CN101207247A - Connector improved in handlability of a connection object and backlight assembly using the connector - Google Patents

Abstract

In a connector including a conductive member adapted to be connected to a connection object, the conductive member includes a movable contacting portion to be contacted with the connection object and a position control portion integrally formed with the contacting portion and serving to control a position of the contacting portion. The contact may includes a main body integrally formed with the contacting portion and an elastic portion coupling the position control portion to the main body so that the position control portion is displaceable with respect to the main body. The main body may be integrally formed with the position control portion. The elastic portion may couple the contacting portion to the main body so that the contacting portion is displaceable with respect to the main body.

Description

The backlight assembly of connector and this connector of use

The application's requirement is a priority with Japanese patent application JP 2006-338885 and JP 2007-10513 formerly, and their disclosed contents are attached to herein by reference.

Background technology

The present invention relates to a kind of connector that connects fluorescent tube that is applicable to, for example direct type lamp socket and relate to the backlight assembly that uses this connector.

Recently, the large scale liquid crystal display is widely used in various technical fields.The backlight module that uses in the large scale liquid crystal display comprises the minor diameter fluorescent tube as light source, CCFL (coldcathode fluorescent lamp for example, cold-cathode fluorescence lamp) and EEFL (external electrodefluorescent lamp, external-electrode fluorescent lamp).Liquid-crystalline glasses is positioned at the system that the light of the fluorescent tube behind the liquid-crystalline glasses directly shines and is called direct type.Directly the type system has excellent light utilization ratio, and is best suited for the backlight of the LCD (for example monitor and TV) that needs high brightness.

Direct type backlight module for traditional has several system known per.

In first system, backlight module comprises on metal-back that is called the chassis and the surface that is arranged in the chassis and a plurality of fluorescent tubes of each interval.Each fluorescent tube has the lead as the electrode part at its place, opposite end.Lead is connected respectively to an end of cable by welding.An end that is connected by welding to each electrode part of each cable is coated with rubber component.The cable of drawing from rubber component has the other end, and terminal is crimped onto on this other end.Terminal is contained in the connector case and is connected to connector, and connector is installed to another surface on chassis and goes up on the paraphase substrate (inverter substrate) that is provided with.Therefore, fluorescent tube is supplied electric power by connector and cable.

In another system, connector comprises insulator, terminal part and sliding component, and connector is installed on the paraphase substrate.Connector extends through the chassis and arrives the fluorescent tube installation surface.The electrode part of fluorescent tube directly is connected to the terminal of connector.In this system, after fluorescent tube was integrated in the terminal part of connector, sliding component was operated so that the lead of fluorescent tube is connected with contact.After lead and contact were connected to each other, lead was relatively firmly fixing.

Yet in the system of the fluorescent tube of supplying electric power by cable, fluorescent tube is connected to the paraphase substrate by rubber component, cable and connector.Therefore, need to use a large amount of elements and a large amount of operating procedures.Further, when changing fluorescent tube, other element must be changed together.This causes cost to increase.In addition, be welded with the fluorescent tube breakage easily of cable during operation.

Be installed to the paraphase substrate and fluorescent tube directly is connected in the system of connector at connector, can realize the easiness of the attaching/detaching of the minimizing of number of elements and fluorescent tube.Yet, various stress can take place, for example cause the stress of generation in the position error of period of contact assembling fluorescent tube and connector, in transportation or the vibratory impulse that applies during using Liquid crystal module or the stress of mechanical shock, or the caused stress of thermal contraction of the fluorescent tube that causes of the thermal conductance that produces of fluorescent tube self.These stress focus on the lead or the lead hermetic unit of fluorescent tube, and may cause the breakage of fluorescent tube or the shortening of lamp tube service life.

For example, open communique (JP-A) No.2003-257570 of Japanese unexamined patent discloses a kind of socket that is used to connect typical lamp.For example, open communique (JP-A) No.2002-367422 of Japanese unexamined patent discloses a kind of socket that is used to connect fluorescent tube.Yet disclosed technology can not address the above problem in these communiques.

For example, open communique (JP-A) No.2002-367422 of Japanese unexamined patent and open communique (JP-A) No.2003-257570 of Japanese unexamined patent disclose backlight assembly and lamp retainer respectively.Yet these technology exist needs a large amount of elements and expensive shortcoming.

Summary of the invention

Therefore example purpose of the present invention provides and a kind ofly has improved attachment operability and can easily be connected to attachment and the connector that separates from attachment.

Another example purpose of the present invention provides a kind ofly to be had improved fluorescent tube operability and can easily be connected to fluorescent tube and the connector that separates from fluorescent tube.

