HK1028588A1 - Case - Google Patents

Abstract

This invention is to manufacture a case preventing goods from being stolen. A parallel engaging channel 16 is formed on the opposite side edge of a hinge between a box and a cover of a case A formed on the box and the cover to be opened and closed through the hinge, and a slider 17 in the engaged state is inserted into the parallel engaging channel, and an operation member 24 to be inserted into the slider is engaged with engaging sections 25 and 26 formed on the slider, and the slider is drawn out by the operation member.

Description

Box body

The present invention relates to a box for receiving a rental article, and more particularly, to a box with an anti-theft function for preventing the article from being taken out of the box at will.

The conventional box body is composed of a side wall 1 as shown in fig. 44; a cover body 3 connected to the whole circumference wall of the side wall and formed together with the outer circumference wall 2 protruding from the back surface of the side wall 1; a side wall 5 provided at the open peripheral position of the lower side wall of the side peripheral wall 2 by a hinge 4, and a box body 7 connected to the lower edge of the side wall 5, protruding from the back side of the side wall 5, and capable of being fitted into the inner peripheral wall 6 inside the outer peripheral wall 2 when closed.

The lower wall of the outer peripheral wall 2 is cut at both ends thereof from the lower ends of the two side walls of the outer peripheral wall 2, and a hinge 8 is provided at the lower wall of the outer peripheral wall 2 and the lower edge of the side wall 1 so as to expand the opening degree of the lid body 3.

The hinge may be of half cut type.

For example, when the box body is used for accommodating commodities (such as discs for renting commodities) and arranged in the display cabinet, the box body can be opened easily or the discs can be stolen.

It is therefore an object of the present invention to provide a cartridge that requires time or special tools, and otherwise cannot be opened.

In order to solve the above problems, the present invention is a case comprising a case body and a lid body provided to the case body via an appropriate hinge, wherein the lid body closes an opening of the case body and fits both peripheral walls of the case body and the lid body, a fitting groove is provided in parallel at the edge of the opposite side of the hinge of the case body and the lid body, a slider (slider) is inserted into the fitting groove so as to maintain the fitting state when the case body is closed, a stop mechanism for inserting the slider is provided to the fitting groove or the case body, an operation member insertion gap is provided in the opposite surface of the slider to the fitting groove from an insertion end of the slider to a predetermined range, and a fitting part is provided on the surface of the slider having the gap.

The operating member is also provided with a structure which is pushed back when inserted and can be engaged with the engaging portion when the engaging portion is engaged with the slide piece engaging portion.

The slide piece and the clearance surface of the fitting groove are provided with a locking mechanism which is automatically locked after the slide piece is inserted and can release the locked state when the operation member is inserted.

A barrier is provided on the surface having the vane gap, and a mechanism for avoiding collision with the barrier is provided on the operating member.

The side of the box body is provided with an opening with an embedded mechanism for taking and placing goods and preventing the lower edge side of the received goods from sliding out, the upper side of the top wall of the box body is provided with a sliding sheet which is suitable for sliding guide by the guide mechanism of the box body, meanwhile, the box body or the guide mechanism is provided with a forward stop mechanism of the sliding sheet, the side edge of the opening of the top wall of the box body is provided with a stop sheet which enables the side surface of the upper edge side of the received goods to be embedded when resisting the press of a rebound force, the sliding sheet is provided with an action part which presses the stop sheet along with the forward movement, the sliding sheet and the guide mechanism are provided with a gap which is capable of being inserted into an operation member and within a preset range from the tail end of the sliding sheet to the inside, and the surface with the gap.

The operation member may be provided with a fitting portion structure which is pushed back when inserted and is fitted into the fitting portion of the slide piece.

The slide plate and the guide mechanism may be provided with a surface having a gap, and the slide plate may be automatically locked when the forward movement is stopped, and the lock mechanism may be released when the operation mechanism is fully inserted.

The clearance surface of the slide piece is provided with an obstacle, and the operating member may be provided with an avoidance mechanism for avoiding a collision with the obstacle.

Or adopt the following structure; that is, an opening for storing and taking out the commodity in a door-window embedded posture is arranged on the side surface of the box body, the upper side of the opening is provided with a deeper hanging part, the lower side is provided with a shallower hanging part, so that the upper and lower edges of the commodity to be stored are embedded into the hanging parts, a sliding sheet which is formed by a proper guiding mechanism of the box body and is used for guiding and sliding is arranged on the outer side of the top wall of the box body, meanwhile, the box body or the guiding mechanism is provided with a forward stop mechanism for stopping the sliding sheet, the top wall of the box body is provided with a pressing member, when the pressing member is pressed down, the pressing member descends into the deeper hanging part to stop the upward movement of the stored commodity, the sliding sheet is provided with a pressing action part for pressing the pressing member along with the forward movement of the sliding sheet, and the insertion gap of an operation member is arranged on the sliding sheet and the box body from the tail end side of the, and a structure that a surface with a gap of the slide sheet is provided with a buckling part.

Or, an engaging portion structure which is pushed back when the operation member is inserted and is engaged with the engaging portion of the slide piece, or a locking mechanism which is automatically locked on the surfaces of the slide piece and the case having a gap and is capable of releasing the locking when the operation member is inserted, or a structure in which a barrier portion is provided on the surface of the slide piece having a gap and an avoiding mechanism which avoids the collision with the barrier portion is provided on the operation member.

In a case of a type in which the case is constituted by a lid provided with a suitable hinge and the lid is locked by closing the opening of the case and the both peripheral walls of the case and the lid are fitted to each other, fitting grooves are provided in parallel on the opposite side edges of the hinge of the case and the lid, a slidable slide piece is inserted into the fitting grooves in parallel, and a fitting release portion for releasing the fitting relationship is provided in one of the fitting grooves or a predetermined position of the slide piece to maintain the fitting state when the case is in the closed state.

