CN220255904U - Magnetic attraction type card bag - Google Patents

Abstract

The utility model provides a magnetism is inhaled formula card package, includes the casing subassembly and for the gliding apron subassembly of casing subassembly, enclose between casing subassembly and the apron subassembly to be established into accommodation space, the casing subassembly includes the casing, locates the spout of the horizontal both sides of casing, be fixed in respectively along vertical casing first magnetic stripe and the casing second magnetic stripe on the horizontal both sides surface of casing and seal the bolt of spout, the apron subassembly includes the apron, is fixed in the slide rail of the horizontal both sides of apron and be fixed in the first magnetic stripe of apron and the second magnetic stripe of apron of the horizontal both sides of apron, the apron subassembly passes through the slide rail is limited to be located in the spout of casing subassembly and can follow longitudinal movement. The card bag is stable in opening and closing states and does not need external force to keep.

Description

Magnetic attraction type card bag

Technical Field

The utility model relates to the field of articles for daily use, in particular to a magnetic card bag for accommodating cards such as bank cards.

Background

In daily life, people need to use various cards, including bank cards, various membership cards and the like, and in order to be convenient to carry, people usually store and arrange various cards by virtue of a card bag.

The existing card bags comprise a zipper type card bag, a card inserting space in a wallet, a metal card bag, a snap fastener type card bag and the like. However, the existing card bags have the problems that the card taking is inconvenient, the operation is complex, and the card is easy to drop in the card taking process. The applicant has filed a patent of a card pack with application number 202310426631.9 in the day before, the cover plate component and the shell component realize the attraction force through the magnetic strips separately arranged in the two components, but the design of the magnetic strips has the following problem that, due to only one pair of paired magnetic strips, when the cover plate component is opened, a certain external force is required to be applied to keep the cover plate component in an opened state, so that the user experience is not friendly enough. Meanwhile, when a small amount of cards are stored in the storage space of the card bag, the cards can shake in the storage space, and noise is generated and the cards can be damaged. In view of the foregoing, there is a need for a new card package design that overcomes the aforementioned problems.

Disclosure of Invention

In view of the above, the present utility model is directed to a magnetic card pack, which realizes stable closed and open states through the cooperation of magnetic elements.

In order to solve the technical problems, the utility model provides a magnetic card bag, which comprises a shell component and a cover plate component sliding relative to the shell component, wherein a storage space is enclosed between the shell component and the cover plate component, the shell component comprises a shell, sliding grooves arranged on two lateral sides of the shell, a first shell magnetic stripe and a second shell magnetic stripe which are respectively fixed on two lateral side surfaces of the shell along the longitudinal direction, and a bolt for sealing the sliding grooves, the cover plate component comprises a cover plate, sliding rails fixed on two lateral sides of the cover plate, and a first cover plate magnetic stripe and a second cover plate magnetic stripe which are fixed on two lateral sides of the cover plate, and the cover plate component is limited in the sliding grooves of the shell component through the sliding rails and can move along the longitudinal direction.

Preferably, the length and thickness of the first magnetic stripe of the shell and the second magnetic stripe of the shell are greater than those of the first magnetic stripe of the cover plate and the second magnetic stripe of the cover plate, the first magnetic stripe of the cover plate and the second magnetic stripe of the cover plate are respectively adsorbed with the first magnetic stripe of the shell and the second magnetic stripe of the shell in the closed state of the cover plate assembly, and the second magnetic stripe of the cover plate is adsorbed with the first magnetic stripe of the shell in the open state.

Preferably, the shell comprises a substrate, a side wall formed by extending upwards from the periphery of the substrate and a storage space formed by surrounding the substrate and the side wall, the side wall comprises a pair of transverse side walls and a pair of longitudinal side walls, at least two shell magnetic grooves are formed in the surfaces of the transverse side walls, a first shell magnetic strip and a second shell magnetic strip are respectively fixed in the two shell magnetic grooves, the upper surfaces of the first shell magnetic strip and the second shell magnetic strip do not exceed the upper surface of the transverse side walls, at least two cover plate magnetic grooves are formed in the positions of the cover plate corresponding to the shell magnetic grooves, the first cover plate magnetic strip and the second cover plate magnetic strip are respectively fixed in the cover plate magnetic grooves, the bottom surfaces of the first cover plate magnetic strip and the second cover plate magnetic strip do not exceed the bottom surface of the cover plate, the first shell magnetic strip and the second shell magnetic strip are fixed in the shell magnetic grooves through bonding or riveting, and the first cover plate magnetic strip and the second cover plate magnetic strip are fixed in the cover plate magnetic grooves through bonding or riveting.

