CN217437763U - Composite rubber mat suitable for ozone generator and ozone generator - Google Patents

Abstract

The utility model relates to a compound cushion suitable for ozone generator, including cushion body and electrically conductive shell fragment, wherein, the cushion body includes integrated into one piece's first fixed cushion, second fixed cushion and connecting piece, the second fixed cushion sets up respectively in the both ends on the length direction of first fixed cushion and extends along the width direction of first fixed cushion, the thickness of second fixed cushion is thicker than first fixed cushion, the first fixed cushion forms the difference in height that is used for fixed heat conduction current conducting plate with second fixed cushion junction; the four corners of the second fixed rubber mat are provided with bosses for fixing the medium plate. The utility model provides a compound cushion, when assembling with heat conduction current conducting plate and dielectric slab, can accurate stable location heat conduction current conducting plate and dielectric slab, when equipment ozone generating unit, can assemble into a complete equipment unit with compound cushion, heat conduction current conducting plate and dielectric slab earlier, put into the ground electrode with this complete equipment unit again, improved installation effectiveness and installation precision greatly. The utility model also discloses an ozone generator.

Description

Composite rubber mat suitable for ozone generator and ozone generator

Technical Field

The utility model relates to an ozone generation equipment technical field, concretely relates to compound cushion and ozone generator suitable for ozone generator.

Background

Ozone is composed of three oxygen atoms and is an unstable, light blue gas with a particularly pungent odor at normal temperature and pressure. Ozone has strong oxidizability, is soluble in water, can be automatically decomposed into hydrated oxygen in water in a short time, has no secondary pollution, is an ideal green high-grade oxidant, has high-efficiency, quick, environment-friendly and safe effects on deodorization, sterilization, decoloration, organic matter removal and the like, and is widely applied to various industries including but not limited to drinking water, fruit and vegetable cleaning, semiconductor industry, environmental air sterilization, wastewater treatment, pharmacy, food, chemical industry, agriculture, paper making and the like.

Industrial applicability ozone sources generally employ ozone generators of the gas discharge type, and typical ozone generators generally include tubular ozone generators and plate ozone generators.

The plate-type ozone generator comprises a plurality of ozone generating units, wherein each ozone generating unit consists of two grounding electrodes, two dielectric plates and two heat-conducting plates; during assembly, the components are sequentially adhered and fixed in the grounding electrode according to the sequence of the dielectric plate, the heat conduction and current conduction plate and the dielectric plate, and the next procedure can be carried out after glue is dried completely during adhesion, so that the adhering and assembling mode is time-consuming and cannot ensure the assembling accuracy.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a composite rubber cushion suitable for an ozone generator, which comprises a rubber cushion body and a conductive elastic sheet, wherein the rubber cushion body and the conductive elastic sheet are integrally jointed through a vulcanization process,

the rubber mat body comprises a first fixed rubber mat, a second fixed rubber mat and a connecting piece which are integrally formed, the second fixed rubber mat is respectively arranged at two ends of the first fixed rubber mat in the length direction and extends along the width direction of the first fixed rubber mat, the thickness of the second fixed rubber mat is thicker than that of the first fixed rubber mat, and a height difference for fixing the heat-conducting and current-conducting plate is formed at the joint of the first fixed rubber mat and the second fixed rubber mat;

bosses for fixing the medium plate are arranged at four corners of the second fixing rubber pad;

the first fixed rubber pad and the second fixed rubber pad form a height difference and are in arc transition at four corners.

Wherein, the fixed cushion of second sets up to two sets ofly, and after every a set of width direction who all follows first fixed cushion extended to the both ends of first fixed cushion, the length direction of following first fixed cushion again extended a segment to the direction of another fixed cushion of second relative to with it for the width direction and the length direction of first fixed cushion all are formed with the difference in height with the fixed cushion of second.

Wherein, the upper and lower both sides of first fixed cushion all are formed with the difference in height with the fixed cushion of second.

The bosses arranged at the four corners of the second fixing rubber pad are L-shaped, so that the medium plate can be fixed in the length direction and the width direction.

Wherein, all be provided with the multiunit sand grip on first fixed cushion and the fixed cushion of second, the width and the thickness ratio of sand grip are between 1: 1-3: 1.

the connecting piece is integrally formed with the first fixing rubber pad through the second fixing rubber pad, one end, close to the connecting piece, of the first fixing rubber pad is provided with a space for containing the conductive elastic sheet, and the conductive elastic sheet sequentially penetrates through the second fixing rubber pad and the connecting piece through the containing space to be connected with an external high-voltage power supply.

