CN218447442U - High-frequency transformer mounting structure with shock-absorbing function - Google Patents

Abstract

The utility model provides a high-frequency transformer mounting structure with shock-absorbing function, relate to high-frequency transformer technical field, including high-frequency transformer, damping base is installed to high-frequency transformer's bottom block, a pair of fixing base is installed to damping base's bottom, the upper end face of fixing base all installs the suit seat, it installs main spacing post to set up in the suit seat, the bottom of main spacing post is located the suit seat and installs first damping spring, and the top of main spacing post is connected and is installed the mounting panel, a pair of spouts has been seted up to the bottom that is located damping base between a pair of fixing base, a pair of "L" type sliders are all slidably installed in a pair of spouts, and a pair of "L" type sliders and spouts install second damping spring, this kind of mounting structure can distinguish and install with traditional bolt fastening's form, improve the installation effectiveness; and through the double buffering and damping effects, the high-frequency transformer has better stability in the working process.

Description

High-frequency transformer mounting structure with shock-absorbing function

Technical Field

The utility model belongs to the technical field of high-frequency transformer, more specifically says, in particular to high-frequency transformer mounting structure with shock-absorbing function.

Background

The high-frequency transformer is a power transformer with the working frequency exceeding the intermediate frequency, is mainly used as a high-frequency switching power transformer in a high-frequency switching power supply, is also used as a high-frequency inverter power transformer in a high-frequency inverter power supply and a high-frequency inverter welding machine, and can effectively protect a circuit by mounting the high-frequency transformer on a circuit board, so that the whole circuit is more stable and safer.

Based on the above, the present inventors found that the following problems exist: the high-frequency transformer that has now can receive the influence of vibration at the in-process that uses, and the hookup location of high-frequency transformer and circuit board can take place not hard up, leads to high-frequency transformer and circuit board separation for break away from the circuit in the high-frequency transformer, makes the intercommunication of circuit receive the influence.

In view of the above, research and improvement are made on the existing structure and defects, and a high-frequency transformer mounting structure with a damping function is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

The utility model discloses high frequency transformer mounting structure's with shock-absorbing function purpose and efficiency are reached by following specific technological means:

the utility model provides a high frequency transformer mounting structure with shock-absorbing function, includes high frequency transformer, vibration damping mount is installed to high frequency transformer's bottom block, a pair of fixing base is installed to vibration damping mount's bottom, the suit seat is all installed to the up end of fixing base, establish in the suit seat and install main spacing post, the bottom of main spacing post is located the suit seat and installs first damping spring, just it is a pair of to connect at the top of main spacing post and install the mounting panel, it is a pair of spout has been seted up to be located vibration damping mount's bottom between the fixing base, and is a pair of equal slidable mounting has a pair of "L" type slider in the spout, and is a pair of install second damping spring in "L" type slider and the spout, and is a pair of first connection pin is installed in the one side of keeping away from second damping spring to "L" type slider, the second is connected the pin, just first connection pin is connected through the crossbar between pin and the second connection pin.

Furthermore, the upper end face of the mounting plate is provided with an inserting hole, and a clamping mechanism is arranged in the inserting hole.

Further, the clamping mechanism comprises a cavity, an arc-shaped protruding block is arranged in the cavity in a clamping mode, and a return spring is arranged at the other end of the arc-shaped protruding block in the cavity.

Further, the spring stiffness coefficient of the first damping spring is larger than that of the second damping spring.

Furthermore, the outer wall of the high-frequency transformer is provided with groove edges, and the groove edges are embedded with radiating fins.

Furthermore, lower feet are installed at four corners of the bottom end of the damping base, and anti-slip pads are bonded to the bottom ends of the lower feet.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses, through "L" type slider, the use of second damping spring cooperation crossbar, can make the whole shock attenuation effect of high frequency transformer body cushion on the mounting panel, make whole shock attenuation effect better even, and the use of the first damping spring of installation in the deuterogamying cover barrel seat, can unload the power through first damping spring with the buffer power that the second damping spring did not unload the power and handle, through the shock-absorbing structure design of above-mentioned both structures, can very big improvement this kind of whole shock attenuation effect of high frequency transformer, secondly; through the design of the radiating fins, the overall radiating effect of the high-frequency transformer can be improved, and the situation that electrical components inside the high-frequency transformer cannot work normally due to overhigh temperature is prevented.

Drawings

Fig. 1 is a schematic perspective view of an installation structure of a high-frequency transformer with a shock-absorbing function of the present invention;

fig. 2 is a schematic plane view of a shock-absorbing base structure of a high-frequency transformer mounting structure with a shock-absorbing function of the present invention;

fig. 3 is an enlarged schematic view of point a in the second installation structure diagram of the high-frequency transformer with damping function of the present invention;

fig. 4 is an enlarged schematic diagram of point B in a mounting structure diagram of a high-frequency transformer with a shock-absorbing function according to the present invention;

in the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a damping mount; 2. ground feet; 3. a high-frequency transformer; 4. heat dissipation fins; 5. a cross bar; 6. mounting a plate; 7. a chute; 8. an L-shaped sliding block; 9. a second damping spring; 10. a fixed seat; 11. a first damping spring; 12. a primary limit post; 13. a return spring; 14. an arc-shaped convex block; 15. and inserting into the hole.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are provided to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, rather than to indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

