulse wave having a frequency) is applied to the piezoelectric part of the piezoelectric element module, and fine vibration is performed by repeating physical expansion and contraction so as to correspond to the pulse wave by the piezoelectric effect.

The terminal part is also vibrated in conjunction with the operation of the piezo part, and the vibration is applied to the rear end of the seesaw lever inside the driving part to perform the seesaw operation with respect to the projection part, thereby vibrating the tappet connected to the tip part of the seesaw lever, and the top and bottom of the tappet. According to the operation, the operation is made as a structure that allows the dispenser liquid supplied into the nozzle through the inlet hole from the syringe portion to the outside of the nozzle in a certain amount.

The supply of the dispenser liquid filled in the syringe portion varies in viscosity depending on the type of dispenser liquid to be used for the object.

Therefore, the dispenser liquid supplied from the syringe part and finally injected through the nozzle has a problem in that a viscosity change takes time in the process of supplying the nozzle, so that the spraying effect decreases as time passes.

This is because the change in viscosity of the dispenser liquid sprayed through the final nozzle also affects the bonding of a specific part of the object to which the dispenser liquid is sprayed, leading to poor manufacturing of the product.

As a result, the dispenser liquid used in the syringe portion mounted on the nozzle block of the dispenser is required to be maintained until the moment when the dispenser liquid sprayed through the nozzle is applied to the object in accordance with the temperature conditions for maintaining viscosity according to its type. Conditions must be established.

The present invention has been invented to solve the conventional problems as described above, the object is to be attached to the nozzle unit to be mounted to the dispenser injecting the dispenser liquid to maintain a constant viscosity of the dispenser liquid injected through the nozzle It is to provide a heater block for the dispenser to have an effective spraying effect of the dispenser liquid through the nozzle without changing over time.

According to the present invention for achieving the above object, a drive unit for pumping and supplying the dispenser liquid in a rectangular shape, a nozzle block mounted to the bottom surface of the drive unit, a nozzle unit provided below the nozzle block, and the nozzle block It is mounted on the side, and the dispenser liquid is filled inside, and the syringe unit for supplying the dispenser liquid inside the nozzle unit through the nozzle block, and a temperature sensor for sensing the heating temperature including a heater therein to heat the nozzle block is built in. In the heater block for the dispenser is provided so that the heater block for maintaining a constant viscosity of the dispenser liquid sprayed through the nozzle unit detachably from the nozzle block,

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The heater block has a body having a guide groove of the shape receiving the bottom and front and rear sides of the nozzle block, the nozzle guide hole for receiving the outer circumference of the nozzle portion is formed on the guide groove, the body of the body from the nozzle guide hole A cutting groove is formed on the edge side, and a fastening hole is formed on the side of the body where the cutting groove is formed, and a fastening screw for tightly fixing the nozzle unit to the inner diameter of the nozzle guide hole as the fastening degree of the screw is installed. A heater installation groove is formed for the installation, and a sensor position hole for the installation of the temperature sensor is formed on the guide groove, and a stator for vertically installing the heater and the temperature sensor is provided on the body to be installed in close contact with the driving unit. It is characterized by.

The heater block for the dispenser according to the present invention heats the nozzle unit installed in the nozzle block so that the heater block detachably mounted on the dispenser maintains the viscosity of the dispenser liquid at a temperature until the final injection point through the nozzle. Since the amount of dispenser sprayed and applied to the work object is uniform, it is possible to prevent the manufacturing defect of the product due to the work of attaching the object in the applied state, thereby reducing the loss of defects and producing high quality products. have.

1 is a perspective view showing a conventional dispenser,
2 is a cross-sectional view showing a conventional dispenser,
3 is a perspective view showing a state in which a heater block of the present invention is applied to a dispenser;
4 is a perspective view illustrating a state viewed from another direction by extracting the heater block in FIG. 3;
5 is a perspective view showing a heater and a temperature sensor installed in a heater block according to the present invention;
6 is a front view illustrating a state in which the heater block according to the present invention is mounted on the nozzle block of the dispenser;
7 is a perspective view showing an example of a heater block according to the present invention;
8 is a bottom view of the heater block in FIG. 7;
9 is a front view illustrating a state in which the heater block is mounted on the nozzle block of the dispenser in FIG. 7.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 3 to 9.

