KR20100091811A - Radiator cover fixing jig for silicon sticking system - Google Patents

Abstract

PURPOSE: A radiator cover fixing jig for a silicone attachment system is provided to prevent the flow or break of the cover while transferring the cover on an automation system comprising a series of rotating structures. CONSTITUTION: A radiator cover fixing jig(120) for a silicone attachment system comprises the following: a jig plate(122) located on the upper side of a cover transfer unit; multiple fixing blocks fixed to the upper side of the jig plate; a cover fixing piece(126) screwed to the upper side of the fixing blocks, in which an edge jamming protrusion(126a) is formed on each fixing block; and a position fixing groove(128) penetrating the edge of the jig plate.

Description

Radiator cover Fixing jig for silicon sticking system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radiator cover fixing jig for a silicon attachment system. The radiator cover fixing jig for a silicon attachment system for fixing the radiator cover in the configuration of the radiator cover silicon attachment system to be attached to the cover transfer unit to be transported.

In general, a heat exchanger refers to a device that performs heat exchange between two fluids having different temperatures and separated by solid walls. In the narrow sense, a heat exchanger is generally used between two process flows without phase change. Refers to a device for exchanging heat, and broadly includes a cooler, a condenser, and the like. Such heat exchangers are widely used for heating, air conditioning, power generation, cooling, and waste heat recovery.

On the other hand, the types of heat exchangers are classified according to their geometric shapes, such as shell & tube heat exchanger, double pipe type heat exchanger, plate type heat exchanger, air cooler, and heating. There are Fired Heater and Coil Type Heat Exchanger, and according to the function, Heat Exchanger, Cooler, Condenser, Reboiler, Evaporator, Preheater (Preheater) and Two Phase Flow Heat Exchanger.

As one of the heat exchangers described above, a radiator is used for an air conditioner or a cooling system of a vehicle, and the radiator is installed on a pair of head plates that are installed up and down, and each of the upper and lower head plates, thereby cooling water (or refrigerant). Radiator cover with a tank function for guiding the entry and exit of the tank), and the heat transfer tube and the heat transfer tube arranged between the upper and lower head plates at a predetermined interval in the lateral direction to allow the flow of the cooling water (or the refrigerant), respectively. The heat dissipation fin is configured to radiate heat transferred from the tube into the atmosphere.

In the case of installing the radiator cover on each of the upper and lower head plates in the configuration of the radiator having the above-described configuration, a leakage preventing packing for preventing leakage of cooling water (or refrigerant) between the coupling end of the head plate and the radiator cover ) Is installed. At this time, the leakage preventing packing is manufactured separately from the radiator cover by using a rubber or synthetic resin material is seated between the coupling end of the head plate and the radiator cover when the radiator cover is installed on the head plate.

However, the leak-proof packing according to the prior art is manufactured separately and is installed in a structure that is seated between the coupling end surface of the head plate and the radiator cover when the radiator cover is installed on the head plate. In order to make contact, there is a problem in that a coupling groove of the radiator cover must be formed in a wider range than the coupling end surface of the radiator cover or a mounting groove in which the coupling end of the radiator cover can be seated. In addition, the leakage preventing packing of this structure is a burden of cost.

Therefore, in order to solve the problems as described above, a radiator having a structure in which silicone is applied to a predetermined thickness on a bonding end surface of the radiator cover and cured in a soft form without using the leakage preventing packing according to the related art is used. That is, a radiator cover having a structure in which silicon having a predetermined thickness is integrally attached to the coupling end surface of the radiator cover has been developed and used.

However, as described above, when manufacturing a radiator cover having a structure in which a certain thickness of silicon is integrally attached to an end surface of the radiator cover, a work process of applying and attaching a certain thickness of silicon to the end surface of the radiator cover is performed manually. Therefore, the productivity is lowered, as a result of which the burden of the production cost is increased.

In addition, as described above, when manufacturing a radiator cover having a structure in which a certain thickness of silicon is integrally attached to the coupling end of the radiator cover, a work process of applying and attaching a certain thickness of silicon to the coupling end of the radiator cover is performed manually. Therefore, there is a problem that the thickness of the silicon applied on the coupling end surface of the radiator cover is not uniform, which may cause a problem of accurately sealing between the coupling end of the head plate and the radiator cover.

Accordingly, in order to solve the problems as described above, the present applicant has provided a method of directly attaching silicon on the coupling end surface of the radiator cover through an automated system for attaching silicon, which consists of a series of circulation structures. At this time, when the radiator cover is transported on an automated system having a series of circulation structures, if the radiator cover flows or is distorted at the transfer position, there is a problem in that the application of silicon occurs and the uniform application of the silicon cannot be achieved. .

