KR102052980B1 - Emergency key storage apparatus for card type smart key of vehicle and manufacturing method thereof - Google Patents

Abstract

The present invention discloses an emergency key storage device for a card-type vehicle wireless transceiver. According to the present invention, an emergency key receiving member having a rigidity for protecting the main body from damage of the main body caused by frequent detachment and storing operation of the emergency key is installed, and an emergency key stored in the emergency key receiving member is stored in the receiving groove. By fixing to one side, the tolerance between the emergency key and the reinforcement part can be minimized to fundamentally prevent the vibration of the emergency key in the receiving groove, and thus, the thin film body breakage caused by the vibration of the emergency key can be prevented. The risk can be prevented and the breakage of the circuit board on which the emergency key accommodating member is fixed can be protected due to the vibration of the emergency key.

Description

Emergency key storage device and card manufacturing method of card-type vehicle wireless transceiver {EMERGENCY KEY STORAGE APPARATUS FOR CARD TYPE SMART KEY OF VEHICLE AND MANUFACTURING METHOD THEREOF}

The present invention relates to an emergency key storage device of the card-type vehicle wireless transceiver and a method of manufacturing the same. More specifically, the emergency key is inserted into the emergency key storage device by fixing the emergency key due to the tolerance between the emergency key storage member and the emergency key An apparatus and a method of manufacturing the same are provided to fundamentally prevent vibration of a key.

A general wireless transceiver is a portable terminal, which performs authentication of a driver and a vehicle through near field communication with an immobilizer installed inside the vehicle, and locks the vehicle door when the authorized driver exists within a predetermined distance based on the authentication result. The driving of a plurality of electric appliances including is interrupted.

However, when the driver is out of the proper distance from the vehicle, the immobilizer to control the driving of a plurality of electrical appliances, such as automatic unlocking to prevent theft or damage of the vehicle.

In addition, the wireless transceiver starts the engine when the authenticated driver selects a separate engine start button installed in the vehicle after being located in the vehicle.

Such radio transceivers typically include a circuit board, a battery that supplies power, a mechanical key for starting the engine in an emergency situation, and the mechanical key is located in a hollow space within the radio transceiver body.

The conventional mechanical emergency key has a hook portion operating in the vertical direction and an elastic portion for elastically acting in the vertical direction. Due to the configuration of the hook portion and the elastic portion of the mechanical emergency key has a problem that the overall size and thickness of the wireless transceiver is increased.

In addition, there is a difficulty in the manufacturing process in which the recessed through part for accommodating the hook portion of the mechanical emergency key must be separately provided in the main body, and a reinforcement part having sufficient rigidity is provided, and the reinforcing part must be accurately positioned in the upper and lower thin walls of the hollow space of the main body. .

In addition, since the mechanical emergency key is 1.80 ± 0.02 mm and the emergency key accommodating member is 1.85 ± 0.05 mm, the emergency key vibrates within the emergency key accommodating member due to the tolerance (0.07 mm) between the emergency key and the emergency key accommodating member. There was a problem.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an emergency key and a card shape in a card-shaped wireless transceiver for controlling the driving of a vehicle through an external short-range communication of a vehicle. An emergency key containing member built into the main body of the wireless transceiver to receive the emergency key, and a switching member installed on one side of the main body to control the receipt or detachment of the emergency key within the emergency key receiving member. According to the present invention, there is provided an emergency key storage device for a card-type wireless transceiver for fixing a emergency key to an emergency key storage member for inserting the emergency key, thereby providing a tolerance between the emergency key and the emergency key storage member. It is possible to fundamentally prevent the vibration of the emergency key caused by.

