CN109713181A - Battery component, its manufacturing method and capsule endoscope - Google Patents

Abstract

Present invention discloses a kind of battery components, its manufacturing method and capsule endoscope, battery component includes the first stacked battery, the connection sheet of second battery and the first battery of conducting and the second battery, first battery includes the first cathode being oppositely arranged, first bottom surface is positive and is located at the first cathode, first side anode between the anode of first bottom surface, second battery includes the second cathode in face of the first bottom surface anode, connection sheet includes first part interconnected and at least one second part, first part is located between the first bottom surface anode and the second cathode, second part and first side anode cooperate.The present invention utilizes the conducting of connection sheet the first battery of realization and the second battery with accommodating chamber, alignment, the alignment of the first battery and the second battery, and stable structure can be achieved, it is easy to operate, when battery component is used for capsule endoscope, limited space inside capsule endoscope can be greatlyd save.

Description

Battery component, its manufacturing method and capsule endoscope

Technical field

The present invention relates to peep in the field of medical instrument technology more particularly to a kind of battery component, its manufacturing method and capsule Mirror.

Background technique

Capsule endoscope has become effective equipment of disease of digestive tract diagnosis due to its high reliability, high security at present, Receive the highly recognition of International Medical instrument field.Capsule endoscope has camera unit, data processing unit and wireless Transmission unit etc. can be during passing through alimentary system to organs such as stomach or intestines by being swallowed from mouth by examinee It is shot, and external reception device is sent by wireless transmission by photographing information, these information are connect by external reception device It receives, then shows on the display device.No pain, hurtless measure human gastrointestinal tract wriggling state under, medical staff can basis The image of display on the display device carries out the diagnosis of enterogastric diseases to examinee.

In order to obtain better capsule endoscope inspection experience, needs small size and more optimized structure makes capsule endoscope Volume it is sufficiently small.Based on factors such as existing battery capacity, volumes, the power supply of capsule endoscope internal electronic component is adopted substantially With two pieces of batteries, to meet the normal work of capsule endoscope.

A riveting item is mostly used to realize the riveting between battery plus-negative plate between two pieces of batteries greatly, such as: conventional capsules The positive electrode and negative electrode of two pieces of batteries are separately connected between two pieces of batteries inside endoscope using formula connection sheet.

Specifically, ginseng Fig. 1, the battery component inside capsule endoscope includes the first battery 21 and the second battery 22, first The lower surface of battery 21 is the first anode 211, and the upper surface of the second battery 22 is the second cathode 221, and formula connection sheet 23 is distinguished The first anode 211 of connection and the second cathode 221, to realize the conducting of the first battery 21 and the second battery 22.

Since connection sheet 23 will realize conducting with the first anode 211 and the riveting of the second cathode 221 respectively, need connection sheet 23 bendings overlay capsule endoscope enclosure interior after two pieces of battery rivetings, and the defect of such setting is: (1) due to connection Piece 23 is deformable bending structure, and the clearance D between the first battery 21 and the second battery 22 is not easy to control, leads to the first battery 21 There are asymmetric gaps between the second battery 22, and the first battery 21 and 22 relative position of the second battery are not easy to control, knot Structure is unstable, and the presence in gap wastes limited space inside capsule endoscope；(2) connection sheet 23 and the first anode 211 And second the riveting point of cathode 221 be not easy to be aligned, the first battery 21 and second electric when increasing riveting difficulty, and rivet Pond 22 is difficult to be aligned, and causes many unpredictable difficulties to the assembly of capsule endoscope internal component.

Summary of the invention

The purpose of the present invention is to provide a kind of battery component, its manufacturing method and capsule endoscopes.

One of for achieving the above object, an embodiment of the present invention provides a kind of battery component, including stacked the One battery, the second battery and the connection sheet that first battery and second battery is connected, first battery includes phase To the first cathode of setting, the first bottom surface anode and between first cathode, first bottom surface anode first Side anode, second battery include the second cathode in face of the first bottom surface anode, and the connection sheet includes mutually interconnecting The first part connect and at least one second part, the first part are located in first bottom surface anode and described second negative Between pole, the second part and the first side anode cooperate.