Another example purpose of the present invention provides a kind of backlight assembly that needs a few components, thereby reduces number of assembling steps and reduce cost.

According to following explanation, other purpose of the present invention will become clear.

According to an exemplary aspect of the present invention, a kind of connector is provided, comprise being applicable to the conductive member that is connected to attachment that described conductive member comprises: the removable contact portion that contacts with attachment; With the Position Control part that integrally forms and be used to control the position of contact portion with contact portion.

Description of drawings

The stereogram of connector Figure 1A first embodiment of the present invention, that be in open mode;

Figure 1B is the stereogram that is in connector closure state, among Figure 1A;

Fig. 1 C is the front view that is in connector open mode, among Figure 1A;

Fig. 1 D is in the front view of connector closure state, among Figure 1A;

Fig. 2 A is the preceding stereogram of the second embodiment of the present invention, the connector that is in open mode;

Fig. 2 B is the preceding stereogram that is in connector closure state, among Fig. 2 A;

Fig. 2 C is the back stereogram that is in connector closure state, among Fig. 2 A;

Fig. 3 A is the preceding stereogram of the third embodiment of the present invention, the connector that is in open mode;

Fig. 3 B is the preceding stereogram that is in connector closure state, among Fig. 3 A;

Fig. 3 C is the back stereogram that is in connector closure state, among Fig. 3 A;

Fig. 4 A is the preceding stereogram of the fourth embodiment of the present invention, the connector that is in open mode;

Fig. 4 B is the preceding stereogram that is in connector closure state, among Fig. 4 A;

Fig. 5 is the back stereogram of the fifth embodiment of the present invention, the connector that is in open mode;

Fig. 6 A is the preceding stereogram of the sixth embodiment of the present invention, the connector that is in open mode;

Fig. 6 B is the end view that is in connector open mode, among Fig. 6 A;

Fig. 7 A is the preceding stereogram of the seventh embodiment of the present invention, the connector that is in open mode;

Fig. 7 B is the front view that is in connector open mode, among Fig. 7 A;

Fig. 7 C is the end view that is in connector open mode, among Fig. 7 A;

Fig. 8 A is the preceding stereogram of the eighth embodiment of the present invention, the connector that is in open mode;

Fig. 8 B is the preceding stereogram that is in connector open mode, among Fig. 8 A;

Fig. 8 C is the back stereogram that is in connector closure state, among Fig. 8 A; With

Fig. 9 is to use the schematic diagram of one backlight assembly in the above-mentioned connector.

Embodiment

The connector of the first embodiment of the present invention is described below with reference to Figure 1A-1D.

The connector that shows among Figure 1A-1D is formed by conductive member or conductive plate (for example metallic plate etc.), and is therefore corresponding with contact well known in the art.Therefore, connector can be called as contact.

Connector has main body 1, and main body 1 is provided with pair of terminal part 2, pair of terminal part 2 be formed on main body 1 the bottom opposite end and be applicable to and be connected to substrate etc.Main body 1 has a pair of contact portion 3, and a pair of contact portion 3 is formed on the top of main body 1 and extends to the central area from an end.Contact portion 3 is removable and be applicable to and attachment (for example, the lead of lamp etc.) contact.Contact portion 3 has a pair of contact contact surface 3a and a pair of abutment portion 4, and a pair of contact contact surface 3a faces with each other respectively, and a pair of abutment portion 4 is respectively formed at the end of contact portion 3.

Main body 1 has the elastic part 5 that is formed on the other end.Elastic part 5 is provided with slipper (actuator) 6.Therefore, elastic part 5 is connected to main body 1 with slipper 6, thereby makes slipper 6 removable with respect to main body 1.

Slipper 6 has operation part 7, and operation part 7 usefulness act on the Position Control part of the position of control contact portion 3.Operation part 7 has extruding widened section (press-wideningportion) 7a, and the end of extruding widened section 7a is formed with a pair of tongue component.Widened section 7a is applicable to insertion abutment portion (abutting portions) 4 and discharges from abutment portion 4.The tongue component that forms extruding widened section 7a be tilt so that close to each other towards the upper end.

Slipper 6 has pair of holes 6a, pair of holes 6a be formed on slipper 6 the bottom opposite side and as being engaged part.Corresponding with each hole 6a, main body 1 has a pair of upper and lower projection as the bonding part.