Preferably, a forming groove which is open towards the storage space is formed in the transverse side wall of the shell along the front-rear direction, a guide rail strip is integrally formed in the forming groove, the sliding groove is formed in the guide rail strip, one longitudinal end of the forming groove is closed, and the other longitudinal end of the forming groove is open.

Preferably, the fixing groove is formed in two lateral sides of the bottom surface of the cover plate, the sliding rail comprises a riveting fixing portion, a bending portion and a limiting sliding portion, the riveting fixing portion is riveted in the fixing groove, the bending portion is formed by bending downwards from the lateral outer side of the riveting fixing portion, the limiting sliding portion is formed by bending perpendicularly from the bending portion towards the lateral outer side, the limiting sliding portion is inserted into the sliding groove to provide a sliding track of the cover plate relative to the shell, and the riveting fixing portion is riveted in the fixing groove and does not exceed the lower surface of the cover plate.

Preferably, the shaping groove upside is equipped with the separation blade, the separation blade with follow the vertical direction on the shaping groove bottom surface and run through and be formed with a plurality of filling structures, the guide rail strip including laminate in the lower spacing portion of shaping groove bottom surface, laminate in shaping groove upper surface's last spacing portion, laminate in shaping groove lateral surface's side limit portion, fill a plurality of filling structure forms embedded part and through lower spacing portion, last spacing portion and side limit portion enclose the spout of establishing, the spout is in shaping groove open end one side is opened and is supplied the spacing sliding part of slide rail inserts, the spout is in shaping groove's blind end seals and forms the tip in order to restrict slide rail shift position.

Preferably, the storage space is used for accommodating the card, an opening for conveniently taking the card is formed in one longitudinal side wall of the shell, the cover plate assembly further comprises an upper decoration plate attached to the upper surface of the cover plate, and the shell assembly further comprises a lower decoration plate attached to the lower surface of the shell.

Preferably, after the sliding rail of the cover plate assembly is inserted into the sliding groove, the plug pin is inserted into the forming groove, and the plug pin is fixed in the forming groove to limit the sliding rail to longitudinally withdraw.

Preferably, the plug comprises a plug body and a blocking adhesive piece arranged at the end part of the plug body, the plug body comprises a bare part consistent with the side wall of the shell and an insertion fixing part inserted into the forming groove, and the blocking adhesive piece is fixed at the free end of the insertion fixing part.

Preferably, the blocking glue piece is integrally formed on the insertion fixing portion, an end cavity is formed in the direction of the free end of the insertion fixing portion towards the sliding rail, a communication hole is formed in the peripheral wall of the end cavity in a penetrating mode, the blocking glue piece comprises a limiting glue head exposed out of the free end of the insertion fixing portion and a fixing glue body formed in the end cavity and the communication hole, and the limiting glue head flexibly blocks a limiting sliding portion of the sliding rail.

Preferably, a locking pin hole is formed in the bottom surface of the insertion fixing portion, a hole structure is formed in the forming groove corresponding to the locking pin hole, after the locking pin is inserted, the locking pin penetrates through the hole structure and is riveted into the locking pin hole to fix the locking pin, the locking pin hole is staggered with the end cavity and does not overlap in the vertical direction, and the locking pin hole is a blind hole.

The utility model provides a magnetism is inhaled formula card package is through two at least pairs the cooperation of the first magnetic stripe of casing and casing second magnetic stripe, the first magnetic stripe of apron and apron second magnetic stripe realizes stable closure, open state to can be at opening or closed in-process, alleviate the user and need exert the strength, increase and open, the closed feel suggestion.

