CN217334295U - Battery mounting structure and defibrillator - Google Patents

Abstract

The utility model provides a battery mounting structure and defibrillator, battery mounting structure includes: the battery pack comprises a shell with an accommodating space, a power supply structure arranged on the shell and a buckling structure arranged outside the shell, wherein the buckling structure comprises a connecting plate with one end elastically connected to the shell and the other end arranged in a suspension mode and a positioning structure arranged on the connecting plate, the accommodating space is used for accommodating a battery, and the positioning structure is used for being assembled with a limiting structure. When the battery mounting structure is accommodated in the accommodating space and the positioning structure and the limiting structure are assembled, the battery is mounted; when the battery mounting structure is accommodated in the accommodating space and the connecting plate is in a compression state, the positioning structure is separated from the limiting structure, and the battery is dismounted, so that the dismounting and mounting of the battery mounting structure in the equipment main body can be realized only by pressing the connecting plate, and the convenience for mounting or replacing the battery in the equipment main body is greatly improved.

Description

Battery mounting structure and defibrillator

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a battery mounting structure and defibrillator.

Background

An AED (automatic External Defibrillator) is a monitored medical device for defibrillation, referred to simply as an External Defibrillator or AED device, which diagnoses a particular arrhythmia and delivers electrical defibrillation, specifically, shocking the heart with a certain amount of current to restore the normal rhythm to a patient who has suffered from ventricular fibrillation. All AED devices must include or be connected to a power source for the generation and application of a defibrillation pulse to a patient, and to ensure true portability, most portable AED devices are equipped with a battery that is sufficient to operate the portable AED device for a period of time.

In the related art, a cavity for accommodating a battery and a cover plate for covering the cavity are usually arranged on AED equipment, and the cover plate is connected with the AED equipment in a buckling manner, so that the cover plate is difficult to take down when the battery is installed or replaced, and the battery is not easy to install and replace.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a battery mounting structure and defibrillator are provided, aim at solving the installation of the battery among the correlation technique and change the higher problem of the degree of difficulty.

In order to solve the above technical problem, the utility model provides a battery mounting structure for install in the equipment main part who has seted up accommodating space and has limit structure, battery mounting structure includes: the battery pack comprises a shell with an accommodating space, a power supply structure arranged on the shell and a buckling structure arranged outside the shell, wherein the buckling structure comprises a connecting plate and a positioning structure, one end of the connecting plate is elastically connected to the shell, the other end of the connecting plate is arranged in a suspended mode, the positioning structure is arranged on the connecting plate, the accommodating space is used for accommodating a battery, and the positioning structure is used for being assembled with a limiting structure; the battery mounting structure is accommodated in the accommodating space, and when the positioning structure is assembled with the limiting structure, the battery mounting structure is fixed in the accommodating space, and the power supply structure is electrically connected to the equipment main body; when the battery mounting structure is contained in the containing space and the connecting plate is in a pressing state, the positioning structure is separated from the limiting structure, and the battery mounting structure can move in the containing space.

Preferably, the positioning structure includes a positioning notch formed in a direction from the connecting plate, which is close to the accommodating space, toward the accommodating space, the positioning notch is formed in one end of the connecting plate, which is arranged in a suspension manner, the limiting structure includes a limiting part fixed on the inner side of the equipment main body, and when the limiting part extends into the positioning notch, the limiting part is assembled with the positioning notch.

Preferably, the connecting plate includes keeping away from the first side that the casing set up, the location breach include with first location limit that first side links to each other and connect in first location limit is kept away from the second location limit of first side.

Preferably, the battery mounting structure further comprises a push-pull member fixed at one end of the connecting plate in a suspended manner, and the push-pull member is arranged on a side plate surface of the connecting plate far away from the shell.

Preferably, the power supply structure is including being fixed in the casing just is located power supply spare in the accommodation space, seting up in the power supply jack of power supply spare and seting up in the through-hole of casing, the through-hole with the power supply jack sets up relatively, the through-hole is located the casing is kept away from the one end of lock structure, the equipment main part is equipped with electrically conductive, battery mounting structure accept in the accommodation space just location structure with when limit structure assembles mutually, electrically conductive passes the through-hole and inserts in the power supply jack.

Preferably, the casing includes first shell and lid and locates first shell and with first shell encloses and closes the second shell that forms accommodation space, the lock structure with power supply structure all locates first shell, the inboard of first shell is fixed with the fixed frame that is used for fixing the battery.

