CN216353667U - Mutual inductor guide rail mounting base capable of realizing bidirectional mounting - Google Patents

Abstract

The utility model provides a mutual inductor guide rail mounting base capable of realizing bidirectional mounting, which is characterized in that two groups of clamping parts are arranged at the bottom of the mutual inductor guide rail mounting base capable of realizing bidirectional mounting, wherein the two groups of clamping parts arranged on the mutual inductor guide rail mounting base are the same or different components. The mutual inductor guide rail mounting base provided by the utility model can realize mounting and fixing in different directions.

Description

Mutual inductor guide rail mounting base capable of realizing bidirectional mounting

Technical Field

The utility model relates to the field of electrical connectors, and belongs to a mutual inductor guide rail mounting base capable of realizing bidirectional mounting.

Background

In the prior art, the common design can only realize the fixation in a single installation direction, and the mold can not be rapidly disassembled under the condition of realizing the bidirectional installation of the guide rail simply and conveniently; or in order to realize the bidirectional installation of the product, the structure in the mould is drawn and inserted in a sequential mode, but the reject ratio of the product is increased in the using process, and the cost of the product is increased.

When the clamping is positioned, the condition that the clamping is not in place sometimes occurs in the installation process because the connection relation between the product and the guide rail cannot be observed visually, so that the product drops and potential safety hazards are caused

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a mutual inductor guide rail mounting base which can be quickly adapted to the current mutual inductor in the market and can realize quick disassembly of the mutual inductor and can realize bidirectional mounting.

In order to achieve the purpose, the utility model adopts the following main technical scheme: the mutual inductor guide rail installation base that can realize two-way installation, the bottom of the mutual inductor guide rail installation base that can realize two-way installation is provided with two sets of joint portions, wherein two sets of joint portions that mutual inductor guide rail installation base set up are the same or inequality subassembly.

The technical contents show that the utility model has the beneficial effects that:

this casing base can cooperate with current transformer casing now, can realize the installation at two ascending current transformer of side, simple structure, and application that can be quick.

In the use, the optional multiple joint portion that is provided with, and each joint portion all can realize the joint of multiple orientation under the different integrated form, with different use scenes.

It should be understood that all combinations of the foregoing concepts and additional concepts described in greater detail below can be considered as part of the inventive subject matter of the present disclosure unless such concepts are mutually inconsistent. In addition, all combinations of claimed subject matter are considered a part of the inventive subject matter of this disclosure.

The foregoing and other aspects, embodiments and features of the present teachings can be more fully understood from the following description taken in conjunction with the accompanying drawings. Additional aspects of the present invention, such as features and/or advantages of exemplary embodiments, will be apparent from the description which follows, or may be learned by practice of specific embodiments in accordance with the teachings of the present invention.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. The relevant reference designations are as follows: 1. the transformer comprises a transformer body, a base, a working tool.

For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the mutual inductor and the base of the utility model which are arranged on a guide rail.

Fig. 2 is a schematic structural view of the mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to the present invention, which adopts the second clamping portion.

Fig. 3 is a schematic structural view of the mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to the present invention, in which a first clamping portion and a second clamping portion are combined.

Fig. 4 is a schematic structural diagram of the slider of the present invention.

Fig. 5 is a bottom view of fig. 2 of the present invention.

Fig. 6 is a bottom view of fig. 3 of the present invention.

Fig. 7 is a cross-sectional view of the present invention taken along the plane B-B in fig. 6.

Fig. 8 is a cross-sectional view of the present invention taken along the plane a-a in fig. 3.

Detailed Description

In order to better understand the technical content of the present invention, specific embodiments are described below with reference to the accompanying drawings.

In this disclosure, aspects of the present invention are described with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the present disclosure are not necessarily intended to include all aspects of the utility model. It should be appreciated that the various concepts and embodiments described above, as well as those described in greater detail below, may be implemented in any of numerous ways, as the disclosed concepts and embodiments are not limited to any one implementation. In addition, some aspects of the present disclosure may be used alone, or in any suitable combination with other aspects of the present disclosure.

One skilled in the relevant art will recognize that the embodiments may be practiced without one or more of the specific details, or with other alternative and/or additional methods, materials, or components. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of embodiments of the utility model. Similarly, for purposes of explanation, specific numbers, materials and configurations are set forth in order to provide a thorough understanding of the embodiments of the utility model. However, the utility model may be practiced without specific details. Further, it should be understood that the embodiments shown in the figures are illustrative representations and are not necessarily drawn to scale.