Drawings

FIG. 1 is a perspective view of a magnetic card pack of the present application;

FIG. 2 is a perspective view of the magnetic card pack of the present application with the cover plate removed;

FIG. 3 is an exploded perspective view of the magnetic card pack of the present application;

fig. 4 is an exploded perspective view of the magnetic card Bao Lingyi of the present application;

FIG. 5 is an exploded perspective view of a portion of the magnetic card pack of the present application;

FIG. 6 is a perspective view of a plastic part of the magnetic card pack of the present application;

FIG. 7 is a perspective view of the latch of the magnetic card pack of the present application;

FIG. 8 is a perspective view of another angle of the latch of the magnetic pack of the present application;

FIG. 9 is a perspective view of a latch body of the latch of the magnetically attractable cartridge of the present application;

FIG. 10 is a perspective view of a support cushion of the magnetic card pack of the present application;

FIG. 11 is another perspective view of the support cushion of the magnetic card pack of the present application;

FIG. 12 is a perspective view of a magnetic card pack of the present application in an open state;

FIG. 13 is a cross-sectional view taken along the dashed line C-C of FIG. 12;

FIG. 14 is a cross-sectional view taken along the line A-A of FIG. 1;

fig. 15 is a cross-sectional view taken along the dashed line B-B of fig. 12.

The specification reference numerals are as follows:

card pack-1; a housing assembly-10; a housing-11; a substrate-111; a sidewall-112; an opening-113; forming groove-115; a baffle-116; a housing magnetic slot-117; filling the structure-118; a housing first magnetic stripe-13 a; a housing second magnetic stripe-13 b; a plug pin-14; a latch main body-14 a; a barrier glue member-14 b; bare portion-142; inserting the fixing part-141; an end cavity-143; communication holes-144; lock pin holes-145; spacing rubber head-146; fixing colloid-147; guide rail bar-15; a chute-151; a lower limit part-152; recess-1521; a boss-1522; bevel-1523; an upper limit part-153; a side limit part-154; an embedded part-155; end-156; lower plaque-16; rubber pad mounting holes-18; recessed edges-181; a locking pin-19; a cover plate assembly-20; a cover plate-21; cover plate magnetic slot-211; a fixed slot-212; positioning columns-213; a slide rail-22; a limit sliding part-221; a bending part-222; a caulking fixing section-223; a cover plate first magnetic stripe-23 a; a cover plate second magnetic stripe-23 b; upper trim panel-24; rubber cushion-40; a support section (41); a stationary ring-42; an inclined connecting portion-43; a first connection section-431; a second connecting section-432; a deformation cavity-44; an elastic column-45; and a hollowed-out part-46.

Detailed Description

The following is a further detailed description of the embodiments:

the application takes the X direction shown in figure 1 as the transverse direction; in the Y-direction longitudinal direction (front-rear direction); the Z direction is taken as the vertical upper part.

Referring to fig. 1 to 6, a magnetic card pack 1 of the present application includes a housing assembly 10 having a receiving space S and a cover assembly 20 cooperating with the housing assembly 10. The cover assembly 20 is slidable in a longitudinal direction with respect to the housing assembly 10 to open or close the storage space S.

The housing assembly 10 includes a housing 11, a guide rail 15 disposed on the housing 11, a first magnetic stripe 13a, a second magnetic stripe 13b, a latch 14, a rubber pad 40, and a lower decorative plate 16.

The housing 11 includes a base 111, a side wall 112 extending upward from a peripheral edge of the base 111, and the storage space S surrounded by the base 111 and the side wall 112. The storage space S is designed to store a plurality of electronic cards, such as bank cards, various membership cards, etc., and the electronic cards are not limited to electronic cards, but include other cards without electronic devices. The housing 11 is substantially like an electronic card in a rectangular parallelepiped structure, and the side walls 112 include a pair of longitudinal side walls 112b on both longitudinal sides and a pair of lateral side walls 112a on both lateral sides. An opening 113 is provided in the middle of one of the longitudinal side walls 112b to facilitate pushing the cover assembly 20 to slide and take out the electronic card. A forming groove 115 with one end open is formed on the pair of lateral side walls 112a, a baffle 116 is arranged on the upper side of the forming groove 115, and a plurality of filling structures 118 are formed on the baffle 116 in a vertically penetrating manner. The bottom surface of the forming groove 115 is also provided with a plurality of filling structures 118. The filling structure 118 may have various forms, and may be a laterally opened notch structure, a filling hole structure penetrating the bottom surface of the baffle 116 or the forming groove 115, or may be any other filling space having an irregular shape. The base plate 111 is formed with a rubber pad mounting hole 18 near the opening 113, the periphery of the bottom surface of the rubber pad mounting hole 18 is recessed upwards to form a recessed edge 181, and the thickness of the recessed edge 181 is smaller than that of the base plate 111 so as to form a groove structure on the bottom surface of the periphery of the rubber pad mounting hole 18 of the base plate 111. The rubber pad 40 is fixed in the rubber pad mounting hole 18.