As the further improvement of an embodiment of the present invention, between the first part and second cathode and institute It states between second part and first side anode through interconnecting piece mutual conduction.

As the further improvement of an embodiment of the present invention, the interconnecting piece is solder joint.

As the further improvement of an embodiment of the present invention, the second part is vertically installed in the first part Edge.

As the further improvement of an embodiment of the present invention, the first part and the intersection of the second part are Camber line, first bottom surface is just extremely round, and the radius of the camber line is equal to the radius of the first bottom surface anode.

As the further improvement of an embodiment of the present invention, the connection sheet includes being symmetrically disposed on the first part Two second parts at edge, the first part include being located in the middle central part and the connection central part and two second Two partial scallops.

As the further improvement of an embodiment of the present invention, the central part is rounded portions.

One of for achieving the above object, an embodiment of the present invention provides a kind of capsule endoscope, including such as takes up an official post It anticipates battery component described in a technical solution.

One of for achieving the above object, an embodiment of the present invention provides a kind of manufacturing method of battery component, packet Include step:

The first battery, the second battery and connection sheet are provided, the connection sheet has an accommodating chamber；

Connection sheet is placed in the top of second battery, and the opening direction of the accommodating chamber is directed away from described second The side of battery；

First battery is placed in the accommodating chamber, and first battery and described second are connected by the connection sheet Battery.

As the further improvement of an embodiment of the present invention, first battery include the first cathode being oppositely arranged, First bottom surface anode and the first side anode between first cathode, first bottom surface anode, described second Battery includes the second cathode, and the connection sheet includes first part interconnected and at least one second part, and described second Part is vertically installed in the edge of the first part and cooperatively forms the accommodating chamber, the manufacturer with the first part Method specifically includes:

Second battery is placed in jig, and second cathode is upward；

Connection sheet is placed in jig, the first part is directed at second cathode, and the opening side of the accommodating chamber To the side for being directed away from second battery；

The first part and second cathode is connected in spot welding；

First battery is placed in the accommodating chamber, first bottom surface anode faces the first part, described First side anode faces the second part；

The first side anode and the second part is connected in spot welding.

Compared with prior art, the beneficial effects of the present invention are: an embodiment of the present invention to utilize with accommodating chamber Connection sheet realizes the conducting of the first battery and the second battery, and such setting is advantageous in that: (1) the second battery can by with even The first part of contact pin aligns and realizes the restriction of the second battery location, and the first battery can be realized by the limit of accommodating chamber The restriction of first battery location, in this way, can realize alignment, the alignment of the first battery and the second battery by connection sheet；(2) The first part of single layer is only folded between one battery and the second battery, i.e. gap between the first battery and the second battery passes through The first part of connection sheet fills up, and the relative position of the first battery and the second battery is fixed, the stable structure of battery component, operation It is convenient, when battery component is used for capsule endoscope, limited space inside capsule endoscope can be greatlyd save；(3) first Battery limiting is in the accommodating chamber of connection sheet, so that the structure of entire battery component is more firm.

Detailed description of the invention

Fig. 1 is prior art battery component cross-sectional view；

Fig. 2 is the battery component cross-sectional view of an embodiment of the present invention；

Fig. 3 is the battery component top view of an embodiment of the present invention；

Fig. 4 is the connection sheet perspective view of an embodiment of the present invention；

Fig. 5 is the connection sheet top view of an embodiment of the present invention；

Fig. 6 and Fig. 7 is the connection sheet schematic diagram of other embodiments；

Fig. 8 is the manufacturing method block diagram of the battery component of an embodiment of the present invention.

Specific embodiment

Below with reference to specific embodiment shown in the drawings, the present invention will be described in detail.But these embodiments are simultaneously The present invention is not limited, structure that those skilled in the art are made according to these embodiments, method or functionally Transformation is included within the scope of protection of the present invention.

In each diagram of the invention, for the ease of illustration, structure or partial certain sizes can be relative to other knots Structure or part are exaggerated, and therefore, are only used for the basic structure of diagram subject of the present invention.

