CN105633680A - Case - Google Patents

Abstract

A case includes a lengthwise sink-like main portion, a platform, and an electric connector fixed to the platform. The platform is located at one end of the lengthwise direction of the main portion. The electric connector comprises an insulating body and a plurality of terminals. Each terminal is provided with an upper contact portion and a lower contact portion arranged oppositely in the up-down direction vertical to the lengthwise direction. The terminals and the insulating body form the electric connector by means of first-time injection molding. The electric connector is used as an insert to be formed on the platform by second-time injection molding. The platform partially wraps the electric connector. A part of the upper contact portions of the terminals are embedded in the platform. Other upper contact portions are upwardly exposed to outside of the platform. The lower contact portions of the electric connector downwardly exposed to the outside of the platform.

Description

Box body

[technical field]

The present invention relates to a kind of box body, particularly relate to a kind of box body being applied to wearable armarium.

[background technology]

Wearable armarium can help patients and clinicians to monitor important vital sign and symptom, and along with it comes into the market, wearable field of medical technology is just becoming a popular field. Wearable armarium generally includes box body, is fixed on the lid of box body, cable and connect the bracket of box body and cable. Wherein, box body storage battery is to provide electric power to whole equipment, and lid contains the electronic building brick such as data processing module, display module. During use, box body operationally embeds the host cavity of bracket. Box body and bracket form, after fitting together, the docking groove that current supply cable plug inserts, and the peripheral equipment of sensor etc. is set up with box body and is electrically connected by this cable. A series of physiological datas such as the heart rate collected, temperature, SpO2, blood pressure, stroke volume, cardiac output, motion, activity, position, pulse rate and breathing rate are sent to box body by cable by this peripheral equipment, and by being assembled in the display module of box body, data are presented to sufferer and clinical doctor. For making wearable armarium reliably work constantly, box body must stably be immobilizated in bracket and set up electric connection reliably with cable, additionally, box body is connected necessary reliable and stable with battery, box body with the mechanically and electrically property of lid.

Therefore, it is necessary to provide one to manufacture easy box body.

[summary of the invention]

It is an object of the invention to provide a kind of box body, it can be used for wearable armarium.

It is an object of the invention to be achieved through the following technical solutions: a kind of box body, including the sunk type main part of lengthwise, platform and the electric connector being fixed on described platform, described platform is positioned at one end of main part longitudinally; Described electric connector includes insulating body and some terminals, and each terminal is provided with contact site and lower contact site, described upper contact site and lower contact site and is oppositely arranged in the above-below direction of vertical described longitudinally; Described terminal forms described electric connector with described insulating body by first time injection mo(u)lding; Described electric connector is formed on the platform by second time injection mo(u)lding as inserts; Described terrace part is coated with described electric connector; In the part of described terminal, contact site is embedded in described platform, and on other, contact site is upwards exposed outside described platform; The lower contact site of described electric connector is exposed outside described platform all downwards.

In a preferred embodiment, described platform is provided with some openings, and the lower contact site of described electric connector is exposed to described opening.

In a preferred embodiment, described electric connector is provided with the switching circuit board being connected with described terminal, and described switching circuit board is for described terminal of optionally electrically transferring, and described switching circuit board is embedded in described platform.

In a preferred embodiment, described each terminal is provided with afterbody, and described afterbody is provided with vertically extending vertical section, and described vertical section is immobilizated in described switching circuit board.

In a preferred embodiment, when first time injection mo(u)lding, described insulating body is formed with some grooves being positioned between terminals of adjacent, and when second time injection mo(u)lding, the portion of material of described platform fills described groove so that described insulating body and described platform are molded as one.

In a preferred embodiment, as viewed from above-below direction, the upper contact site of described terminal is different from described lower contact site in the length of longitudinally, and described upper contact site and lower contact site in vertically, the transverse direction of longitudinally is offset from one another.

In a preferred embodiment, described main part is in order to house battery, and described main part is provided with door, when described door is opened, described battery can along longitudinally and described main part from.