The present invention has been made in view of the above circumstances, and another object of the present invention is to include a battery board including a circuit board on which components are embedded and a battery terminal installed on one surface of the circuit board and connected to the circuit board. A first step of forming an emergency key accommodating member having a member and a reinforcement portion provided on the other surface of the circuit board and connected to the circuit board by a soldering process, and a battery accommodating groove of the battery accommodating member and a battery accommodating emergency key accommodating member A second step of inserting an inserting block into each of the grooves, and forming a preformed molding die on each of the upper and lower surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board, and forming a molding die on each of the upper and rear surfaces of the circuit board. The third step of forming the cavity as the space layer, and the epoxy resin in a high temperature and high pressure press process A fourth step of forming a resin case of a wireless handset by sealing the front, rear, left, and right sides of the circuit board with resin while floating the mounted circuit board in the cavity in the air; and removing the inserting block from the molding die. And a step 5, further comprising: forming a plurality of protrusions on the inner side of the reinforcement part by pressing the outer side of the reinforcement part of the emergency key accommodating member after formation of the emergency key accommodating member of the first step. By providing a method for manufacturing an emergency key accommodating device of a type vehicle radio transceiver, it is possible to fundamentally prevent the vibration of the emergency key due to the tolerance between the emergency key and the emergency key accommodating member.

According to an aspect of the present invention for achieving the above object, there is provided an emergency key receiving device of a wireless transceiver, such device,

In the card-shaped wireless transceiver for controlling the driving of the automotive electronics based on the authentication result after the authentication is executed through the near field communication with the vehicle,

With emergency key,

An emergency key accommodating member built into a main body of a card type wireless transceiver to receive the emergency key;

It is provided on one side of the main body includes a switching member for intermittent to the storage or separation of the emergency key stored in the emergency key receiving member,

The emergency key storage member,

And a fixing part installed on the inner side of the reinforcing part by pressing the outer surface of the reinforcing part installed on the upper, lower, left, and right sides of the receiving groove into which the emergency key is inserted to prevent vibration of the emergency key inserted into the receiving groove. It is done.

Preferably the emergency key receiving member

A storage groove installed in the main body and into which the emergency key is inserted;

Reinforcement parts formed on upper and lower left and right wall surfaces of the main body in which the accommodation grooves are installed;

And a fixing part formed by pressing the outer side of the reinforcing part to fix the emergency key of the receiving groove to one side of the receiving groove.

Preferably, the reinforcement part is formed of stainless steel having rigidity to protect the main body from damage of the main body caused by frequent detachment and storing operation of the emergency key.

In addition, the fixing portion,

And a plurality of protrusions formed on the inner side of the reinforcement part by pressing the reinforcement part of the emergency key accommodating member and fixing the emergency key inserted into the accommodation groove in one direction of the accommodation groove.

According to another aspect of the present invention for achieving the above object, there is provided a method of manufacturing an emergency key storage device of a card-type vehicle wireless transceiver, such a method,

A battery housing member including a circuit board in which components are embedded and a battery terminal installed on one surface of the circuit board and connected to the circuit board and a reinforcement part provided on the other surface of the circuit board and connected to the circuit board by a soldering process; A first step of forming a key receiving member;

A second step of inserting an inserting block into each of the battery accommodating groove of the battery accommodating member and the emergency key accommodating groove of the emergency key accommodating member;

A third process of forming a cavity, which is a space layer with a molding die, on each of the top and rear surfaces of the circuit board by installing molding dies pre-patterned on the top and bottom surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board;

A fourth step of forming a resin case of a wireless handset by filling an epoxy-based resin into a cavity by a high-temperature and high-pressure press process and sealing the mounted circuit board with the front, rear, left and right resins of the circuit board while floating in the air;

A fifth process of removing the inserting block from the forming die,

After forming the emergency key receiving device of the first step, a plurality of formed on the inner side of the reinforcing portion by pressing the outer surface of the reinforcing portion of the emergency key receiving member to fix the emergency key of the receiving groove to one side of the receiving groove It is characterized in that it further comprises a step of forming a projection.

