CN110379588B - Voltage doubling plate assembly for transformer equipment and transformer equipment - Google Patents

Abstract

The present invention provides a voltage doubling plate component for a transformer device and the transformer device, wherein the transformer component comprises: the first insulation sleeve plate is enclosed to form a first space, a middle partition plate is arranged in the center of the first space, the two pressure doubling plates are symmetrically arranged on two sides of the middle partition plate respectively, and the two pressure doubling plates form a certain angle with each other; the first isolation sleeve plate and the middle partition plate are insulation plates. The voltage doubling plate component that this embodiment provided for the parallel scheme of putting of current voltage doubling plate, the voltage doubling plate size that two symmetries in the first isolated lagging set up is great, can effectively improve the working property of the transformer equipment that voltage doubling plate component used. The transformer device provides relatively closed installation space for each high-voltage component, realizes high-voltage isolation capacity among the high-voltage components, and greatly reduces the overall size of the transformer device.

Description

Voltage doubling plate assembly for transformer equipment and transformer equipment

Technical Field

The invention relates to the technical field of transformers, in particular to a voltage doubling plate assembly for transformer equipment and the transformer equipment.

Background

With the development of transformer technology, the overall equipment functions taking the high-frequency high-voltage generator as a key component in the application market are more and more, and the assembly requirement in the transformer is higher. The existing transformer equipment comprises a double-pressing plate, a high-voltage transformer, a bulb tube and other basic structures, wherein the two double-pressing plates are arranged in parallel relatively, the occupied space is large, and the transformation function of the high-voltage transformer is poor.

Therefore, the technical problem that the voltage transformation function of the high-voltage transformer is poor due to the parallel arrangement scheme of the voltage doubling plates exists in the conventional transformer equipment.

Disclosure of Invention

The embodiment of the invention provides a voltage doubling plate component for transformer equipment and the voltage doubling plate component, and aims to solve the technical problem that the voltage transformation function of a high-voltage transformer is poor due to the parallel arrangement scheme of the voltage doubling plates in the conventional transformer equipment.

In order to achieve the above purpose, the embodiments of the present invention provide the following specific schemes:

in a first aspect, an embodiment of the present invention provides a voltage doubling plate assembly for a transformer apparatus, including:

the first insulation sleeve plate is enclosed to form a first space, a middle partition plate is arranged in the center of the first space, the two pressure doubling plates are symmetrically arranged on two sides of the middle partition plate respectively, and the two pressure doubling plates form a certain angle with each other;

the first isolation sleeve plate and the middle partition plate are insulation plates.

Optionally, the first space is a cubic space;

the middle partition plate isolates the first space into two cubic spaces which are transversely arranged in parallel.

Optionally, the first isolation sleeve plate includes a first top plate, a first bottom plate, a first side plate and a second side plate, the first top plate and the first bottom plate are disposed opposite to each other, and the first side plate and the second side plate are disposed between the first top plate and the first bottom plate opposite to each other.

Optionally, the two pressure doubling plates are positioned on the edges of the first bottom plate and abutted to the middle partition plate, and each pressure doubling plate is fixed along the diagonal of the cubic space where the pressure doubling plate is positioned.

Optionally, grooves are formed in the inner surface of the first side plate and the inner surface of the second side plate, one end of the double pressing plate is clamped in the groove in the inner surface of the first side plate, and the other end of the double pressing plate is clamped in the groove in the inner surface of the second side plate.

In a second aspect, an embodiment of the present invention further provides a transformer apparatus, including a bulb, a high-voltage transformer, and the voltage doubling plate assembly described in any one of the first aspects;

the bulb tube, the high-voltage transformer and the voltage doubling plate component are mutually isolated and arranged in an insulating mode.

Optionally, the high-voltage transformer is arranged on one side of the first top plate, which is far away from the double-pressing plate;

the bulb is arranged on one side, far away from the pressure doubling plate, of the first bottom plate.

Optionally, the transformer device further includes a first support frame and a second support frame, the first support frame is disposed at the anode of the bulb tube, and the first support frame is used for supporting the first insulating sleeve plate;

the second support frame is arranged on the cathode of the bulb tube and used for supporting the bulb tube.