The upper surfaces of the pair of lateral side walls 112a are also recessed downwards to form at least two shell magnetic grooves 117, and the two shell magnetic grooves 117 are longitudinally distributed on the upper surfaces of the lateral side walls 112a. The housing magnetic groove 117 corresponds to the width of the housing first magnetic stripe 113a and the housing second magnetic stripe 113b such that the housing first magnetic stripe 113a and the housing second magnetic stripe 113b fit or are riveted into the housing magnetic groove 117. The front side or the rear side of the molding groove 115 penetrates the junction of the lateral side wall 112a and the longitudinal side wall 112 b. Preferably, the rear end of the forming groove 115 is opened and the front end is closed. The housing 11 is die cast and/or CNC machined.

The guide rail 15 is integrally formed in the forming groove 115 by in-mold injection, and the guide rail 15 includes a lower limit portion 152 adhered to the lower surface of the forming groove 115, an upper limit portion 153 adhered to the inner wall surface of the baffle 116, a side limit portion 154 adhered to the inner side surface of the forming groove 115, and a chute 151 surrounded by the lower limit portion 152, the upper limit portion 153, and the side limit portion 154. The chute 151 is opened toward and communicates with the storage space S, and one side of the chute 151 in the longitudinal direction is opened. The rail 15 further includes an embedded portion 155 filled in the filling structure 118, and the embedded portion 155 is embedded in the filling structure 118 to tightly combine the rail 15 with the housing, so that the rail cannot be loosened due to longitudinal stress. The embedded part 155 is formed with embedded parts 155 fixed in the molding groove 115 on the upper and lower surfaces, and the combination is tight and not loose.

With continued reference to fig. 7 to 9, the plug 14 is used to close the opening of the molding groove 115. The plug 14 includes a plug body 14a made of the same material as the housing 11, and a blocking rubber member 14b disposed on an end surface of the plug body 14a, where the blocking rubber member 14b faces the forming groove 115 and closes the sliding groove 151 of the rail 15. The latch body 14a includes an exposed portion 142 exposed to the outside and an insertion fixing portion 141 extending from the exposed portion 142 and inserted into and fixed to the molding groove 115. The end portion of the insertion fixing portion 141 is provided with an end portion cavity 143, the inner wall surface of the end portion cavity 143 is provided with a communication hole 144, the end portion cavity 143 is opened on the end surface, the communication hole 144 may be opened on any wall surface of the end portion cavity 143 and penetrates through the wall surface, preferably the communication hole 144 penetrates through two lateral side walls or two vertical side walls of the end portion cavity 143 in the lateral direction, and the communication hole 144 is preferably two opposite. The bottom surface of the insertion fixing portion 141 at the rear end of the end cavity 143 is provided with a locking pin hole 145, the locking pin hole 145 is designed as a blind hole, and the locking pin hole 145 avoids the position of the end cavity 143. The outer surface of the exposed portion 142 is in smooth engagement with the surface of the side wall 112, and is of the same color by surface treatment.

The blocking glue piece 14b includes a spacing glue head 146 covering the end face of the insertion fixing portion 141, and a fixing glue 147 integrated with the spacing glue head 146 and embedded in the end cavity 143. The blocking rubber 14b is integrally formed in the end cavity 143 of the insertion fixing portion 141, and fills the communication hole 144 so that the blocking rubber 14b is firmly fixed in the end cavity 143. The insertion fixing portion 142 has a shaped structure to match the opening position of the molding groove 115. The bottom of the opening of the forming groove 115 is formed with a hole structure, and when the latch 14 is inserted into the opening of the forming groove 115, the latch 14 is fixed by inserting a latch 19 from the hole structure of the bottom of the housing 11 and inserting the latch 19 into the latch hole 145 of the bottom of the latch 14. The locking pin 19 is fixed by being riveted into the hole structure and the locking pin hole 19.