The utility model provides an ozone generator, including at least a set of ozone generating unit, every ozone generating unit of group all includes two ground electrodes, two dielectric slabs, two heat conduction current conducting plates and a compound cushion, and each part assembles in proper order as follows: grounding electrode-dielectric plate-heat conducting plate-composite rubber mat-heat conducting plate-dielectric plate-grounding electrode; wherein the content of the first and second substances,

the composite rubber mat comprises a rubber mat body and a conductive elastic sheet, the rubber mat body and the conductive elastic sheet are integrally attached through a vulcanization process, the rubber mat body comprises a first fixed rubber mat, a second fixed rubber mat and a connecting piece which are integrally formed, the second fixed rubber mat is respectively arranged at two ends of the first fixed rubber mat in the length direction and extends along the width direction of the first fixed rubber mat, the thickness of the second fixed rubber mat is thicker than that of the first fixed rubber mat, and a height difference for fixing the heat-conducting and current-conducting plate is formed at the joint of the first fixed rubber mat and the second fixed rubber mat;

bosses for fixing the medium plate are arranged at four corners of the second fixing rubber pad;

the first fixed rubber pad and the second fixed rubber pad form a height difference and are in arc transition at four corners.

The connecting piece is integrally formed with the first fixed rubber pad through the second fixed rubber pad, one end, close to the connecting piece, of the first fixed rubber pad is provided with a space for accommodating the conductive elastic sheet, and the conductive elastic sheet sequentially penetrates through the second fixed rubber pad and the connecting piece through the accommodating space to be connected with an external high-voltage power supply.

The grounding electrode is provided with at least two convex surfaces, an air passage forming a concave surface is formed between every two adjacent convex surfaces, and one end, far away from the connecting piece, of the conductive elastic sheet corresponds to one of the convex surfaces on the grounding electrode.

Wherein, the fixed cushion of second sets up to two sets ofly, and after every a set of width direction who all follows first fixed cushion extended to the both ends of first fixed cushion, the length direction of following first fixed cushion again extended a segment to the direction of another fixed cushion of second relative with it for the width direction and the length direction of first fixed cushion all are formed with the difference in height with the fixed cushion of second.

The utility model provides a compound cushion, through special location mechanism, when assembling with heat conduction current conducting plate and medium plate, can accurate stable location heat conduction current conducting plate and medium plate, when equipment ozone takes place the unit, can assemble into a complete equipment unit with compound cushion, heat conduction current conducting plate and medium plate earlier, adorn this complete equipment unit in telluric electricity field again, improved the installation effectiveness and installed the precision greatly.

Drawings

FIG. 1: the utility model provides an explosion diagram of an ozone generator.

FIG. 2: the utility model provides a side view of ozone generator.

FIG. 3: the utility model provides a compound cushion and heat conduction current conducting plate and dielectric plate's explosion map.

FIG. 4: the utility model provides a side view after compound cushion and heat conduction current conducting plate and dielectric plate assemble.

FIG. 5: fig. 4 is a partially enlarged schematic view.

FIG. 6: fig. 3 is a partially enlarged schematic view.

FIG. 7: the utility model discloses a top view of a set of ozone generating unit.

FIG. 8: fig. 3 is a partially enlarged view of another portion.

Detailed Description

In order to further understand the technical solution and the advantages of the present invention, the following detailed description will be made with reference to the accompanying drawings.

Fig. 1 is the utility model provides an ozone generator's explosion chart, fig. 2 is the utility model provides an ozone generator's side view, as shown in fig. 1 and fig. 2, the utility model provides an ozone generator includes at least one oxygen generating element (fig. 1 and fig. 2 only show two), and every ozone generating element includes two telluric electricity field 10, two dielectric slab 20, two heat conduction plates 30 and a compound cushion 40, and each part is assembled according to following order in proper order: the grounding electrode 10, the dielectric plate 20, the heat conduction and current conduction plate 30, the composite rubber mat 40, the heat conduction and current conduction plate 30, the dielectric plate 20 and the grounding electrode 10. In other words, the dielectric plate 20, the heat conducting plate 30, the composite rubber mat 40, the heat conducting plate 30 and the dielectric plate 20 form an assembly unit, the assembly unit is assembled in the accommodating space in the grounding electrode 10 to form an ozone generating unit, and a plurality of ozone generating units are sequentially assembled to form the ozone generator; it should be noted that, although each ozone generating unit includes two ground electrodes, the total number of ground electrodes in the ozone generator is the total number of ozone generating units plus one, because adjacent ozone generating units share one grounding electrode and the grounding electrodes are divided into three types, taking the direction of the drawing shown in fig. 2 as an example, the left side of the grounding electrode 10 at the leftmost side is not provided with a groove, the right side is provided with a deep groove, the left side of the grounding electrode 10 at the middle is provided with a shallow groove, the right side is provided with a deep groove, the left side of the grounding electrode at the rightmost side is provided with a shallow groove, and the right side is not provided with a groove, in each ozone generating unit, the assembled unit formed by the dielectric plate 20, the heat conductive plate 30, the composite rubber mat 40, the heat conductive plate 30 and the dielectric plate 20 is partially accommodated in the deep groove of the left ground electrode and partially accommodated in the shallow groove of the right ground electrode.