Optionally, the first support frame comprises a cross bar and two support legs, the two support legs are respectively arranged at two ends of the cross bar, the cross bar is fixedly connected with the first bottom plate, and an anode of the bulb tube is arranged between the two support legs; and/or the presence of a gas in the gas,

a semicircular groove is formed in the part, close to the second supporting frame, of the first side plate, a semicircular groove is formed in the part, close to the first side plate, of the second supporting frame, and the semicircular groove in the first side plate and the semicircular groove in the second side plate are spliced to form a circular through hole;

the cathode of the bulb tube extends into the circular through hole between the first side plate and the second supporting frame.

Optionally, the transformer apparatus further includes: the second isolation sleeve plate is enclosed to form a second space, the high-voltage transformer is arranged in the second space, and the second isolation sleeve plate is an insulation plate.

In the embodiment of the invention, the pressure doubling plate component comprises a first isolation sleeve plate and two pressure doubling plates, wherein the two pressure doubling plates are positioned in a first space formed by enclosing the first isolation sleeve plate. The center of the first space is provided with a middle clapboard, the two pressure doubling plates are respectively and symmetrically arranged at two sides of the middle clapboard, and the two pressure doubling plates form a certain angle with each other. The voltage doubling plate component that this embodiment provided for the parallel scheme of putting of current voltage doubling plate, the voltage doubling plate size that two symmetries in the first isolated lagging set up is great, can effectively improve the working property of the transformer equipment that voltage doubling plate component used.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a transformer assembly according to an embodiment of the present invention;

fig. 2 is a perspective view of a transformer apparatus according to an embodiment of the present invention;

fig. 3 is an exploded view of a transformer apparatus according to an embodiment of the present invention;

fig. 4 is a front view of a transformer apparatus provided in an embodiment of the present invention;

fig. 5 is a side view of a transformer apparatus provided by an embodiment of the present invention.

Summary of reference numerals:

a voltage doubler assembly 100;

a first insulating sheathing 110, a first top plate 111, a first bottom plate 112, a first side plate 113, a second side plate 114, a groove 115;

the pressure doubling plate 120 is provided with a pressure doubling plate,

a middle partition 130;

a transformer device 200;

a bulb 210, an anode 211, a cathode 212;

a high voltage transformer 220;

first support brackets 230, cross bars 231, support legs 232;

a second support frame 240, a semicircular groove 241

A second insulating sheathing 250, a second top panel 251, a fourth side panel 252;

a filament transformer 260.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a voltage doubling plate assembly according to an embodiment of the present invention. As shown in fig. 1, the voltage doubler plate assembly 100 mainly includes:

the insulation structure comprises a first insulation sleeve plate 110 and two double pressing plates 120, wherein the first insulation sleeve plate 110 is enclosed to form a first space, a middle partition plate 130 is arranged in the center of the first space, the two double pressing plates 120 are symmetrically arranged on two sides of the middle partition plate 130 respectively, and the two double pressing plates 120 form a certain angle with each other;

the first insulating sheathing 110 and the middle barrier 130 are insulating plates.

The voltage doubling plate assembly 100 provided by the embodiment can be applied to equipment such as transformer equipment and the like which needs a voltage doubling rectifying circuit. Specifically, the voltage doubling plate assembly 100 includes a first insulating sleeve plate 110 and two voltage doubling plates 120, the two voltage doubling plates 120 are voltage doubling rectifier circuit boards, and the first insulating sleeve plate 110 is an insulating plate for isolating and insulating the two voltage doubling plates 120 from other components. The first insulating sheathing 110 encloses a first space, which may be a semi-enclosed space or a fully enclosed space. A middle spacer 130 is disposed at the center of the first space, and the middle spacer 130 is an insulating plate. The two pressure doubling plates 120 are symmetrically arranged on two sides of the middle partition 130, and the two pressure doubling plates 120 are fixed to each other at a certain angle, so that the pressure doubling plates 120 are obliquely arranged in the first space. Thus, the assembled double pressing plate 120 can have the largest size on the premise of ensuring the symmetrical arrangement of the two double pressing plates 120.

In one embodiment, the first space is a cubic space;

the middle partition 130 isolates the first space into two laterally juxtaposed cubic spaces.