Preferably, the battery mounting structure further comprises a circuit board fixed to the fixing frame, the circuit board is electrically connected to the power supply structure, and the circuit board is used for being electrically connected to the battery.

The utility model discloses the second aspect provides a defibrillator, including the main part that has accommodating space and limit structure, accommodating space is used for acceping like above-mentioned battery mounting structure, limit structure be used for with battery mounting structure's lock structure assembles mutually.

Preferably, the limiting structure includes a limiting part extending from the inner side of the apparatus main body to the accommodating space by a predetermined distance, the accommodating space has an open end and a bottom end opposite to the open end, the limiting part is located at the open end of the accommodating space, the limiting part is adapted to the positioning structure, the battery mounting structure is accommodated in the accommodating space, and when the positioning structure is assembled with the limiting part, the battery mounting structure is fixed in the accommodating space, and the power supply structure is electrically connected to the apparatus main body.

Preferably, the defibrillator further comprises a conductive piece fixed to the device body and extending into the bottom end of the accommodating space, and a sealing piece sleeved and fixed outside the conductive piece and located in the device body, wherein the sealing piece, the device body and the shell are connected in a sealing mode.

The utility model discloses in a battery mounting structure and defibrillator compare with prior art, beneficial effect lies in: the battery is arranged in the accommodating space of the shell, the buckling structure is arranged outside the shell and is provided with the positioning structure matched with the limiting structure, so that when the battery mounting structure is accommodated in the accommodating space and the positioning structure is assembled with the limiting structure, the battery mounting structure is fixed in the accommodating space, and the power supply structure is electrically connected to the equipment main body, so that the battery is mounted; when the battery mounting structure is accommodated in the accommodating space and the connecting plate is in a compression state, the positioning structure is separated from the limiting structure, the battery mounting structure can move in the accommodating space, and the battery is disassembled, so that the disassembling and the assembling of the battery mounting structure in the equipment main body can be realized only by pressing the connecting plate, and the convenience of assembling or replacing the battery in the equipment main body is greatly improved.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a defibrillator according to an embodiment of the present invention after accommodating a battery mounting structure;

fig. 2 is a top view of a defibrillator in an embodiment of the present invention, after receiving a battery mounting structure;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view of detail B of FIG. 3;

fig. 5 is a schematic view of an overall structure of a battery mounting structure according to an embodiment of the present invention;

fig. 6 is an exploded view of a battery mounting structure according to an embodiment of the present invention.

In the drawings, each reference numeral denotes: 1. a housing; 11. an accommodating space; 12. a through hole; 13. a first housing; 14. a second housing; 2. a power supply structure; 21. a power supply member; 3. a buckling structure; 31. a connecting plate; 311. a first side edge; 32. a positioning structure; 321. positioning the notch; 3211. a first positioning edge; 3212. a second positioning edge; 4. a push-pull member; 5. a circuit board; 6. a fixed frame; 10. a battery mounting structure; 101. a battery; 20. a defibrillator; 201. an apparatus main body; 202. an accommodating space; 203. a limiting structure; 2031. a stopper; 204. a conductive member; 205. and a seal member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example (b):

referring to fig. 1 to 6, in the present embodiment, a defibrillator 20 includes a main body having a receiving space 202 and a limiting structure 203, the receiving space 202 is used for receiving a battery mounting structure 10, the limiting structure 203 is used for being assembled with a buckling structure 3 of the battery mounting structure 10, the battery mounting structure 10 includes: the battery pack comprises a shell 1 with an accommodating space 11, a power supply structure 2 arranged on the shell 1 and a buckling structure 3 arranged outside the shell 1, wherein the buckling structure 3 comprises a connecting plate 31 and a positioning structure, one end of the connecting plate 31 is elastically connected to the shell 1, the other end of the connecting plate 31 is arranged in a suspended mode, the accommodating space 11 is used for accommodating a battery 101, and the positioning structure is used for being assembled with a limiting structure 203; when the battery mounting structure 10 is accommodated in the accommodating space 202 and the positioning structure is assembled with the limiting structure 203, the battery mounting structure 10 is fixed in the accommodating space 202, and the power supply structure 2 is electrically connected to the equipment main body 201; when the battery mounting structure 10 is accommodated in the accommodating space 202 and the connecting plate 31 is in a compressed state, the positioning structure is separated from the limiting structure 203, and the battery mounting structure 10 can move in the accommodating space 202.