At least two convex surfaces 11 are arranged on the grounding electrode 10, a concave surface, namely an air channel 12, is formed between every two adjacent convex surfaces 11, an air inlet channel 13, an air outlet channel 14 and a plurality of cooling water channels 15 are arranged at the lower end of the grounding electrode 10, oxygen flows through the air inlet channel 13, the air channel 12 and the air outlet channel 14 and discharges along with the oxygen, part of the oxygen is changed into ozone in the process, and heat generated in the discharging process is taken away by cooling water passing through the cooling water channels 15.

The grounding electrode 10 is electrically connected to a grounding terminal of a high voltage power supply (not shown), the high voltage terminal of the high voltage power supply is connected to a conductive elastic sheet (described in detail later) in the composite rubber mat 40, and the heat and electricity conductive plate 30 is used for heat and electricity conduction.

The basic working principle of ozone generating unit and the cooperation between each part belong to the common general knowledge in this field, the utility model discloses an it is here not adding redundantly to describe, the utility model discloses a focus is on through setting up compound cushion, realize equipment the leakproofness, and can cushion vibrations, absorb to process poorly and the location, present the compound cushion of detailed introduction as follows:

please refer to fig. 3 to 5, which are an exploded view, an assembled side view and a partial enlarged view of the composite rubber mat, the heat-conducting plate and the dielectric plate of the present invention, as shown in fig. 3 to 5, the composite rubber mat 40 of the present invention comprises a rubber mat body 41 and a conductive elastic sheet 42, the rubber mat body 41 and the conductive elastic sheet 42 are integrally bonded by a vulcanization process, the rubber mat body 41 comprises a first fixed rubber mat 43, a second fixed rubber mat 44 and a connecting member 45, the first fixed rubber mat 43 and the second fixed rubber mat 44 are integrally formed, the second fixed rubber mat 44 is provided with two fixed rubber mats, which are respectively disposed at two ends of the first fixed rubber mat 43 in the length direction and extend along the width direction of the first fixed rubber mat 43, the connecting member 45 is integrally formed with the first fixed rubber mat 43 through one of the second fixed rubber mat 44, one end of the first fixed rubber mat 43 near the connecting member 45 is provided with a space for accommodating the conductive elastic sheet 42, the conductive elastic sheet 42 sequentially passes through the second fixed rubber mat 44 and the connecting member 45 from the accommodating space 46, for connection to an external high voltage power supply.

In order to make compound cushion 40 can stabilize, effectual location equipment heat conduction plate 30 and dielectric plate 20, the utility model discloses at first the difference in height that utilizes second fixed cushion 44 and first fixed cushion 43 makes first fixed cushion 43 can provide the space of a holding heat conduction plate 30, and secondly, four bosss 441 on the fixed cushion 44 four corners of rethread second form the mechanism of a location dielectric plate 20.

Referring to fig. 3 and fig. 6, in which fig. 6 shows a partial enlarged schematic view of fig. 3: the second fixing rubber pad 44 is thicker than the first fixing rubber pad 43, and the second fixing rubber pad 44 extends to two ends of the first fixing rubber pad 43 along the width direction D of the first fixing rubber pad 43, and then extends to a small section along the length direction L of the first fixing rubber pad 43 in the direction of the other second fixing rubber pad 44 opposite to the first fixing rubber pad, so that the first fixing rubber pad 43 forms a height difference with the second fixing rubber pad 44 in the width direction and the length direction, and thus, grooves 431 are formed at four corners of the first fixing rubber pad 43 to position the heat conduction plate 30, and the grooves 431 are in fillet transition instead of right-angle transition at four corners of the first fixing rubber pad 43, so that the edge discharge phenomenon of the device can be reduced; it will be understood that the upper and lower sides (the left and right sides shown in fig. 5) of the first fixing rubber pad 43 are formed with a height difference from the second fixing rubber pad 44.

