CN103002687A - Power supply module fixing mechanism - Google Patents

Abstract

The invention provides a power supply module fixing mechanism which comprises a power supply module body and an operating rod. The power supply module body comprises a front cover and an upper cover adjacent to the front cover, and the operating rod is pivoted to at least one side of the upper cover and is attached to the front cover when positioned at a first position. The operating rod of the power supply module mixing mechanism provides a convenient holding mode for a user, and a procedure of removing the power supply module body from an electronic device is simplified. In addition, by the aid of the relative configuration relationship between the operating rod and a socket, a safe uninterruptible power mechanism is more effectively provided for the electronic device.

Description

The power module fixed mechanism

Technical field

The present invention relates to a kind of power module fixed mechanism, particularly a kind of power module fixed mechanism of being convenient to user's operation.

Background technology

Generally speaking, electronic equipment all must rely on power module (power supply module) to keep the running of electronic equipment.For example, power supply changeover device (adaptor) is one of common power module, and it is converted to the required various operating voltages of its running with input voltage.

See also Fig. 1, traditional power module generally all is designed with a relieving attachment 10 in order to make things convenient for its dismounting.Relieving attachment 10 comprises one handle 11 and a snap fit 15.Handle 11 is arranged at the protecgulum 6 of power module body 5, grips for the user.Snap fit 15 is generally a Z-shaped shell fragment, one end of snap fit 15 protrudes from the protecgulum 6 of power module body 5, the other end of snap fit 15 is arranged at the inside of power module body 5, and comprises a projection 16, and this projection 16 is sticked in the perforation 18 of the loam cake 7 of power module body 5.Want when electronic equipment takes out power module body 5 the user, a finger is down pressed an end of snap fit 15, makes projection 16 withdraw from perforation 18, and utilizes a finger to fasten handle 11, so that power module body 5 is withdrawed from from electronic equipment.

In the said structure, handle 11 and snap fit 15 all protrude from the protecgulum 6 of power module body 5, cause the space waste, so that cost of transportation increases.And when snap fit 15 followed the string, projection 16 can't be firm was linked in the perforation 18, power module body 5 therefore can't stable power-supplying in electronic equipment.Again, for fear of the size restrictions of power module 5 self, when handle 11 sizes hour, will be unfavorable for pointing thicker user's operation, produce the inconvenience on using.

Summary of the invention

In view of this, a purpose of the present invention is to reduce the volume of power module, utilizes the design of action bars applying power module protecgulum, avoids relieving attachment to protrude from the power module body.Another object of the present invention is to optimize power module and takes out mechanism, by the structural design of action bars, makes user's convenient operation.Another purpose of the present invention is to promote the fail safe of the electronic equipment of applied power source module, avoids power module to break away from electronic equipment in the electronic equipment running.

For reaching above-mentioned purpose, the invention provides a kind of power module fixed mechanism, comprising: a power module body and an action bars.The power module body comprises the loam cake of a protecgulum and an adjacent protecgulum.Action bars is hubbed at a side of loam cake at least, and wherein when action bars was positioned at a primary importance, action bars fitted in protecgulum.

In above-mentioned preferred embodiment, the loam cake of power module body comprises a joint portion, and action bars comprises a master bar, leader, a secondary side lever and a conjunction.The master bar is hubbed at the loam cake of power module body, and wherein conjunction is arranged at the master bar.Handle is linked to the master bar, and the loam cake that secondary side lever is hubbed at the power module body is different from the side that the master bar is pivoted.Wherein, when action bars was positioned at primary importance, handle applying protecgulum and conjunction were linked to the joint portion.

In above-mentioned preferred embodiment, the joint portion is a perforation.Conjunction is arranged at the terminal of master bar and comprises a top board, a projection and side plate.Top board is linked to the master bar, and projection is arranged at top board.Link a side of master bar with respect to top board, side plate is linked to top board.Wherein when action bars was positioned at primary importance, projection was positioned at perforation.One spring is arranged between side plate and the master bar, and an end of spring is linked to the master bar, and the other end of spring is linked to the protecgulum of power module body.One connecting piece passes master bar, spring and side plate, makes the master bar be hubbed at a loam cake of power module body.