In this embodiment, the first space enclosed by the first insulating sheathing 110 is a cubic space, the middle partition 130 isolates the whole cubic space into two small cubic spaces, the two small cubic spaces are laterally juxtaposed, and each double pressing plate 120 is located in one small cubic space.

Specifically, the first insulating sheathing panel 110 includes a first top panel 111, a first bottom panel 112, a first side panel 113 and a second side panel 114, the first top panel 111 and the first bottom panel 112 are disposed oppositely, and the first side panel 113 and the second side panel 114 are disposed oppositely between the first top panel 111 and the first bottom panel 112.

The first insulating sheathing 110 includes a first top plate 111, a first bottom plate 112, a first side plate 113 and a second side plate 114, when the insulating sheathing is placed normally, the first top plate 111 is an insulating plate located at the top end of the double pressing plate 120, the first bottom plate 112 is an insulating plate located at the bottom end of the double pressing plate 120, and the first side plate 113 and the second side plate 114 are side plates located at two ends of the double pressing plate 120. Of course, this is only a limitation for convenience of description, and in other embodiments, the first insulating sheathing 110 may have other configurations, and is not limited.

Optionally, the edges of the two double pressing plates 120 on the first bottom plate 112 are abutted against the middle partition plate 130, and each double pressing plate 120 is fixed along the diagonal of the cubic space where it is located.

In the present embodiment, the double pressing plate 120 is further limited to be located on the diagonal line of the small cubic space, so that the size of the linear double pressing plate 120 can be maximized, and the performance of the applied transformer apparatus 200 can be optimized.

Furthermore, as shown in fig. 1, grooves 115 are formed on both the inner surface of the first side plate 113 and the inner surface of the second side plate 114, one end of the pressure doubling plate 120 is clamped in the groove 115 on the inner surface of the first side plate 113, and the other end of the pressure doubling plate 120 is clamped in the groove 115 on the inner surface of the second side plate 114.

In this embodiment, two ends of the pressure doubling plate 120 respectively face the first side plate 113 and the second side plate 114, in order to conveniently fix the pressure doubling plate 120, grooves 115 are formed on the inner surface of the first side plate 113 and the inner surface of the second side plate 114, and the grooves 115 are aligned with the end portions of the pressure doubling plate 120 in a fixed state. Thus, one end of each of the two double pressing plates 120 can be clamped in the groove 115 on the inner surface of the first side plate 113, and the other end of each of the double pressing plates 120 can be clamped in the groove 115 on the inner surface of the second side plate 114, so that the double pressing plates 120 can be fixed in an inserting manner.

The double-pressing plate assembly provided by the embodiment of the invention comprises a first isolation sleeve plate and two double-pressing plates, wherein the two double-pressing plates are positioned in a first space formed by enclosing the first isolation sleeve plate. The center of the first space is provided with a middle clapboard, the two pressure doubling plates are respectively and symmetrically arranged at two sides of the middle clapboard, and the two pressure doubling plates form a certain angle with each other. The double pressing plate that this embodiment provided for present double pressing plate parallel puts the scheme, and the double pressing plate size that two symmetries in the first isolated lagging set up is great, can effectively improve the working property of the transformer equipment that double pressing plate subassembly used.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a transformer apparatus according to an embodiment of the present invention. As shown in fig. 2 to 5, the transformer apparatus 200 includes a bulb 210, a high voltage transformer 220, and a voltage doubler assembly 100, and the voltage doubler assembly 100 may be the voltage doubler assembly 100 provided in the embodiment shown in fig. 1.

The bulb 210, the high voltage transformer 220 and the voltage doubling plate assembly 100 are isolated and insulated from each other.

In this embodiment, the main functional components of the transformer apparatus 200 include the voltage doubling plate 120, the high voltage transformer 220 and the bulb 210, and the voltage doubling plate 120 is wrapped by the first insulating sheathing 110, and is isolated and insulated from the bulb 210 and the high voltage transformer 220.

Optionally, the high voltage transformer 220 is disposed on a side of the first top plate 111 of the voltage doubling plate assembly 100 away from the voltage doubling plate 120;

the bulb 210 is disposed on a side of the first bottom plate 112 of the double pressing plate assembly 100 away from the double pressing plate 120.

