CN113597704B - Remote control device - Google Patents

Abstract

A remote control device (1) is provided with: a remote control body part (2) formed with an insertion hole (26); a battery holder (4) which is provided in an insertion hole (26) of the remote control body (2) so as to be capable of being inserted and removed, and which holds the battery (3) so as to be capable of being removed and removed; a conductive terminal (6) provided inside the remote control body (2); and a strap (5) capable of fixing the battery holder (4) to the remote control body (2). The battery (3) is electrically connected to the terminal (6) at a first position where it is inserted into the insertion hole (26) together with the battery holder (4). The battery (3) is separated from the terminal (6) at a second position, which is shallower than the first position, inserted into the insertion hole (26). The belt (5) fixes the battery holder (4) holding the battery (3) in the second position to the remote control body (2).

Description

Remote control device

Technical Field

The present invention relates to a remote control device.

Background

In recent years, electronic devices such as televisions and air conditioners have been increasingly reduced in weight and size. A remote control device for remotely operating an electronic apparatus is also required to be light-weighted and compact, and thus development of a remote control device using a thin battery is underway.

For example, patent document 1 discloses a remote control device including a remote control main body portion provided with an operation portion and a battery holder removably holding a thin battery in a detachable manner, the battery holder being provided in the remote control main body portion.

When such a remote control device is shipped from a factory and distributed to the market, the remote control main body and the battery are generally packaged separately in order to prevent the battery from being consumed. Further, the battery holder is inserted into the remote control body and packaged together with the remote control body.

Prior art literature

Patent literature

Patent document 1: japanese patent application laid-open No. 2004-281318

Disclosure of Invention

Problems to be solved by the invention

However, in the above-described conventional technology, since the remote control main body and the battery are packaged separately, a consumer who purchases the remote control device needs to attach the battery and the battery holder to the remote control main body. That is, the consumer needs to perform a series of operations as follows: after the battery holder is pulled out from the inside of the remote control main body part to the outside, the battery is put into the battery holder, and the battery holder is inserted into the inside of the remote control main body part. Therefore, the mounting work of the battery and the battery holder becomes complicated, and the load on the consumer is large.

In the above-described conventional technique, since the remote control main body and the battery are packaged separately, the consumer needs to match the direction of the battery and the direction of the battery holder with the direction specified by the manufacturer, and the battery holder may be inserted into the remote control main body in directions different from the direction specified by the manufacturer. In addition, the consumer may simply insert the battery into the remote control main body portion before inserting the battery holder so that the terminal provided in the interior of the remote control main body portion is not in electrical contact with the battery.

The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a remote control device that can easily mount a battery and a battery holder to a remote control main body and can prevent erroneous insertion of the battery and the battery holder.

Means for solving the problems

In order to solve the above problems and achieve the object, a remote control device of the present invention includes: a remote control body part, which is provided with an insertion hole; and a battery holder which is provided in the insertion hole of the remote control body in a detachable manner and which holds the battery in a detachable manner. The remote control device is provided with: a conductive terminal provided in the remote control body; and a fixing mechanism capable of fixing the battery holder to the remote control body. The battery is electrically connected to the terminal at a first position inserted into the insertion hole together with the battery holder. The battery is separated from the terminal at a second position, which is shallower than the first position, inserted into the insertion hole. The fixing mechanism fixes the battery holder holding the battery in the second position to the remote control body.

Effects of the invention

According to the present invention, the battery and the battery holder can be easily attached to the remote control body, and erroneous insertion of the battery and the battery holder can be prevented.

Drawings

Fig. 1 is a perspective view of a remote control device according to embodiment 1 of the present invention, and is a view of the remote control device viewed from the front side.

Fig. 2 is an exploded perspective view of the remote control device according to embodiment 1 of the present invention, and is a view of the remote control device viewed from the back side.

Fig. 3 is a plan view of the remote control device according to embodiment 1 of the present invention, and is a view of the remote control device from the back side.

Fig. 4 is a cross-sectional view showing a battery holder holding a battery in a first position.

Fig. 5 is a cross-sectional view showing a battery holder holding a battery in a second position.

Fig. 6 is a diagram showing a remote control device according to embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder holding a battery in a first position.

Fig. 7 is a diagram showing a remote control device according to embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder holding a battery in a second position.