The first magnetic strip 13a and the second magnetic strip 13b are respectively fixed in the two magnetic slots 117 by gluing or riveting. The two housing magnetic grooves 117 are spaced apart from each other by a distance, one of which is longitudinally intermediate to the other and the other of which is adjacent to the open end of the molding groove 115. The lower trim 16 is attached to the lower surface of the housing 11.

The cover assembly 20 includes a cover 21, a cover first magnetic stripe 23a fixed on the cover 21, a cover second magnetic stripe 23b, a slide rail 22, and an upper decoration plate 24. The cover plate assembly 20 is inserted into the sliding groove 151 through the sliding rail 22 to realize movement in the longitudinal direction.

At least one pair of cover magnetic grooves 211 corresponding to the housing magnetic grooves 117 of the housing 11 are formed on both lateral sides of the lower surface of the cover 21. The cover first magnetic stripe 23a and the cover second magnetic stripe 23b are respectively fixed in the pair of cover magnetic grooves 211. The cover 21 is further recessed upward and formed with a fixing groove 212 for fixing the slide rail 22 on the inner side of the cover magnetic groove 211.

The slide rail 22 includes a limit sliding portion 221 inserted into the slide groove 151, a bending portion 222 formed by bending upward from the inside of the limit sliding portion 221, and a rivet fixing portion 223 formed by bending inward from the bending portion 222. The rivet fixing portion 223 is received in the fixing groove 212 and is fixed to the fixing groove 212 of the cover 21 by a rivet. The rivet may be a screw, which is equivalent to the present patent construction if a screw is used. The bottom surface of the rivet portion 223 preferably does not protrude downward beyond the lower surface of the cover plate 21, and preferably the bottom surface of the rivet portion 223 is flush with the lower surface of the cover plate 21.

With continued reference to fig. 11, 12 and 13, the rubber pad 40 includes a supporting portion 41 protruding from the storage space S, an inclined connecting portion 43 extending from an outer side Zhou Xiexiang of the supporting portion 41, and a fixing ring 42 extending from an outer periphery of the inclined connecting portion 43 in a horizontal direction. The fixing ring 42 and the inclined connecting portion 43 are hollowed to form a deformation cavity 44, and the bottom surface of the supporting portion 41 protrudes downwards to form a plurality of elastic columns 45 extending into the deformation cavity 44. The supporting portion 41 has a substantially elongated or oval structure, and a cutout portion 46 is formed at a portion of the bottom of the supporting portion 41 facing the deformation cavity 44, and the cutout portion has a thickness. The height of the elastic column 45 is greater than half the distance from the bottom surface of the support 41 to the bottom surface of the fixing ring 42. The inclined connecting portion 43 includes a first connecting section 431 extending obliquely upward and inward from the inner edge of the fixing ring 42 and a second connecting section 432 extending obliquely downward and outward from the outer edge of the supporting portion 41, and the first connecting section 431 and the second connecting section 432 are connected together to connect the supporting portion 41 and the fixing ring 42 together. The thickness of the second connecting section 432 is smaller than that of the first connecting section 431, and the thickness of the second connecting section 432 at the position where the second connecting section 432 is connected with the supporting portion 41 is the thinnest. When the supporting portion 41 is pressed to elastically deform downwards, the second connecting section 432 will elastically deform at the earliest, when the second connecting section is pressed downwards, the inclination angle of the inclined connecting portion 43 is reduced, the elastic column 45 will be compressed, and when the external force disappears, the elastic column 45 will provide an elastic restoring force to restore the supporting portion 41 to the initial position.

With continued reference to fig. 1 to 15, the cover assembly 20 and the housing assembly 10 are assembled respectively. When the cover assembly 20 is assembled, the slide rail 22 is riveted and fixed in the fixing groove 212 of the cover 21, the first cover magnetic stripe 23a and the second cover magnetic stripe 23b are respectively fixed in the two cover magnetic grooves 211, the fixing mode can be a riveting or gluing mode, and finally the upper decorative plate 24 is attached to the upper surface of the cover 21 and covers the riveting trace of the fixing groove 212. The upper decorative plate 24 is made of various materials such as cloth, ceramics, carbon fiber and the like, and mainly presents handfeel and beauty.