The high voltage transformer 220, the voltage doubling plate 120 and the bulb 210 are arranged on a straight line, and the high voltage transformer 220 and the bulb 210 are respectively arranged on two sides of the voltage doubling plate 120. For the case that the first insulating sheathing 110 includes the first top plate 111 and the first bottom plate 112, the high voltage transformer 220 is disposed on the side of the first top plate 111 away from the double pressing plate 120, and the bulb tube 210 is disposed on the side of the first bottom plate 112 away from the double pressing plate 120, so that the isolation and insulation between the functional components are ensured, and the compact assembly of the transformer apparatus 200 is realized.

In one embodiment, the transformer apparatus 200 further comprises a first support frame 230 and a second support frame 240, the first support frame 230 is disposed at the anode 211 of the bulb 210, and the first support frame 230 is used for supporting the first insulating sheathing 110;

the second support frame 240 is disposed on the cathode 212 of the bulb 210, and the second support frame 240 is used for supporting the bulb 210.

In this embodiment, a first support bracket 230 and a second support bracket 240 are additionally provided on the pressure doubling plate 120 on the side close to the bulb 210. The first support frame 230 is disposed on the anode 211 of the bulb 210, and the first support frame 230 is attached to the first insulating sheathing 110. When the transformer apparatus 200 is normally placed, the high voltage transformer 220 is located above the first isolation sleeve plate 110, the first isolation sleeve plate 110 is located above the first support frame 230, and the first support frame 230 is used for supporting and fixing the first isolation sleeve plate 110, and simultaneously protects the anode 211 of the bulb tube 210 to dissipate heat. In addition, the second supporting frame 240 is disposed on the cathode 212 of the bulb 210, and is used for supporting the bulb 210 and the first insulating sheathing 110, so as to support the overall stability of the transformer apparatus 200.

Further, as shown in fig. 2 to 5, the first support frame 230 may include a cross bar 231 and two support legs 232, the two support legs 232 are respectively disposed at two ends of the cross bar 231, the cross bar 231 is fixedly connected to the first bottom plate 112, and the anode 211 of the bulb 210 is disposed between the two support legs 232; and/or the presence of a gas in the gas,

a semicircular groove is formed in a part, close to the second supporting frame 240, of the first side plate 113 of the double-pressure plate assembly 100, a semicircular groove is formed in a part, close to the first side plate 113, of the second supporting frame 240, and the semicircular groove in the first side plate 113 and the semicircular groove in the second supporting frame 240 are spliced to form a circular through hole;

the cathode 212 of the bulb 210 extends into the circular through hole between the first side plate 113 and the second support frame 240.

The first support bracket 230 includes a cross bar 231 and two support legs 232, the two support legs 232 supporting the cross bar 231 to secure the first insulating sheathing 110. The anode 211 of the bulb 210 is disposed between the two support legs 232, and the anode 211 of the bulb 210 is located in a wide area, so that heat dissipation of the anode 211 is facilitated.

The second supporting frame 240 is disposed on the cathode 212 of the bulb 210, and the second supporting frame 240 abuts against the first side plate 113 of the first insulating sleeve plate 110 to support an end of the first insulating sleeve plate 110 close to the cathode 212 of the bulb 210. The negative pole 212 of bulb 210 is cylindric, and for convenient assembly, offers the semicircular groove with the latter half of first curb plate 113, offers the semicircular groove at the first half of second support frame 240 simultaneously to make the semicircular groove on the first curb plate 113 and the semicircular groove on the second support frame 240 splice into circular through-hole, stretch into circular through-hole with the negative pole 212 of bulb 210 in, can realize the support and the fixed of bulb 210, further strengthened transformer equipment 200's compact structure degree.

In another embodiment, as shown in fig. 2 to 5, the transformer apparatus 200 may further include: and the second insulating sheathing 250, the second insulating sheathing 250 encloses to form a second space, the high voltage transformer 220 is disposed in the second space, and the second insulating sheathing 250 is an insulating plate.

In this embodiment, a second insulating sleeve 250 is additionally provided for further insulating and fixing the high voltage transformer 220. Specifically, the second insulating sheathing 250 may include: the second top plate 251, the second bottom plate, the third side plate, and the fourth side plate 252 enclose a second space for mounting the high voltage transformer 220. To reduce material, the second bottom panel of the second insulation sleeve panel 250 may be formed as the same panel as the first top panel 111 of the first insulation sleeve panel 110, and the third and second side panels 114 may be integrally formed.