In above-mentioned preferred embodiment, handle fits in protecgulum away from the zone of loam cake, and the shape complementarity of a side of handle and protecgulum applying is in the shape of protecgulum.

In above-mentioned preferred embodiment, the protecgulum of power module body comprises a socket in order to link a plug, and when action bars was positioned at primary importance, action bars fitted in socket away from a side of loam cake, and wherein action bars more comprises a supporter, is resisted against plug.

Utilize power module fixed mechanism of the present invention, the power module body will be more stable is powered at electronic equipment.On the other hand, utilize the architectural feature of action bars, more can simplify the program that shifts out or insert the power module body.

Description of drawings

Fig. 1 shows the schematic diagram of prior art power module fixed structure;

Fig. 2 shows that the power module fixed structure of preferred embodiment of the present invention links the schematic diagram of a plug;

Fig. 3 shows that the power module fixed structure of preferred embodiment of the present invention links the element exploded view of a plug;

Fig. 4 shows the element exploded view of the action bars of preferred embodiment of the present invention;

Fig. 5 shows the perspective view when the power module fixed structure of preferred embodiment of the present invention is applied to an electronic equipment and action bars and is positioned at primary importance; And

Fig. 6 shows that the power module fixed structure of preferred embodiment of the present invention is applied to an electronic equipment and the perspective view of action bars when the second place; And

Fig. 7 shows the element exploded view of the action bars of another embodiment of the present invention.

Wherein, description of reference numerals is as follows:

5～power module body

6～protecgulum

7～loam cake

10～relieving attachment

11～handle

15～snap fit

16～projection

18～perforation

20～electronic equipment

50～plug

80～screw

100～power module fixed mechanism

110～power module body

112～protecgulum

114,115～side cover

116～loam cake

116a, 116b～flange

1161～hole is set

1163～perforation

120～action bars

122～handle

122a～side

123～fixture

124～master bar

1241～perforation

125～connecting piece

126～secondary side lever

1261～perforation

127～spring

127a, 127b～spring end

128～conjunction

1281～top board

1283～projection

1285～side plate

1287～perforation

129～supporter

130～socket

140～fan member

142～framework

144～screw

Embodiment

Hereby cooperate description of drawings preferred embodiment of the present invention.

See also Fig. 2 and Fig. 3, Fig. 2 shows that power module fixed mechanism 100 of the present invention links the schematic diagram of a plug 50, and wherein action bars 120 is positioned at a primary importance; Among Fig. 3, the electronic component of power module body 110 inside omits to be drawn, and gives first indicating at this.

Power module fixed mechanism 100 of the present invention comprises a power module body 110, an action bars 120, a socket 130 and a fan member 140.In one embodiment, power module body 110 is a rectangular configuration, comprises a protecgulum 112, two side covers 114 and 115 and one loam cake 116.Two side covers 114 and 115 are respectively adjacent to the left and right sides of protecgulum 112, and toward each other.Loam cake 116 adjacent protecgulums 112 and two side covers 114 and 115, and utilize the mode of screw 80 lockings to be linked to protecgulum 112 and two side covers 114 and 115.With respect to side cover 114 and 115, the left and right sides of loam cake 116 has respectively flange 116a and a 116b, is parallel to two side covers 114 and 115, and its flange 116a and 116b comprise that respectively one arranges hole 1161.One perforation 1163 is formed at the surface of loam cake 116 adjacent flange 116a.It should be noted that the hole 1161 that arranges that is formed at flange 116a bores a hole and 1163 be adjacent to protecgulum 112.

Socket 130 is arranged at protecgulum 112, in order to link a plug 50 with the required electric power of supply power module body 110.Fan member 140 comprises a framework 142, utilizes the mode of screw 144 lockings, is arranged at the zone of protecgulum 112 adjacent outlets 130.