According to yet another aspect of the present invention for achieving the above object, there is provided a method of manufacturing an emergency key storage device of a card-type vehicle wireless transceiver,

A battery housing member including a circuit board in which components are embedded and a battery terminal installed on one surface of the circuit board and connected to the circuit board and a reinforcement part provided on the other surface of the circuit board and connected to the circuit board by a soldering process; A first step of forming a key receiving member;

A second step of inserting an inserting block into each of the battery accommodating groove of the battery accommodating member and the emergency key accommodating groove of the emergency key accommodating member;

A third process of forming a cavity, which is a space layer with a molding die, on each of the top and rear surfaces of the circuit board by installing molding dies pre-patterned on the top and bottom surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board;

The fourth process of filling the epoxy resin into the cavity by a high temperature and high pressure press process, sealing the mounted circuit board with the front, rear, left and right resins of the circuit board with the air floating in the cavity, and curing the resin to form a resin case for the wireless handset. and,

A fifth process of removing the inserting block from the forming die,

After forming the resin case of the fourth step, pressing the outer surface of the reinforcement part of the emergency key accommodating member to form a plurality of protrusions on the inner side of the reinforcement part to fix the emergency key of the accommodation groove to one side of the accommodation groove. It is characterized by including.

According to an embodiment of the present invention, an emergency key receiving member having a rigidity for protecting the main body from damage of the main body caused by frequent detachment and storing operation of the emergency key is installed and an emergency key stored in the emergency key receiving member is installed. By fixing to one side of the receiving groove, the tolerance between the emergency key and the reinforcement part can be minimized to fundamentally prevent the vibration of the emergency key in the storage groove, and thus, the thin film generated by the vibration of the emergency key The risk of damage to the main body can be prevented, and an effect of protecting the breakage of the circuit board on which the emergency key accommodating member is fixed due to the vibration of the emergency key can be obtained.

The following drawings attached in this specification are illustrative of the preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to.
1 is a partial cutaway cross-sectional view showing the configuration of an emergency key receiving apparatus according to an embodiment of the present invention.
Figure 2 is a partial cutaway cross-sectional view showing an emergency key receiving apparatus according to an embodiment of the present invention.
3 is a cross-sectional view of the emergency key storage device according to an embodiment of the present invention.
4 is a flowchart illustrating a manufacturing process of an emergency key receiving device of a card-type wireless transceiver for a vehicle according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating a manufacturing process of an emergency key accommodating device of a card-type vehicle wireless transceiver according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings that illustrate preferred embodiments of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

Specific details are set forth in the following description, which is provided to aid a more general understanding of the invention. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a partial cutaway cross-sectional view showing the configuration of an emergency key storage device according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the operation of the emergency key storage device shown in Figure 1, Figure 3 is shown in Figure 1 A cross-sectional view of the emergency key storage device.

An emergency key accommodating device according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 3. As shown in the figure, the emergency key storage device according to an embodiment of the present invention, is applied to a vehicle-shaped wireless transceiver of the card-shaped to control the driving of the electronic device on the basis of the authentication result after the authentication execution through the short-range communication with the vehicle.

An emergency key accommodating device according to an embodiment of the present invention includes an emergency key 11, an emergency key accommodating member built into the main body of a card type wireless transceiver, and accommodating the emergency key 11, and on one side of the main body. And a switching member installed to intervene to store or disengage the emergency key 11 stored in the emergency key accommodation member.

Here, the emergency key 11 and the emergency key receiving member is provided in a '-' shape.

Here, the emergency key accommodating member is provided in the main body 1 on the upper and lower left and right wall surfaces of the accommodating groove 31 in which the emergency key 11 is inserted and the main body 1 in which the accommodating groove 31 is installed. It is formed on the inner side of the reinforcement portion 33 by the reinforcement portion 33 and the outer surface of the reinforcement portion 33 formed to fix the emergency key 11 to one side of the receiving groove 31. It includes a fixing portion 35 to.