When the housing assembly 10 is assembled, the guide rail 15 and the housing 11 are injection molded in the molding groove 115 in advance; fixing the housing first magnetic stripe 13a and the housing second magnetic stripe 13b into a housing magnetic groove 117 on the lateral side wall of the housing 11; the limit sliding parts 221 of the sliding rails 22 on the two lateral sides of the cover plate assembly 20 are inserted into the sliding grooves 151 of the guide rail strips 15 from the front or rear open ends; after the slide rail 22 is inserted into the slide groove 151, the insertion fixing portion 142 of the latch 14 is inserted into the opening end of the forming groove 115 to block the slide rail 22 so that the slide rail 22 does not withdraw, and then the latch 19 is riveted into the latch hole 145 formed in the bottom surface of the latch 14 from the lower surface of the base plate 11 to fix the latch. The blocking glue piece 14b at the head of the bolt 14 has a certain elasticity, and the blocking glue piece 14b is used for contacting with the slide rail 22 and limiting the slide rail, so that the bolt main body 14a made of metal material and the slide rail 22 cannot be damaged due to collision when the user transits forcefully. Subsequently, the rubber pad 40 is installed into the rubber pad installation hole 18 of the base plate 111 from bottom to top, specifically, the fixing ring 42 is limited in the groove structure of the concave edge 181, the inclined connecting portion 43 and the supporting portion 41 extend upwards into the accommodating space S, and a certain gap exists between the top surface of the supporting portion 41 and the lower surface of the cover plate 21; finally, the lower decorative plate 24 is fixed to the lower surface of the housing 11 and covers the hole structure of the lower surface of the base plate 111 for inserting the locking pin 19, and at the same time, the lower decorative plate 24 covers the rubber pad mounting hole 18 and clamps the fixing ring of the rubber pad 40 with the concave edge 181, and after the supporting portion 41 of the rubber pad 40 is pressed down, the elastic column 45 contacts the lower decorative plate 24 and provides an upward restoring force. The lower trim panel 16 is made of the same material as the upper trim panel 24.

Referring to fig. 2, 14 and 15, the principle of opening and closing the cover assembly 20 and the housing assembly 10 will be described in detail.

When the cover assembly 20 and the housing assembly 10 are in the closed state, the cover first magnetic stripe 23a and the cover second magnetic stripe 23b are respectively attracted to the housing first magnetic stripe 13a and the housing second magnetic stripe 13 b. Specifically, the longitudinal lengths of the first casing magnetic stripe 13a and the second casing magnetic stripe 13b are greater than the lengths of the first cover magnetic stripe 23a and the second cover magnetic stripe 23b, and when the first cover magnetic stripe 23a and the second cover magnetic stripe 23b are completely closed, the first casing magnetic stripe 13a and the second casing magnetic stripe 13b are completely covered. The thickness of the first magnetic stripe 13a and the second magnetic stripe 13b is greater than the thickness of the first magnetic stripe 23a and the second magnetic stripe 23 b. Preferably, the first magnetic strip 13a and the second magnetic strip 13b are identical in length, and in different embodiments, the first magnetic strip 13a and the second magnetic strip 13b may also be different in length.

When the cover assembly 20 is opened from the closed state, the cover assembly 20 is pushed from one side of the opening 113 of the housing 11 to the other side longitudinally, the sliding rail 22 slides in the sliding groove 151, the pushing force overcomes the attraction force between the cover first magnetic stripe 23a and the housing first magnetic stripe 13a and the attraction force between the cover second magnetic stripe 23b and the housing second magnetic stripe 13b, and makes the cover first magnetic stripe 23a and the housing first magnetic stripe 13a separate from each other and gradually move away from each other, the cover second magnetic stripe 23b and the housing second magnetic stripe 13b separate from each other and gradually approach the housing first magnetic stripe 13a, when the distance between the cover second magnetic stripe 23b and the housing first magnetic stripe 13a is smaller than the distance between the cover second magnetic stripe 23b and the housing second magnetic stripe 13b, the attraction force of the housing first magnetic stripe 13a to the cover second magnetic stripe 23b is larger than the attraction force of the housing second magnetic stripe 13b to the cover second magnetic stripe 23b, and the pushing force is applied to the housing second magnetic stripe 23b under the condition that no pushing force is required, namely that the cover assembly 20 is opened only when the pushing force is required to be very small. Meanwhile, the opening state is stable and is not maintained by external force.