As shown in fig. 1-8, a mutual inductor guide rail installation base capable of realizing bidirectional installation comprises two parts, which are respectively a mutual inductor 11 installation matching end and a guide rail installation end, wherein the mutual inductor 1 installation matching end is provided with a buckle 31, wherein the buckle 31 is located on two side edges of the mutual inductor 1 installation matching end, and the guide rail installation end is located at the bottom of the mutual inductor guide rail installation base capable of realizing bidirectional installation and is provided with two oppositely arranged clamping parts.

Wherein the buckles 31 are one pair or two pairs arranged diagonally.

Wherein buckle 31 includes joint fixed part 35, elastic connection portion 32, fixed part 35, wherein joint fixed part 35 includes first joint limit 34, second joint limit 37 and third joint limit 33, wherein one side on first joint limit 34 is crossing with one side on second joint limit 37, the another side on second joint limit 37 is crossing with third joint limit 33, the another side on third joint limit 33 is crossing with elastic connection portion 32, wherein the another side on first joint limit 34 is crossing with fixed part 35.

Wherein the third clamping edge 33 intersects the elastic connecting portion 32, and the included angle between the plane of the third clamping edge 33 and the plane of the elastic connecting portion 32 is 90-160 °. Wherein the clamping fixing part 35 is matched with a fixing hole arranged at the bottom of the mutual inductor 1, and the clamping fixing part 35 is clamped in the fixing hole arranged at the bottom of the mutual inductor 1 in the implementation process.

Wherein the fixing portion 35 is located the side of the mutual inductor guide rail mounting base that can realize two-way installation, just be provided with cavity 36 between the bottom surface of the mutual inductor guide rail mounting base that can realize two-way installation of fixing portion 35, wherein cavity 36 mainly used realizes going out the core of the part of buckle 31 and the elasticity buckle 31 of buckle 31 part, in the implementation, and because buckle 31 is not in the same plane with fixing portion 35, so in order to realize the drawing of patterns of buckle 31, need have relevant space to give the drawing of patterns of mould. In order to achieve the effectiveness of the product and the simplicity of the mold during demolding, demolding of the relevant product requires no obstruction in one direction, as shown in the accompanying drawings and described below.

The elastic connection portion 32 is located on the upper portion of the buckle 31 and intersects with the clamping portion.

The joint portion that sets up on the elastic connection portion 32 and contact bottom mutual-inductor 1 is the diagonal and arranges, just joint portion is the diagonal and arranges and has at least a set of.

The bottom that can realize the mutual-inductor guide rail installation base of two-way installation is provided with two sets of joint portions, wherein two sets of joint portions that can realize the mutual-inductor guide rail installation base setting of two-way installation are the same or different subassembly.

The joint portion that mutual-inductor guide rail installation base that can realize two-way installation set up is the first joint portion including first shank 18 and second shank 19, wherein first shank 18 and second shank 19 pass through the casing and connect.

First shank 18 inboard is provided with first joint groove 15, first joint groove 15 contacts with one side of guide rail, 19 inboards of second shank are provided with second joint groove 13, second joint groove 13 contacts with the another side of guide rail, be provided with leading-in inclined plane on the second shank 19, the outside of second shank 19 is provided with the operation recess 14 that holds operating tool 3, and when first joint portion was connected with the guide rail, through placing into operation recess 14 with operating tool 3, pull operating tool 3, make second shank 19 and guide rail separation to make current transformer 1 and guide rail separation.

Wherein, when the plane 16 of the first leg 18 and the second leg 19 is higher or lower than the bottom surface 17 of the transformer guide rail mounting base capable of realizing bidirectional mounting, and the plane 16 of the first leg 18 and the second leg 19 is higher than the bottom surface 17 of the transformer guide rail mounting base capable of realizing bidirectional mounting, a gap 20 is formed between the first leg 18 and the second leg 19 and the casing of the transformer 1, and when the plane 16 of the first leg 18 and the second leg 19 is lower than the bottom surface 17 of the transformer guide rail mounting base capable of realizing bidirectional mounting, because the casing connecting the first leg 18 and the second leg 19 is at a distance from the bottom surface, the first leg 18 and the second leg 19 are not at the same plane with the bottom surface of the transformer guide rail mounting base 2 capable of realizing bidirectional mounting, the left and right sides of the first leg portion 18 and the second leg portion 19 are separate spaces.

After first shank 18 and second shank 19 are installed on the guide rail, if need will realize mutual-inductor guide rail installation base 2 and the guide rail separation of two-way installation, place operating means 3's bottom in operation recess 14, make the operation move to the direction that is close to mutual-inductor 1, because operating means 3's bottom is placed in operation recess 14, the event makes second shank 19 to the direction motion of keeping away from mutual-inductor 1, thereby make first joint portion and guide rail phase separation, thereby make mutual-inductor guide rail installation base 2 and the guide rail separation that can realize two-way installation, thereby reach the effect of quick connection and separation.