The reinforcement part 33 may be formed of stainless steel having rigidity to protect the main body from damage of the main body caused by frequent detachment and storage operation of the emergency key 11, and the same as that of the stainless steel. It will be apparent to those skilled in the art that the material may be made of another material having rigidity.

The reinforcement part 33 of the emergency key accommodating member is fixedly installed on one surface of a circuit board fixedly installed in the main body 1 of the card type wireless transceiver by a soldering process.

Meanwhile, as shown in FIG. 3, the fixing part 35 of the emergency key accommodating member is disposed on the inner side of the reinforcing part 33 according to the pressure of the outer surface of the reinforcing part 33 of the emergency key accommodating member. It is provided with a plurality of protrusions (35a, 35b) formed to secure the emergency key 11 inserted into the receiving groove 31 in one direction of the receiving groove (31).

Here, the plurality of projections (35a, 35b) is provided in the shape of a semi-circular shape with a small resistance when the separation or insertion of the emergency key, the height of the projection between the size of the reinforcing portion 33 and the size of the emergency key (11). It has the same height as the tolerance, the number of the projection is provided with a number capable of fixing the emergency key 11 on one side of the receiving groove (31). That is, the emergency keys 11 are fixed to one side of the receiving groove 31 by the projections 35a and 35b to remove vibrations of the emergency keys 11. Therefore, the magnitude of the force applied to the outer surface of the reinforcing portion 33 to form the plurality of protrusions 35a and 35b is determined by the height of the plurality of protrusions 35a and 35b.

In addition, the switching member is provided on one side of the main body 1 emergency key storage member and is provided to intercept the storage or detachment of the emergency key 11 in the emergency key storage member according to the left and right movement operation state of the user.

The switching member is a switch 51 for the user to operate left and right to select the departure or storage of the emergency key in the emergency key receiving member, and is fixedly installed on one side of the switch 51 of the switch 51 An elastic part 53 for generating or restoring an elastic force according to left and right operations, and an emergency key installed on the other side of the switch 51 and moved in the direction of the emergency key accommodating member by the elastic force of the elastic part 53 ( 11) includes a latching jaw 55 for maintaining a storage state in the receiving groove 31.

On the other hand, the emergency key 11 is formed in a position corresponding to the locking step 55 and the locking groove for holding the emergency key (11) by holding the locking fixed to the locking step 55 of the switching member ( 13).

According to this configuration, the driver applies a predetermined force so that the emergency key 11 is inserted into the receiving groove 31 of the emergency key receiving member.

That is, the emergency key 11 is inserted into the accommodating groove 31 with the magnitude of the force opposite to the resistance generated by the protrusions 35a and 35b installed at the predetermined position of the reinforcement part 33.

Then, when the insertion of the emergency key 11 is completed, the elastic force of the elastic portion 53 is generated, the locking jaw 55 is transferred in the same direction as the switch operation direction, the elastic force is restored to the locking jaw 55 ), The locking groove 13 of the emergency key 11 is caught. Accordingly, the emergency key 11 is kept in the receiving groove 31 of the emergency key accommodating member.

At this time, the emergency key 11 is fixed to one side of the receiving groove 31 by a plurality of projections (35a, 35b). Therefore, when the emergency key 11 is stored in the accommodating groove 31, vibration of the emergency key 11 generated due to the tolerance between the reinforcement part 33 and the emergency key 11 is prevented.

Since the vibration of the emergency key 11 is generated at the tolerance of the emergency key 11 and the reinforcement part 33, the tolerance between the emergency key 11 and the reinforcement part 33 is a projection 35a, 35b. Is removed by

Therefore, damage to the circuit board to which the vibration of the emergency key 11 is transmitted can also be prevented.

On the other hand, if the driver moves the switch 51 to the left to release the emergency key 11 from the emergency key receiving member, the elastic force of the elastic portion 53 is generated so that the locking step 55 is the same as the switch operation direction While being transferred in the direction, as the locking groove 13 of the emergency key 11 coupled with the locking step 55 is separated from each other, the emergency key 11 protrudes outward.