In addition, the term of the representation space relative position used herein such as "upper", " top ", "lower", " lower section " is A unit as shown in the drawings or feature are described for the purpose convenient for explanation relative to another unit or feature Relationship.The term of relative space position can be intended to include equipment in use or work other than orientation as shown in the figure not Same orientation.For example, being described as being located at other units or feature " below " or " under " if the equipment in figure overturn Unit will be located at other units or feature " top ".Therefore, exemplary term " lower section " can include above and below both Orientation.Equipment can otherwise be directed (be rotated by 90 ° or other directions), and be interpreted accordingly it is used herein with it is empty Between relevant description language.

Join Fig. 2 and Fig. 3, is the schematic diagram of the battery component 100 of an embodiment of the present invention.

Battery component 100 includes the first stacked battery 10, the second battery 11 and the first battery of conducting 10 and the second electricity The connection sheet 12 in pond 11.

First battery 10 includes the first cathode 101 being oppositely arranged, the first bottom surface anode 102 and is located at the first cathode 101, the first side anode 103 between the first bottom surface anode 102.

Here, the first battery 10 is cylindrical-shaped structure, and the first cathode 101 is located at the upper surface of the first battery 10, and first is negative Pole 101 can not be covered with the upper surface of the first battery 10, i.e. between having between the first cathode 101 and the edge of the first battery 10 Gap；First bottom surface anode 102 is located at the lower surface of the first battery 10, periphery of the first side anode 103 around the first battery 10 Setting, and the first bottom surface anode 102 is connected with first side anode 103.

Second battery 11 includes the second cathode 111 in face of the first bottom surface anode 102.

Certainly, the second battery 11 also includes the second bottom surface anode 112 being oppositely arranged with the second cathode 111, is located at second Second side anode 113 between cathode 111, the second bottom surface anode 112.

Here, the second setting face-to-face of cathode 111 of the first bottom surface anode 102 of the first battery 10 and the second battery 11, Other explanations of second battery 11 can refer to the explanation of the first battery 10, and details are not described herein, the first battery 10 and the second electricity Pond 11 can be the same battery, and but not limited to this.

Connection sheet 12 includes first part 121 interconnected and at least one second part 122, and first part 121 presss from both sides Between the first bottom surface anode 102 and the second cathode 111, second part 122 and first side anode 103 cooperate.

Here, second part 122 is vertically installed in the edge of first part 121, second part 122 and first part 121 Between enclose and set to form an accommodating chamber S, connection sheet 12 is located at the top of the second cathode 111 of the second battery 11, and accommodating chamber S is opened Mouth is directed away from the side of the second battery 11, and the first battery 10 is limited in just in accommodating chamber S, and the first bottom of the first battery 10 Face anode 102 is correspondingly arranged with first part 121, and first side anode 103 is correspondingly arranged with second part 122.

Present embodiment utilizes the conducting of the first battery 10 of realization of connection sheet 12 and the second battery 11 with accommodating chamber S, Being arranged such is advantageous in that: (1) the second battery 11 can realize second and aligning with the first part 121 of connection sheet 12 The restriction of 11 position of battery, the first battery 10 can realize the restriction of 10 position of the first battery by the limit of accommodating chamber S, such as This, can realize alignment, the alignment of the first battery 10 and the second battery 11 by connection sheet 12；(2) first batteries 10 and second The first part 121 of single layer is only folded between battery 11, i.e. gap between the first battery 10 and the second battery 11 passes through company The first part 121 of contact pin 12 fills up, and the relative position of the first battery 10 and the second battery 11 is fixed, the knot of battery component 100 Structure is stablized, easy to operate, when battery component 100 is used for capsule endoscope, can greatly save limited inside capsule endoscope Space；(3) first batteries 10 are limited in the accommodating chamber S of connection sheet 12, so that the structure of entire battery component 100 is more steady Gu.

It should be noted that the battery component 100 of present embodiment may be not only suitable for capsule type endoscope, it is also applicable In other devices.

In addition, the battery component 100 of present embodiment can be button-type battery component, but not limited to this.

In the present embodiment, between the first part 121 of connection sheet 12 and the second cathode 111 and second part 122 Pass through 123 mutual conduction of interconnecting piece between first side anode 103.

Here, interconnecting piece 123 be solder joint 123, connection sheet 12 itself can by SPCC plating nickel material be made, but not as Limit.