Fig. 8 is a diagram showing a remote control device according to a modification of embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder holding a battery in a second position.

Detailed Description

Hereinafter, a remote control device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to this embodiment.

Embodiment 1

Fig. 1 is a perspective view of a remote control device 1 according to embodiment 1 of the present invention, and is a view of the remote control device 1 from the front side. Fig. 2 is an exploded perspective view of the remote control device 1 according to embodiment 1 of the present invention, and is a view of the remote control device 1 from the back side. Fig. 3 is a plan view of the remote control device 1 according to embodiment 1 of the present invention, and is a view of the remote control device 1 from the back side. The remote control device 1 includes a remote control main body 2, a battery 3, a battery holder 4, and a belt 5 as a fixing mechanism. The remote control device 1 is a device for remotely operating electronic equipment such as a television and an air conditioner. In the following, the directions of the respective components of the remote control device 1 will be described with reference to the longitudinal direction, the width direction, and the thickness direction of the remote control device 1. The direction in which the battery holder 4 is inserted into the remote control body 2 is simply referred to as the insertion direction. The surface of the remote control device 1 exposed by the operation unit 21 described later is a front surface, and the surface opposite to the front surface is a rear surface.

The remote control body 2 is a thin resin case having a smaller thickness than a smaller width. The remote control body 2 is formed in a hollow rectangular parallelepiped shape. The remote control body 2 includes a plurality of operation sections 21 and a peelable protective sheet 22 covering the plurality of operation sections 21. The tip of the operation portion 21 is exposed to the outside through a hole 23 formed in the surface of the remote control body portion 2. The base end of the operation unit 21 is disposed inside the remote control body 2. The protective sheet 22 is attached to the surface of the remote control body section 2 including the operation section 21. The protection sheet 22 is formed in a rectangular shape suitable for the shape of the surface of the remote control body part 2. The protective sheet 22 serves to prevent contamination and damage of the operation unit 21. As shown in fig. 2, an operation hole 24 penetrating in the thickness direction is formed in the rear surface of the remote control body 2.

Fig. 4 is a cross-sectional view showing the battery holder 4 holding the battery 3 in the first position. Fig. 5 is a cross-sectional view showing the battery holder 4 holding the battery 3 in the second position. Further, in fig. 4 and 5, the terminal 6 is schematically shown with a broken line. The terminal 6 is a conductive terminal provided in the remote control body 2. In use of the remote control device 1, as shown in fig. 4, the battery 3 is electrically connected to the terminals 6 at a first position where it is inserted into the insertion holes 26 together with the battery holder 4. At the time of circulation of the remote control device 1, as shown in fig. 5, the battery 3 is separated from the terminal 6 at the second position where it is inserted into the insertion hole 26 shallower than the first position. The battery 3 in the second position is not electrically connected to the terminal 6.

As shown in fig. 2, an insertion hole 26 for inserting the battery holder 4 is formed in the remote control body 2. The insertion hole 26 is open at one end in the longitudinal direction in the remote control body section 2. The opening 25 of the insertion hole 26 extends in the width direction. As shown in fig. 4, a first guide portion 26a, a second guide portion 26b, a movable guide portion 26c, a first support portion 26d, a second support portion 26e, and a locking portion 26f are formed on the inner wall surrounding the insertion hole 26.

The first guide portion 26a and the second guide portion 26b are separated from each other in the width direction. The first guide portion 26a is a portion that elastically deforms a first holding arm 42 described later toward the battery 3 when the battery holder 4 is inserted into the insertion hole 26. The first guide portion 26a is inclined so as to be closer to the second guide portion 26b toward the inner side in the insertion direction. The second guide portion 26b is a portion that elastically deforms a second holding arm 43 described later toward the battery 3 when the battery holder 4 is inserted into the insertion hole 26. The portion of the second guide portion 26b on the inner side in the insertion direction is formed in a curve shape that is closer to the first guide portion 26a as it goes toward the inner side in the insertion direction. Hereinafter, a direction approaching the battery 3 in the width direction of the remote control device 1 is defined as the inner side in the width direction, and a direction separating from the battery 3 in the width direction of the remote control device 1 is defined as the outer side in the width direction.