Thus, the emergency key 11 is separated from the receiving groove 31 of the emergency key receiving member.

A series of processes for storing and fixing the emergency key to the storage groove by forming a plurality of protrusions to fix the emergency key to the storage groove of the emergency key storage member described above will be described with reference to FIGS. 4 and 5.

4 is a flowchart illustrating a manufacturing process of an emergency key storage device of a card-type vehicle wireless transceiver according to an embodiment of the present invention, and FIG. 5 is an emergency key storage device of a card-type vehicle wireless transceiver according to another embodiment of the present invention. Flow chart showing the manufacturing process.

4 and 5 will be described a manufacturing process of the emergency key receiving device of the card-type vehicle wireless transceiver according to the embodiments of the present invention.

First, as shown in FIG. 4, in a first step 101, a battery accommodating member including a circuit board on which components are embedded, a battery terminal provided on one surface of the circuit board, and connected to the circuit board, and An emergency key accommodating member having a reinforcing part 33 installed on the other surface of the circuit board and connected to the circuit board by a soldering process and a receiving groove 31 accommodating the emergency key is formed.

Then, a plurality of protrusions 35a and 35b are formed on the inner side of the reinforcing portion 33 by pressing a predetermined position on the outer side of the reinforcing portion 33 (step 102). The emergency key 11 accommodated in the accommodating groove 31 by the plurality of protrusions 35a and 35b is fixed to one side of the accommodating groove 31.

Therefore, it is possible to prevent the emergency key 11 from shaking (vibration) due to the tolerance between the card key 11 and the reinforcement part 33, and to prevent damage to the circuit board due to the vibration of the emergency key 11. You can prevent it.

The battery accommodating member is provided such that a current flows between the battery terminals when the battery is accommodated in the battery accommodating groove, and the current flows to the circuit board.

The emergency key accommodating member is provided to fix the reinforcement part 33 to a predetermined position of the circuit board through a soldering process.

Subsequently, the circuit board, the battery accommodating member, and the emergency key accommodating member are formed through the first process 101, and then the process proceeds to the second process 103. In the second process 103, the battery accommodating groove is formed. After inserting the inserting blocks into each of the receiving grooves 31 of the emergency key, the process proceeds to the third process 105.

Subsequently, in the third process 105, the battery housing member, the emergency key storage member, and a molding die, which are pre-patterned, are provided on the upper and lower surfaces of the circuit board, respectively, to form a space layer with the molding die on the upper and rear surfaces of the circuit board. Form a cavity.

Further, in the third process 105, a predetermined number of injector pins for removing the inserting block from the molding die are provided at predetermined positions on the upper and lower surfaces of the respective inserting blocks, and the inserting block is removed from the molding die. Naturally, a predetermined number of injector pins to be removed are installed at predetermined positions of the lower surface of the circuit board, and thus detailed description thereof will be omitted.

On the other hand, in the third process 105, after installing the molding die, a support pin for supporting the circuit board is provided at a predetermined position on the upper surface of the circuit board, and a position pin for displaying the installation position of the circuit board. Is installed for each circuit board.

Then, the process proceeds to the fourth process 107 after the third process 105 proceeds. Here, in the fourth step 107, the epoxy-based resin is filled into the cavity by a press process of high temperature and high pressure to form a resin case for sealing the upper and lower sides of the wireless handset.

That is, the fourth process 107 is to fill the inside of the cavity by performing a high pressure and a high temperature press method through the step of maintaining the inside of the cavity in a vacuum state and the thermosetting resin through a flanger.

In addition, the fourth process 107 may be performed by a transfer mold (transfer molding) method with a thermosetting resin to form the resin case. Since the process is well known in the art, a detailed description thereof will be omitted.