That is, will be between first part 121 and the second cathode 111 by riveting process (laser boring spot-welding technology) It is fixed to each other and is connected, and will be fixed to each other and lead between second part 122 and first side anode 103 by riveting process It is logical, in this way, will pass through connection sheet 12 and solder joint 123 realizes conducting between the second cathode 111 and first side anode 103, Realize the conducting between the first battery 10 and the second battery 11.

There is a solder joint 123, connection sheet 12 includes between the first part 121 of present embodiment and the second cathode 111 Be symmetrically disposed on two second parts 122 at 121 edge of first part, two second parts 122 and first side anode 103 it Between be respectively equipped with a solder joint 123, in this way, realizing that the first batteries 10 and the mutual of the second battery 11 are consolidated by three solder joints 123 Fixed and conducting.

Solder joint 123 is advantageously provided in the intermediate region of first part 121 and second part 122, and but not limited to this.

Here, connection sheet 12 is riveted in the upper surface of the second battery 11 and the second cathode 111, and in the first battery 10 Two sides are riveted with first side anode 103 respectively, so that three solder joints 123 are in angular distribution, can effectively improve entire The stability of 100 structure of battery component.

In addition, in riveting process, first part 121 and second negative can be first carried out before unassembled first battery 10 The riveting of pole 111, then assemble the first battery 10 and carry out the riveting of second part 122 Yu first side anode 103, not only can be with It realizes the contraposition of the first battery 10 and the second battery 11 and stablizes cooperation, and can simplify riveting process.

It should be noted that the quantity of the second part 122 of connection sheet 12 and solder joint 123, setting position etc. can bases Depending on actual conditions, in addition, conduction mode, conduction position etc. between connection sheet 12 and the first battery 10, the second battery 11 Can according to the actual situation depending on.

It is a specific example of the connection sheet 12 of present embodiment in conjunction with Fig. 4 and Fig. 5.

Connection sheet 12 includes connected first part 121 and two vertical and being symmetrically disposed on 121 two sides of first part Second part 122, first part 121 and second part 122, which enclose, to be set to form an accommodating chamber S.

Here, connection sheet 12 is integrally formed structures, and second part 122 can be realized by bending, and connection sheet 12 For symmetrical structure.

The intersection of first part 121 and second part 122 is camber line L, and the first bottom surface anode 102 of the first battery 10 is Circle, the radius of camber line L are equal to the radius of the first bottom surface anode 102.

That is, when the first battery 10 is assembled in accommodating chamber S, outside corresponding first battery, 10 lower surface camber line L Periphery, so that the first battery 10 can be exactly matched with connection sheet 12.

First part 121 includes being located in the middle central part 1211 and connection central part 1211 and two second parts 122 Two scallops 1212.

Here, two scallops 1212 are symmetrical, and two second parts 122 are mutually matched with two scallops 1212, And second part 122 is vertically installed in side of the scallop 1212 far from central part 1211.

Central part 1211 is rounded portions 1211, and but not limited to this.

It should be understood that first part 121 at this time also can remove two pieces of sector structures at connection edge, only by a circle Shape laminated structure obtains.

In actual operation, rounded portions 1211 can be done as far as possible small to save material and reduce weight, it is only necessary to guarantee round Portion 1211 can be riveted with the second cathode 111, and here, the diameter of rounded portions 1211 is 6.4mm；And scallop 1212 and second Part 122 can design suitable size according to the actual situation, guarantee between second part 122 and first side anode 103 On the basis of enough overlapping areas, minimize the size of scallop 1212 and second part 122 with save material and Reduce weight, here, the height of second part 122 substantially 2.1mm.

When battery component 100 is used for capsule type endoscope, due to being influenced by capsule type endoscope size, first The diameter range for dividing 121 is 6mm~15mm.

The connection sheet 12 of present embodiment can also be other structures, and in conjunction with Fig. 6 and Fig. 7, the connection sheet 12a in Fig. 6 is in Line-styled, the connection sheet 12b in Fig. 7 are in " ten " font.

An embodiment of the present invention is also provided at a kind of capsule endoscope, including battery component 100, camera unit, data Unit and wireless transmission unit etc. are managed, battery component 100 provides electric energy for other component.

