KR200486211Y1 - Ptc heater - Google Patents

Abstract

The PTC heater of the present invention includes a PTC element that generates heat by an applied power source, a fitting groove formed on an upper portion or a lower portion of the PTC heater, and a groove portion corresponding to the shape of the PTC element, And an insulating member for insulating between the electrode plate and the outside, wherein the protruding protrusion is fitted to the fitting groove of the guide module, unit; And a heating tube mounted on the inside of the housing to transmit the heat generated by the housing to the outside, wherein the heating tube is provided with a guide which forms a mounting space for mounting the housing, And a wall portion is provided inside.

Description

PITTY HEATER {PTC HEATER}

The present invention relates to a heater using a Pitty seed, and more specifically, by integrating a mounting space of a Pitty seed unit, which is a heat generating assembly including a Pitty seed, in a heating tube, the electrical connection reliability for heat generation of the Pitty seed unit Of course, the present invention relates to a heating tube that can more effectively realize the overall heat-generating behavior characteristics of a heating tube by improving heat transfer efficiency by conduction.

The PTC (Positive Temperature Coefficient) to PTC thermistor, also referred to as a positive temperature coefficient thermistor, is a device having a behavior characteristic that a temperature rises due to a phase transition when a certain temperature range is reached, thereby increasing the electrical resistance.

Since PTC devices have electrical characteristics that have a rapid increase in electrical resistance, they are utilized as switches that perform power supply on / off functions. In addition, the PTC devices are capable of maintaining a high temperature continuously in a relatively short time, It is utilized as a heating element in a vehicle heater, a dryer, a thermostat, a medical instrument, a heating mat, a radiator, and the like.

The PTC heater using the heat characteristic of the PTC element is variously implemented according to the application field and the object. It is not applied the Pythe unit as the heat generating assembly including the PTC element, the electrode plate, the insulating member, And is used in a form embedded in an intermediate unit such as a heating tube or the like so as to be organically combined with the heating structure of the heating unit.

As described above, the intermediate unit such as a heating tube has a variety of shape structures including a cylindrical shape and the like for the structural adaptability of the heat generating device in the actual use or application environment embedded in an intermediate unit or the like, Since the included pitch unit is usually implemented in a plate form, it has a heterogeneous structure or a shape relationship with each other.

Due to such a heterogeneous structure or geometrical relationship, when the filling unit is installed in an intermediate unit such as a heating tube, the filling member is filled in the empty space of the heating tube for fixing the built-in fitting unit and increasing the heat transfer efficiency An elastic member such as a spring or the like is additionally provided.

In the conventional method, since the additional structure must be provided, the cost efficiency is lowered and the process becomes complicated. Further, since there is no organic structure relation between the mutual structures, there arises a problem that the heat transfer efficiency is deteriorated There is a problem that it is difficult to secure electrical connection reliability for heat generation of the Pitty seed.

Further, when the heating tube is formed in a columnar shape, it is difficult to realize the additional member with a radius of curvature corresponding to the heating tube, so that the contact efficiency is low, and the position and the area of accommodation are not consistently realized. , There is a problem that the variation of the heat transfer efficiency of each product is large.

However, since the mediating unit such as the heating tube is not the same depending on the application apparatus or the field, it is generally exposed to the physical environment such as rotation, vibration and movement. Therefore, There is a problem that the unit can cause the failure of the apparatus itself to which the unit is applied.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a heat dissipating assembly, So that problems such as mutual spacing and clearance of the components can be prevented from occurring, thereby improving the reliability of electrical connection for heat generation of the heat dissipation unit and the heat transfer efficiency by conduction, The purpose is to provide.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by a combination of the constitution and the constitution shown in the claims for utility model registration.

In order to accomplish the above object, the present invention provides a PTC heater comprising a PTC element that generates heat by an applied power source, a fitting groove formed at an upper portion or a lower portion of the PTC heater, A guide module formed at a center portion of the corresponding groove portion, a protrusion protrusion formed to be fitted into the fitting groove portion of the guide module, and an electrode plate for applying power to the Pettis device, A phytase unit comprising a member; And a heating tube mounted on the inside of the housing to transmit heat generated by the housing to the outside. In this case, the heating tube is in contact with an inner circumferential surface of the housing to form a mounting space in which the housing is mounted The guide wall portion is provided inside.