In the meantime, the fourth process 107 may maintain the vacuum state inside the cavity and remove the foreign matter by performing plasma cleaning before filling the resin into the cavity.

Here, the thermosetting resin may include an epoxy resin and a wax component.

After execution of the fourth process, the process proceeds to a fifth process 109 of removing the insert block from the forming die.

In the fifth process 109, the temperature of the inserting block and the temperature of the resin case are formed to remove the inserting block from the resin case by thermal contraction, and then the resin case is maintained at a predetermined high temperature for a predetermined time. Allow the resin case to fully cure.

In addition, the method further includes a step 111 of fixing the log and the decoration sheet by using the double-sided tape after the fifth step 109.

According to this configuration, the battery housing member including the circuit board in which the component is embedded in the first process 101, the battery terminal and the battery receiving groove which is installed on one surface of the circuit board and connected to the circuit board and the other surface of the circuit board The emergency key accommodating member which has the reinforcement part 33 and the accommodating groove 31 which are installed and connected with the said circuit board by a soldering process is formed, respectively.

Then, after pressing the outer surface of the reinforcement portion 33 of the emergency key receiving member to form a plurality of projections (35a, 35b) on the inner surface of the reinforcement portion 33 (step 102), the second process Proceed to 103.

Subsequently, in the second process 103, an inserting block is inserted into each of the battery accommodating groove and the emergency key accommodating groove 31, and then the process proceeds to a third process 105.

In the third process 105, the surface of the forming die is activated using an interface of nitrogen, argon, and hydrogen to remove organic materials, and then each injector pin is formed on the insert block and the bottom of the circuit board. After maintaining the inside in a vacuum state, a battery die, an emergency key housing, and a molding die pre-patterned on each of the upper and lower surfaces of the circuit board are formed to form a cavity as a space layer with the molding die on each of the upper and rear surfaces of the circuit board. .

Then, the third step 105 is provided with a support pin for supporting the circuit board and a position pin for indicating the installation position of the circuit board for each circuit board after installing the molding die.

In the fourth process 107, the epoxy resin is filled into the cavity by a press process of high temperature and high pressure to form a resin case for sealing the upper and lower sides of the wireless water transmitter, and then proceeds to the fifth process.

In the fifth process 109, the temperature of the inserting block and the temperature of the resin case are formed to remove the inserting block from the resin case by thermal contraction, and then the resin case is maintained at a predetermined high temperature for a predetermined time. Allow the resin case to fully cure.

Thereafter, after the execution of the fifth step 109, the log and the decoration sheet are fixed using the double-sided tape (step 111).

As shown in Figure 4, in the embodiment of the present invention by pressing the outer surface of the reinforcing portion 33 to secure the emergency key 11 in the emergency key receiving member to one side of the receiving groove (31) Although the step 102 of forming a plurality of protrusions on the inner side of the surface 33 is performed after the execution of the first process 101, as shown in FIG. 5, after the filling of the resin case is completed, the reinforcement part is completed. Step 108 may be executed by pressing the outer side of the 33 to form a plurality of protrusions on the inner side of the reinforcement 33.

Therefore, an emergency key accommodating member having rigidity for protecting the main body from damage of the main body caused by frequent detachment and storing operation of the emergency key is installed, and the emergency key accommodated in the emergency key accommodating member is provided on one side of the accommodating groove. By fixing, the tolerance between the emergency key and the reinforcement part can be minimized to fundamentally prevent the vibration of the emergency key in the receiving groove, and the risk of damage to the thin film body caused by the vibration of the emergency key can be prevented. The circuit board fixed to the other side of the emergency key accommodating member can be protected from vibration of the emergency key.