For reaching above-mentioned purpose, the present invention provides the second technical scheme: a kind of box body, in order to house battery and the terminal module being electrically connected with the battery; Described box body includes the sunk type main part of lengthwise and is positioned at two platforms and the electric connector at main part lengthwise two ends; Described main part is formed with host cavity, and one end of the longitudinally of described host cavity is provided with door for receiving battery from outside or departing from from host cavity for battery, and the other end contains terminal module; Described electric connector includes insulating body and the transversely arranged some terminals along vertical described longitudinally, and described insulating body is provided with relative upper surface and lower surface at vertical described longitudinally with horizontal vertical direction; Each terminal is by metal decking punching press bending forming, and it is provided with contact site and lower contact site, described upper contact site is exposed to the upper surface of described insulating body, described lower contact site is exposed to the lower surface of described insulating body, in described upper contact site and lower contact site, at least one is provided with afterbody, and described afterbody is in order to connect material strip in process of production; Described upper contact site and lower contact site all in tabular and along longitudinally extend; Described terminal and described insulating body take shape in one by first time injection mo(u)lding, and described platform and described electric connector take shape in one by second time injection mo(u)lding; During first time injection mo(u)lding, described insulating body upper surface or lower surface form some grooves, and described groove is between the contact site of adjacent both ends; During second time injection mo(u)lding, described groove is filled by the material of described platform; Described electric connector is embedded in described platform.

In a preferred embodiment, in the part of described electric connector, contact site is embedded in described platform, and on other, contact site is all upwards exposed to outside platform; The lower contact site of described electric connector is exposed to all downwards outside described box body.

In a preferred embodiment, described groove is formed at the lower surface of described insulating body when first time injection mo(u)lding, and described groove along the length of longitudinally less than described lower contact site.

Compared with prior art, there is advantages that after the electric connector integrated injection molding of box body as inserts integrated injection molding in platform, manufacturing simple, fixing is firm.

[accompanying drawing explanation]

Fig. 1 is the schematic perspective view that the box body of first embodiment of the invention is applied to wearable armarium;

Fig. 2 is the decomposed figure of wearable armarium shown in Fig. 1, and wherein box body separates with lid;

Fig. 3 is the top view of box body application state shown in Fig. 2, and wherein battery and terminal module are assembled in box body;

Fig. 4 is the sectional view of the A-A along the line of box body application state shown in Fig. 3;

Fig. 5 is the decomposed figure of box body application state shown in Fig. 3, and wherein door is opened;

Fig. 6 is the further decomposing schematic representation of box body application state shown in Fig. 5, and wherein door separates from box body, and battery separates with box body;

Fig. 7 is the decomposed figure of box body shown in Fig. 6, and two of which electric connector separates from box body;

Fig. 8 is the schematic perspective view of the box body of second embodiment of the invention;

Fig. 9 is the decomposed figure of box body shown in Fig. 8, and wherein first and second electric connector separates from box body;

Figure 10 is the schematic diagram of another angle of box body shown in Fig. 9;

Figure 11 is the schematic perspective view of the first electric connector of box body shown in Fig. 9;

Figure 12 is the schematic diagram of another angle of the first electric connector shown in Figure 11;

Figure 13 is the sectional view of the B-B along the line of box body shown in Fig. 8, and wherein the first electric connector is embedded in the first platform;

Figure 14 is the exploded view of the first electric connector shown in Figure 11, and wherein the first terminal and switching circuit board separate from this first electric connector;

Figure 15 is the schematic perspective view of the second electric connector of box body shown in Fig. 9; And

Figure 16 is the exploded view of the second electric connector shown in Figure 15.

[detailed description of the invention]

The present invention is described in detail below in conjunction with preferred embodiment.

First embodiment of the invention is described in detail in conjunction with Fig. 1 to Fig. 7. As it is shown in figure 1, lid 100 is loaded into downwards box body 200, lid 100 is containing electronic display and data processing module. Box body 200 includes the sunk type main part 210 of lengthwise, two platforms 220 being positioned at main part 210 lengthwise two ends and two electric connectors 240. First time injection mo(u)lding makes electric connector 240 molding, and during second time injection mo(u)lding, electric connector 240 makes platform 220, main part 210 molding as inserts. Wherein, electric connector 240 includes insulating body 244 and the transversely arranged some terminals 242 along vertical described longitudinally, insulating body 244 and terminal 242 integrated injection molding. For convenience of describing, herein vertical described longitudinally and horizontal direction are defined as vertical direction or above-below direction.