Please consult simultaneously Fig. 3, Fig. 4, action bars 120 is hubbed at loam cake 116, and comprises: leader 122, a fixture 123, a master bar 124, a connecting piece 125, a secondary side lever 126, a spring 127, a conjunction 128 and a supporter 129.

Handle 122 is linked between master bar 124 and the secondary side lever 126.(Fig. 2) handle 122 fits in protecgulum 112 when action bars 120 is positioned at primary importance, and wherein the shape complementarity of the side 122a of handle 122 is in the shape on protecgulum 112 surfaces.In details of the words, lock the position of screw 144 corresponding to fan member 140, the side 122a of handle 122 has a plurality of grooves, in order to hold screw 144 in wherein, reduces whereby the volume that handle 122 protrudes from protecgulum 112.On the other hand, supporter 129 protrudes from the surface of handle 122 with respect to socket 130.As shown in Figure 2, when action bars 120 was positioned at primary importance, supporter 129 was resisted against the outside of plug 50, broke away from power module body 110 to prevent plug 50.

Master bar 124 is hubbed at the inboard of flange 116a, that is flange 116a is in contrast to a side of side cover 114.Master bar 124 has a perforation 1241 and with respect to flange 116a hole 1161 is set.Conjunction 128 is formed at the end of master bar 124, and comprises a top board 1281, a projection 1283 and side plate 1285.Top board 1281 is linked to master bar 124, and projection 1283 is arranged at the surface of top board 1281 with respect to the perforation 1163 of loam cake 116.Link a side of master bar 124 with respect to top board 1281, side plate 1285 is linked to top board 1281.With respect to the perforation 1241 of master bar 124, side plate 1285 has a perforation 1287.

One end of connecting piece 125 is fixed in perforation 1287, and what the other end of connecting piece 125 was fixed in perforation 1241 and loam cake 116 arranges hole 1161.Spring 127 is arranged between master bar 124 and the side plate 1285, and around connecting piece 125.One end 127a of spring 127 is linked to master bar 124, and the other end 127b of spring 127 is linked to protecgulum 112, when action bars 120 pivoted with respect to power module body 110, spring 127 provided a feedback power, makes action bars 120 return back to primary importance (as shown in Figure 2) whereby.

Fixture 123 passes the perforation (not shown in Fig. 3) of flange 116b and the perforation 1261 of secondary side lever 126, makes secondary side lever 126 be hubbed at the flange 116b of loam cake 116 in contrast to a side of side cover 115.

The mode of operation of power module fixed mechanism 100 of the present invention is described as follows: see also Fig. 2, Fig. 5, Fig. 5 shows the lateral plan when the power module fixed mechanism 100 of preferred embodiment of the present invention is applied to an electronic equipment 20 and is positioned at primary importance

When electronic equipment 20 in when running, the action bars 120 of power module fixed mechanism 100 is positioned at primary importance, this moment, the projection 1283 of conjunction 128 was arranged in the perforation 1163 of loam cake 116 and against the draw-in groove 25 of electronic equipment 20.So, power module fixed mechanism 100 can firm being fixed in the middle of the electronic equipment 20.And, as shown in Figure 2 as, the supporter 129 of action bars 120 is resisted against plug 50, therefore the handle 122 of action bars 120 fits in protecgulum 112, can't pivot with respect to power module body 110.

See also Fig. 2, Fig. 6, Fig. 6 shows the lateral plan when the power module fixed mechanism 100 of preferred embodiment of the present invention is applied to an electronic equipment 20 and is positioned at the second place.When shifting out power module fixed mechanism 100 in electronic equipment 20, the user at first must pull out plug 50 from socket 130, makes the supporter 129 of action bars 120 no longer be resisted against plug 50.Then, holds handle 122, and bestow the upwards pulling force of (Y-direction) of action bars 120 1, action bars 120 is pivoted with respect to power module body 110.As shown in Figure 6, when action bars 120 was positioned at the second place, the projection 1283 of conjunction 128 broke away from from the perforation 1163 of loam cake 116 and the draw-in groove 25 of electronic equipment 20, and spring 127 is compressed because of external force.At this moment, the user continues holds handle 122, and bestows action bars 120 1 pulling force of (directions X) outwardly, makes power module fixed mechanism 100 shift out electronic equipment 20.After user institute externally applied forces removes, action bars 120 will automatically return to primary importance (as shown in Figure 5) because of the feedback power of spring 127.