The movable guide portion 26c as a contact portion is a portion that elastically deforms a movable arm 44 described later toward the first holding arm 42 when the battery holder 4 is inserted into the insertion hole 26. The portion of the movable guide portion 26c on the inner side in the insertion direction is gently inclined so as to be located on the inner side in the width direction as it goes toward the inner side in the insertion direction. The movable guide portion 26c is disposed on the front side in the insertion direction of the first guide portion 26a and on the outer side in the width direction of the first guide portion 26 a. In the second position shown in fig. 5, the movable guide portion 26c is in contact with the battery holder 4.

The first support portion 26d is formed continuously with the end portion of the first guide portion 26a on the inner side in the insertion direction. The first support portion 26d is an inclined surface inclined so as to be located further toward the inner side in the insertion direction than toward the outer side in the width direction.

The second support portion 26e is formed continuously with the end portion of the second guide portion 26b on the inner side in the insertion direction. The second support portion 26e is an inclined surface inclined so as to be located further toward the inner side in the insertion direction than toward the outer side in the width direction.

The locking portion 26f is formed continuously with the end portion on the inner side in the insertion direction of the movable guide portion 26c. The locking portion 26f is a protrusion protruding toward the inner side in the insertion direction.

The battery holder 4 is a resin member that is removably attached to the insertion hole 26 of the remote control body 2 and removably holds the battery 3. The battery 3 is a so-called button battery having a disk shape in the present embodiment. The battery holder 4 has a holder base 41, a first holding arm 42, a second holding arm 43, and a movable arm 44.

In the first position shown in fig. 4, the bracket base 41 blocks the opening 25. A finger-engaging recess 41a is formed in the holder base 41, and the finger-engaging recess 41a is used to engage with a fingertip of a user when the battery holder 4 is pulled out of the insertion hole 26.

The first holding arm 42 and the second holding arm 43 are portions for holding the battery 3. The first holding arm 42 and the second holding arm 43 are separated from each other in the width direction. The battery 3 is held between the first holding arm 42 and the second holding arm 43. The first holding arm 42 and the second holding arm 43 extend inward in the insertion direction from the holder base 41. The first holding arm 42 and the second holding arm 43 extend in an arc shape so as to approach each other further toward the inner side in the insertion direction. The curvatures of the first holding arm 42 and the second holding arm 43 are the same as those of the outer peripheral surface of the battery 3. A first claw portion 42a protruding outward in the width direction is formed at an end portion on the inner side in the insertion direction in the first holding arm 42. In the first position shown in fig. 4, the first claw portion 42a is hooked to the first supporting portion 26d. A second claw portion 43a protruding outward in the width direction is formed at an end portion on the inner side in the insertion direction in the second holding arm 43. In the first position shown in fig. 4, the second claw portion 43a is hooked to the second supporting portion 26e.

The movable arm 44 is a part for fixing the battery holder 4 to the remote control body 2. The movable arm 44 is disposed on the opposite side of the battery 3 with the first holding arm 42 interposed therebetween. The movable arm 44 extends from the holder base 41 toward the inner side in the insertion direction. The movable arm 44 extends in a curved shape so as to approach the first holding arm 42 toward the inner side in the insertion direction. The movable arm 44 and the first holding arm 42 are divided by a slit 45. Thereby, elastic deformation of the movable arm 44 in the direction approaching the first holding arm 42 can be achieved. A fixing claw 44a protruding outward in the width direction is formed at the end portion on the inner side in the insertion direction of the movable arm 44. In the first position shown in fig. 4, the fixing claw portion 44a is hooked to the locking portion 26f. The fixing claw portion 44a is formed with an insertion recess 44b recessed in the thickness direction. The operation hole 24 of the remote control body 2 is formed at a position corresponding to the insertion recess 44b of the fixing claw 44a in the thickness direction.

As shown in fig. 1 and 3, the belt 5 is a peelable belt-like member attached to the battery holder 4 and the remote control body 2. The tape 5 is attached from the front surface of the remote control body 2 to the back surface of the battery holder 4 via both the front and back surfaces of the battery holder 4. The tape 5 shown in fig. 1 is adhered to the surface of the remote control body 2 via a protective sheet 22. A bending portion 51 is formed at one end of the tape 5 in the longitudinal direction, which bends the tape 5 and bonds the adhesion surfaces to each other. The bent portion 51 is arranged at a position corresponding to the protective sheet 22 in the thickness direction. The belt 5 fixes the battery holder 4 holding the battery 3 in the second position shown in fig. 5 to the remote control body 2. The belt 5 fixes the battery holder 4 to the remote control body 2 at a position where the fixing claw portion 44a contacts the movable guide portion 26c.