Platform 220 upwards protrudes out the some fixing posts 222 of formation, and lid 100 is correspondingly provided with some through holes 102, and fixing post 222 inserts through hole 102. Lid 100 is further provided with circuit board 104 and is installed on two electric connectors 106 of circuit board, and electric connector 106 is provided with flexible terminal and connects electric connector 240 in order to mechanically or electrically property.

Main part 210 concave downward forms host cavity 214 to house battery 250. Host cavity 214 is provided with door 270 in one end of longitudinally, and the other end is in order to accepting terminals module 246. Outside the one end being provided with door 270 is defined as, contain outside one end of terminal module 246 is defined as. That is, host cavity 214 is provided with door 270 for receiving battery 250 from outside or departing from from host cavity 214 for battery 250 in the outer end of longitudinally, and the inner relative with outer end is in order to accepting terminals module 246. Terminal module 246 comprises insulating body and is immobilizated in some terminals 248 of insulating body. Battery 250 loads host cavity 214 along longitudinally by door 270, and the inner of battery 250 is provided with some conducting strips 252 with in electrical contact with terminal module 246. The outer end that door 270 may be pivotally mounted to host cavity 214, door 270 is provided with interior film 272 in order to cushion impact forces so that it is guaranteed that being reliably connected of conducting strip 252 and terminal 248. Door 270 is provided with hook portion 274, and hook portion 274 is formed at the side of door 270 transverse direction, and hook portion 274 coordinates pivotally confession door 270 to rotate with main part 210; When door 270 is opened, accepting groove 214 and ft connection assemble for battery 270 or separate. At the opposite side of relative hook portion 274, door 270 is provided with lockhole 278. Door 270 also comprises detachable screw 276. Screw 276 extends into lockhole 278 so that door 270 is locked in main part 210. It is easily understood that the terminal module 246 being connected with battery 250 can pass through interconnecting device (not shown) connects electric connector 240 adjacent thereto so that whole electronic equipment is energized.

In the present embodiment, main part 210 is further provided with protuberance 217 and moves horizontally in host cavity 214 to limit battery 250. As shown in Figure 6, battery 250 is provided with protuberance 254; Accordingly, main part 210 can also be provided with corresponding structure inside host cavity 214 and coordinate with described protuberance 254, thus restriction battery 250 moves up in host cavity 214 further. Additionally, door 270 can arrange sealing ring (not shown) to have water-proof function.

Second embodiment of the invention is described in detail in conjunction with Fig. 8 to Figure 16.

Box body 300 includes the sunk type main part 310 of lengthwise, is positioned at first platform 320 and second platform 360 and first electric connector 330, second adapter 370 at main part 310 lengthwise two ends. First electric connector 330 as inserts integrated injection molding in the first platform 320, the second electric connector 370 as inserts integrated injection molding in the second platform 360.

In the present embodiment, first time injection mo(u)lding makes first and second electric connector 330,370 molding, and during second time injection mo(u)lding, first and second electric connector 330,370 makes first and second platform 320,360 and main part 310 molding as inserts. That is, this enforcement uses secondary injection molding that electric connector is stably immobilizated in the platform of correspondence. It should be noted that above-mentioned molding mode is different from prior art after platform ejection formation, by electric connector assembling in platform.

First electric connector 330 includes the first insulating body 334 and transversely arranged some the first terminals 332, and the first insulating body 334 is provided with relative upper surface and lower surface. Wherein the first insulating body 334 and the first terminal 332 integrated injection molding. During first time injection mo(u)lding, the first insulating body 334 lower surface forms some grooves 336, and groove 336 is between adjacent two the first terminals 332, and each groove 336 is available for die and inserts to position the first terminal 332 of correspondence; During second time injection mo(u)lding, groove 336 is filled by the local material of the first platform 320.