Under the state shown in Figure 1A and the 1C, operation part 7 is positioned at exercisable or mobilizable position, and extruding widened section 7a inserts between the abutment portion 4.Therefore, contact portion 3 is widened and is separated from each other.The hole 6a of slipper 6 engages with the protruding 1a on the top of main body 1, thereby makes contact portion 3 stay open state.Therefore, attachment can insert contact portion 3.Under this state, attachment is inserted between the contact portion 3 with zero insertion force or low insertion force.Afterwards, slipper 6 promotes down.Then, operation part 7 moves to not operation or inactive position, and extruding widened section 7a discharges from the gap between the abutment portion 4.

Then, shown in Figure 1B and 1D, thereby contact portion 3 moves by intrinsic elasticity close to each otherly and enters closure state.Therefore, contact surface 3a forms with attachment and contacts so that attachment is clamped on the opposite side.At this moment, elastic part 5 is compressed and is out of shape.The hole 6a of slipper 6 engages with the protruding 1a of the bottom of main body 1, thereby makes contact portion 3 be kept closed.

Previous embodiment can change in design, thereby makes hole 6a and protruding 1a be respectively formed on main body 1 and the slipper 6.Hole 6a can be replaced by depression or groove.

With reference to figure 2A-2C, with the connector of the explanation second embodiment of the present invention.Similar parts will be represented with same reference numbers, and omit its explanation.

In the connector shown in Fig. 2 A-2C, the position relation between contact portion 3 and the abutment portion 4 is opposite with the relation of the position between the abutment portion 4 with the contact portion 3 of the connector shown in Figure 1A-1D.The extruding widened section 7a of the connector among Figure 1A-1D is substituted by the extruding narrow 7b of functions reversed.

Under the state shown in Fig. 2 A, operation part 7 is in off position, and contact portion 3 stays open state.Therefore, attachment can insert between the contact portion 3.Extruding narrow 7b has a pair of leader 7c, and a pair of leader 7c is used for will pushing smoothly narrow 7b and inserts between the abutment portion 4.

Under the state shown in Fig. 2 B, operation part 7 moves to operating position, thereby makes contact portion 3 enter closure state.Therefore, contact portion 3 extruding contact the attachment that inserts therebetween.

Further, shown in Fig. 2 C, part (opening) 6a that is engaged that is formed on the slipper 6 engages with bonding part (projection) 3b on being formed on coupling part 3c, and coupling part 3c and contact portion 3 are connected to each other.Therefore, contact portion 3 remains on closure state.

The connector of the third embodiment of the present invention is described below with reference to Fig. 3 A-3C.Similar parts will be represented with same reference numbers, and omit its explanation.

In the connector shown in Fig. 3 A-3C, elastic part 5 and slipper (actuator) 6 is formed on an end place of main body 1.Elastic part 5 and slipper (actuator) 6 is formed on the 3d of coupling part, and coupling part 3d and contact portion 3 are connected to each other.

Shown in Fig. 3 A and 3C, slipper (actuator) 6 is operated so that abutment portion 4 and operation part 7 are engaged with each other, thereby makes contact portion 3 remain on open mode.Therefore, attachment can insert between the contact portion 3.

When the operation of slipper (actuator) 6 was cancelled, because the restoring force of elastic part 5, abutment portion 4 was separated from operation part 7 shown in Fig. 3 B.As a result, contact portion 3 enters closure state.Therefore, contact portion 3 extruding contact attachments.

The connector of the fourth embodiment of the present invention is described below with reference to Fig. 4 A and 4B.Similar parts will be represented with same reference numbers, and omit its explanation.

In the connector shown in Fig. 4 A and the 4B, attachment is connected in the mode similar to the connector shown in Fig. 2 A-2C.Each contact portion 3 is connected to elastic part 5 through each corresponding abutment portion 4.Operation part 7 is formed on the main body 1.

That is, shown in Fig. 4 A, contact portion 3 remains on open mode.After attachment was positioned the precalculated position, slipper 6 was promoted down.Then, shown in Fig. 4 B, contact portion 3 is operated part 7 closures.The end portion 6b of slipper 6 engages with the bonding part 1b of main body 1, thereby makes contact portion 3 remain on the closure state that contacts with attachment.Under the state that abutment portion 4 is extruded, contact portion 3 keeps in touch with attachment.

The connector of the fifth embodiment of the present invention is described below with reference to Fig. 5.Similar parts will be represented with same reference numbers, and omit its explanation.

In connector shown in Figure 5, elastic part 5 is arranged between slipper 6 and the main body 1.Similarly, elastic part 5 is arranged between contact portion 3 and the main body 1.Because coupling part 3d is connected to elastic part 5, so contact portion 3 remains on quick condition (floating state).

The connector of the sixth embodiment of the present invention is described below with reference to Fig. 6.Similar parts will be represented with same reference numbers, and omit its explanation.