Therefore, the present applicant has a need for a jig for fixing the radiator cover so that the flow or twist of the radiator cover does not occur at the transfer position when the radiator cover is transported on the automation system.

The present invention is devised to prevent the flow or twist of the radiator cover as described above, a series of circulation by providing a jig of the structure that is moved through the cover transfer unit in a state that the radiator cover is fixedly supported at a certain height It is an object of the present invention to provide a radiator cover fixing jig for a silicon attachment system that does not cause a flow or twist of a radiator cover when the radiator cover is transferred on an automated system having a structure.

In addition, another object of the technology according to the present invention is to transfer the radiator cover on the automation system consisting of a series of circulation structure by providing a jig of the structure is moved through the cover transfer unit in a state that the radiator cover is fixedly supported at a certain height It is to prevent the flow or twisting to be able to accurately apply the silicone on the bonding end surface of the radiator cover.

In addition, another object of the technology according to the present invention is to transfer the radiator cover on the automation system consisting of a series of circulation structures by providing a jig of the structure that is moved through the cover transfer unit in a state that the radiator cover is fixedly supported at a certain height. In this case, the height or thickness of the silicon to be applied may be made uniform by preventing the flow or distortion.

The present invention is configured to achieve the object as described above is as follows. That is, the radiator cover fixing jig for the silicon attachment system according to the present invention unloading and loading of the radiator cover while transporting the cover transfer unit horizontally formed on a line of a predetermined length by holding the radiator cover upwardly ( Foreign material removal unit that removes foreign matter on the coupling unloading part of the cover unloading part / loading part and the radiator cover through combustion heat, dispensing unit and radiator cover that apply silicon to a certain thickness on the joint end of the radiator cover. Cover for radiator cover silicon attachment system via cooling unit for cooling cover fixing jig including curing unit and radiator cover heated by curing unit for drying and applying the silicon coated on the mating end of In the fixing jig, the cover fixing jig transfers the cover It is positioned on top of the support units consisting of a plate of a predetermined size to be transferred geupan; A plurality of fixing blocks that are installed and fixed at a predetermined height on the upper surface of the jig plate and are installed to face each other at a large interval relative to the length of the radiator cover; Cover fixing pieces which are installed on the upper end of each of the fixing blocks are fixed through a fixing screw, each of which has a frame engaging jaw that is coupled to the bottom of both sides of the coupling end surface of the radiator cover; And a position fixing groove which is formed to penetrate up and down close to the edge of the jig plate.

In the configuration of the radiator cover fixing jig according to the present invention as described above, the interval between the edge engaging jaw of the cover fixing pieces provided opposite to each other is preferably made of the interval of the length corresponding to the coupling end surface of the radiator cover.

On the other hand, in the configuration as described above, one side of the cover fixing piece installed opposite to each other in the same direction is bent and formed in a shape corresponding to the bent corner portion of the lower end of both sides of the coupling section of the radiator cover, but the radiator cover is seated on the cover fixing piece In the case of holding, a cover positioning protrusion may be further configured to determine and fix the mounting of the radiator cover.

In addition, the cover positioning protrusion in the configuration according to the present invention may further be formed on the same horizontal line and the edge engaging jaw that is bent edge portion of the edge constituting the coupling section of the radiator cover is formed extending on the same horizontal line. .

According to the radiator cover fixing jig for a silicon attachment system of the present invention, the radiator cover is transferred on an automation system consisting of a series of circulation structures by providing a jig of a structure which is moved through the cover transfer unit while the radiator cover is fixedly supported at a predetermined height. In this case, an effect of preventing flow or distortion of the radiator cover is expressed.

In addition, the technology according to the present invention provides a jig of a structure that is moved through the cover transfer unit in a state that the radiator cover is fixedly supported at a certain height to transfer the radiator cover on the automation system consisting of a series of circulation structure It can be very useful in that the application of the silicone can be accurately applied on the bonding end surface of the radiator cover by preventing the twist.

In addition, the technology according to the present invention provides a jig of the structure that is moved through the cover transfer unit in a state that the radiator cover is fixedly supported at a certain height by the flow of the radiator cover on the automation system consisting of a series of circulation structure It can prevent the distortion and make the height and thickness of the silicon uniform.