While specific embodiments of the invention have been described and illustrated above, it is to be understood that the invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the invention. It is self-evident to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

Installing an emergency key accommodating member having rigidity to protect the main body from damage of the main body caused by frequent detachment and storing operation of the emergency key and fixing the emergency key stored in the emergency key accommodating member to one side of the accommodating groove. Accordingly, by minimizing the tolerance between the emergency key and the reinforcement part, it is possible to fundamentally prevent the vibration of the emergency key in the receiving groove, and to prevent the risk of breakage of the thin film body caused by the vibration of the emergency key. It is possible to protect the circuit board fixedly installed on the other side of the emergency key storing member from the vibration of the emergency key. Not only is there a real potential for advancement and there is a good chance that there will be a commercially available or commercially available card-type vehicle radio transceiver. Because the extent that can be apparently carried out in the invention that the industrial applicability.

Claims (6)

In the emergency key storage device of the card-type wireless transceiver of the vehicle to control the driving of the electrical equipment on the basis of the authentication result after performing the authentication through the near field communication with the vehicle,
An emergency key accommodating member which is stored inside the main body of the card type vehicle wireless transceiver and stores an emergency key;
It includes a switching member installed on one side of the main body to control the storage or separation of the emergency key stored in the emergency key receiving member,
The emergency key storage member,
And a fixing part formed on an inner surface of the reinforcing part installed on the upper, lower, left, and right sides of the receiving groove, and preventing the vibration of the emergency key inserted into the receiving groove.
The fixing part is formed on the inner surface of the reinforcing portion by pressing the outer surface of the reinforcing portion is provided with a plurality of projections for fixing the emergency key inserted into the receiving groove on one side of the receiving groove. Emergency key storage device for card-type vehicle radio transceiver. delete The method of claim 1, wherein the reinforcement portion,
Emergency key storage device of the card-type vehicle transceiver, characterized in that formed of stainless steel having rigidity to protect the body from damage of the body caused by the escape and storage operation of the emergency key. delete A battery accommodating member including a circuit board on which components are embedded, a battery terminal installed on one surface of the circuit board and connected to the circuit board, and a reinforcement part provided on the other surface of the circuit board and connected to the circuit board by a soldering process. The first step of forming the emergency key receiving member having,
A second step of inserting an inserting block into each of the battery accommodating groove of the battery accommodating member and the emergency key accommodating groove of the emergency key accommodating member;
A third process of forming a cavity, which is a space layer with a molding die, on each of the top and rear surfaces of the circuit board by installing molding dies pre-patterned on the top and bottom surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board;
A fourth process of filling a resin case of a wireless handset by filling an epoxy-based resin into a cavity by a high-temperature and high-pressure press process and sealing the front and rear sides of the circuit board with a resin while floating the mounted circuit board in the cavity;
A fifth process of removing the inserting block from the forming die,
And forming a plurality of protrusions on the inner side of the reinforcing portion by pressing the outer side of the reinforcing portion of the emergency key accommodating member after forming the emergency key accommodating member of the first step. Method for manufacturing an emergency key storage device of a type vehicle radio transceiver. A battery accommodating member including a circuit board on which components are embedded, a battery terminal installed on one surface of the circuit board and connected to the circuit board, and a reinforcement part provided on the other surface of the circuit board and connected to the circuit board by a soldering process. The first step of forming the emergency key receiving member having,
A second step of inserting an inserting block into each of the battery accommodating groove of the battery accommodating member and the emergency key accommodating groove of the emergency key accommodating member;
A third process of forming a cavity, which is a space layer with a molding die, on each of the top and rear surfaces of the circuit board by installing molding dies pre-patterned on the top and bottom surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board;
A fourth resin for filling a resin case of a wireless handset by filling an epoxy-based resin into a cavity by a high-temperature and high-pressure press process and sealing the front and rear sides of the circuit board with resin while curing the mounted circuit board in the cavity. Fair,
A fifth process of removing the inserting block from the forming die,
And forming a plurality of protrusions on the inner side of the reinforcing portion by pressing the outer side of the reinforcing portion of the emergency key storage member after forming the resin case of the fourth step. Method for manufacturing an emergency key storage device of a wireless transceiver.

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