The clamping part of the mutual inductor guide rail mounting base 2 capable of realizing bidirectional mounting can also be a second clamping part matched with a third leg part 21 and a fourth leg part 22, wherein the third leg part 21 and the fourth leg part 22 are respectively arranged at the bottom of the mutual inductor guide rail mounting base 2 capable of realizing bidirectional mounting, and the third leg part 21 and the fourth leg part 22 are oppositely arranged.

The third leg 21 is provided with a third snap groove 6, said third snap groove 6 being in contact with the guide rail.

The fourth leg 22 comprises a fixed seat 23 and a sliding block 24, wherein the fixed seat 23 is arranged at the bottom of the mutual inductor guide rail mounting base 2 capable of realizing bidirectional mounting, and the fixed seat 23 is matched with the sliding block 24 to be used for realizing contact with the other end of the guide rail.

The fixed seat 23 is provided with a first guide groove and a second guide groove 25, the first guide groove is arranged at the bottom of the fixed guide rail of the mutual inductor 1, the first guide groove is provided with a first groove 7, a protruding part 8 and a hole part 9, and the first groove 7 is connected with the protruding part 8; the second guide groove 25 is oppositely arranged on two side edges of the fixed seat 23, the two side edges are planes perpendicular to a plane where the bottom of the fixed guide rail of the mutual inductor 1 is located, and the second guide groove 25 is used for positioning the sliding block 24 in the vertical direction and the left-right direction of the fixed seat 23. The two sides are also provided with a stop position 26, the stop position 26 is used for realizing the positioning of the slide block 24 in the direction perpendicular to the guide rail, and the two sides are optionally provided with a locking buckle 27.

The sliding block 24 is provided with a sliding groove which is used for matching with a second guide groove 25 arranged on the fixed seat 23, the upper part of the sliding groove is provided with a boss 28 which is in a contact and separation state with the clamping position 26, the upper part of the sliding groove is optionally provided with a sliding stop part 29 which is matched with the locking buckle 27 on the fixed seat 23, wherein the locking buckle 27 is used for moving to a corresponding position, the locking buckle 27 and the sliding stop part 29 are separated from sliding contact, and the sliding stop part 29 and the locking buckle 27 are separated to make a sound after being contacted, so that an operator can intuitively know that the operator slides to the corresponding position. When different steps are adopted, the realization mode is different, for example, before the installation of the guide rail is started, the sliding stop part 29 is moved to the position where the sliding stop part slides over the locking buckle 27, the bottom surface of the sliding stop part 29 is matched with the upper bottom surface of the locking buckle 27, so that the sliding stop part 29 can be directly clamped on the locking buckle 27, and when the mutual inductor guide rail installation base capable of realizing the bidirectional installation is installed on the guide rail, the sliding block is moved to clamp the sliding block on the guide rail. When the guide rail mounting foot is opened, the sliding part 29 can be used as a movable clamping hook to give obvious hand feeling feedback to a client, can play a role in stopping position, and can be reset in a hand-pushing mode during batch mounting and dismounting.

The slider 24 is further provided with an elastic arm 11, one end of the elastic arm 11 is fixed on the slider 24, the other end of the elastic arm 11 is a free end 30, in the process that the slider 24 is installed on the fixing seat 23, the free end 30 of the elastic arm 11 is in contact with the first guide groove, the slider 24 continues to move, and the free end 30 of the elastic arm 11 slides through the protruding portion 8 and then enters the hole portion 9, so that the slider 24 is fixed on the fixing seat 23.

The front end of the sliding block 24 is provided with a guide inclined plane 10, and the guide inclined plane 10 is used for realizing the wire function in the process of clamping the other end of the guide rail and the sliding block 24.

In the implementation process, install slider 24 on fixing base 23, make the third joint groove 6 of third shank 21 contact with the one end of guide rail, the fixed guide rail of downward movement mutual-inductor 1 for the other end of guide rail moves along direction inclined plane 10, slider 24 moves under the effect of force, and wherein the spout that sets up on slider 24 makes slider 24 move to the direction of keeping away from the guide rail after sliding, and in slider 24 motion process, the elastic arm 11 takes place to warp, and the team's rule leaves the spout after sliding along the spout, and elastic arm 11 makes slider 24 move to the direction of being close to the guide rail under the elastic action, thereby makes the other end contact of spout and guide rail, makes the mutual-inductor guide rail installation base 2 that can realize two-way installation install on the guide rail.

In the separation process, the lower end of the operating tool 3 is placed in the operating hole 12 formed in the slider 24, and the operating tool 3 is operated to move the operating tool 3 toward the third catching groove 6, so that the slider 24 is moved away from the third catching groove 6, thereby separating the other end of the guide rail from the slider 24.