Hereinafter, a radiator cover fixing jig for a silicon attachment system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view showing a silicon attachment system to which the radiator cover fixing jig is applied according to the present invention, FIG. 2 is a front configuration view showing a silicon attachment system to which the radiator cover fixing jig is applied according to the present invention, and FIG. A side configuration diagram showing a silicon attachment system to which a radiator cover fixing jig according to the invention is applied.

The radiator cover fixing jig 120 according to the present invention is a silicone attachment system for a radiator cover consisting of a series of circulation cycle structure to be fixed by applying silicon on the bonding surface 12 of the radiator cover 10. In one configuration, the radiator cover fixing jig 120 of the present invention is a radiator of the present invention before explaining the radiator cover fixing jig 120 according to the present invention as a means for fixedly supporting and transporting the radiator cover 10. Looking at the configuration of the silicone attachment system 100 for a radiator cover cover jig 120 is applied as follows. Hereinafter, the radiator cover fixing jig 120 will be referred to as a cover fixing jig 120.

As shown in FIGS. 1 to 3, the configuration of the silicon attachment system 100 for the radiator cover includes a cover transfer unit 110 for transferring the radiator cover 10 in one direction and a plurality of radiator covers to cover the cover transfer unit ( The cover unloading part / loading part 130a in which unloading and loading of the cover fixing jig 120 and the cover fixing jig 120 to which the radiator cover 10 is fixed are carried out through 110 is carried out. 130b), the radiator cover 10 is directly applied to the radiator cover 10 loaded and transported through the cover unloading part / loading parts 130a and 130b to burn off the foreign matter while the combined end surface 12 of the radiator cover 10 is removed. The foreign matter is removed through the foreign matter removal unit 140 and the foreign matter removal unit 140 to roughen the inspection value after scanning by inspecting the coupling end surface 12 of the radiator cover 10 transferred by the cover transfer unit 110 Turns the robot through The hot air drying is performed on the radiator cover 10 coated with the silicon through the dispensing unit 150 and the dispensing unit 150 to apply silicon to the mating surface 12 of the radiator cover 10 with a predetermined thickness while controlling. The radiator cover 10 heated by the hot air of the curing unit 160 and the curing unit 160 to be attached in the middle of curing the silicone applied to the coupling end surface 12 of the radiator cover 10 through the cold air path 172 consists of a cooling unit 170 for cooling by cold wind.

The silicone attachment system 100 for the radiator cover configured as described above may include a cover unloading part / loading part 130a on the cover transfer unit 110 with the radiator cover 10 fixed on the cover fixing jig 120. 130b) and the radiator cover 10 by passing through the foreign matter removing unit 140, the dispensing unit 150, the curing unit 160 and the cooling unit 170 in the middle of the transfer through the cover transfer unit 110. It is an automated technique that allows silicon to be applied to a certain height and width on the bonding cross-section 12 of. That is, the silicone attachment system 100 for the radiator cover according to the present invention relates to an automated technique for integrally attaching silicon on the coupling end surface 12 of the radiator cover 10.

On the other hand, the above-described radiator cover silicon attachment system 100 is the cover transfer unit 110, the cover fixing jig 120, the cover unloading portion / loading portion (130a, 130b), foreign material removal unit 140, dispensing The unit 150, the curing unit 160, and the cooling unit 170 may be configured to be integrally attached to the bonding end surface 12 of the radiator cover 10 by forming a straight line on the same line. If all the components are arranged in a straight line, after the cooling process through the cooling unit 170, which is the final process, the radiator cover in which silicon is attached on the coupling end surface 12 of the radiator cover 10 After the 10 is removed from the cover fixing jig 120, a problem arises in that the cover fixing jig 120 needs to be moved to the cover unloading / loading parts 130a and 130b.

Accordingly, in the silicone attachment system 100 for a radiator cover to which the present invention is applied, the cover fixing jig 120 in which the radiator cover 10 is fixed and supported is covered by a cover unloading part / loading part 130a on the cover transfer unit 110. 130b) and then transported, the cover unloading unit / loading unit 130a, 130b again via the foreign matter removing unit 140, the dispensing unit 150, the curing unit 160 and the cooling unit 170 again. ), That is, the radiator cover 10 is coupled to the radiator cover 10 of the radiator cover 10 by circulating a constant circulation cycle while transferring the cover fixing jig 120 fixedly supported by the cover transfer unit 110. It was composed of a technique of circulating a constant circulation cycle returning to the cover unloading portion / loading portion (130a, 130b) in the state that the silicon is attached on the).