An embodiment of the present invention also provides a kind of manufacturing method of battery component 100, in conjunction with Fig. 8 and aforementioned battery component 100 explanation, manufacturing method comprising steps of

The first battery 10, the second battery 11 and connection sheet 12 are provided, connection sheet 12 has an accommodating chamber S；

Connection sheet 12 is placed in the top of the second battery 11, and the opening direction of accommodating chamber S is directed away from the second battery 11 Side；

First battery 10 is placed in accommodating chamber S, and the first battery 10 and the second battery 11 are connected by connection sheet 12.

Present embodiment utilizes the conducting of the first battery 10 of realization of connection sheet 12 and the second battery 11 with accommodating chamber S, Being arranged such is advantageous in that: (1) the second battery 11 can realize 11 position of the second battery and aligning with connection sheet 12 It limits, the first battery 10 can realize the restriction of 10 position of the first battery by the limit of accommodating chamber S, in this way, can pass through Connection sheet 12 realizes the alignment of the first battery 10 and the second battery 11, alignment；Between (2) first batteries 10 and the second battery 11 only Being folded with the connection sheet 12 of single layer, i.e. gap between the first battery 10 and the second battery 11 is filled up by connection sheet 12, and first Battery 10 and the relative position of the second battery 11 are fixed, the stable structure of battery component 100, when battery component 100 is used for capsule When endoscope, limited space inside capsule endoscope can be greatlyd save；(3) first batteries 10 are limited in the appearance of connection sheet 12 It receives in chamber S, so that the structure of entire battery component 100 is more firm.

In the present embodiment, the first battery 10 include be oppositely arranged the first cathode 101, the first bottom surface anode 102 with And the first side anode 103 between the first cathode 101, the first bottom surface anode 102, the second battery 11 include the second cathode 111, connection sheet 12 includes that first part 121 interconnected and at least one second part 122, second part 122 are vertically set It is placed in the edge of first part 121 and cooperatively forms accommodating chamber S with first part 121, manufacturing method specifically includes:

Second battery 11 is placed in jig, and the second cathode 111 is upward；

Here, jig may include one be in hollow cylindrical assembling cavity, assemble the internal diameter of cavity slightly larger than the second electricity The diameter in pond 11, assembling cavity can realize the second battery 11 and limit.

Connection sheet 12 is placed in jig, first part 121 is directed at the second cathode 111, and the opening direction court of accommodating chamber S To the side far from the second battery 11；

Here, assembling cavity limits connection sheet 12 and makes first part 121 and convenient pair of the second cathode 111 It is quasi-.

First part 121 and the second cathode 111 is connected in spot welding；

Here it is possible to realize the conducting of first part 121 and the second cathode 111 by laser boring spot welding mode.

First battery 10 is placed in accommodating chamber S, the first bottom surface anode 102 faces first part 121, first side anode 103 face second part 122；

First side anode 103 and second part 122 is connected in spot welding.

Present embodiment includes two second parts 122 for being symmetrically disposed on 121 two sides of first part, can be with by jig Realize the rapid-aligning assembling and riveting of the first battery 10 and the second battery 11, connection sheet 12 the second battery 11 upper surface with The riveting of second cathode 111, and riveted respectively with first side anode 103 in two sides of the first battery 10, so that three Solder joint 123 is in angular distribution, can effectively improve the stability of entire 100 structure of battery component, in addition, in riveting process, The riveting of first part 121 and the second cathode 111 is first carried out, then assembles the first battery 10 and carries out second part 122 and first The riveting of side anode 103 not only may be implemented the contraposition of the first battery 10 and the second battery 11 and stablize cooperation, but also can be with Simplify riveting process.

Other explanations of the manufacturing method of the battery component 100 of present embodiment can be with reference to aforementioned battery component 100 Illustrate, details are not described herein.