In connector shown in Figure 6, the terminal part 2 of the connector of each among first to the 5th embodiment is replaced by a pair of substrate coupling part 10, so that be connected with substrate.Substrate coupling part 10 is connected by welding to substrate.Therefore, connector shown in Figure 6 is a surface installing type.Although do not show among the figure that connector can be connected to substrate by the through hole through being formed on the substrate.

The connector of the seventh embodiment of the present invention is described below with reference to Fig. 7 A-7C.Similar parts will be represented with same reference numbers, and omit its explanation.

Connector shown in Fig. 7 A-7C is similar substantially to the structure of the connector shown in Fig. 2 A-2C, and is provided with substrate insertion portion 11 and substrate coupling part 12 further.

The main body 1 of connector is provided with substrate insertion portion 11, and substrate insertion portion 11 has T section roughly and is formed on the bottom of main body 1.In substrate insertion portion 11, substrate coupling part 12 with general triangular is configured to elastically deformable.When substrate 13 inserted in the substrate insertion portion 11, the connection gasket (not shown) that is formed on the substrate 13 was connected to substrate coupling part 12.Engage with a pair of lock portion 1c of main body 1 because be engaged part (opening) 6a, therefore be kept closed.

The connector of the eighth embodiment of the present invention is described below with reference to Fig. 8 A-8C.Similar parts will be represented with same reference numbers, and omit its explanation.

In the connector shown in Fig. 8 A-8C, the main body 1 of connector has a plurality of terminal parts 2, and a plurality of terminal parts 2 are formed on the opposite end of the bottom of main body 1 and locate and be formed near the opposite side in center.Terminal part 2 is applicable to and is connected to substrate etc.Main body 1 has a pair of contact portion 3, and a pair of contact portion 3 is formed on the bottom of main body 1 and extends towards the center from the opposite side of an end.Contact portion 3 is applicable to attachment and contacts.Contact portion 3 has respectively and is formed on its terminal abutment portion 4.Main body 1 has a pair of elastic part 5, and a pair of elastic part 5 is formed on the opposite side at other end place, and with roughly U-shaped bending.Elastic part 5 is connected to slipper 6.Slipper 6 has operation part 7.Operation part 7 has a pair of extruding narrow 7b, and a pair of extruding narrow 7b is formed on the center on a surface of operation part 7.Extruding narrow 7b is applicable to and clamps and releases abutment portion 4.

Slipper 6 is provided with a pair of protruding 6c, and a pair of protruding 6c is formed on the opposite side of slipper 6 and as being engaged part.Corresponding with protruding 6c, pair of holes 1d is formed near the opposite flank of the main body 1 the other end.Hole 1d is as the bonding part.

Under the state shown in Fig. 8 A, extruding narrow 7b does not clamp abutment portion 4, thereby makes that contact portion 3 is separated from one another.Because the protruding 6c of slipper 6 does not engage with the hole 1d of main body 1, so contact portion 3 remains on the open mode that allows attachment to insert.Under this state, attachment inserts between the contact portion 3 with zero insertion force or low insertion force.Afterwards, slipper 6 promotes down.Then, extruding narrow 7b clamps abutment portion 4.

As a result, shown in Fig. 8 B and 8C, because the intrinsic elasticity of connector, contact portion 3 moves close to each otherly.Therefore, contact portion 3 contacts with attachment, so that attachment is clamped on the opposite side.At this moment, each elastic part 5 is compressed and is out of shape.Because the protruding 6c of slipper 6 engages with the hole 1d of main body 1, contact portion 3 remains on the closure state that contact portion 3 contacts with attachment.

Previous embodiment can change in design, thereby makes protruding 6c and hole 1d be respectively formed on main body 1 and the slipper 6.Hole 1d can be replaced by depression or groove.

The backlight assembly of embodiments of the invention is described below with reference to Fig. 9.Similar parts will be represented with same reference numbers, and omit its explanation.

Backlight assembly shown in Figure 9 (backlight assembly) comprises assembling main body 21, be fixed to a plurality of connectors 22 of the assembling left side of main body 21 and right-hand member and parallel to each other and be arranged on a plurality of fluorescent tubes 23 on the assembling main body 21 at each interval.Each fluorescent tube 23 has couple of conductor or terminal on its opposite end.These terminals are connected to connector 22.Therefore, fluorescent tube 23 can be supplied electric power by connector 22.When electric power was supplied, fluorescent tube 23 was inevitable luminous.Therefore, backlight assembly can be as the backlight module of large scale liquid crystal display.Can use in the connector of first to the 8th embodiment any for each connector 22.