Embodiments of the present invention will be described below with reference to the accompanying drawings:

FIG. 1 is a perspective view of a case according to embodiment 1 of the present invention.

FIG. 2 is a perspective view of the essential part and the slider of the cartridge.

FIG. 3 is a front view of a longitudinal section of the case with the slider inserted therein.

FIG. 4 is an oblique view of the operating member.

FIG. 5 is a longitudinal sectional side view of the operating member.

FIG. 6 is a side view in vertical section showing the fitting relationship of the operation members.

FIG. 7 is a side view in longitudinal section of another operating member.

FIG. 8 is a longitudinal sectional side view of embodiment 2 of the present invention.

Fig. 9 is a front view of a main portion of the locking mechanism in a vertical section.

Fig. 10 shows an oblique view of the operating member.

FIG. 11 is a side view in vertical section showing the unlocking.

Fig. 12 is a side view of two types of locking mechanisms in longitudinal section.

FIG. 13 is a longitudinal sectional side view of embodiment 3 of the present invention.

FIG. 14 is a cross-sectional side view of the embodiment shown in the upper view.

FIG. 15 is a longitudinal sectional side view of another embodiment.

FIG. 16 is a cross-sectional front view of the embodiment shown in the upper view.

FIG. 17 is a longitudinal sectional side view of another embodiment.

FIG. 18 shows a cross-sectional elevation view of yet another embodiment.

FIG. 19 is a side view of the embodiment shown in the upper section.

FIG. 20 is a side view, partially cut away, of a case according to embodiment 4 of the present invention.

FIG. 21 is a longitudinal sectional front view of the upper part.

FIG. 22 is an exploded perspective view of the essential part.

FIG. 23 is a longitudinal sectional side view showing a fitting relationship of the operation member.

FIG. 24 is a side view of a portion of the case with the locking mechanism cut away.

FIG. 25 is a side view in vertical section showing the unlocking of the locking mechanism.

Fig. 26 is a longitudinal sectional side view showing another locking mechanism released.

Fig. 27 is an exploded perspective view of the upper part of the figure.

FIG. 28 is a longitudinal sectional side view showing a combination of two types of locking mechanisms.

FIG. 29 is a side view of a longitudinal section of a case according to embodiment 7 of the present invention.

FIG. 30 is a longitudinal sectional side view of the operation member.

FIG. 31 is a front view of the upper part of the figure in vertical section.

Fig. 32 is an exploded perspective view of the upper view. .

FIG. 33 is a side view in vertical section of the essential part of the 8 th embodiment of the present invention.

Fig. 34 is a cross-sectional front view of the upper panel.

FIG. 35 is a side view of a longitudinal section of a case with a locking mechanism attached.

Fig. 36 is a longitudinal sectional side view of the unlocking mechanism.

FIG. 37 is a longitudinal sectional side view of a case with another locking mechanism.

FIG. 38 is a side view in vertical section of a main part of a case according to embodiment 9 of the present invention.

The cross-sectional plan view of the top view of fig. 39.

FIG. 40 is a perspective view of a main part of the 10 th embodiment of the present invention.

FIG. 41 is an oblique view of the key portion of the insert slide.

FIG. 42 is a perspective view showing the fitting being released.

Fig. 43 is a cross-sectional plan view of the essential part of the upper drawing.

Fig. 44 is a perspective view of a conventional cassette.

A box body 11

12 hinge 13 cover

14 peripheral wall 15 peripheral wall

16-embedded groove 17 sliding sheet

18 side wall 19 side wall

20 side plate of strip-shaped plate 21

22 stop mechanism 24 operating member

25 fitting part 26 fitting part

27 slotted hole 28 cut

31 locking mechanism 32 double fork piece

33 elastic piece 34 recess

35 inclined convex 41 obstacle part

42 evading the projection 43

44 cut-out 45 center guide

46 oblique guide 47 cut

48 double-fork piece 51 box body

52 fitting mechanism 53 opening

54 side wall 55 Top wall

56 bottom wall 57 front full wall

58 rear wall 59 guide mechanism

60 sliding vane 61 guide rail

62 stop tool 63 action part

64-notch 71 box body

72 deeper engaging portion 73 shallower engaging portion

74 opening 90 sliding sheet

93 guide mechanism 94 guide rail

97 pressing member 98 acting part

99-groove 111 fitting/removing part

S gap

As shown in fig. 1 to 5, a case a according to embodiment 1 of the present invention is formed by a case 11 and a lid 13 provided on the case 11 via a hinge 12, and the case 11 is closed by the lid 13 and both peripheral walls 14 and 15 of the case 11 and the lid 13 are fitted to each other, and side-by-side fitting grooves 16 and 16 are provided on opposite side edges of the hinge 12 of the case a and the lid 13, and a slide piece 17 which can be inserted and removed to maintain the fitting state of the closed state of the case a is inserted into the fitting grooves 16 and 16 in the fitting grooves 16 and 16.

As shown in the figure, the cover 13 is composed of: a side wall 18, and an outer peripheral wall 15 connected to the entire periphery of the side wall 18 and protruding from the back surface of the side wall 18; the case 11 is formed by a side wall 19 connected to the lower edge of the outer peripheral wall 15 via a half-cut hinge 12, and an inner peripheral wall 14 projecting from the edge other than the lower edge of the side wall 19 toward the rear side of the side wall 19, and as shown in the drawing, the lower edge of the outer peripheral wall 15 is cut at both ends of the lower edge of the peripheral wall 15, and the lower edge of the outer peripheral wall 15 is provided at the lower edge of the side wall 18 via the half-cut hinge 12, whereby the opening degree of the lid 13 to the case 11 can be increased.