The form of action bars 120 is not limited by above-described embodiment.As shown in Figure 7, compared to action bars shown in Figure 4 120, action bars 120 ' omits the setting of secondary side lever 126, but still can reach the effect that the present invention wants to finish.On the other hand, when socket (not shown in Fig. 7) when the position changes to some extent, the position of supporter 129 also can be adjusted accordingly.

The action bars of power module fixed structure of the present invention provides the user more easily holding mode, simplifies the program that shifts out the power module body from electronic equipment.In addition, utilize configuration relation relative between action bars and socket, more provide electronic equipment safer not power machine system.

Although the present invention is exposed in preferred embodiment; so it is not to limit the present invention; any those of ordinary skills; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is as the criterion when looking appended the scope that claim defines.

Claims (12)

1. a power module fixed mechanism is characterized in that, comprising:

One power module body comprises the loam cake of a protecgulum and adjacent this protecgulum; And

One action bars is hubbed at a side of this loam cake at least, and wherein when this action bars was positioned at a primary importance, this action bars fitted in this protecgulum.

2. such as claim 1 a power module fixed mechanism of stating, it is characterized in that, this loam cake of this power module body comprises a perforation, and this action bars comprises a conjunction, and wherein when this action bars was positioned at a primary importance, this conjunction was linked to this perforation.

3. power module fixed mechanism as claimed in claim 2 is characterized in that, this action bars also comprises:

One master bar is hubbed at the loam cake of this power module body, it is characterized in that, this conjunction is arranged at this master bar; And

The leader is linked to this master bar, wherein when this action bars is positioned at this primary importance, and this handle this protecgulum of fitting.

4. power module fixed mechanism as claimed in claim 3 is characterized in that, this conjunction is arranged at the terminal of this master bar and comprises a projection, and when this action bars was positioned at this primary importance, this projection was positioned at the perforation of this loam cake.

5. power module fixed mechanism as claimed in claim 4 is characterized in that, this conjunction also comprises:

One top board is linked to this master bar, and wherein this projection is arranged at this top board; And

Side plate links a side of this master bar with respect to this top board, this side plate is linked to this top board.

6. power module fixed mechanism as claimed in claim 5, it is characterized in that, this action bars also comprises a spring that is arranged between this side plate and this master bar, and an end of this spring is linked to this master bar, and the other end of this spring is linked to the protecgulum of this power module body.

7. power module fixed mechanism as claimed in claim 6 is characterized in that, also comprises a connecting piece, passes this master bar, this spring and this side plate, makes this master bar be hubbed at the loam cake of this power module body.

8. power module fixed mechanism as claimed in claim 3 is characterized in that, this action bars also comprises a secondary side lever, and the loam cake that is hubbed at this power module body is different from the side that this master bar is pivoted, and this handle is linked between master bar and this pair side lever.

9. power module fixed mechanism as claimed in claim 8 is characterized in that, this handle fits in this protecgulum away from the zone of this loam cake.

10. power module fixed mechanism as claimed in claim 3 is characterized in that, the shape complementarity of the side that this handle and this protecgulum are fitted is in the shape of this protecgulum.

11. power module fixed mechanism as claimed in claim 1 is characterized in that, the protecgulum of this power module body comprises a socket in order to link a plug, and when this action bars was positioned at this primary importance, this action bars fitted in this socket away from a side of this loam cake.

12. power module fixed mechanism as claimed in claim 11 is characterized in that this action bars comprises a supporter, is resisted against this plug.

Images