Various embodiment of the present invention will be listed below:

1. a connector comprises being applicable to the conductive member that is connected to attachment 23, and described conductive member comprises:

The removable contact portion 3 that contacts with attachment 23; With

Integrally form and be used to control the Position Control part 6 of the position of contact portion 3 with contact portion 3.

2. according to the connector of embodiment 1, wherein conductive member comprises:

The main body 1 that integrally forms with contact portion 3; With

Elastic part 5, described elastic part 5 is connected to main body 1 to Position Control part 6, thereby makes Position Control part 6 removable with respect to main body 1.

3. according to the connector of embodiment 2, wherein main body 1 comprises the bonding part 1a that is used for bonding station control section 6.

4. according to the connector of embodiment 2, wherein contact portion 3 comprises the bonding part 1a that is used for bonding station control section 6.

5. according to the connector of embodiment 1, wherein conductive member comprises:

The main body 1 that integrally forms with Position Control part 6; With

Elastic part 5, described elastic part 5 is connected to main body 1 with contact portion 3, thereby makes contact portion 3 removable with respect to main body 1.

6. according to the connector of embodiment 5, wherein contact portion 3 is remained on the off position of position control section by elastic part 5.

7. according to the connector of embodiment 6, also comprise the bonding part 1b that is used for contact portion 3 is bonded on the operating position place of Position Control part 6.

8. according to the connector of embodiment 1, wherein contact portion 3 has a pair of contact surface 3a that faces with each other, and attachment 23 is arranged between the contact surface 3a.

9. according to the connector of embodiment 8, wherein Position Control part 6 is operated making on the contact surface 3a direction separated from one another.

10. according to the connector of embodiment 8, wherein Position Control part 6 is operated in that contact surface 3a is moved on the close direction mutually.

11. according to the connector of embodiment 1, wherein conductive member also comprises substrate coupling part 2, substrate coupling part 2 is connected by welding to substrate 13.

12. according to the connector of embodiment 1, wherein conductive member also comprises substrate insertion portion 12 and substrate coupling part 11, substrate 13 inserts in the substrate insertion portion 11 so that be connected to substrate coupling part 12.

13. a backlight assembly comprises:

Assembling main body 21;

Be fixed on the opposite end of assembling main body 21, according to a plurality of connectors 22 of embodiment 1; With

Be arranged on the assembling main body 21 and a plurality of fluorescent tubes 23 that separate each other.

Although the various embodiment of reference show especially and the present invention has been described, the invention is not restricted to these embodiment.Do not breaking away under claims institute's restricted portion of the present invention and the mental condition, the variation of various forms and details is conspicuous for those skilled in the art.

Claims (13)

1. a connector comprises being applicable to the conductive member that is connected to attachment, and described conductive member comprises:

The removable contact portion that contacts with attachment; With

Integrally form and be used to control the Position Control part of the position of contact portion with contact portion.

2. according to the connector of claim 1, wherein conductive member comprises:

The main body that integrally forms with contact portion; With

Elastic part, described elastic part partly is connected to main body to Position Control, thereby makes that the position control section branch is removable with respect to main body.

3. according to the connector of claim 2, wherein main body comprises the bonding part that is used for the bonding station control section.

4. according to the connector of claim 2, wherein contact portion comprises the bonding part that is used for the bonding station control section.

5. according to the connector of claim 1, wherein conductive member comprises:

The main body that integrally forms with Position Control part; With

Elastic part, described elastic part is connected to main body with contact portion, thereby makes contact portion removable with respect to main body.

6. according to the connector of claim 5, wherein contact portion is remained on the off position of position control section by elastic part.

7. according to the connector of claim 6, also comprise the bonding part that is used for contact portion is bonded on the operating position place of Position Control part.

8. according to the connector of claim 1, wherein contact portion has a pair of contact surface that faces with each other, and attachment is arranged between the contact surface.

9. connector according to Claim 8, wherein the Position Control part is operated making on the contact surface direction separated from one another.

10. connector according to Claim 8, wherein the Position Control part is operated making on the close mutually moving direction of contact surface.

11. according to the connector of claim 1, wherein conductive member also comprises the substrate coupling part, the substrate coupling part is connected to substrate by welding.

12. according to the connector of claim 1, wherein conductive member also comprises substrate insertion portion and substrate coupling part, substrate is inserted in the substrate insertion portion so that be connected to the substrate coupling part.

13. a backlight assembly comprises:

The assembling main body;

Be fixed on the opposite end of assembling main body, according to a plurality of connectors of claim 1; With

Be arranged on the assembling main body and a plurality of fluorescent tubes that separate each other.

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