The middle of the two sides of the peripheral walls 14 and 15 fitted to each other may be cut off to confirm the presence or absence of the stored commodity and to reduce the weight of the case.

The hinge 12 is not limited to half-cut, and the lid may be opened and closed by forming the case and the lid separately and then fitting the lid into the hole portions and the protrusions provided at the lower ends of both sides of the peripheral wall overlapping the inside and outside.

The parallel fitting grooves 16, 16 are formed by connecting 7-shaped bent walls at the upper edges of the two side walls 18, 19 in the figure, and the slide piece 17 is formed by a band-shaped plate 20 having the same length as the fitting groove 16 and opposite side plates 21, 21 connected to the two side edges of the band-shaped plate 20 and protruding in the up-down direction; the upper edge parts of the two side plates 21 are embedded in the groove parts of the folding walls to be in an embedded state, and the lower edges of the two side plates 21 are abutted against the surface of the outer peripheral wall 15; however, it is also possible to use a configuration in which one of the surfaces of the parallel projecting plate and the outer surface of the slide piece overlapping each other is provided with an ant groove and the other is provided with a projecting strip which is fitted into the ant groove to be fitted. The slide piece 17 is inserted so that the slide piece 17 is fitted into the fitting groove 16 to prevent the opening of the case A, and a contact pressure is applied to prevent the slide piece 17 from sliding when the case A is tilted or swung.

The case A and the slider 17 may be molded products of synthetic resin, and mass production and cost reduction are possible.

With the above configuration, after the case 11 accommodates the commodity a such as a disk, the opening of the case 11 can be opened or closed by the cover 13.

Next, the slide pieces 17 are inserted into the fitting grooves 16, 16 to be fitted.

In this case, since the stop mechanism 22 for the slide piece 17 can be provided in the fitting groove 16 or the lid 13 so that the slide piece 17 can be accommodated in the entire length of the parallel fitting groove 16, the function of preventing the opening of the case a by the slide piece 17 cannot be observed from the outside.

The stop mechanism 22 is formed by a protruding wall on the lid 13 side contacting the insertion end of the slider 17 in the drawing, but the slider 17 may be stopped at a predetermined position in another manner (for example, by being closed by an end face of the fitting groove).

A gap S is provided between the slide piece 17 and the fitting groove 16, and the operation member 24 can be inserted into the gap S from the opposite side of the tip end from the slide piece 17, i.e., from the tip end side.

In the figure, the gap S is a gap surrounded by the strip plate 20 of the slide piece 17, the side plates 21 and 21, and the peripheral wall 15, but is completed by groove processing on the surface where the slide piece 17 overlaps the fitting groove 16, for example.

An engagement groove 25 is provided on the surface S of the slide plate 17 having the gap.

The operation member 24 is provided with a fitting portion 26 (an inclined surface is provided on the insertion distal end surface to allow smooth insertion) which is pushed back when the operation member 24 is inserted into the gap S and which automatically fits into the fitting portion 25 when the operation member is aligned with the fitting portion.

In the figure, the fitting portion 25 is formed by providing a concave portion in the strip plate 20 of the slider 17, but may be formed by projecting a convex portion in a direction crossing the strip plate 20. The fitting portion 26 is a protruding portion provided on the upper surface of the operation member 24 (facing the fitting portion 25), and when the operation member 24 is inserted, the protruding portion contacts the slide piece 17 to push back the fitting portion 26, and when the fitting portion 26 is aligned with the fitting portion 25, the fitting portion 25 and the fitting portion 26 are automatically fitted to each other, as shown in fig. 4 and 5, the fitting portion 26 is returned by the long hole 27 provided along the longitudinal direction of the operation member 24, both ends of the long hole 27 being located in the front and rear positions of the fitting portion 26, both side surfaces of the operation member 24 being opened, and the fitting portion 26 being pushed back by the long hole 27 to return the fitting portion 26 when the push-back operation is released. As shown in fig. 7, the L-shaped notch 28 can be formed to obtain the same effect as the long hole 27, but it is needless to say that other structures can be adopted to obtain the same effect.

With the above-described structure, the operation member 24 can be inserted into the space S as shown in fig. 5, and the slide piece 17 can be brought into contact with the fitting portion 26 before the insertion is completed.

When the insertion of the operation member 24 is continued from this stopped state, the fitting portion 26 can be pushed back by the elongated hole 27 or the notch 28, and when the fitting portion 26 is engaged with the fitting portion 25, the fitting portion 26 pushed back by the release automatically fits into the fitting portion 25 (as shown in fig. 6).

Therefore, by coupling the slide piece 17 to the operation member 24 in the above-described fitting relationship, the operation member 24 and the slide piece 17 can be simultaneously pulled out (in the direction of the arrow) so that the parallel fitting grooves 16, 16 fixed by the slide piece 17 are separated to open the lid body 13.

The above-mentioned dialing of the slider 17 is carried out by a clerk in the store, and then the commodity a taken out can be sold or rented in a state where the commodity a is accommodated in a box (in this case, the slider 17 should be left in the store).

As shown in fig. 8 to 11, according to embodiment 2 of the present invention, on the surface having the gap S between the slide piece 17 and the fitting groove 16 of embodiment 1, a lock mechanism 31 is provided which is capable of automatically locking to prevent the slide piece 17 from sliding in the removal direction when the slide piece 17 is completely inserted (the slide piece 17 is stopped by a stop mechanism 22) and is capable of being released by the insertion operation member 24.