To sum up, the present invention utilizes the conducting of the first battery 10 of realization of connection sheet 12 and the second battery 11 with accommodating chamber S, Being arranged such is advantageous in that: (1) the second battery 11 can realize second and aligning with the first part 121 of connection sheet 12 The restriction of 11 position of battery, the first battery 10 can realize the restriction of 10 position of the first battery by the limit of accommodating chamber S, such as This, can realize alignment, the alignment of the first battery 10 and the second battery 11 by connection sheet 12；(2) first batteries 10 and second The first part 121 of single layer is only folded between battery 11, i.e. gap between the first battery 10 and the second battery 11 passes through company The first part 121 of contact pin 12 fills up, and the relative position of the first battery 10 and the second battery 11 is fixed, the knot of battery component 100 Structure is stablized, easy to operate, when battery component 100 is used for capsule endoscope, can greatly save limited inside capsule endoscope Space；(3) first batteries 10 are limited in the accommodating chamber S of connection sheet 12, so that the structure of entire battery component 100 is more steady Gu.

In addition, connection sheet 12 is riveted in the upper surface of the second battery 11 and the second cathode 111, and in the first battery 10 Two sides are riveted with first side anode 103 respectively, so that three solder joints 123 are in angular distribution, can effectively improve entire The stability of 100 structure of battery component；In riveting process, first part can be first carried out before unassembled first battery 10 121 and second cathode 111 riveting, then assemble the first battery 10 and carry out the riveting of second part 122 Yu first side anode 103 It connects, the contraposition of the first battery 10 and the second battery 11 not only may be implemented and stablizes cooperation, but also can simplify riveting process.

It should be appreciated that although this specification is described in terms of embodiments, but not each embodiment only includes one A independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will say As a whole, the technical solution in each embodiment may also be suitably combined to form those skilled in the art can for bright book With the other embodiments of understanding.

The series of detailed descriptions listed above only for feasible embodiment of the invention specifically Protection scope bright, that they are not intended to limit the invention, it is all without departing from equivalent implementations made by technical spirit of the present invention Or change should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of battery component, which is characterized in that including the first stacked battery, the second battery and conducting first battery And the connection sheet of second battery, first battery include the first cathode being oppositely arranged, the first bottom surface anode and position First side anode between first cathode, first bottom surface anode, second battery include in face of described the Second cathode of one bottom surface anode, the connection sheet include first part interconnected and at least one second part, described First part is located between the first bottom surface anode and second cathode, and the second part and the first side are just Pole cooperates.

2. battery component according to claim 1, which is characterized in that between the first part and second cathode with And pass through interconnecting piece mutual conduction between the second part and first side anode.

3. battery component according to claim 2, which is characterized in that the interconnecting piece is solder joint.

4. battery component according to claim 1, which is characterized in that the second part is vertically installed in described first The edge divided.

5. battery component according to claim 4, which is characterized in that the boundary of the first part and the second part Place is camber line, and first bottom surface is just extremely round, and the radius of the camber line is equal to the radius of the first bottom surface anode.

6. battery component according to claim 5, which is characterized in that the connection sheet includes being symmetrically disposed on described first Two second parts of part edge, the first part include being located in the middle central part and the connection central part and two Two scallops of second part.

7. battery component according to claim 6, which is characterized in that the central part is rounded portions.

8. a kind of capsule endoscope, which is characterized in that including the battery component as described in any one of claim 1-7.

9. a kind of manufacturing method of battery component, which is characterized in that comprising steps of

The first battery, the second battery and connection sheet are provided, the connection sheet has an accommodating chamber；

Connection sheet is placed in the top of second battery, and the opening direction of the accommodating chamber is directed away from second battery Side；

First battery is placed in the accommodating chamber, and first battery and second electricity are connected by the connection sheet Pond.

10. the manufacturing method of battery component according to claim 9, which is characterized in that first battery includes opposite The first cathode, the first bottom surface anode and the first side between first cathode, first bottom surface anode being arranged Face anode, second battery include the second cathode, the connection sheet include first part interconnected and at least one the Two parts, the second part are vertically installed in the edge of the first part and cooperatively form the appearance with the first part Receive chamber, the manufacturing method specifically includes:

Second battery is placed in jig, and second cathode is upward；

Connection sheet is placed in jig, the first part is directed at second cathode, and the opening direction court of the accommodating chamber To the side far from second battery；

The first part and second cathode is connected in spot welding；

First battery is placed in the accommodating chamber, first bottom surface anode face the first part, described first Side anode faces the second part；

The first side anode and the second part is connected in spot welding.