The guide groove of the guide module of the present invention is formed in a single-layer shape so as to form a first groove portion and a second groove portion having different sizes, and the first groove portion existing on the inner side and smaller in size than the second groove portion, The second groove portion is located forward and rearward with respect to the first groove portion and has a shape corresponding to the electrode plate for mounting the electrode plate, .

Preferably, the heating tube of the present invention may further include one or more ribs connecting the guide wall portion and the inner circumferential surface of the heating tube, and the heating tube is integrally formed with the guide wall portion.

In this case, the pressing guiding groove portion is provided on the outer circumference of the heating tube corresponding to the horizontal length direction of the mounting space, It is more preferable that the thickness of the heating tube is relatively thinner than the thickness of the heating tube.

According to the preferred embodiment of the present invention, since the space for mounting the piston unit in the heating tube, which is an intermediate means for application of the apparatus, is provided, it is possible to organically combine structures having different structures and shapes, It is possible to solve the problems such as deterioration of heat conduction efficiency due to the gap or clearance and deterioration of electrical connection reliability, and the rib structure of the present invention can further improve structural efficiency and heat transfer efficiency by heat conduction.

According to another preferred embodiment of the present invention, the Pitty seed heater can simplify the manufacturing process of the Pitty seed heater as well as the assembly process of the Pitty seed unit, thereby improving the process efficiency and improving the physical or electrical connection efficiency. Can be simplified to one time.

In addition, according to another preferred embodiment of the present invention, the PITSY HEATER can minimize the external contour of the PTFE heater during the pressing process and induce the external force for pressing to act accurately in the horizontal direction, Thereby further enhancing the reliability of the physical and electrical contact between the tubes.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate preferred embodiments of the invention and, together with the detailed description of the invention given below, serve to better understand the concept of the invention. And shall not be construed as limited to such matters.
FIG. 1 is a perspective view showing a Peltier heater 100 according to a preferred embodiment of the present invention,
FIG. 2 is a view showing the decomposition coupling degree of the Pitty seed unit 110 shown in FIG. 1 and the coupling relationship between the Pitty seed unit 110 and the heating tube 120, FIG.
3 is a plan view showing a detailed configuration of the heating tube 120 according to another preferred embodiment of the present invention,
FIG. 4 is a perspective view showing the heat sink heater 100 in which the heating tube 120 shown in FIG. 3 is implemented.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and the inventor may appropriately design the concept of the term appropriately to describe its own design in the best way possible. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the constitutions shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

FIG. 1 is a perspective view illustrating a PTFE heater 100 according to a preferred embodiment of the present invention. FIG. 2 is an exploded perspective view of the PTFE unit 110 shown in FIG. 1, And the heating tube 120. Fig.

As shown in FIGS. 1 and 2, the heat sink 100 of the present invention may include a heat sink unit 110 and a heating tube 120. In order to enhance the device expandability, A wire assembly 130 for electrically connecting with an external power source or the like may be additionally included.

As shown in FIG. 2, the PTC device 110 of the present invention may include a PTC device 111, a guide module 113, an electrode plate 115, and an insulating member 117 have. The Phytesis device 111 corresponds to a heating element that generates heat by an applied power source and has a plate shape as shown in the drawing. The operation principle, internal structure, manufacturing method, and the like of the Phytesis device 111 are well known to those of ordinary skill in the art and do not correspond to the core technical idea of the present invention, so a detailed description thereof will be omitted.

The phytisous device 111 is attached to the guide module 113 by fitting into the groove of the guide module 113 as shown in the figure and the electrode plate 115 of the present invention is mounted on the guide module 113 And the power is applied to the phytase element 111. The Phytase element 111 is formed of the same material as that of the Phytase element 111, Since the power supply unit 111 generates heat by applying power regardless of the polarity of the applied power, one of the electrode plates 115 functions as a positive electrode plate and the other electrode plate functions as a negative electrode plate.