As can be understood, the battery 101 is installed in the accommodating space 11 of the housing 1, the fastening structure 3 is arranged outside the housing 1, and the fastening structure 3 has a positioning structure adapted to the limiting structure 203, so that when the battery installation structure 10 is accommodated in the accommodating space 202 and the positioning structure is assembled with the limiting structure 203, the battery installation structure 10 is fixed in the accommodating space 202, and the power supply structure 2 is electrically connected to the device main body 201, so as to implement installation of the battery 101; when the battery mounting structure 10 is accommodated in the accommodating space 202 and the connecting plate 31 is in a compression state, the positioning structure is separated from the limiting structure 203, the battery mounting structure 10 can move in the accommodating space 202, and the battery 101 can be disassembled, so that the battery mounting structure 10 can be disassembled and assembled in the equipment main body 201 only by pressing the connecting plate 31, and the convenience of assembling or replacing the battery 101 in the equipment main body 201 is greatly improved.

Referring to fig. 2, fig. 3 and fig. 5, in the present embodiment, the positioning structure includes a positioning notch formed from a side of the connection board 31 close to the receiving space 202 toward the receiving space 202, the positioning notch is formed at one end of the connection board 31 in a suspension manner, the limiting structure 203 includes a limiting member 2031 fixed on an inner side of the apparatus main body 201, and when the limiting member 2031 extends into the positioning notch, the limiting member 2031 is assembled with the positioning notch. Specifically, the connecting plate 31 may be a rectangular plate, one end of the connecting plate 31 is elastically connected to the housing 1 and the other end is suspended, the limiting member 2031 may be formed by extending a predetermined distance from the inner side of the device main body 201 toward the accommodating space 202, the accommodating space 202 has an open end and a bottom end opposite to the open end, the limiting member 2031 is located at the open end of the accommodating space 202, it may be ensured that the battery mounting structure 10 may extend into the bottom end of the accommodating space 202, thereby ensuring the electrical connection between the power supply structure 2 and the device main body 201. After the battery installation structure 10 is accommodated in the accommodating space 202 of the device main body 201, the connection board 31 is pressed, the suspension end of the connection board 31 moves towards the direction close to the limiting piece 2031, the limiting piece 2031 can extend into the positioning notch, the assembly between the limiting piece 2031 and the positioning notch is completed, and the battery 101 is installed in the defibrillator 20; when the battery mounting structure 10 is accommodated in the accommodating space 202 of the device main body 201 and the connecting plate 31 is released, the suspension end of the connecting plate 31 moves in a direction away from the position-limiting member 2031, the position-limiting member 2031 can be separated from the positioning notch, separation between the position-limiting member 2031 and the positioning notch is completed, and the battery 101 is mounted in the defibrillator 20 and separated. It should be understood that after the limiting member 2031 and the positioning notch are assembled, the limiting member 2031 can block the battery mounting structure 10 from being separated from the receiving space 202 along the length direction of the receiving space 202, and the apparatus main body 201 can block the battery mounting structure 10 from being separated from the receiving space 202 along the radial direction of the receiving space 202, so that the battery mounting structure 10 is fixed in the receiving space 202, and the battery 101 is mounted in the defibrillator 20.

Referring to fig. 2, 3 and 5, preferably, two sides of the connecting plate 31 are respectively provided with a positioning notch, and the inner layer of the device main body 201 is provided with two positioning members corresponding to the positioning notches, so that the device main body 201 limits the movement of the battery mounting structure 10 in the accommodating space 11 through the two positioning members and the bottom end of the accommodating space 11, which is beneficial to ensuring the stress balance of the device main body 201, thereby preventing the battery mounting structure 10 from shaking in the accommodating space 11; one side that locating part 2031 is close to accommodation space 11's bottom is fixed with silica gel, reduces the impact of battery mounting structure 10 to equipment body 201, simultaneously, because silica gel has elasticity for certain installation allowance has between the locating gap of connecting plate 31 and locating part 2031, be convenient for realize the assembly between locating part 2031 and the locating gap. According to actual requirements, when a plurality of position-limiting members 2031 are disposed on the inner side of the apparatus main body 201, a plurality of positioning notches are correspondingly disposed on the connecting plate 31; when the first positioning structure is a positioning notch, an opening direction of the positioning notch faces the bottom end of the accommodating space 11, the positioning structure is a limiting member 2031, one end of the limiting member 2031 is fixed to a side of the connecting plate 31, and the other end extends for a certain distance in a direction away from the connecting plate 31.