The locking mechanism 31 is composed of an elastic piece 33 and a concave part 34 as shown in the figure, the end of the elastic piece 33 is fixed on the lower surface of the belt-shaped plate 20 at the front end part of the slide piece 17, at the same time, the double fork piece 32 is arranged at the front end of the lower part of the incline in the opposite direction of the stop mechanism 22, the concave part 34 is arranged on the surface of the outer side wall 15 forming the gap S, when the slide piece 17 is inserted, the front end of the elastic piece 33 which is rebounded by the restoring force is embedded, and the front end of the operation member 24 is provided with an inclined projection 35, so that the protrusion 35 at the front end of the operating member 24 is inserted between the two fork pieces 32 before the insertion of the operating member 24 is completed (before the fitting part 26 is fitted to the fitting part 25), the front end edge between the two fork pieces 32 which are blocked and connected with the elastic piece 33 pushes the elastic piece 33 back to the direction resisting the resetting force, the pushing amount gradually increases with the insertion of the operating member 24 until the insertion is completed, and the bifurcated piece 32 is disengaged from the recess 34.

As described above, when the insertion of the slider 17 is completed, the bifurcate piece 32 of the elastic piece 33 and the concave portion 34 can be automatically fitted to each other, and the latch can be locked to the state of preventing the slider 17 from being removed as shown in fig. 8.

When the operating member 24 is inserted into the gap S, the inclined projection 35 pushes back the tip end side of the elastic piece 33, and the bifurcating piece 32 is disengaged as shown in fig. 11, thereby releasing the locked state.

The operation member 24 can be pulled back in response to the release of the lock, that is, the slide plate 17 can be pulled out by the engagement of the engagement portions 25 and 26 as in embodiment 1.

The elastic piece 33 is fixed to the slide piece 17 through an adhesive in the drawing, but may be formed integrally with the slide piece 17 by molding a synthetic resin. As shown in the figure, the width of the elastic piece 33 can be enlarged by providing the notch 36 in the elastic piece 33 arrangement portion of the side plate 21, and as shown in fig. 12, a fitting piece 37 which is a cut-out portion of another lock mechanism 31 is provided above the lock mechanism 31 and the outer peripheral wall 15 of the gap S and projects in the direction of the stop mechanism 22, and a fitting portion 38 (the fitting piece 37 can be pushed down by the insertion of the operating member 24 to release the fitting relationship between the fitting piece 37 and the fitting portion 38) which can fit the free end of the fitting piece 37 is provided in the belt-shaped plate 20 of the slide piece 17, thereby increasing the number of lock mechanisms. The locking mechanism 31 is not limited to the elastic piece 33 having the bifurcating piece 32, and may be constituted by a fitting piece 37 and a fitting portion 38.

The cartridge a, the parallel fitting groove 16, the slide 17, the operation member 24, and the fitting portions 25 and 26 in embodiment 2 are the same as those in embodiment 1, and therefore, the description thereof will be omitted.

In the figure, reference numeral 39 denotes an insertion guide piece of the inclined protrusion 35 projecting obliquely upward between the two fork pieces 32 at the front end of the elastic piece 33.

Embodiment 3 of the present invention is the collision avoidance mechanism 42 in which the interference portion 41 is provided on the surface having the gap S of the vane 17 of embodiment 2, and the interference portion 41 is provided on the operating member 24.

The obstacle 41 and the collision avoidance mechanism 42 are provided for the purpose of preventing the lock mechanism 31 from being unlocked when a plate material or a shaft material other than the dedicated operation member 24 is used in a shop. As shown in fig. 13 and 14, a projection 43 for obstacle projects from the surface of the gap S of the slide plate 17 (on the lower surface of the belt-shaped plate 20 shown in the figure), an insertion notch 44 for collision avoidance projection 43 is provided inward from the insertion tip of the operation member 24, the projection 43 can be inserted into the notch 44 to insert the operation member 24 dedicated to the store, and the engagement piece 37 as the lock mechanism 31 can be released by releasing the tip of the engagement piece 37 from the engagement portion 38 while pushing down the insertion tip of the operation member 24 against the returning force.

In this case, as shown in the figure, the protrusion 43 is formed with a step in thickness, and the notch 44 is formed in a shape corresponding to the step, which makes it more difficult for the guest to release the latch.

Of course, other than the combination of the engaging piece 37 and the engaging portion 38 of the locking mechanism 31, as shown in fig. 15 and 16, the bifurcated piece 32 can be separated from the recessed portion 34 by pushing up the inclined protrusions 35 on both sides of the notch portion 44 of the operating member 24 by sandwiching the bifurcated piece 32.

The double fork 32 may be a single piece.

As shown in fig. 17, the protrusion 43 may be formed in an inverted L-shape, and the end of the notch 44 may have a shape matching the L-shape, that is, the operation member 24 may have a step formed therein, in order to form the step in the thickness of the protrusion 43.

As shown in fig. 18 and 19, another embodiment is provided with an intermediate guide body 45 projecting downward from the center below the band-shaped plate 20 of the slide plate 17 in the gap S, inclined guide portions 46 and 46 with a gradually decreasing forward relative interval are provided as the barrier portions 41 on the inner side surfaces of the both side plates 21 of the slide plate 17 on the lower side of the band-shaped plate 20 (in front of the intermediate guide body 45 when the slide plate 17 is stopped and advanced), the upper and lower surface notches 47 opened inward from the tip end of the operation member 24 are provided, and flexible bifurcating pieces 48 are provided on both sides as the collision avoidance protrusion portions 42.

As described above, the double-forked piece 48 passing through both sides of the intermediate guide body 45 is folded inward by the inclined guide body 46 to be overlapped with the insertion of the operating member 24. Then, the tip of the elastic piece 33 of the latch mechanism 31 is pressed by the tip of the overlapped bifurcated piece 48, and as shown in fig. 19, the bifurcated piece 32 is disengaged from the recess 34, thereby releasing the fitting relationship.

The main purpose of this is to provide a mechanism that is only unlocked by the store.