An insulating member 117 may be provided on one or both surfaces of the electrode plate 115 for electrical insulation from the outside.

As shown in the figure, since the phytesis element 111 has a plate-like shape, the electrode plate 115 and the insulating member 117 are formed in a plate-like shape .

The guide module 113 is provided with a groove in order to effectively fix the position of each unit constituting the pitch unit 110 and to further improve the reliability of electrical connection and the like, It is preferable that the protrusions and the grooves are provided in the plate 115 so that the fitting between the protrusions and the grooves can be mutually fitted or elastically fitted so that the fittie element 111 and the electrode plate 115 can be more closely attached.

In order to improve the reliability of the electrical connection, a conventional process of inserting the thus-configured fillet unit 110 into the case of the rectangular fillet unit 110 is carried out, A primary pressing process in which the material is squeezed in both vertical directions is performed, and then a physical squeezing process for improving conductivity is performed in the process of finally assembling the Pty. Heater.

However, since the present invention does not require the case of the PTFE unit 110 itself, it is not necessary to perform the process of inserting the PTFE unit 110 during the manufacturing process of the PTFE unit 110, It is possible to omit the primary pressing process in the process of manufacturing the PTFE unit 110 because the pressing process can be unified in the final assembly or completion of the PTFE unit 110. [

The heating tube 120 of the present invention is an intermediate unit for application of an apparatus or the like having a heat generating function as described above. The heating tube 120 is mounted inside the heating tube 120, And transmits the generated heat to the outside.

The heating tube 120 may have various shapes and shapes according to the equipment to be used. However, when the heating tube 120 is used in a thermal therapy device or a thermal mat, it may be formed in a cylindrical shape for securing physical movement such as rotation. The shape of the heating tube 120 will be described with reference to a circular tube having a cylindrical shape.

As shown in FIG. 2, a guide wall 121 connected to the inner circumferential surface of the heating tube 120 is provided inside the heating tube 120. The guide wall 121 is configured to be physically connected to the heating tube 120 itself and to be accommodated therein, thereby forming a mounting space 123 in which the above-described phytiskeen unit 110 is mounted, as shown in FIG.

The fitting space 123 is formed in such a manner that the fitting space 123 is inserted into the fitting space 123 so that the shape of the fitting space 123 can be made to correspond to the fitting space 110, .

Although the guide wall 123 for forming the mounting space 123 is implemented through two members, it is obvious that the guide member may be formed in a square shape through four members.

The heating tube 120 according to the present invention is preferably made of aluminum in consideration of heat transfer efficiency and formability, and from the same viewpoint, the guide wall 123 is also preferably made of aluminum.

When the heating tube 120 and the guide wall 121 are realized by using the same aluminum material, the heating tube 120 and the guide wall 121 are heated by a heating method, which is integrated with the guide wall 121 through a molding method such as drawing, It is preferred to implement the tube 120.

3 and 4 are a plan view and a perspective view showing a detailed configuration of the heating tube 120 according to another preferred embodiment of the present invention. 3, the heating tube 120 of the present invention further includes one or more ribs 125 connecting the guide wall 121 and the inner circumferential surface of the heating tube 120.

The ribs 125 may be provided in a direction perpendicular to the mounting space as illustrated in FIG. 3. In such a case, the support structure between the components may be further strengthened, The heat generated by the heating tube 120 can be transferred to the heating tube 120 by heat conduction, thereby further improving heat transfer efficiency. According to the embodiment, the ribs may be radially configured to further improve heat transfer efficiency.

When the rib 125 is formed as a wall member connecting the guide wall 121 and the inner circumferential surface of the heating tube 120, the guide wall 121, as well as the rib 125 The heating tube 120 can be integrated to improve the efficiency of the molding process and the thermal transfer efficiency.

As shown in FIG. 3, the heating tube 120 of the present invention may include at least one crimping guiding groove 127 on the outer circumference thereof for the implementation of the more preferred embodiment.

As described above, the piston unit 110 is inserted into the mounting space 123 of the heating tube 120 and is mounted. After the fitting of the piston unit 110 is completed, A pressing process in which an external force is applied in the vertical direction can be performed.