As shown in figures 1 to 4:

the utility model provides a high frequency transformer mounting structure with shock-absorbing function, including high frequency transformer 3, vibration damping mount 1 is installed to high frequency transformer 3's bottom block, a pair of fixing base 10 is installed to vibration damping mount 1's bottom, the suit seat is all installed to the up end of fixing base 10, establish in the suit seat and install main spacing post 12, the bottom of main spacing post 12 is located the suit seat and installs first damping spring 11, just it is a pair of to connect at the top of main spacing post 12 installs mounting panel 6, a pair of spout 7 has been seted up to the bottom that is located vibration damping mount 1 between the fixing base 10, and is a pair of equal slidable mounting has a pair of "L" type slider 8 in spout 7, and is a pair of install second damping spring 9 in "L" type slider 8 and spout 7, and is a pair of "L" type slider 8 installs first connection pin in the one side of keeping away from second damping spring 9, the second connection pin is installed to the bottom of mounting panel 6, just connect between first connection pin and the second connection pin through crossbar 5 and be connected, use the cooperation of second damping spring 9, can unload the whole second damping spring and handle second damping spring through the high frequency damping spring. Wherein, the cross rod 5 comprises two long rods, and the middle parts of the two long rods are hinged.

As a further improvement to the above scheme, the upper end surface of the mounting plate 6 is provided with insertion holes 15, and the insertion holes 15 are internally provided with a clamping mechanism. The block mechanism includes the cavity, arc protruding piece 14 is installed to the block in the cavity, just reset spring 13 is installed to the other end that arc protruding piece 14 is located the cavity, uses through arc protruding piece 14 cooperation reset spring 13, can insert the participate in of high frequency transformer and establish and insert and establish hole 15 to carry out effectual fixed, be different from traditional bolt fastening mode, improve its installation effectiveness.

As a further improvement to the above solution, the spring stiffness coefficient of the first damping spring 11 is greater than the spring stiffness coefficient of the second damping spring 9, and the damping mount 1 can have a double-buffering damping effect by differentiating the spring stiffness coefficients of the first damping spring 11 and the second damping spring 9, so as to achieve the damping effect according to the self-weight of the high-frequency transformer body.

As a further improvement to the above scheme, the outer wall of the high-frequency transformer is provided with a groove edge, and the groove edge is embedded with the heat dissipation fins 4, wherein the heat dissipation fins 4 are designed to improve the overall heat dissipation effect of the high-frequency transformer, thereby preventing the internal electrical components of the high-frequency transformer from being incapable of working normally due to overhigh temperature.

Lower margin 2 is all installed in vibration damping mount 1's bottom four corners, just the bottom of lower margin 2 bonds there is the slipmat, and wherein the design of slipmat can make the frictional force increase on this kind of vibration damping mount body and ground to can improve its stability.

The specific use mode and function of the embodiment are as follows:

the utility model discloses, install damping mount 1 after the assigned position, put high frequency transformer 3 on mounting panel 6's surface, and make participating in of high frequency transformer 3 insert establish in the hole 15, carry out the block installation through arc protruding piece 14 cooperation reset spring 13 can, slide to both sides and can extrude second damping spring 9's atress space at in-service use in-process "L" type slider 8, and "L" type slider 8 is connected with mounting panel 6 through the crossbar 5, thereby can carry out comprehensive even power of unloading shock attenuation to mounting panel 6, make its shock attenuation effect better, simultaneously through the spring stiffness coefficient who distinguishes first damping spring 11 and second damping spring 9, can make first damping spring 11 and second damping spring 9 possess dual absorbing effect, make high frequency transformer have better stability at the in-process of work.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. A high-frequency transformer mounting structure with a shock-absorbing function, comprising a high-frequency transformer (3), characterized in that: damping mount (1) is installed to the bottom block of high frequency transformer (3), a pair of fixing base (10) is installed to the bottom of damping mount (1), the suit seat is all installed to the up end of fixing base (10), it installs main spacing post (12) to establish in the suit seat, the bottom of main spacing post (12) is located the suit seat and installs first damping spring (11), just mounting panel (6), a pair of are installed in the top connection of main spacing post (12) be located the bottom of damping mount (1) between fixing base (10) and seted up a pair of spout (7), and is a pair of equal slidable mounting has a pair of "L" type slider (8) in spout (7), and is a pair of install second damping spring (9) in "L" type slider (8) and spout (7), and is a pair of "L" type slider (8) install first connection pin in the one side of keeping away from second damping spring (9), the second connection pin is installed to the bottom of mounting panel (6), just first connection pin is connected through cross bar (5) between first connection pin and the second connection pin.

2. A high-frequency transformer mounting structure with a shock-absorbing function as claimed in claim 1, wherein: the upper end face of the mounting plate (6) is provided with an inserting hole (15), and a clamping mechanism is arranged in the inserting hole (15).

3. A high-frequency transformer mounting structure with a shock-absorbing function as claimed in claim 2, wherein: the clamping mechanism comprises a cavity, an arc-shaped protruding block (14) is clamped in the cavity, and a return spring (13) is arranged at the other end of the arc-shaped protruding block (14) in the cavity.

4. A high-frequency transformer mounting structure with shock-absorbing function as claimed in claim 1, wherein: the spring stiffness coefficient of the first damping spring (11) is larger than that of the second damping spring (9).

5. A high-frequency transformer mounting structure with a shock-absorbing function as claimed in claim 1, wherein: the outer wall of the high-frequency transformer is provided with groove edges, and the groove edges are embedded with radiating fins (4).

6. A high-frequency transformer mounting structure with shock-absorbing function as claimed in claim 1, wherein: lower margin (2) are all installed in the bottom four corners of vibration damping mount (1), just the bottom bonding of lower margin (2) has the slipmat.

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