When the first partition plate and the second partition plate of the transformer apparatus 200 are assembled, a connecting member may be additionally provided to connect and fix the adjacent plates. For example, screws are added to fix the first top plate 111 and the first bottom plate 112 to the first side plate 113 and the second side plate 114, or the second top plate 251 is fixed to the third side plate and the fourth side plate 252.

In addition, in other embodiments, the transformer apparatus 200 may further include a filament transformer 260, and the filament transformer 260 may be mounted on a side of the fourth side plate 252 away from the high voltage transformer 220 by a screw or the like.

The transformer equipment provided by the embodiment of the invention has the advantages that the structure design provides relatively closed installation space for each high-voltage component, the high-voltage isolation capability among the high-voltage components is realized, and the overall size of the transformer equipment is greatly reduced. For the parallel scheme of putting of current pressure plate, the size of the pressure plate that two symmetries in the first isolated lagging set up is great, can effectively improve the working property of the transformer equipment that pressure plate subassembly used. The specific implementation process of the transformer device provided by the embodiment of the present invention may refer to the specific implementation process of the voltage doubling plate assembly provided by the above embodiment, and details are not repeated here.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A voltage doubling plate assembly for a transformer apparatus, the voltage doubling plate assembly comprising:

the first isolation sleeve plate is enclosed to form a first space, a middle partition plate is arranged in the center of the first space, the two pressure doubling plates are symmetrically arranged on two sides of the middle partition plate respectively, and the two pressure doubling plates form a certain angle with each other;

the first isolation sleeve plate and the middle partition plate are both insulating plates;

the first space is a cubic space;

the middle partition plate isolates the first space into two cubic spaces which are transversely arranged in parallel;

the first isolation sleeve plate comprises a first top plate, a first bottom plate, a first side plate and a second side plate, the first top plate and the first bottom plate are oppositely arranged, and the first side plate and the second side plate are oppositely arranged between the first top plate and the first bottom plate;

the two pressing plates are located on the edges of the first bottom plate and abutted to the middle partition plate, and each pressing plate is fixed along the diagonal line of the cubic space where the pressing plate is located.

2. The pressure doubling plate assembly according to claim 1, wherein grooves are formed in the inner surface of the first side plate and the inner surface of the second side plate, one end of the pressure doubling plate is clamped in the groove in the inner surface of the first side plate, and the other end of the pressure doubling plate is clamped in the groove in the inner surface of the second side plate.

3. A transformer apparatus comprising a bulb, a high voltage transformer and a voltage doubler assembly according to any one of claims 1 to 2;

the bulb tube, the high-voltage transformer and the voltage doubling plate component are mutually isolated and arranged in an insulating mode.

4. The transformer apparatus of claim 3, wherein the high voltage transformer is disposed on a side of the first top plate of the voltage doubling plate assembly away from the voltage doubling plate;

the bulb tube is arranged on one side, far away from the pressure doubling plate, of the first bottom plate of the pressure doubling plate assembly.

5. The transformer apparatus of claim 4, further comprising a first support bracket disposed at an anode of the bulb, the first support bracket configured to support the first insulation nest plate;

the second support frame is arranged on the cathode of the bulb tube and used for supporting the bulb tube.

6. The transformer apparatus according to claim 5, wherein the first support frame comprises a cross bar and two support legs, the two support legs are respectively disposed at two ends of the cross bar, the cross bar is fixedly connected with the first bottom plate, and the anode of the bulb is disposed between the two support legs; and/or the presence of a gas in the gas,

a semicircular groove is formed in the part, close to the second supporting frame, of the first side plate of the voltage doubling plate assembly, a semicircular groove is formed in the part, close to the first side plate, of the second supporting frame, and the semicircular groove in the first side plate and the semicircular groove in the second supporting frame are spliced to form a circular through hole;

the cathode of the bulb tube extends into the circular through hole between the first side plate and the second supporting frame.

7. The transformer apparatus of claim 6, further comprising: the second isolation sleeve plate is enclosed to form a second space, the high-voltage transformer is arranged in the second space, and the second isolation sleeve plate is an insulation plate.

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