It is easily understood that, although as viewed from above-below direction, the first terminal 332 that the length ratio of groove 336 longitudinally in the present embodiment is adjacent thereto is short, but in other embodiments, the length of groove 336 longitudinally can be arranged to longer than the first terminal 332 or equal according to actual needs. Meanwhile, groove 336 may also be arranged on the upper surface of the first insulating body 334.

First electric connector 330 is additionally provided with switching circuit board 338, and switching circuit board 338 is positioned at the top of the first insulating body 334 and the afterbody 335 of machinery, electric connection the first terminal 332. Switching circuit board 338 is provided with some traces 337 in order to optionally electrical changeover section the first terminal 332. During second time injection mo(u)lding, switching circuit board 338 is embedded in the first platform 320 thus fixing further.

First insulating body 334 integrally extends to form flange 341 upwards to support switching circuit board 338 in longitudinally, the upper surface of flange 341 lower than the upper surface of the first insulating body 334 to form sagging space in order to house switching circuit board 338. First insulating body 334 is formed with hole, a pair location 339, and during second time injection mo(u)lding, hole 339, location is used for positioning the first electric connector 330.

The first terminal 332 is generally U-shaped, and each the first terminal 332 is by metal decking bending ram molding and forms two contact sites 333 opposing upper and lower, and contact site 333 is in tabular. In two contact sites 333, at least one is provided with afterbody 335, and afterbody 335 is in order to connect material strip in process of production. Afterbody 335 extends from one end of contact site 333, substantially at right angles type, and it includes the horizontal segment extended along longitudinally and the vertical section vertically extended. Contact site 333 includes the upper contact site 333a being exposed to the first insulating body 334 upper surface and the lower contact site 333b being exposed to the first insulating body 334 lower surface. The first terminal 332 is horizontal arranged, and is provided with some terminal group. Two outer end subgroups that described some terminal group include being positioned at transverse ends and centrally located two inner subgroups. Each terminal group is made up of four the first terminals 332. During second time injection mo(u)lding, the upper contact site 333a being positioned at the first insulating body 334 upper surface of two outer end subgroups is coated with by the first platform 320, the upper contact site 333a being positioned at the first insulating body 334 upper surface of two inner subgroups is upwards exposed to outside the first platform 320, but the lower contact site 333b being positioned at the first insulating body 334 lower surface of four terminal group is exposed to all downwards outside the first platform 320. First platform 320 is provided with the lower contact site 333b one_to_one corresponding being positioned at the first insulating body 334 lower surface of some openings 322 running through its upper and lower surface, this opening 322 and four terminal group. As viewed from above-below direction, two contact site 333 consistencies from top to bottom of each the first terminal 332 of outer end subgroup, two contact sites 333 of each the first terminal 332 of inner subgroup are laterally offset from each other. On two groups that are positioned at the first insulating body 334 upper surface of two inner subgroups, contact site 333a offsets with away from each other round about, and is positioned under two groups of the first insulating body 334 lower surface contact site 333b and does not offset. Said two the inner subgroup is made up of the first terminal group and the second terminal group, and wherein the first terminal 332 of the first terminal group and the first terminal 332 of the second terminal group are mutually in mirror image. It is easily understood that in manufacturing process, the first terminal 332 of the first terminal group and the first terminal 332 of the second terminal group can share a mould.

Similarly, the second electric connector 370 comprises the second insulating body 374 and is embedded in some second terminals 372 of the second insulating body 374. Second insulating body 374 is formed with some grooves 376 in its lower surface, and each groove 376 is between adjacent two the second terminals 372. During first time injection mo(u)lding, each groove 376 is available for die and inserts to position corresponding second terminal 372. During second time injection mo(u)lding, the local material of the second platform 360 fills full groove 376, makes the second insulating body 374 and the second platform 360 take shape in one. Second insulating body 374 is additionally provided with hole, a pair location 379, and when second time injection mo(u)lding, hole, location 379 is used for positioning the second electric connector 370. It is different from the U-shaped the first terminal 332 of the first electric connector 330, second terminal 372 of the second electric connector 370 is substantially Z-shaped, and the upper contact site 333a at the second insulating body 374 upper surface place lower contact site 333b in length ratio the second insulating body lower surface place of longitudinally is short and is positioned at its rear.