Further, since the projection 43 and the intermediate guide 45 are disposed in the middle, parallel portions are left on both sides of the notch portion 44, and the bifurcating piece 48 is provided in parallel, only one side may be provided.

In embodiment 4 of the present invention, as shown in fig. 20 to 23, an opening 53 with a fitting mechanism 52 for taking in and out a commodity a and preventing the lower edge of the commodity a from slipping out when the commodity a is stored can be provided on the box body 51 side.

In the figure, the case 51 having the opening 53 with the fitting mechanism 52 is composed of: a side wall 54; a top wall 55 and a bottom wall 56 which are opposite to each other in the up-down direction and are connected to the periphery of the side wall 54 to protrude from the back surface of the side wall 54, and a front wall 57 and a rear wall 58 which are opposite to each other in the front-rear direction. The open surfaces of the top wall 55, the bottom wall 56, the front wall 57, and the rear wall 58, which are four peripheral surfaces, are the access opening 53 for the article a. In the figure, the fitting means 52 is formed by providing triangular walls at both ends of the lower edge of the opening 53, and the lower edge of the article a can be fitted into the case 51 through the opening 53, and when the storage is completed, both ends of the lower edge of the article a are fitted to the inside of the fitting means 52 as shown in fig. 2, and as a result, the article a is prevented from slipping out. The bottom wall 56 may be provided with a fitting groove for fitting the lower edge of the commodity a or a protrusion below the two side edges of the opening 53 to prevent the commodity a from slipping out.

Further, since the case body 51 is formed by molding synthetic resin, parts of the bottom wall 56, the front wall 57, the rear wall 58, and the like are removed to reduce the weight and save the material (of course, a through window may be provided in the side wall 54).

A slide 60 is also provided on the upper side of the top wall 55 of the case 51, and is slidably guided by a guide 59 provided in the case 51 and serving as a guide mechanism 59.

As shown in the drawing (fig. 21), the guide mechanism 59 has 7-shaped guide rails 61, 61 protruding upward from the entire length thereof at both side edges of the top wall 55, and upper edge grooves of the guide rails 61, 61 are fitted into upper edge portions of both side plates 21 of the slide 60 of embodiment 1, which are shorter than the guide rails 61, for guidance. However, the guide may be provided by other means such as an inverted L-shaped parallel guide rail, or a guide rail formed by a guide mechanism 59 and a guide groove on one side of the overlapping surface of the slide piece 60, or a protrusion engaged with the ant groove.

A stopper piece 62 is provided on the side edge of the opening 53 of the top wall 55, and the stopper piece is pushed in a direction against the return force thereof so as to be fitted to the outer side of the upper edge side surface of the commodity a of the storage case 51, and an action part 63 for pushing the stopper piece 62 with the advance of the slider piece 60 is provided on the slider piece 60.

In the figure, the stop piece 62 is formed as a U-shaped cut 64 with both ends directed toward the rear wall 58 in the top wall 55, and is integrally formed inside the cut 64 when the case 51 is molded.

At this time, the upper edge of the stop piece 62 is projected in an upwardly inclined manner in the direction of the front wall 57, and the inclined surface of the cut-out portion in an upwardly inclined manner in the direction of the front end of the lower edge of the side plate of the slider 60 (the side of the front wall 57) provided on the slider 60 as the operation portion 63 is moved forward, so that the stop piece 62 is pressed downward against the return tension by the inclined surface as the operation portion 63 and the inclined surface of the upper edge of the stop piece 62, and as shown in fig. 21 and 23, the stop piece 62 is positioned outside the side surface of the upper edge of the stored commodity a, and is fitted.

As described above, the stop piece 62 and the fitting mechanism 52 can prevent the article a from being taken out of the case 51.

When the slide 60 moves backward, the stopper 62 of the release enabling portion 63 is pressed down, and the stopper 62 returns to the original position by the return force (the lower edge of the stopper 62 is flush with the lower surface of the ceiling wall 55).

Thus, the engagement between the stopper piece 62 and the upper edge of the commodity a can be released, and the commodity a can be taken out from the case 51.

Further, the insertion gap S of the operating mechanism 24 similar to that of embodiment 1 is provided in a predetermined range from the tip (the rear wall 58 side) of the slide 60 between the slide 60 and the guide mechanism 59 to the front.

As shown in fig. 21, the gap S is a space surrounded by the band-shaped plate 20 forming the slider 60, the both side plates 21, and the top wall 55.

The slide 60 is provided with a fitting portion 25 similar to that of embodiment 1, and the operation member 24 is provided with a fitting portion 26 similar to that of embodiment 1.

As configured above, the operating member 24 can be inserted in the gap S.

As described above, the operation member 24 is inserted by pushing back the fitting portion (pushing out the fitting portion 26 having the operation member 24 from the notch 28) by the contact between the band-shaped plate 29 and the fitting portion 26.

When the fitting portion 25 is engaged with the fitting portion 26, the fitting portion 26 released from the pushed-back state is automatically fitted with the fitting portion 25 (as shown in fig. 23).

When the operation member 24 is pulled back in this fitting relationship, the slide piece 60 is retracted integrally with the operation member 24, and the stop piece 62 is returned to the original position (released from the pressed state) as described above.

As shown in fig. 23, when the end side of the operation member 24 of the slit 28 (the same applies to the elongated hole 27) is extended to the vicinity of the end of the operation member 24, that is, when the slide 60 is retracted, the engagement of the engagement portions 25 and 26 is released, and the operation member 24 can be easily removed and stored in a store.

In a rental shop, the article a can be stored in the box 51.

The stopper piece 62 may be formed integrally with the ceiling wall 55 as shown in the figure, or may be formed separately and fixed to the ceiling wall (in this case, the stopper piece provided on the fixed plate or the overlapping plate is fitted into a through hole provided in the ceiling wall). Except that the number may not be limited to the 2 locations shown.