In a further embodiment, the first clamping portion and the second clamping portion may be combined arbitrarily, that is, the first clamping portion/the second clamping portion may be adopted in both directions, or the first clamping portion and the second clamping portion may be mixed in both directions to fix the two directions.

In the above embodiment, the transformer rail mounting base 2 capable of realizing bidirectional mounting of the present invention can be quickly adapted to the transformer 1 in the prior art, and in the implementation process, the mounting of the transformer 1 and the rail can be quickly realized, and the structure is simple, and the fixation of the transformer 1 can be realized under the condition of adopting a set of buckles 31. In order to meet the requirements of core pulling and the strength of products under the fixed condition of the mutual inductor 1 and the requirements of actual installation positions of the products, the mode that the first clamping portion and the second clamping portion are mixed and matched is adopted to realize the fixation of the mutual inductor 1 in two directions, and under the condition that the size of the mutual inductor guide rail installation base 2 capable of realizing bidirectional installation is required, the mode that the first clamping portion and the second clamping portion are mixed and matched or the mode that the second clamping portion is fixed is adopted in two directions is needed.

Because the footing needs to realize the loose core of left and right directions under the condition that adopts first joint portion, and in order to realize buckle 31's result of use, need the loose core in buckle 31's upper and lower direction, under this condition, can cause the overlapping of the direction of loosing core of the loose core part of left and right directions and upper and lower direction, so need carry out relevant dodging in the design process to guarantee the stability of the design of product structure.

The previous description of the utility model is provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. Thus, the present invention is not intended to be limited to the examples and designs described in the specification but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model. Therefore, the protection scope of the present invention should be determined by the appended claims.

Claims (11)

1. The utility model provides a can realize mutual-inductor guide rail installation base of two-way installation, its characterized in that, the bottom that can realize mutual-inductor guide rail installation base of two-way installation is provided with two sets of joint portions, wherein two sets of joint portions that mutual-inductor guide rail installation base set up are the same or inequality subassembly.

2. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 1, wherein the clamping portion is a first clamping portion including a first leg portion and a second leg portion and/or a second clamping portion including a third leg portion and a fourth leg portion.

3. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 2, wherein a first clamping groove is arranged on the inner side of the first leg, the first clamping groove is in contact with one edge of the guide rail, a second clamping groove is arranged on the inner side of the second leg, the second clamping groove is in contact with the other edge of the guide rail, a guiding inclined plane is arranged on the second leg, and an operation groove for accommodating an operation tool is arranged on the outer side of the second leg.

4. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 2 or 3, wherein the plane of the upper plane of the first leg portion and the second leg portion is higher than or lower than the bottom surface of the mutual inductor guide rail mounting base, and when the plane of the upper plane of the first leg portion and the second leg portion is higher than the bottom surface of the mutual inductor guide rail mounting base, gaps are formed between the first leg portion and the mutual inductor shell and between the second leg portion and the mutual inductor shell.

5. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 2, wherein the third leg portion and the fourth leg portion are respectively disposed at the bottom of the mutual inductor guide rail mounting base, and the third leg portion and the fourth leg portion are disposed oppositely.

6. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 5, wherein the third leg part is provided with a third clamping groove, and the third clamping groove is in contact with the guide rail.

7. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 5 or 6, wherein the fourth leg comprises a fixed seat and a sliding block, wherein the fixed seat is arranged at the bottom of the mutual inductor guide rail mounting base, and the fixed seat and the sliding block are matched for realizing contact with the other end of the guide rail;

the fixed seat is provided with a first guide groove and a second guide groove, the first guide groove is arranged at the bottom of the fixed guide rail of the mutual inductor, the first guide groove is provided with a first groove, a protruding part and a hole part, and the first groove is connected with the protruding part; the second guide grooves are oppositely arranged on two side edges of the fixed seat, the two side edges are planes vertical to the plane where the bottom of the fixed guide rail of the mutual inductor is located, and the second guide grooves are used for realizing the positioning of the sliding block in the vertical direction and the left-right direction of the fixed seat; and clamping positions are further arranged on the two sides and are used for positioning the sliding block in the direction perpendicular to the guide rail.

8. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 7, wherein locking buckles are arranged on the two side edges.

9. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 8, wherein the locking buckle is an acoustic feedback device, and the acoustic feedback device can trigger a reset action by the position change of the sliding block and make a sound in the reset action.

10. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 8 or 9, wherein a cavity is arranged between the locking buckle and the sliding block, and the cavity enables the locking buckle to be elastically connected to the sliding block.

11. The mutual inductor guide rail mounting base capable of realizing bidirectional mounting according to claim 7, wherein the front end of the sliding block is provided with an operation hole, and the operation hole is used for realizing the movement of the sliding block.

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