In sum, these are only presently preferred embodiments of the present invention, the scope of the present invention should do not limited with this.

Claims (10)

1. a box body, including the sunk type main part of lengthwise, platform and the electric connector being fixed on described platform, described platform is positioned at one end of main part longitudinally; Described electric connector includes insulating body and some terminals, and each terminal is provided with contact site and lower contact site, described upper contact site and lower contact site and is oppositely arranged in the above-below direction of vertical described longitudinally; It is characterized in that: described terminal forms described electric connector with described insulating body by first time injection mo(u)lding; Described electric connector is formed on the platform by second time injection mo(u)lding as inserts; Described terrace part is coated with described electric connector; In the part of described terminal, contact site is embedded in described platform, and on other, contact site is upwards exposed outside described platform; The lower contact site of described electric connector is exposed outside described platform all downwards.

2. box body as claimed in claim 1, it is characterised in that: described platform is provided with some openings, and the lower contact site of described electric connector is exposed to described opening.

3. box body as claimed in claim 1, it is characterised in that: described electric connector is provided with the switching circuit board being connected with described terminal, and described switching circuit board is for described terminal of optionally electrically transferring, and described switching circuit board is embedded in described platform.

4. box body as claimed in claim 1, it is characterised in that: described each terminal is provided with afterbody, and described afterbody is provided with vertically extending vertical section, and described vertical section is immobilizated in described switching circuit board.

5. box body as claimed in claim 1, it is characterized in that: when first time injection mo(u)lding, described insulating body is formed with some grooves being positioned between terminals of adjacent, when second time injection mo(u)lding, the portion of material of described platform fills described groove so that described insulating body and described platform are molded as one.

6. box body as claimed in claim 1, it is characterized in that: as viewed from above-below direction, the upper contact site of described terminal is different from described lower contact site in the length of longitudinally, and described upper contact site and lower contact site in vertically, the transverse direction of longitudinally is offset from one another.

7. box body as claimed in claim 1, it is characterised in that: described main part is in order to house battery, and described main part is provided with door, when described door is opened, described battery can along longitudinally and described main part from.

8. a box body, in order to house battery and the terminal module being electrically connected with the battery; Described box body includes the sunk type main part of lengthwise and is positioned at two platforms and the electric connector at main part lengthwise two ends; Described main part is formed with host cavity, and one end of the longitudinally of described host cavity is provided with door for receiving battery from outside or departing from from host cavity for battery, and the other end contains terminal module; Described electric connector includes insulating body and the transversely arranged some terminals along vertical described longitudinally, and described insulating body is provided with relative upper surface and lower surface at vertical described longitudinally with horizontal vertical direction; Each terminal is by metal decking punching press bending forming, and it is provided with contact site and lower contact site, described upper contact site is exposed to the upper surface of described insulating body, described lower contact site is exposed to the lower surface of described insulating body, in described upper contact site and lower contact site, at least one is provided with afterbody, and described afterbody is in order to connect material strip in process of production; Described upper contact site and lower contact site all in tabular and along longitudinally extend; It is characterized in that: described terminal and described insulating body take shape in one by first time injection mo(u)lding, and described platform and described electric connector take shape in one by second time injection mo(u)lding; During first time injection mo(u)lding, described insulating body upper surface or lower surface form some grooves, and described groove is between the contact site of adjacent both ends; During second time injection mo(u)lding, described groove is filled by the material of described platform; Described electric connector is embedded in described platform.

9. box body as claimed in claim 8, it is characterised in that: in the part of described electric connector, contact site is embedded in described platform, and on other, contact site is all upwards exposed to outside platform; The lower contact site of described electric connector is exposed to all downwards outside described box body.

10. box body as claimed in claim 8, it is characterised in that: described groove is formed at the lower surface of described insulating body when first time injection mo(u)lding, and described groove along the length of longitudinally less than described lower contact site.