In order to achieve the normal pressing mode of the stop piece 62, the slide piece 60 is stopped by stopping the advance end of the slide piece 60 at the end wall 65 (shown in fig. 23) connecting the side ends of the front walls 57 of the parallel guide rails 61, but the slide piece 60 may be stopped by forcibly fitting the concave portion on the overlapping surface of the guide mechanism 59 and the slide piece 60 to the other convex portion.

As shown in fig. 24 to 28, in the embodiment 5 of the present invention, when the slide 60 is completely advanced on the surface having the gap S between the slide 60 and the guide mechanism 59, the lock mechanism 31 is automatically locked to prevent the slide 60 from being retreated and to release the lock in accordance with the insertion of the operation member 24.

The above-mentioned locking mechanism 31 is as in embodiment 2, and is described in detail below:

as described above, the customer may withdraw the slide 60 by any operation method, and the customer cannot take out the product a from the box body 51 except for the shop staff, because the stop piece 62 is prevented from being lifted by the locking mechanism 31.

The locking mechanism 31 may be used by using a fitting piece 37 as shown in fig. 26 and 27 or by combining an elastic piece 33 and a fitting piece 37 as shown in fig. 28, in addition to the elastic piece 33 having the bifurcated piece 32 as shown in fig. 24 and 25.

Embodiment 6 of the present invention is the collision avoidance mechanism 42 in which the obstacle 41 is provided on the surface having the clearance S of the vane 60 in embodiment 5, and the obstacle 41 is provided on the operating member 24 in embodiment 5.

The purpose of the obstacle 41 and the collision avoidance mechanism 42 is to prevent the lock mechanism 31 from being unlocked when a plate or a shaft member other than the shop-side dedicated operation member 24 is used. The structure and operation are the same as those of embodiment 3, and the description thereof will be omitted. The same applies to the drawings.

In embodiment 7 of the present invention, as shown in fig. 29 to 30, an opening 74 for storing and taking out the commodity a in a door-window-fitted posture is provided on one side surface of the case 71, and the upper side of the opening 74 has a deep engaging portion 72 and the lower side has a shallow engaging portion 73, so that the upper and lower edges of the commodity a to be stored are fitted into the engaging portions 72 and 73.

The case 71 is formed by molding synthetic resin. The method comprises the following steps: a top wall 76 connected to the upper edge of the side wall 75 and protruding from the back side of the side wall 75; a groove-shaped deep engaging portion 72 formed by an elongated projecting wall 77 opposed to the side wall 75 and projecting downward from the top wall 76; a bottom wall 78 connected to the lower edge of the side wall 75 and protruding from the back side of the side wall 75; the bottom wall 78 projects upward to form a shallow engaging portion 73 with a short projecting wall 79 opposite to the side wall 75, and front and rear walls 91 and 92 projecting from the rear side of the side wall 75 are provided at both end edges of the side wall 75. The deep engaging portions 72 and the shallow engaging portions 73 are not limited to 1 groove, and may be formed by arranging a single or a plurality of short grooves on the upper and lower edges of the side walls 75.

The front wall 91 and the rear wall 92 are formed in a notched shape as shown in the figure, except for being provided over the entire length of the edge of the side wall 75, and in a predetermined range between the deeper engaging portion 72 and the shallower engaging portion 73. Of course, a through window may be formed in the sidewall 75.

A slide 90 that can be guided by an appropriate guide mechanism 93 to slide is provided on the top wall 76 of the case 71.

As shown in the figure, the guide mechanism 93 is provided with a groove 95 on each outer side surface of the parallel guide rails 94 projecting upward from both side edge portions of the upper surface of the top wall 76, and the projecting protrusion 95 is fitted into the groove 95 from the lower edges of both side plates of the groove slide 90 fitted to the outer side of the guide rails 94 as a guide, but the guide mechanism of embodiment 1 may be used.

The top wall 76 is provided with a pressing member 97 which is pressed, i.e., lowered, into the deep engaging portion 72 and stops the upward movement of the commodity a, and the slide piece 90 is provided with an operating portion 98 which presses the pressing member 97 as the slide piece 90 moves forward.

The pressing member 97 is formed with a U-shaped groove 99 in the backward direction of the slider 90 at both ends of the parallel portion of the top wall 76 as shown in the drawing, and is integrated with the top wall 76 inside the groove 99, and the upper surface thereof is inclined upward in the forward direction of the slider 90.

Of course, the lower edge of the pressing member 97 is generally flush with the lower surface of the top wall 76 (before being pressed by the operating portion 98) so that the storage of the product a (in the case 71) is not hindered.

The operating portion 98 has a projecting piece projecting downward from the lower surface of the ceiling wall of the slide 90, and an inclined surface portion inclined upward in the forward direction of the slide 90 is provided on the lower edge of the projecting piece, so that when the slide 90 advances, the operating portion 98 lowers the pressing member 97 against the elasticity inherent in the resin. The pressing member 97 and the top wall 76 may be fixed to each other as appropriate, instead of being formed integrally as a separate member. The cam groove of the slide 90 may be fitted to the protrusion of the pressing member 97 to press the pressing member 97 as the slide 90 moves up and down.

In the above-described structure, as shown in fig. 31, the upper edge of the commodity a is first fitted into the deep engaging portion 72, and the fitted state is maintained, and the lower edge of the commodity a is passed through the upper edge of the shallow engaging portion 73, and then the commodity a is accommodated in the case 71 through the opening 74.

As described above, the commodity a can descend in the box 71 by its own weight, and as shown in fig. 29 and 31, the upper and lower edges of the commodity a can be engaged with the deep engaging portion 72 and the shallow engaging portion 73 to prevent slipping out.