The present invention provides a driving unit 10 for pumping and supplying a dispenser liquid in a rectangular shape, a nozzle block 20 mounted on a bottom surface of the driving unit 10, and a nozzle unit provided below the nozzle block 20 ( 30) and a syringe unit 40 mounted on the side of the nozzle block 20 and filled with the dispenser liquid to supply the dispenser liquid to the inside of the nozzle unit through the nozzle block, and the nozzle block 20. The heater block 50 for maintaining the viscosity of the dispenser liquid sprayed through the nozzle unit 30 is built in a temperature detecting sensor S for detecting a heating temperature including a heater H therein to heat the nozzle. In the heater block for the dispenser provided detachably from the block (20),

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The heater block 50 is made of aluminum die casting having high heat transfer, and has a body 51 having a guide groove 52 formed to support the bottom and front and rear sides of the nozzle block 20.

The guide groove 52 has a predetermined depth from the upper portion of the body 51, and the front and rear sides thereof are formed to have a width to guide the front and rear sides of the nozzle block 20 to be in close contact.

In addition, a nozzle guide hole 53 for receiving the outer circumference of the nozzle portion 30 is formed on the guide groove 52, the incision groove 54 from the nozzle guide hole 53 toward the edge of the body 51 Is formed.

A fastening screw 55 is formed on the side surface of the body 51 in which the cutting groove 54 is formed, and a fastening screw for tightly fixing the nozzle part 30 to the inner diameter of the nozzle guide hole 53 as the fastening degree of the screw ( 56 is fastened and installed.

That is, the formation of the incision groove 54 is to be in close contact with the outer diameter of the cover 33 to the nozzle guide hole 53 inner diameter to be described later.

And, one side of the body 51 is provided with a heater installation groove (51a) for installing the rod-type heater (H), the sensor position hole for the installation of the temperature sensor (S) on the guide groove (52) 52a is formed.

On the other hand, on the body 51 is provided with a holder (57) for the vertical installation of the heater (H) and the temperature sensor (S) is installed in close contact with the drive unit (10).

Fixing plate 57 provided in the body 51 may be integrally formed in the body in the case of a heater blow as shown in FIG. 7 attached or detached from the body.

For reference, the nozzle unit 30 has the same configuration as a nozzle applied to a conventional dispenser, and the guidance 31 inserted into the nozzle block 20 and the bottom surface of the guidance 31 as shown in the accompanying drawings. The cover 32 and the O-ring 34 which cover the nozzle 32 inserted into and mounted to the guide 31 and the nozzle 32 and are fastened and fixed to the fastening part 21 of the nozzle block 20. It is configured to include.

That is, the cover part 33 constituting the nozzle part 30 is to be penetrated and supported in the nozzle guide hole 53 of the heater block 50 in the drawing.
In the drawing, reference numeral 100 denotes a dispenser.

Referring to the operation of the mounting use of the heater block for the dispenser of the present invention configured as described above are as follows.

First, the combination of the guide groove 52 formed in the body 51 of the heater block 50 of the present invention from the bottom surface of the nozzle block 20 constituting the dispenser 100 to be combined.

The heater block 50 is installed as shown in FIGS. 3 and 7 attached to the shape of the nozzle block 20.

That is, the heater block 50 is the same as the installation of the fastening screw 56 through the guide groove 52, the nozzle guide hole 53, the cutting groove 54 and the fastening hole 55 are all made of the dispenser 100 Heat conduction to the nozzle block 20 and the nozzle unit 30 constituting the), and the control for the heat detection is revealed that the same.

The dispenser 100 side nozzle block 20 is seated in the guide groove 52 is in close contact with the front and rear sides including the bottom of the nozzle block 20 to the extent that heat can be conducted, the nozzle block 20 side The cover part 33 constituting the nozzle part 30 is guided to the nozzle guide hole 53 formed in the guide groove 52.