As described above, the radiator cover 10 is fixed to the cover transfer unit 110 in the configuration according to the present invention in order to circulate a constant circulation cycle while transferring the cover fixing jig 120 through the cover transfer unit 110. Rear cover conveying unit 110b for conveying the cover fixing jig 120 in a horizontal direction from left to right, and a cover fixing jig 120 for conveying the cover fixing jig 120 in a horizontal direction from right to left. , Via the rear cover transfer unit 110c and the rear cover transfer unit 110b to transfer the cover fixing jig 120 via the potential cover transfer unit 110a to the right end of the rear cover transfer unit 110b. One cover fixing jig 120 was configured as a circulation structure of the omnidirectional cover conveying unit 110d to be conveyed to the left end of the dislocation cover conveying unit 110a.

In other words, as illustrated in FIG. 1, the cover transfer unit 110 is configured in two arrays in parallel while the front cover transfer unit 110a and the rear cover transfer unit 110b are spaced apart from each other by a predetermined distance. The lateral cover transfer unit 110c and the omnidirectional cover transfer unit 110d are adjacent to the right end and the left end of the rear cover transfer unit 110b from the rear of the right and left ends of the front cover transfer unit 110a. The cover fixing jig 120 starting from the left side of the dislocation cover conveying unit 110a is installed at the dislocation via the rear cover conveying unit 110c, the rear cover conveying unit 110b, and the front cover conveying unit 110d. It was configured as a structure to be circulated to the left side of the cover transfer unit (110a).

In the configuration of the cover transfer unit 110 as described above, the potential cover transfer unit (110a) is a transfer unit for horizontally conveying the cover fixing jig 120, the radiator cover 10 is fixedly supported from the left end to the right end, The rear cover conveying unit 110c is a conveying unit for receiving the cover fixing jig 120 from the right end of the front cover conveying unit 110a for conveying in the rearward direction, and the rear cover conveying unit 110b is the rear cover conveying. The transfer unit and the forward cover transfer unit 110d for horizontally conveying the cover fixing jig 120 transferred to the rear end of the unit 110c from the right end to the left end are covered from the left end of the rear cover transfer unit 110b. The fixed jig 120 has a function of a transfer unit for receiving the transfer in all directions.

On the other hand, as described above of the cover transfer unit 110 made up of the configuration of the potential cover transfer unit (110a), rear cover transfer unit (110b), rear cover transfer unit (110c) and forward cover transfer unit (110d) In the configuration, the cover unloading unit / loading unit 130a, 130b, the foreign matter removing unit 140 and the dispensing unit 150 are configured in the potential cover conveying unit 110a, and the rear cover conveying unit 110b is cured. The ring unit 160 and the cooling unit 170 is configured.

Accordingly, the rear cover conveying unit 110c converts the cover fixing jig 120 via the dispensing unit 150 of the dislocation cover conveying unit 110a into the curing unit 160 of the rear cover conveying unit 110b. It may be said that the transfer unit, the omnidirectional cover transfer unit (110d) is a unit for transferring the cover fixing jig 120 via the cooling unit 170 to the potential cover transfer unit (110a).

In addition, the radiator cover silicon attachment system 100 to which the present invention is applied includes a front cover transfer unit 110a, a rear cover transfer unit 110b, a rear cover transfer unit 110c, and a front cover transfer unit 110d. The cover unloading part / loading part 130a, 130b by switching the direction of the cover fixing jig 120 in the rearward direction, leftward direction, forwardward direction, and rightward direction while conveying the cover conveying unit 110 having a configuration of A series of circulation cycles may be circulated through the foreign material removal unit 140, the dispensing unit 150, the curing unit 160, the cooling unit 170, and the cover unloading unit / loading unit 130a and 130b. Fixing jig transfer direction switching unit 180 to be further configured.

On the other hand, the fixed jig transfer direction switching unit 180 as described above is the front cover transfer unit (110a), the rear cover transfer unit (110c) and the front cover transfer unit (110d) constituting the cover transfer unit (110) The cover fixing jig 120 having a plurality of radiator covers 10 fixed to each other is rearward of the rear cover conveying unit 110c in the rear cover conveying unit 110c in the rear cover conveying unit 110c. Leftward direction of cover transfer unit 110b, forward cover transfer unit 110d to rearward cover transfer unit 110b, and forward direction cover transfer unit 110d to rightward direction of front cover transfer unit 110a. Transfer direction by changing direction. At this time, the fixed jig transfer direction switching unit 180 includes a first transfer direction switching unit 180a, a second transfer direction switching unit 180b, a third transfer direction switching unit 180c and a fourth transfer direction switching unit 180d. ) Is composed of.