Next, the state of the remote control device 1 during the circulation from the shipment of the factory to the purchase by the consumer will be described with reference to fig. 5.

During circulation of the remote control device 1, the battery holder 4 is inserted into the insertion hole 26, but the battery 3 is located in a second position separated from the terminal 6. In the second position, the battery holder 4 is not inserted into the insertion hole 26 to be held immovably. Specifically, the first claw portion 42a is not hooked to the first support portion 26d. The second claw portion 43a is not hooked to the second supporting portion 26e. The fixing claw portion 44a is not hooked to the locking portion 26f. In the second position, the movable arm 44 is elastically deformed in a direction approaching the first holding arm 42 by the fixed claw portion 44a coming into contact with the movable guide portion 26c. The belt 5 fixes the battery holder 4 holding the battery 3 in the second position to the remote control body 2. In the above state, the remote control device 1 is shipped from the factory and distributed on the market.

Next, a procedure for starting the use of the remote control device 1 by the consumer will be described with reference to fig. 1, 4 and 5.

As shown in fig. 4 and 5, a consumer who purchases the remote control device 1 first peels the tape 5 from the remote control main body 2 and the battery holder 4. At this time, the tape 5 is peeled off by grasping the bent portion 51 shown in fig. 1.

Next, the battery holder 4 is pushed into the insertion hole 26 from the state shown in fig. 5 to the state shown in fig. 4. When the battery holder 4 is pushed into the insertion hole 26, the first claw portion 42a abuts against the first guide portion 26a, and the first holding arm 42 is elastically deformed in a direction approaching the battery 3. When the first claw portion 42a passes over the first guide portion 26a, the first holding arm 42 returns to its original shape by the elastic restoring force, and the first claw portion 42a is hooked to the first support portion 26d. The first claw portion 42a is hooked to the first support portion 26d in a state that it is easily separated from the first support portion 26d when a force is applied in a direction to pull out the battery holder 4 from the insertion hole 26.

When the battery holder 4 is pushed into the insertion hole 26 from the state shown in fig. 5 to the state shown in fig. 4, the second claw portion 43a abuts against the second guide portion 26b, and the second holding arm 43 is elastically deformed in a direction approaching the battery 3. When the second claw portion 43a passes over the second guide portion 26b, the second holding arm 43 returns to its original shape by the elastic restoring force, and the second claw portion 43a is hooked to the second support portion 26e. The second claw portion 43a is hooked to the second support portion 26e in a state that it is easily separated from the second support portion 26e when a force is applied in a direction to pull out the battery holder 4 from the insertion hole 26.

Further, when the battery holder 4 is pushed into the insertion hole 26 from the state shown in fig. 5 to the state shown in fig. 4, the fixing claw portion 44a is in sliding contact with the movable guide portion 26c. When the fixing claw portion 44a reaches a portion of the movable guide portion 26c inclined inward in the width direction, the movable arm 44 is further elastically deformed in a direction approaching the first holding arm 42. When the fixing claw portion 44a passes over the movable guide portion 26c, the movable arm 44 returns to its original shape by the elastic restoring force, and the fixing claw portion 44a is hooked on the locking portion 26f. The resistance feeling is imparted to the hand of the consumer by the movable arm 44 being elastically deformed until the fixed jaw 44a passes over the movable guide portion 26c, but the resistance feeling disappears or decreases when the fixed jaw 44a passes over the movable guide portion 26c. Therefore, the consumer can grasp that the battery holder 4 has been inserted to the first position by the feel. The fixing claw portion 44a is hooked to the locking portion 26f in a state where it is not easily separated from the locking portion 26f even if a force is applied in a direction to pull out the battery holder 4 from the insertion hole 26.

In addition, when the battery holder 4 is pushed into the insertion hole 26 from the state shown in fig. 5 to the state shown in fig. 4, the battery 3 is electrically connected to the terminal 6. Thereby, the remote control device 1 can be started to be used. That is, by pressing the operation unit 21 shown in fig. 1, it is possible to remotely operate an electronic device not shown.