When the fastening screw 56 is fastened to the fastening screw 55 formed from the side surface of the body 51 in the above state, the cutting groove 54 cut from the nozzle guide hole 53 is the nozzle guide hole 53 Tighten the inner diameter of the cover portion 33 is in close contact.

In addition, the holder 57 constituting the heater block 50 is in close contact with one surface of the drive unit 10 of the dispenser 100 to fix the wiring of the heater (H) and the temperature sensor (S) installed on the body 51 side. .

The close shape of the cover part 33 constituting the nozzle 32 is to heat the body 51 in accordance with the heating conditions of the heater (H) is inserted into the installation groove (51a) of the body 51, the body Heat is transferred to the nozzle block 20 as well as the nozzle block 20 in contact with the 51.

The heating of the heater (H) as described above to maintain a uniform viscosity of the dispenser liquid sprayed in the supply process through the nozzle unit 30 is supplied from the syringe portion 40 mounted on the nozzle block 20 Application of a fixed amount to the workpiece is realized, and precise spray coating is achieved by maintaining the viscosity until spraying through the final nozzle 32, in particular.

Heat conducted by the heating of the heater (H) of the heater (H) by the heat detection of the temperature sensor (S) of the sensor position hole 52a side formed on the guide groove 52 of the body 51 It is possible to control the degree of heating of the heater (H) to maintain the ideal viscosity of the dispenser liquid to use the heating conditions.

The heating degree of the heater (H) and the action by the temperature sensor (S) is set to operate differently in consideration of the viscosity of the dispenser liquid sprayed through the nozzle unit 30 according to the viscosity of each dispenser liquid to be used In this way, the spraying effect of the dispenser liquid can realize a uniform quantitative spraying effect without change over time in the process of dispensing the dispenser liquid through the nozzle as compared to the condition of heating the syringe separately from the outside of the dispenser to maintain the viscosity of the dispenser liquid. Will be.

As described above, maintaining the viscosity at the final injection portion of the dispenser liquid may reduce defects and improve the quality of the product related to the workpiece.

10: drive unit 20: nozzle block
30: nozzle portion 40: seal portion
50: heater block 51: body
52: guide groove 53: nozzle guide
54: incision groove 55: fastener
56: fastening screw 57: holder
H: Heater S: Temperature sensor

Claims (2)

A drive unit 10 for pumping and supplying dispenser liquid in a rectangular shape, a nozzle block 20 mounted on a bottom of the drive unit 10, a nozzle unit 30 installed below the nozzle block 20, and It is mounted on the side of the nozzle block 20, the dispenser liquid is filled therein to supply the dispenser liquid to the inside of the nozzle unit through the nozzle block 40 and the inside to heat the nozzle block 20 The heater block 50 for maintaining a constant viscosity of the dispenser liquid sprayed through the nozzle unit 30 is embedded with a temperature sensor S for detecting a heating temperature including the heater H, and the nozzle block 20. In the heater block for the dispenser installed detachably from
The heater block 50,
It has a body 51 having a guide groove 52 in the form of supporting the bottom and front and rear sides of the nozzle block 20, the nozzle guide for receiving the outer circumference of the nozzle portion 30 on the guide groove 52 Ball 53 is formed, the cutting groove 54 is formed from the nozzle guide hole 53 to the edge of the body 51, the fastening hole 55 on the side of the body 51 in which the cutting groove 54 is formed ) Is penetrated to form a fastening screw 56 for tightly fixing the nozzle part 30 to the inner diameter of the nozzle guide hole 53 as the fastening degree of the screw, and the heater (H) on one side of the body (51). Heater installation groove (51a) for the installation is formed, the sensor position hole (52a) for the installation of the temperature sensor (S) is formed on the guide groove 52, the heater (H) on the body (51) And a holder 57 for vertically installing the temperature sensor S is installed vertically and is in close contact with the driving unit 10. Heater blocks. delete

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