That is, the fixed jig conveying direction switching unit 180 for circulating the cover conveying unit 110 having a circulation cycle structure by changing the direction of the cover fixing jig 120 is as shown in Figs. First transfer direction switching unit 180a configured at the right end of the potential cover transfer unit 110a, second transfer direction switching unit 180b configured at the rear end of the rearward cover transfer unit 110c, and omnidirectional cover transfer unit. A third transfer direction switching unit 180c configured at the rear end of 110d and a fourth transfer direction switching unit 180d configured at the left end of the potential cover transfer unit 110a.

Looking at the configuration of the fixed jig transfer direction switching unit 180 as described above in detail is installed in the potential cover transfer unit (110a) to be elevated, but the cover fixing jig 120 via the dispensing unit 150 to the rear side The first conveying direction switching unit 180a for switching and conveying the conveying direction and the rear conveyance unit 110c which are rearwards on the rear side on the same line in the longitudinal direction of the first conveying direction switching unit 180a are installed to be elevated. However, the conveying direction is changed from the first conveying direction switching unit 180a to the rear side and the conveying direction of the cover fixing jig 120 is moved to the left direction, which is the direction of the curing unit 160 installed in the rear cover conveying unit 110b. The second conveying direction switching unit 180b for switching and conveying, and the rear cover of the forward cover conveying unit 110d, which is on the same line as the rear cover conveying unit 110b, is installed to be able to lift up and down, but the cooling unit 170 circa Longitudinal directions of the third transfer direction switching unit 180c and the third transfer direction switching unit 180c which receive the cover fixing jig 120 and align the front cover transfer unit 110d so that the transfer direction is switched to the front side. Potential cover conveying unit which is installed on the front cover side of the front side of the same line so that the cover can be moved up and down, and is transferred to the front side from the front cover conveying unit 110d It consists of a configuration of the fourth transfer direction switching unit 180d to be aligned on one side of the potential cover transfer unit (110a) so that the transfer direction is switched to the cover unloading portion / loading portion (130a, 130b) of (110a).

In the configuration of the fixed jig conveying direction switching unit 180 configured as described above, the first conveying direction switching unit 180a follows the cover fixing jig 120 which is conveyed in the transverse direction on the right side on the potential cover conveying unit 110a. By changing the conveying direction at an angle of 90 degrees in the direction of the direction cover conveying unit 110c, the cover fixing jig 120 is conveyed in the rearward direction, and the second conveying direction converting unit 180b is the rear cover conveying unit 110c. The cover fixing jig 120 transferred to the rear of the rear cover conveying unit 110b at a 90 degree angle to the right end of the rear cover conveying unit 110b so that the cover fixing jig 120 is disposed at the left end of the rear cover conveying unit 110b. To be transported. In addition, in the above-described configuration of the fixed jig transfer direction switching unit 180, the third transfer direction switching unit 180c receives the cover fixing jig 120 transferred in the transverse direction from the rear cover transfer unit 110b in the forward direction. The cover transfer unit 110d is aligned in the longitudinal direction of the front direction, and the fourth transfer direction switching unit 180d receives the cover fixing jig 120 transferred from the omnidirectional cover transfer unit 110d to transfer the potential cover. Align in the longitudinal direction of the right direction of the unit (110a).

Then, as described above, the cover is composed of the first conveying direction switching unit 180a, the second conveying direction switching unit 180b, the third conveying direction switching unit 180c and the fourth conveying direction switching unit 180d. The fixed jig conveying direction switching unit 180 for switching the conveying direction of the fixed jig 120 rotates the cover fixing jig 120 so that the direction of the radiator cover 10 supported and fixed to the cover fixing jig 120 is changed. Rather, only the direction in which the cover fixing jig 120 is transferred is changed so that the state of the cover fixing jig 120 returned to the original position through circulation can be returned to the same state as when starting.

Accordingly, the radiator cover silicon attachment system 100 to which the present invention is applied has a structure in which the cover fixing jig 120 transferred through the cover transfer unit 110 is purified to return to its original position after returning the circulation cycle. The cover conveying unit 110 and the cover fixing jig 120 constituted of the electric potential cover conveying unit 110a, the rear cover conveying unit 110b, the rear cover conveying unit 110c, and the forward cover conveying unit 110d. It can be seen that the fixed jig conveying direction switching unit 180 is configured to switch the direction of) to the rearward, leftward, forwardward, and rightward directions.