On the other hand, when the battery holder 4 is pulled out of the insertion hole 26 at the time of replacement of the battery 3 or the like, a thin rod-shaped tool is first inserted into the insertion recess 44b from the operation hole 24 shown in fig. 4. Next, the movable arm 44 is moved by a tool in a direction approaching the first holding arm 42 against the elastic force of the movable arm 44. Thereby, the fixing claw portion 44a is disengaged from the locking portion 26f. In this state, the finger tips of the consumers are caught in the finger-catching concave portions 41a, and a force is applied in a direction to pull out the battery holder 4 from the insertion hole 26, so that the first claw portions 42a are separated from the first supporting portions 26d, and the second claw portions 43a are separated from the second supporting portions 26e. Thereby, the battery holder 4 can be pulled out from the insertion hole 26.

Next, the operational effects of the remote control device 1 will be described.

In the present embodiment, as shown in fig. 5, the belt 5 fixes the battery holder 4 holding the battery 3 in the second position to the remote control body 2 during the circulation of the remote control device 1. Therefore, the consumer who purchased the remote control device 1 can start using the remote control device 1 simply by peeling the tape 5 and pushing the battery holder 4 into the insertion hole 26. Thereby, the battery 3 and the battery holder 4 can be easily attached to the remote control body 2. In addition, it is no longer necessary to match the directions of the battery 3 and the battery holder 4 with the directions specified by the manufacturer, and it is possible to prevent the battery 3 from being inserted into the remote control main body 2 only first, and therefore, it is possible to prevent erroneous insertion of the battery 3 and the battery holder 4.

In the present embodiment, since only the battery holder 4 holding the battery 3 in the second position shown in fig. 5 is fixed to the remote control main body 2 by the belt 5, it is not necessary to modify the internal shapes of the battery holder 4 and the remote control main body 2 in order to fix the battery holder 4 to the remote control main body 2. Accordingly, a fixing method that can be easily introduced into the fixation of the battery holder 4 and the remote control body 2 can be provided.

In the present embodiment, the belt 5 fixes the battery holder 4 holding the battery 3 in the second position shown in fig. 5 to the remote control body 2. In this fixed state, the battery 3 is not electrically connected to the terminal 6. Therefore, the battery 3 can be prevented from being consumed during the circulation of the remote control device 1.

In the present embodiment, the remote control body 2 has a movable guide portion 26c that contacts the movable arm 44 in the second position shown in fig. 5. Therefore, when the battery holder 4 is inserted into the insertion hole 26, the movable arm 44 in contact with the movable guide portion 26c is elastically deformed, and a feeling of resistance can be given to the user. Further, by setting the position giving the consumer a feeling of resistance to the second position, even if the inside of the remote control device 1 cannot be visually confirmed, the consumer can grasp through the touch that the battery holder 4 has been inserted into the insertion hole 26 until the battery 3 is located at the second position. This can prevent the deviation of the fixing position of the battery holder 4 due to the belt 5. That is, it is possible to prevent the battery holder 4 from being inserted into the insertion hole 26 until the battery 3 reaches the first position, or the battery holder 4 from being inserted into the insertion hole 26 only until the battery is positioned shallower than the second position, and from being easily detached. The structure for imparting a feeling of resistance to the user is not limited to the structure in which the movable arm 44 is brought into contact with the movable guide portion 26c, and may be appropriately modified. The structure of the battery holder 4 is not limited to the structure shown in fig. 1 to 5, and may be changed as appropriate.

In the present embodiment, the battery holder 4 holding the battery 3 in the second position shown in fig. 5 is fixed to the remote control body 2 by the strap 5. Therefore, the battery holder 4 can be prevented from being inserted into the first position and the entire battery holder 4 can be prevented from being pulled out of the remote control body 2 due to the shock and vibration generated when the remote control device 1 is conveyed.

In the present embodiment, as shown in fig. 1, a bending portion 51 is formed at one end of the tape 5 in the longitudinal direction, the tape 5 being bent and the adhesion surfaces being bonded to each other, so that the tape 5 can be easily peeled from the remote control body 2 and the battery holder 4 by grasping the bending portion 51. Further, by forming the bending portion 51 at one end of the tape 5 in the longitudinal direction, the direction of the peeling tape 5 can be determined as one direction.