When the cover plate assembly 20 is pushed back from the open state to the closed state, firstly the cover plate second magnetic stripe 23b is separated from contact with the cover plate first magnetic stripe 13a and moves towards the cover plate second magnetic stripe 13b, and when the distance between the cover plate second magnetic stripe 23b and the cover plate second magnetic stripe 13b is smaller than the distance between the cover plate second magnetic stripe 23b and the cover plate first magnetic stripe 13a, the suction force of the cover plate first magnetic stripe 23a by the cover plate first magnetic stripe 13a and the suction force of the cover plate second magnetic stripe 23b by the cover plate second magnetic stripe 13b play a dominant role, so as to assist the cover plate assembly 20 to be closed.

Referring to fig. 2 and 13, when the cover assembly 20 is in the open state, a card is inserted into the storage space S, and after the cover assembly 20 is closed, the card is supported between the rubber pad 40 and the cover 21, so as to prevent the card from shaking and generating noise. When more cards are added, the rubber pad 40 is compressed and deformed downwards, the elastic column 45 contacts the lower decorative plate 24 and is elastically compressed, and when all the cards are taken out, the supporting portion 41 of the rubber pad 40 is restored upwards under the elastic restoring force of the elastic column 45. The rubber pad 40 can keep the cards in the card bag 1 stable, and avoid shaking to generate noise or cause damage to the cards.

In other embodiments, the magnetic strips 13a, 13b, 23a, 23b may be configured in three or four pairs of matching structures, with two pairs of matching schemes being only one of the embodiments.

The card bag 1 realizes stable closing and opening states through at least two pairs of the first magnetic stripe 13a and the second magnetic stripe 13b of the shell and the matching of the first magnetic stripe 23a and the second magnetic stripe 23b of the cover plate, and can lighten the force required to be applied by a user in the opening or closing process and increase the hand feeling prompt of opening and closing.

The stability of the card in the storage space S is maintained by arranging the rubber cushion 40 extending to the storage space S on the substrate 111 of the shell 11, and the card is prevented from shaking to generate noise or damage the card.

Claims (11)

1. The utility model provides a magnetism is inhaled formula card package, its characterized in that includes the casing subassembly and for the gliding apron subassembly of casing subassembly, enclose between casing subassembly and the apron subassembly and establish into accommodation space, the casing subassembly includes the casing, locates the spout of the horizontal both sides of casing, along vertical being fixed in respectively on the horizontal both sides surface of casing first magnetic stripe and casing second magnetic stripe and the closure of spout the bolt, the apron subassembly includes the apron, is fixed in the slide rail of the horizontal both sides of apron and be fixed in the first magnetic stripe of apron and apron second magnetic stripe of the horizontal both sides of apron, the apron subassembly passes through the slide rail is limited in the spout of casing subassembly and can follow longitudinal movement.

2. The magnetically attractable card pack of claim 1 wherein the first and second housing strips have a length and thickness greater than the first and second cover strips, and wherein the first and second cover strips are attached to the first and second housing strips, respectively, in the closed condition of the cover assembly and the housing assembly, and in the open condition, the second cover strip is attached to the first housing strip.