As described above, the radiator cover silicon attachment system 100 to which the present invention is applied may be applied to the front cover transfer unit 110a, the rear cover transfer unit 110b, the rear cover transfer unit 110c, and the front cover transfer unit ( Through the configuration of the fixed jig transfer direction switching unit 180 for switching the direction of the cover transfer unit 110 and the cover fixing jig 120 composed of the configuration of 110d in the rearward direction, leftward direction, forward direction, and rightward direction. The cover fixing jig 120 conveyed from the cover conveying unit 110 is fixed to the cover fixing unit without moving or removing it from the upper portion of the cover conveying unit 110 by circulating conveying the cover fixing jig 120 and returning it to its original position. With the jig 120 positioned on the cover unloading / loading parts 130a and 130b of the cover transfer unit 110, remove the radiator cover 10 with silicon and replace it with a new radiator cover 10. The work to make the adhesion of the silicon to the coupling end surface 12 of the radiator cover 10 is made smoothly only by the operation to determine.

In the configuration of the silicone attachment system 100 for the radiator cover as described above, the potential cover transfer unit 110a, the rear cover transfer unit 110c, the rear cover transfer unit 110b, which constitute the cover transfer unit 110, and Each of the omnidirectional cover transfer unit 110d is installed on both sides of the conveying frame 112 having a predetermined length and the upper longitudinal direction of the conveying frame 112, but is installed in parallel to move the cover fixing jig 120 to one side in a straight line. Endless chain conveyor which is installed on both sides of the jig guide 114 to guide, the conveying frame which is the inner surface of the jig guide 114, and supports the cover fixing jig 120 positioned to the upper side thereof and transfers it to one side in the longitudinal direction ( 116 and the endless chain conveyor 116 consists of a configuration of a drive motor 118 for rotationally driving to one side in the transverse direction.

Cover transfer unit 110 configured as described above is the cover fixing jig located on the upper end of the endless chain conveyor 116 when the endless chain conveyor 116 is rotated in one direction according to the drive of the drive motor 118. 120 is transferred in the direction of rotation of the endless chain conveyor 116. In this case, the potential cover transfer unit 110a transfers the cover fixing jig 120 from left to right as shown in FIG. 1, and the rear cover transfer unit 110b moves the cover fixing jig 120 from right to left. It consists of a configuration to convey. In addition, the rear cover transfer unit 110c transfers the cover fixing jig 120 from the front to the rear, and the front cover transfer unit 110d is transferred from the rear to the front side.

Therefore, each of the potential cover transfer unit 110a, the rear cover transfer unit 110c, the rear cover transfer unit 110b, and the front cover transfer unit 110d constituting the cover transfer unit 110 as described above. The configured endless chain conveyor 116 is rotated in the direction of conveying the cover fixing jig 120 from left to right in the front cover conveying unit 110a, and the cover fixing jig 120 in the backward cover conveying unit 110c. Is rotated in the direction of conveying from the front to the rear, in the rear cover conveying unit (110b) is rotated in the direction of conveying the cover fixing jig 120 from right to left, and in the forward cover conveying unit (110d) It can be seen that the rotation is made in a direction for transferring the jig 120 from the rear to the front.

As described above, when the cover transfer unit 110 composed of the front cover transfer unit 110a, the rear cover transfer unit 110c, the rear cover transfer unit 110b, and the front cover transfer unit 110d is arranged, The cover conveying unit 110 is configured in the form of a circulation cycle to circulate the cover fixing jig 120 to which the radiator cover 10 is fixed. The cover unloading unit / loading unit 130a and 130b and the foreign matter removing unit 140 ), Through the dispensing unit 150, the curing unit 160 and the cooling unit 170, the silicon is attached to a predetermined thickness on the coupling end surface 12 of the radiator cover 10. At this time, the cover unloading unit / loading unit (130a, 130b) and the foreign matter removing unit 140 and the dispensing unit 150 is configured on the potential cover conveying unit (110a) in the configuration of the cover conveying unit 110, It can be seen that the curing unit 160 and the cooling unit 170 are configured on the cover transfer unit 110b.

Figure 4 is a perspective configuration showing a radiator cover fixing jig according to the present invention, Figure 5 is a front configuration view showing a radiator cover fixing jig according to the invention, Figure 6 is a radiator cover fixing jig of the radiator cover according to the present invention Isometric view showing a fixed state.

1 to 3, the configuration of the cover fixing jig 120 according to the present invention for transporting the radiator cover silicon attachment system 100 consisting of a series of cycle cycle structure by fixing the radiator cover 10 Looking at it as follows.