Next, the slide 90 is advanced, that is, the pressing member 97 is pressed by the action portion 98, and as shown in fig. 30 and 31, the pressing member 97 projects into the deep engaging portion 72.

As described above, the upward movement of the article a in the box 71 can be prevented by the protruding pressing member 97 to prevent the article a in display from being taken out of the box 71.

If the front end of the slide 90 that is moving forward abuts against the end wall 100 that protrudes upward from the front wall 91 (other methods are also possible), the slide 90 can be positioned, and the pressing state of the pressing member 97 can be maintained.

An insertion gap S of the operation member 24 similar to those of embodiments 1 and 4 is provided between the slide 90 and the guide mechanism 93 in a range from the end of the slide 90 to the front.

The inner groove of the groove type vane 90 can be used as the gap S.

The slide piece 90 is provided with the fitting portion 25 similar to those of embodiments 1 and 4, and the operation member 24 is provided with the fitting portion 26 similar to those of embodiments 1 and 4.

With the above configuration, the clerk can insert the operating member 24 into the space S.

That is, the fitting portion 25 can be pushed back, the operation member 24 can be inserted, and when the fitting portion 25 is fitted to the fitting portion 26, the fitting portion 26 in the pushed-back state is released, that is, the fitting portion 25 is automatically fitted (as shown in fig. 30).

The slide 90 moves backward integrally with the operating member 24 by pulling the operating member 24 back from the fitting relationship.

As described above, the pressing of the pressing member 97 can be released by the operating portion 98, and the pressing member 97 can be returned by being lifted up, whereby the article a can be taken out from the case 71.

As shown in fig. 29, when the slide 90 moves backward, the protrusion 101 of the operating portion 98 abuts against the free end (tip end) of the pressing member 97 that moves upward and returns, and the slide 90 moves backward and stops positioning and prevents removal.

Of course, after the slide 90 is retracted, the clerk releases the engagement of both the engagement portions 25 and 26, and removes the operation member 24 from the slide 90.

As shown in fig. 33 to 37, according to embodiment 8 of the present invention, a lock member 31 is provided on a clearance surface between a slide piece 90 and a guide mechanism 93, and automatically locks to prevent the slide piece 90 from moving backward when the slide piece 90 is advanced and unlocks in accordance with the insertion of an operation member 24.

The locking member 31 is the same as that of embodiment 2, and therefore, the description thereof will be omitted.

With the above-described structure, even if the customer operates the slide 90 to move backward in any way, the lock member 31 prevents the pressing member 97 from moving upward, so that the removal of the product a by a person other than the store (clerk) can be avoided.

The locking member 31 may be formed by combining an elastic piece 33 with a bifurcated piece 22 as shown in fig. 33 and 34, a fitting piece 37 as shown in fig. 35 and 36, or a combination of an elastic piece 33 and a fitting piece 37 as shown in fig. 37.

In embodiment 9 of the present invention, as shown in fig. 38 and 39, the interference avoiding means 42 is provided with the interference part 41 on the surface having the gap S between the vanes 90, and the interference part 41 is provided on the operating member 24.

The obstacle 41 and the collision avoidance mechanism 42 are provided so that the locked state of the lock member 31 cannot be released by using any plate or shaft member other than the dedicated operation member 24 at the store. The structure and operation are the same as those of embodiment 3, and the description thereof will be omitted.

In the 10 th embodiment of the present invention, as shown in fig. 40 and 43, a slide piece 17 is fitted to the parallel fitting grooves 16, 16 of the cartridge a similar to the 1 st embodiment so as to maintain the locked state of the cartridge a and to be slidable along the fitting groove 16.

The lid 13, the fitting groove 16, the slider 17, and the like, which are openable and closable via the case 11 and the hinge 12 constituting the case a, are the same as those of embodiment 1, and therefore, the description thereof will be omitted.

An engagement releasing portion 111 is provided at a predetermined position of the slide piece 17 or one of the engagement grooves 16 to release the engagement between the slide piece 17 and the engagement groove 16.

The engagement releasing portion 111 is formed by cutting one end of one of the engagement grooves 16 to a middle position thereof (1/2 shown in the figure), and a slider 17 having a length substantially equal to that of the cut portion is used.

In this way, as shown in fig. 41 and 43, when the slider 17 is moved forward, the slider 17 is fitted in the parallel fitting grooves 16, and the lid 13 is kept closed to the case 11. As shown by dotted lines in fig. 42 and 43, when the slider 17 is retreated to stop the slider 17 at the fitting release portion 111, the fitting relationship between the slider 17 and the parallel fitting groove 16 is released, and the lid 13 is opened.

Of course, the fitting release portion 111 may be provided in the middle of the fitting groove 16, a cutout portion (as a fitting release portion) may be formed at a position (range) where the fitting line of the fitting groove 16 of the slide piece 17 is fixed, and the fitting groove 16 may be accommodated in the cutout portion of the slide piece 17 (not shown) at the retreat stop position of the slide piece 17 so that the slide piece 17 can be separated from the fitting groove 16.

The slide piece 17 is slid by hand or by a shop tool (not shown).

Reference numeral 112 denotes a stopper for the slide 17.

[ Effect of the invention ]

The case according to the present invention is configured as described above, and the opening of the case can be prevented without using the shop-side dedicated operation member.

Therefore, the anti-theft box can be used for preventing theft, and has the box body effect of additionally having the anti-theft function.

The locking mechanism, the barrier part and the avoiding bump part can also improve the effect of preventing the box body from opening.

The combination of the sliding sheet with the embedding releasing part and the embedding groove can delay the taking out of the commodity, and has excellent effect on preventing the theft of the commodity.