In the present embodiment, as shown in fig. 1, since the bent portion 51 of the tape 5 is arranged at a position corresponding to the protective sheet 22 in the thickness direction, the consumer can start peeling the tape 5 from the bent portion 51, and can suppress peeling of the protective sheet 22 together at the time of peeling the tape 5.

Embodiment 2

Fig. 6 is a diagram showing a remote control device 1 according to embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder 4 holding a battery in a first position. Fig. 7 is a diagram showing a remote control device 1 according to embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder 4 holding a battery in a second position. Fig. 6 and 7 are enlarged views of the movable arm 44 and its periphery. In embodiment 2, the same reference numerals are given to the portions overlapping with those of embodiment 1 described above, and the description thereof is omitted.

A groove 26g recessed outward in the width direction, which is the direction of separation from the movable arm 44, is formed in the inner wall of the insertion hole 26 of the remote control device 1 of the present embodiment. The groove 26g as a contact portion is formed in a surface of the movable guide portion 26c facing the movable arm 44. The groove 26g is disposed on the front side in the insertion direction from the locking portion 26f. In the second position shown in fig. 7, the fixed jaw 44a of the movable arm 44 is fitted into the groove 26g. The fixing claw portion 44a as a claw portion is fitted into the groove portion 26g, thereby fixing the battery holder 4 to the remote control body portion 2. The locking portion 26f protrudes inward in the insertion direction toward the inner side in the width direction. The tip of the locking portion 26f is located at a position on the inner side in the width direction than the bottom of the groove portion 26g.

In this embodiment, the same operational effects as those of embodiment 1 described above can be achieved. In the present embodiment, in the second position shown in fig. 7, the fixing claw portion 44a of the movable arm 44 is fitted into the groove portion 26g, and the battery holder 4 is fixed to the remote control body portion 2. Therefore, the battery holder 4 can be fixed to the remote control body 2 without using the belt 5 according to embodiment 1. In this case, the groove 26g and the fixing claw 44a serve as fixing means capable of fixing the battery holder 4 to the remote control body 2. The battery holder 4 may be fixed to the remote control body 2 by the combination of the strap 5 and the groove 26g. In this way, the battery holder 4 can be further firmly fixed by the remote control body part 2.

In the present embodiment, in the second position shown in fig. 7, the fixed jaw 44a of the movable arm 44 is fitted into the groove 26g. Therefore, when the battery holder 4 is inserted into the insertion hole 26, the movable arm 44 in contact with the inner wall of the groove 26g is elastically deformed, and a feeling of resistance can be given to the user. Further, by setting the position giving the consumer a feeling of resistance to the second position, even if the inside of the remote control device 1 cannot be visually confirmed, the consumer can grasp through the touch that the battery holder 4 has been inserted into the insertion hole 26 until the battery 3 is located at the second position. This can prevent the deviation of the fixing position of the battery holder 4 due to the belt 5. That is, it is possible to prevent the battery holder 4 from being inserted into the insertion hole 26 until the battery 3 reaches the first position, or the battery holder 4 from being inserted into the insertion hole 26 only until the battery 3 is positioned shallower than the second position and easily removed.

When the battery holder 4 is pushed from a state where the fixing claw portion 44a of the movable arm 44 is fitted into the groove portion 26g, the movable arm 44 is elastically deformed so as to approach the first holding arm 42, not shown, by the contact of the fixing claw portion 44a of the movable arm 44 with the locking portion 26f. The resistance feeling is enhanced by the elastic deformation of the movable arm 44, but the resistance feeling is lost or reduced when the fixed claw portion 44a passes over the locking portion 26f. Therefore, the consumer can grasp that the battery holder 4 has been inserted to the first position by the feel.