In this embodiment, the connecting plate 31 includes the first side edge that is far away from the setting of casing 1, and the location breach includes the first location limit 3211 that links to each other with the first side edge and connects in the second location limit 3212 that first location limit 3211 kept away from the first side edge for the location breach is the L type, and outside the opening direction connecting plate 31 of L type location breach, is favorable to locating part 2031 to stretch into in the location breach. In other embodiments, the positioning notch may also be disposed between the suspension end of the connection plate 31 and the end of the connection plate 31 connected to the housing 1, in which case the positioning notch is U-shaped, and the opening direction of the U-shaped positioning notch is toward the outside of the connection plate 31, and in which case the positioning notch and the limiting member 2031 cooperate with each other to limit the movement of the battery mounting structure 10 in the accommodating space 11.

Referring to fig. 2, fig. 3 and fig. 5, in the present embodiment, the battery mounting structure 10 further includes a push-pull member 4 fixed at one suspended end of the connecting plate 31, and the push-pull member 4 is disposed on a side plate surface of the connecting plate 31 away from the housing 1. Specifically, the push-pull member 4 may be a push-pull strip, the push-pull member 4 is disposed in a middle region of the suspension end of the connection plate 31, a through cavity is formed in a region of the device main body 201 corresponding to the opening end of the accommodating space 202, and the through cavity and the push-pull member 4 are arranged oppositely, so that an arm of a user can penetrate through the through cavity and contact with the push-pull member 4, the user can pull the battery mounting structure 10 to move in the accommodating space 202 through the push-pull member 4, and the battery mounting structure 10 and the device main body 201 can be mounted and dismounted conveniently.

Referring to fig. 3, 4 and 5, in the embodiment, the power supply structure 2 includes a power supply component 21 fixed to the housing 1 and located in the accommodating space 11, a power supply jack disposed on the power supply component 21, and a through hole 12 disposed on the housing 1, the through hole 12 and the power supply jack are disposed opposite to each other, the through hole 12 is disposed at one end of the housing 1 away from the fastening structure 3, the defibrillator 20 further includes a conductive component 204 fixed to the device main body 201 and extending into the bottom end of the accommodating space 202, and when the battery mounting structure 10 is accommodated in the accommodating space 202 and the positioning structure is assembled with the limiting structure 203, the conductive component 204 passes through the through hole 12 and is inserted into the power supply jack. Specifically, the power supply structure 2 further includes a rectangular plate fixed in the housing 1, the power supply component 21 is fixed on the rectangular plate, the power supply component 21 may be a contact board card, the contact board card is provided with a plurality of power supply jacks, the housing 1 is provided with a plurality of corresponding through holes 12, so as to ensure that the conductive component 204 of the defibrillator 20 can pass through the through holes 12 and be inserted into the power supply jacks, thereby realizing the electrical connection between the conductive component 204 and the power supply component 21, and realizing the battery 101 supplying power to the defibrillator 20; the conductive member 204 may be a conductive post, the apparatus main body 201 is provided with a plurality of conductive posts, one end of each conductive post is fixed to the apparatus main body 201, and the other end of each conductive post extends into the bottom end of the accommodating space 202, so that when the battery mounting structure 10 is accommodated in the accommodating space 202, the battery mounting structure 10 moves towards the bottom end of the accommodating space 202, and the conductive member 204 moving to the apparatus main body 201 is inserted into a power supply jack of the power supply member 21 of the battery mounting structure 10, at this time, the connecting plate 31 is released, the locating member 2031 on the apparatus main body 201 extends into the locating notch on the connecting plate 31, the battery mounting structure 10 is fixed in the accommodating space 202, and meanwhile, the conductive member 204 is electrically connected with the power supply member 21, thereby completing the installation of the battery 101.

Referring to fig. 3, 4 and 5, preferably, the defibrillator 20 further includes a sealing member 205 fixed outside the conductive member 204 and located inside the device main body 201, and the sealing member 205, the device main body 201 and the housing 1 are hermetically connected, so that the through hole 12 formed in the housing 1 can be sealed, thereby preventing external impurities from entering the battery mounting structure 10 from the through hole 12 in the housing 1 and ensuring a good use environment of the battery 101.