4 to 6, the cover fixing jig 120 according to the present invention is to fix and support the radiator cover 10 so as not to flow, such a cover fixing jig 120 is a radiator cover ( The cover unloading part / loading part 130a, 130b, the foreign matter removing unit 140, and the disc are transported in the rotational direction of the endless chain conveyor 116 constituting the cover conveying unit 110 by fixing a plurality of 10). The fencing unit 150, the curing unit 160, and the cooling unit 170 may be circulated via the silicon so that the silicon is attached to the coupling end surface 12 of the radiator cover 10 with a predetermined thickness.

On the other hand, the configuration of the cover fixing jig 120 according to the present invention as described above is fixed to a predetermined height on the upper surface of the jig plate 122, the jig plate 122 made of a plate size of a constant radiator cover Compared to the length of the (10) is installed opposite each other at a large interval is a pair of fixed block 124, a pair of fixed blocks 124 are installed opposite each other is fixed through a fixing screw (not given the figure) However, each of the radiator cover 10 is close to the edge of the cover fixing piece 126 and the jig plate 122 is formed with the edge engaging jaw (126a) is formed in which the edges of the lower end of both sides of the coupling section 12 of the radiator cover 10 It consists of a configuration of the position fixing groove 128 to penetrate up and down.

Referring to the configuration of the jig plate 122 in more detail in the configuration of the cover fixing jig 120 according to the present invention as described above in the case of the configuration of the cover transfer unit 110 in a row in the cover transfer unit 110 It is only necessary to manufacture the structure corresponding to the front and rear width of the jig guide 114 constituting the jig guide, but the jig guide configured in the front and rear cover transfer unit (110a, 110b) and the rear and front cover transfer unit (110c, 110d) Since the width of 114 is different, the jig plate 122 has a front and rear width corresponding to the front and rear widths of the jig guide 114 of the front and rear cover transfer units 110a and 110b, and the rear and front cover transfer units 110c and 110d. Jig guide 114 of) should be formed in a plate shape having a width corresponding to the left and right width.

In the configuration of the cover fixing jig 120 as described above, since the jig plate 122 is a structure that is to be moved between the jig guide 114 of the cover transfer unit 110, the size of the jig plate 122 is the potential And front and rear widths corresponding to the front and rear widths of the jig guides 114 of the rear cover transfer units 110a and 110b, and widths corresponding to the left and right widths of the jig guides 114 of the rear and front cover transfer units 110c and 110d. It is made to have a size. At this time, the jig plate 122 is made of a rectangular shape as shown in Figure 12a to 12c but the corner portion is rounded to prevent interference with the inner surface of the jig guide 114 of the cover transfer unit 110 It is better to be processed.

In addition, since the fixing block 124 constituting the cover fixing jig 120 has a height of the radiator cover 10, the fixing block 124 is to support the radiator cover 10 at a predetermined height, and the fixing block 124 is illustrated in FIG. 12A. 12c to 12c are formed to form a pair of mutually opposite to each other at a larger interval than the length of the radiator cover 10, consisting of a plurality of pairs, while each of the fixed block 124 The interval between the) is also configured to the interval so that interference does not occur when fixing the radiator cover 10 to the upper side.

In addition, the cover fixing piece 126 constituting the cover fixing jig 120 is for fixing and supporting the radiator cover 10 to a certain height, such a cover fixing piece 126 is shown in Figure 12a to 12c As described above, the edge engaging jaw 126a is formed in which the edges at both sides of the lower end of the coupling end face 12 of the radiator cover 10 are seated and fixed to the upper end of each of the fixing blocks 124. . At this time, since the cover fixing piece 126 installed to support the radiator cover 10 is fixedly supported, the interval between the edge engaging jaw 126a is at an interval corresponding to the coupling end surface 12 of the radiator cover 10. Is done.

When the radiator cover 10 is placed on the cover fixing piece 126 configured as described above, the lower edge of the edge surface of both ends of the coupling end surface of the radiator cover 10 is on the edge locking step 126a of the cover fixing piece 126. The radiator cover 10 is seated on the cover fixing piece 126. At this time, since the radiator cover 10 may be separated from the cover fixing piece 126 only by the configuration of the edge locking step 126a, the cover fixing piece 126 determines the position of the radiator cover 10 so that no flow is generated. The cover positioning projections 126b are further formed to prevent them.