In addition, instead of the groove 26g, a protrusion 26h shown in fig. 8 may be used. Fig. 8 is a diagram showing a remote control device 1 according to a modification of embodiment 2 of the present invention, and is an enlarged cross-sectional view showing a battery holder 4 holding a battery in a second position. A protrusion 26h protruding toward the movable arm 44 is formed on the inner wall of the insertion hole 26 of the remote control device 1. A protrusion 26h as a contact portion is formed on a surface of the movable guide portion 26c facing the movable arm 44. The projection 26h is disposed on the front side in the insertion direction from the locking portion 26f. In the second position shown in fig. 8, the fixed claw portion 44a of the movable arm 44 is hooked to the protrusion 26h. The fixing claw portion 44a as a claw portion is hooked to the protrusion 26h, thereby fixing the battery holder 4 to the remote control main body portion 2. Therefore, the battery holder 4 can be fixed to the remote control body 2 without using the strap 5. In this case, the protrusion 26h and the fixing claw portion 44a serve as a fixing mechanism capable of fixing the battery holder 4 to the remote control body portion 2. The battery holder 4 may be fixed to the remote control body 2 by the combination of the strap 5 and the projection 26h. In this way, the battery holder 4 can be further firmly fixed by the remote control body part 2.

In the present modification, in the second position shown in fig. 8, the fixed jaw 44a of the movable arm 44 is in contact with the protrusion 26h. Therefore, when the battery holder 4 is inserted into the insertion hole 26, the movable arm 44 in contact with the projection 26h is elastically deformed, and a feeling of resistance can be given to the consumer. Further, by setting the position giving the consumer a feeling of resistance to the second position, even if the inside of the remote control device 1 cannot be visually confirmed, the consumer can grasp through the touch that the battery holder 4 has been inserted into the insertion hole 26 until the battery 3 is located at the second position. This can prevent the deviation of the fixing position of the battery holder 4 due to the belt 5. That is, it is possible to prevent the battery holder 4 from being inserted into the insertion hole 26 until the battery 3 reaches the first position, or the battery holder 4 from being inserted into the insertion hole 26 only until the battery 3 is positioned shallower than the second position and easily removed.

The configuration shown in the above embodiment is an example of the present invention, and may be combined with other known techniques, and a part of the configuration may be omitted or changed without departing from the gist of the present invention.

Description of the reference numerals

The remote control device comprises a remote control device body part 1, a remote control main body part 2, a battery 3, a battery holder 4, a belt 5, a terminal 6, an operation part 21, a protection sheet 22, a hole 23, an operation hole 24, an opening 25, an insertion hole 26, a first guide part 26a, a second guide part 26b, a movable guide part 26c, a first support part 26d, a second support part 26e, a locking part 26f, a groove part 26g, a protrusion 26h, a holder base part 41, a recess for hanging 41a, a first holding arm 42a, a first claw part 42a, a second holding arm 43a, a second claw part 43a, a movable arm 44a, a fixing claw part 44b, a recess for insertion 45 cut-out and a bending part 51.

Claims (8)

1. A remote control device, comprising:

a remote control body part, which is provided with an insertion hole;

a battery holder that is provided in the insertion hole of the remote control body so as to be capable of being inserted and removed, and that holds a battery so as to be capable of being removed;

a conductive terminal provided inside the remote control body; and

a fixing mechanism capable of fixing the battery holder to the remote control main body,

the battery is electrically connected to the terminal at a first position inserted into the insertion hole together with the battery holder,

the battery is separated from the terminal at a second position that is shallower than the first position into the insertion hole,

the fixing means is a releasable tape that is attached to the battery holder and the remote control body portion to fix the battery holder holding the battery in the second position to the remote control body portion.

2. The remote control device of claim 1, wherein the remote control device comprises a remote control unit,

the remote control body portion has a contact portion that contacts the battery holder at the second position.

3. The remote control device of claim 2, wherein,

the contact portion is a groove portion formed on an inner wall of the insertion hole.

4. The remote control device of claim 2, wherein,

the contact portion is a protrusion formed on an inner wall of the insertion hole.

5. The remote control device according to any one of claims 1 to 4, wherein,

a bending part is formed at the end of the belt, which is formed by bending the belt and bonding the adhesive surfaces.

6. The remote control device of claim 5, wherein the remote control device comprises a remote control unit,

the remote control body section includes:

an operation unit; and

a peelable protective sheet covering the operation section,

the bending portion of the belt is disposed at a position corresponding to the protective sheet.

7. A remote control device as claimed in claim 3, characterized in that,

a claw portion which is engaged with the groove portion is formed on the battery holder,

the fixing mechanism is the groove portion and the claw portion.

8. The remote control device of claim 4, wherein the remote control device comprises a remote control unit,

a claw hooked to the protrusion is formed at the battery holder,

the fixing mechanism is the protrusion and the claw portion.

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