Referring to fig. 3 and 6, in the present embodiment, the housing 1 includes a first housing 13 and a second housing 14 covering the first housing 13 and enclosing with the first housing 13 to form the accommodating space 11, the fastening structure 3 and the power supply structure 2 are both disposed on the first housing 13, and the fixing frame 6 for fixing the battery 101 is fixed inside the first housing 13. Specifically, adopt the lock joint to connect fixedly between first shell 13 and the second shell 14, first shell 13 is all located to connecting plate 31 and power supply 21, and fixed frame 6 can be rectangular frame, and fixed frame 6 can fix a plurality of batteries 101, and one side that fixed frame 6 is close to first shell 13 is fixed with circuit board 5, and circuit board 5 is connected with battery 101 and power supply 21 electricity respectively to realize power supply 21 and battery 101's electricity and be connected.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a battery mounting structure for install in offer accommodating space and have limit structure's equipment main part, its characterized in that, battery mounting structure includes: the battery pack comprises a shell with an accommodating space, a power supply structure arranged on the shell and a buckling structure arranged outside the shell, wherein the buckling structure comprises a connecting plate and a positioning structure, one end of the connecting plate is elastically connected to the shell, the other end of the connecting plate is arranged in a suspended mode, the positioning structure is arranged on the connecting plate, the accommodating space is used for accommodating a battery, and the positioning structure is used for being assembled with a limiting structure; the battery mounting structure is accommodated in the accommodating space, and when the positioning structure is assembled with the limiting structure, the battery mounting structure is fixed in the accommodating space, and the power supply structure is electrically connected to the equipment main body; when the battery mounting structure is contained in the containing space and the connecting plate is in a pressing state, the positioning structure is separated from the limiting structure, and the battery mounting structure can move in the containing space.

2. The battery mounting structure according to claim 1, wherein the positioning structure includes a positioning notch formed in a direction from the side of the connecting plate close to the accommodating space toward the accommodating space, the positioning notch is formed in one end of the connecting plate in a suspended manner, the limiting structure includes a limiting member fixed to an inner side of the device main body, and when the limiting member extends into the positioning notch, the limiting member is assembled with the positioning notch.

3. The battery mounting structure according to claim 2, wherein the connecting plate includes a first side edge located away from the housing, and the positioning notch includes a first positioning edge connected to the first side edge and a second positioning edge connected to the first positioning edge and located away from the first side edge.

4. The battery mounting structure of claim 1, further comprising a push-pull member fixed to an end of the connection plate suspended in the air, wherein the push-pull member is disposed on a side of the connection plate away from the housing.

5. The battery mounting structure of claim 1, wherein the power supply structure includes a power supply unit fixed to the housing and located in the accommodating space, a power supply jack provided in the power supply unit, and a through hole provided in the housing, the through hole and the power supply jack are disposed opposite to each other, the through hole is provided at an end of the housing away from the fastening structure, the device body is provided with a conductive member, and when the battery mounting structure is accommodated in the accommodating space and the positioning structure is assembled with the limiting structure, the conductive member passes through the through hole and is inserted into the power supply jack.

6. The battery mounting structure of claim 1, wherein the housing includes a first housing and a second housing covering the first housing and enclosing with the first housing to form the accommodating space, the locking structure and the power supply structure are both disposed on the first housing, and a fixing frame for fixing the battery is fixed on an inner side of the first housing.

7. The battery mounting structure of claim 6, further comprising a circuit board secured to the fixed frame, the circuit board being electrically connected to the power supply structure, and the circuit board being configured to be electrically connected to a battery.

8. A defibrillator comprising a main body having a receiving space for receiving the battery mounting structure of any one of claims 1-7 and a stopper structure for fitting with the snap-fit structure of the battery mounting structure.

9. The defibrillator of claim 8, wherein the limiting structure comprises a limiting member extending from an inner side of the device body toward the receiving space by a predetermined distance, the receiving space has an open end and a bottom end opposite to the open end, the limiting member is located at the open end of the receiving space, the limiting member is adapted to the positioning structure, the battery mounting structure is received in the receiving space, and when the positioning structure is assembled with the limiting member, the battery mounting structure is fixed in the receiving space, and the power supply structure is electrically connected to the device body.

10. The defibrillator of claim 9, further comprising a conductive member fixed to the device body and extending into the bottom end of the receiving space, and a sealing member sleeved and fixed outside the conductive member and located inside the device body, wherein the sealing member, the device body and the housing are hermetically connected.

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