When the pressing process is performed after the fitting of the fitting unit 110, the components such as the electrode plate 115 and the fitting member 111 of the fitting unit 110 can be more closely contacted with each other, The connection reliability can be further improved and the physical contact between the heating tube 120 and the housing unit 110 is further strengthened so that the heat generated in the housing unit 110 is transferred to the heating tube 120 Thereby improving the heat transfer efficiency.

Such a pressing process may use a pressing zig having a shape corresponding to the contour of the heating tube 120. The pressing guiding groove 127 of the present invention can accurately guide the direction arrangement with the pressing jig It is possible to prevent the external shape of the heating tube 120 from being deformed and to transmit the force exactly in the direction perpendicular to the plane of the housing 110 mounted on the mounting space 123, The adhesion between the components can be improved.

It is further preferable that the pressing guiding groove 127 is provided on the outer circumference of the heating tube 120 corresponding to the horizontal length direction of the mounting space 123 (the right side view A in FIG. 3).

When the pressing guiding groove 127 is provided at a position corresponding to the horizontal length direction of the mounting space 123, when a pressing force is applied in a vertical direction (reference in FIG. 3) Since the external force is concentrated in the guiding groove 127 in advance, the force in the vertical direction can be accurately transmitted to the heating tube 120 as well as the piston unit 110, thereby further improving the electrical and physical contact efficiency.

It is preferable that the thickness of the compression guiding groove 127 is formed to be relatively thinner than the thickness of the heating tube 120. As shown in the figure, It is preferable to embody it in an embedded form.

In the embodiment in which the guiding wall portion 121 is implemented in a quadrangular prism shape by using four wall members and is inscribed in the heating tube 120, the pressing guiding groove portion 127 It is preferable that the wall portion facing the groove portion 127 (the left and right side wall portions in FIG. 3) is designed to be inwardly inward.

While the present invention has been described in connection with certain exemplary embodiments and drawings, it will be understood by those skilled in the art that the present invention is not limited thereto and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the claims of utility model registration claims.

The drawings and the like may be exaggerated or omitted in order to emphasize or accentuate the contents of the present invention. However, the present invention is not limited to the above-described contents, It is to be understood that various modifications may be made in the ordinary skill in the art.

100: Pitty-seed heater
110:
111: Pitti device 113: Guide module
115: electrode plate 117: insulating member
120: Heating unit
121: guide wall portion 123: mounting space
125: rib 127: crimping guiding groove
130: Wire assembly

Claims (7)

A guide module formed in a central portion of a groove portion corresponding to the shape of the Pittsi device so that the PTC device is mounted on an upper or lower portion of the PTC device, A protrusion protrusion formed on the fitting groove of the module, the protrusion protruding from the protrusion protruding from the protrusion protrusion; and an insulating member for inserting the electrode plate and the outside of the module. And
And a heating tube mounted inside the unit to transfer the heat generated by the unit to the outside,
Wherein the heating tube is provided with a guide wall portion which is in contact with an inner circumferential surface and forms a mounting space in which the piston unit is mounted,
Wherein the groove portion of the guide module comprises:
Wherein the first groove portion, which is located on the inner side and is smaller than the second groove portion, has a first groove portion and a second groove portion which are different in size from each other, And the second groove portion is located forward and rearward with respect to the first groove portion, and has a shape corresponding to the electrode plate to be mounted on the electrode plate. delete The heating tube according to claim 1,
And one or more ribs connecting the guide wall portion and the inner circumferential surface of the heating tube. The heating tube according to claim 1,
Wherein the guide portion is formed integrally with the guide wall portion. The heating tube according to claim 1,
Wherein at least one of the pressing guiding grooves is provided on the outer periphery. 6. The apparatus according to claim 5, wherein the compression guiding groove portion
Wherein the fitting space is provided on an outer periphery of the heating tube corresponding to a horizontal length direction of the mounting space. 7. The apparatus according to claim 6, wherein the compression guiding groove portion
And the heating tube is formed to be relatively thinner than the thickness of the heating tube.

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