3. The magnetic card pack according to claim 2, wherein the housing comprises a base plate, a side wall formed by extending upwards from the periphery of the base plate, and the storage space formed by surrounding the base plate and the side wall, the side wall comprises a pair of transverse side walls and a pair of longitudinal side walls, at least two housing magnetic grooves are formed in the surfaces of the transverse side walls, the first magnetic strip of the housing and the second magnetic strip of the housing are respectively fixed in the two housing magnetic grooves, the upper surfaces of the first magnetic strip of the housing and the second magnetic strip of the housing do not exceed the upper surface of the transverse side walls, at least two cover magnetic grooves are formed in positions of the cover plate corresponding to the housing magnetic grooves, the first magnetic strip of the cover plate and the second magnetic strip of the cover plate are respectively fixed in the cover plate magnetic grooves, the bottom surfaces of the first magnetic strip of the cover plate and the second magnetic strip of the housing do not exceed the bottom surfaces of the cover plate, the first magnetic strip of the housing and the second magnetic strip of the housing are respectively fixed in the housing magnetic grooves through bonding or riveting, and the first magnetic strip of the cover plate and the second magnetic strip of the cover plate are fixedly connected in the cover plate magnetic grooves through bonding or riveting.

4. The magnetic card pack according to claim 3, wherein a forming groove which is opened toward the storage space is formed in the lateral side wall of the housing in the front-rear direction, a guide rail strip is integrally formed in the forming groove, the sliding groove is formed in the guide rail strip, and one end of the forming groove is closed in the longitudinal direction and the other end of the forming groove is opened in the longitudinal direction.

5. The magnetic card pack according to claim 4, wherein fixing grooves are formed in two lateral sides of the bottom surface of the cover plate, the slide rail comprises a riveting fixing portion which is riveted in the fixing grooves, a bending portion which is formed by bending downwards from the lateral outer side of the riveting fixing portion, and a limit sliding portion which is formed by bending perpendicularly from the bending portion towards the lateral outer side, the limit sliding portion is inserted into the slide groove to provide a track of sliding of the cover plate relative to the shell, and the riveting fixing portion is riveted in the fixing grooves and does not exceed the lower surface of the cover plate.

6. The magnetic card bag according to claim 5, wherein a baffle is arranged on the upper side of the forming groove, a plurality of filling structures penetrate through the baffle and the bottom surface of the forming groove along the vertical direction, the guide rail strip comprises a lower limit part attached to the bottom surface of the forming groove, an upper limit part attached to the upper surface of the forming groove, a side limit part attached to the lateral side surface of the forming groove, an embedding part formed by filling a plurality of filling structures, and a chute surrounded by the lower limit part, the upper limit part and the side limit part, wherein the chute is opened at one side of the opening end of the forming groove for inserting the limit sliding part of the slide rail, and the chute is closed at the closed end of the forming groove to form an end part so as to limit the moving position of the slide rail.

7. The magnetically attractable card holder of claim 6 wherein the receiving space is configured to receive a card, an opening is provided in a longitudinal side wall of the housing for facilitating access to the card, the cover assembly further includes an upper trim panel attached to an upper surface of the cover, and the housing assembly further includes a lower trim panel attached to a lower surface of the housing.

8. The magnetically attractable card pack of claim 6 wherein the latch is inserted into the forming slot after the slide rail of the lid assembly is inserted into the slide slot, the latch being secured in the forming slot to limit longitudinal withdrawal of the slide rail.

9. The magnetic card pack according to claim 8, wherein the plug comprises a plug body and a blocking adhesive member provided at an end of the plug body, the plug body comprises a exposed portion which is consistent with the side wall of the housing and an insertion fixing portion which is inserted into the forming groove, and the blocking adhesive member is fixed at a free end of the insertion fixing portion.

10. The magnetic card pack according to claim 9, wherein the blocking glue piece is integrally formed on the insertion fixing portion, an end cavity is formed in the direction of the free end of the insertion fixing portion toward the sliding rail, a communication hole is formed in the peripheral wall of the end cavity in a penetrating mode, the blocking glue piece comprises a limiting glue head exposed out of the free end of the insertion fixing portion and a fixing glue body formed in the end cavity and the communication hole, and the limiting glue head flexibly blocks a limiting sliding portion of the sliding rail.

11. The magnetic card pack according to claim 10, wherein the bottom surface of the insertion fixing portion is provided with a locking pin hole, a hole structure is formed in the forming groove corresponding to the locking pin hole, after the locking pin is inserted, the locking pin penetrates through the hole structure and is riveted into the locking pin hole to fix the locking pin, the locking pin hole is staggered from the end cavity and does not overlap in the vertical direction, and the locking pin hole is a blind hole.