The cover positioning protrusion 126b described above is formed on one side of the cover fixing piece 126 installed on the upper side of the pair of fixing blocks 124 opposite to each other, and is coupled to the radiator cover 10. ) It is bent in a shape corresponding to the bent corner portions at both lower ends and is formed to protrude. The cover positioning protrusion 126b formed as described above allows the radiator cover 10 to be fixed by determining the seating position of the radiator cover 10 when the radiator cover 10 is seated and held on the cover fixing piece 126.

In addition, the cover positioning protrusion 126b configured as described above extends on the same horizontal line as the edge engaging jaw 126a to form a bent edge portion of the edge constituting the coupling end surface 12 of the radiator cover 10. The edge engaging jaw 126c to be locked is further configured. Since the edge locking step 126c formed as described above is formed on the same line as the edge locking step 126a, when the radiator cover 10 is seated on the cover fixing piece 126, the cover positioning protrusion 126b is formed. In the direction, the flow of the radiator cover 10 is prevented.

As described above, when the cover fixing jig 120 according to the present invention transfers the radiator cover on an automated system consisting of a series of circulation structures, the flow or distortion of the cover may be prevented to make the height or thickness of the silicon uniform.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

1 is a plan view showing a silicon attachment system to which the radiator cover fixing jig according to the present invention is applied.

Figure 2 is a front configuration diagram showing a silicon attachment system to which the radiator cover fixing jig according to the present invention is applied.

Figure 3 is a side configuration view showing a silicon attachment system to which the radiator cover fixing jig according to the present invention is applied.

Figure 4 is a perspective view showing a radiator cover fixing jig according to the present invention.

Figure 5 is a front configuration view showing a radiator cover fixing jig according to the present invention.

Figure 6 is a perspective configuration showing a fixed state of the radiator cover through the radiator cover fixing jig according to the present invention.

[Description of Symbols for Main Parts of Drawing]

10. Radiator cover 12. Joined section

100. Silicon attachment system 110. Cover transfer unit

112. Feed frame 114. Jig guide

116. Endless Chain Conveyor 118. Drive Motor

120. Cover fixing jig 122. Jig plate

124. Fixing block 126. Cover fixing piece

130. Cover loading and unloading unit 140. Foreign material removal unit

150. Dispensing Unit 160. Curing Unit

170. Cooling unit 180. Fixed jig transfer direction switching unit

180a. First turning unit 180b. 2nd direction change unit

180c. Third turning unit 180d. 4th direction change unit

Claims (4)

The cover unloading part / loading part which unloads and loads the radiator cover while the cover conveying unit horizontally formed on a line of a predetermined length is transported by supporting the radiator cover upwardly, and the radiator Foreign material removal unit for removing foreign matters attached to the end surface of the cover by the heat of combustion, dispensing unit for applying a certain thickness of silicon on the end surface of the radiator cover, silicon applied on the end surface of the radiator cover hot air In the cover fixing jig for a radiator cover silicon attachment system via a cooling unit for cooling a cover fixing jig including a curing unit to be dried and attached through the cooling unit and a radiator cover heated by the curing unit, The cover fixing jig is a jig plate made of a plate size of a predetermined size so as to be located and transported on the upper portion of the cover transfer unit; A plurality of fixing blocks which are installed and fixed at a predetermined height on an upper surface of the jig plate, and are installed to face each other at a large interval relative to the length of the radiator cover to form a pair; Cover fixing pieces which are installed on the upper end of each of the fixing block is fixed through a fixing screw, each of which has a border engaging jaw that is coupled to the edge of the lower end of both sides of the combined end surface of the radiator cover; And Radiator cover fixing jig for silicon attachment system, characterized in that consisting of a position fixing groove which is formed penetrating up and down close to the edge of the jig plate. 2. The radiator cover fixing jig according to claim 1, wherein an interval between the edge engaging jaws of the cover fixing pieces provided opposite to each other is formed at an interval corresponding to a coupling end surface of the radiator cover. The radiator cover of claim 1 or 2, wherein the radiator cover is bent to protrude in a shape corresponding to a bent corner portion of both lower ends of the coupling end surface of the radiator cover. Radiator cover fixing jig for a silicon attachment system, characterized in that the cover positioning projection is further configured to fix and fix the mounting of the radiator cover when it is seated on the cover fixing piece. The cover positioning projection of claim 3, wherein the cover positioning protrusion further extends on the same horizontal line as the edge catching jaw and further comprises an edge catching jaw in which the bent edge portion of the edge forming the engaging section of the radiator cover is caught. Radiator cover fixing jig for silicone attachment system.

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