Claims (13)

1. A box body is composed of a box body (11) and a cover body (13) arranged on the box body (11) through a proper hinge (12), and the box body (A) is formed by the cover body (13) in a jogged mode by closing the opening of the box body (11) and forming two peripheral walls (14, 15) of the box body (11) and the cover body (13); the method is characterized in that: fitting grooves (16, 16) are provided in parallel on opposite side edges of the hinge (12) of the case (11) and the lid (13), a slide piece (17) is inserted into the fitting grooves (16, 16) in a manner of freely inserting and extracting in a fitting state when the case (A) is kept in a closed state, and a stop mechanism (22) for stopping the slide piece (17) inserted into the fitting groove (16) or the case (A) is provided in the fitting groove (16); in addition, a gap (S) into which an operating member (24) is inserted from an insertion end of the slide piece (17) to a predetermined range is provided on a surface of the slide piece (17) facing the fitting groove (16), and a fitting portion (25) is provided on a plane of the slide piece (17) having the gap (S).

2. The cartridge of claim 1, wherein: the operation member (24) is provided with a fitting portion (26) which is pushed back when inserted and can be fitted into the fitting portion (25) of the slide piece (17) when facing the fitting portion (25).

3. The cartridge of claim 1, wherein: a lock mechanism (31) is provided on the flat surface of the slide piece (17) and the fitting groove (16) having a clearance (S) and is automatically locked when the slide piece (17) is completely inserted and released from the locked state when the operation member (24) is inserted.

4. The cartridge of claim 1, wherein: an obstacle part (41) is provided on a plane of the slide (17) having the gap (S), and an avoidance collision mechanism (42) for avoiding collision with the obstacle part (41) is provided in the operation member (24).

5. A cartridge, characterized in that:

an opening 53 having an engaging mechanism 52 for receiving and placing a commodity a and preventing the lower edge of the commodity a from slipping out is provided on one side surface of a body of a case 51, a slide sheet 60 guided to slide by an appropriate guide mechanism 59 provided on the body of the case 51 is provided on the upper side of a top wall 55 of the body of the case 51, a mechanism 62 for stopping the advance of the slide sheet 60 is provided in the body of the case 51 or the guide mechanism 59, a stopper sheet 62 engaged with the upper edge of the side of the upper edge of the commodity a in the case of pressing down against a resilient force is provided on the side edge of the opening 53 of the top wall 55 of the body of the case 51, and an action part 63 for pressing the slide sheet 60 in accordance with the advance is provided in the slide sheet 60, a gap (S) into which an operation member (24) can be inserted is provided between the slide (60) and the end of the slide (60) of the guide mechanism (59) to a predetermined inner range, and a fitting portion (25) is provided on a plane having the gap (S) in the slide (60).

6. The cartridge of claim 5, wherein: the operation member (24) is provided with a fitting portion (26) which is pushed back when inserted and can be fitted into the fitting portion (25) of the slide piece (60) when the operation member is engaged with the fitting portion (25).

7. The cartridge of claim 5, wherein: a lock mechanism (31) is provided on a plane having a gap (S) between the slide (60) and the guide mechanism (59), and is automatically locked when the slide (60) stops moving forward and unlocked when the operation member (24) is inserted.

8. The cartridge of claim 5, wherein: a barrier section (41) is provided on a plane of the slide (60) having the gap (S), and a collision avoidance mechanism (42) of the barrier section (41) is provided in the operation member (24).

9. A cartridge, characterized in that:

an opening 74 having a hanging part 72 for storing and taking out the commodity a in a state of being fitted with a door and window and for fitting and engaging upper and lower edges of the commodity a to be stored with the hanging part 73 deeper on the upper side and shallower on the lower side is provided on one side surface of a body of a case 71, a slide sheet 90 guided to slide by a suitable guide mechanism 93 provided on the body of the case 71 is provided on the outer side of a top wall 76 of the body of the case 71, a mechanism 62 for stopping the advance of the slide sheet 90 is provided in the body of the case 71 or the guide mechanism 93, and a pressing member 97 for stopping the upward movement of the commodity a while descending into the deeper hanging part 72 in accordance with the pressing is provided on the top wall 76 of the body of the case 71, the slide plate (90) is provided with an action part (98) which presses the pressing member (97) along with the advance, a gap (S) into which an operation member (24) is inserted is provided in a part of the slide plate (90) and the box body (71) from the end side of the slide plate (90) to a predetermined range inside, and a fitting part (25) is provided on a plane where the slide plate (90) has the gap (S).

10. The cartridge of claim 9, wherein: the operation member (24) is provided with a fitting portion (26) which is pushed back when inserted and can be fitted into the fitting portion (25) of the slide piece (90) when facing the fitting portion (25).

11. The cartridge of claim 9, wherein: a locking mechanism (31) which can be automatically locked and can be unlocked when the operation member (24) is inserted is provided on the plane having the gap (S) of the slider (90) and the case body (71).

12. The cartridge of claim 11, wherein: a barrier section (41) is provided on a plane having a gap (S) of the slide (90), and a collision avoidance mechanism (42) for the barrier section (41) is provided in the operation member (24).

13. A box body comprising a box body (11) and a lid body (13) provided to the box body (11) via an appropriate hinge (12), wherein the lid body (13) closes an opening of the box body (11) and forms two peripheral walls (14, 15) of the box body (11) and the lid body (13) into a box body (A) of a fitting form, characterized in that: the side edges of the case (11) and the lid (13) opposite to the hinge (12) are provided with parallel fitting grooves (16, 16), slide pieces (17) which can slide freely in the fitting state when the case (A) is kept in the closed state are arranged in the fitting grooves (16, 16), and fitting releasing parts (111) which can release the fitting relation are arranged at the preset positions of the fitting grooves (16) or the slide pieces (17) on one side.