Please refer to fig. 3 and fig. 7, wherein fig. 7 is a top view of a group of ozone generating units of the present invention, in order to position the dielectric plate 20, the present invention sets four "L" shaped bosses 441 on the four corners of the second fixing rubber pad 44, respectively, so that the dielectric plate 20 is not easy to displace along the width direction or the length direction.

Please refer to fig. 8, which is a partially enlarged view of another portion of fig. 3, showing a partially enlarged structure of the first fixing rubber mat 43, wherein the first fixing rubber mat 43 is provided with a plurality of sets of protruding strips 432, and the width and thickness of the protruding strips 432 are preferably between 1: 1-3: 1, the proportion is crossed the low back sand grip 432 of installing and is easily askew, leads to sealed effect poor and heat transfer nature poor to reduce ozone output, and the proportion is crossed the width of sand grip when high, leads to bolt torsion increase (because need make two adjacent earthed electrodes 10 laminate) when assembling, thereby leads to earthed electrodes 10 degeneration.

The second fixing rubber pad 44 is also provided with a plurality of protruding strips having the same or similar size to the first fixing rubber pad 43, which will not be described herein.

Please refer to fig. 3 and fig. 1 in a continuous manner, after the ozone generating unit of the present invention is assembled, the end of the conductive elastic sheet 42 on the composite rubber mat 40 can be just placed on one of the convex surfaces 11 on the grounding electrode 10 instead of on the air channel 12, so that the convex surface 11 on the grounding electrode 10 supports the downward force of the conductive elastic sheet 42, thereby preventing the conductive elastic sheet 42 from pressing on the channel corresponding to the dielectric plate 20, reducing the damage rate of the dielectric plate 20, and prolonging the service life of the device.

The utility model provides a compound cushion, through special positioning mechanism, when assembling with heat conduction plate 30 and dielectric slab 20, can accurate stable positioning heat conduction plate 30 and dielectric slab 20, when the unit takes place for the equipment ozone, can be earlier with compound cushion 40, heat conduction plate 30 and dielectric slab 20 assemble into a complete equipment unit, assemble this complete equipment unit in telluric electricity field 10 again, compare prior art in need assemble to telluric electricity field 10 in order with two dielectric slabs 20 and two heat conduction plate 30, and the part of every group dress all needs sticky and need glue to solidify and dry the equipment mode that can go on one process down thoroughly, the installation effectiveness and the installation precision have been improved greatly.

Although the present invention has been described with reference to the above preferred embodiments, it is not intended to limit the scope of the present invention, and various changes and modifications relative to the above embodiments may be made by those skilled in the art without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a compound cushion suitable for ozone generator which characterized in that: comprises a rubber cushion body and a conductive elastic sheet, wherein the rubber cushion body and the conductive elastic sheet are integrally jointed through a vulcanization process,

the rubber mat body comprises a first fixed rubber mat, a second fixed rubber mat and a connecting piece which are integrally formed, the second fixed rubber mat is respectively arranged at two ends of the first fixed rubber mat in the length direction and extends along the width direction of the first fixed rubber mat, the thickness of the second fixed rubber mat is thicker than that of the first fixed rubber mat, and a height difference for fixing the heat-conducting and current-conducting plate is formed at the joint of the first fixed rubber mat and the second fixed rubber mat;

bosses for fixing the medium plate are arranged at four corners of the second fixing rubber pad;

the first fixed rubber pad and the second fixed rubber pad form a height difference and are in arc transition at four corners.

2. The composite rubber cushion suitable for an ozone generator as claimed in claim 1, wherein: the second fixed rubber mat sets up to two sets ofly, and after every a set of width direction that all follows first fixed rubber mat extended to the both ends of first fixed rubber mat, the length direction of following first fixed rubber mat again extended a segment to the direction of another second fixed rubber mat relative with it for the width direction and the length direction of first fixed rubber mat all are formed with the difference in height with the second fixed rubber mat.

3. The composite rubber cushion suitable for an ozone generator as claimed in claim 1, wherein: the upper side and the lower side of the first fixed rubber mat are formed with a height difference with the second fixed rubber mat.

4. The composite rubber cushion suitable for an ozone generator as claimed in claim 1, wherein: the bosses arranged at the four corners of the second fixing rubber pad are L-shaped, so that the medium plate can be fixed in the length direction and the width direction.

5. The composite rubber cushion suitable for an ozone generator as claimed in claim 1, wherein: all be provided with the multiunit sand grip on first fixed cushion and the fixed cushion of second, the width and the thickness ratio of sand grip are between 1: 1-3: 1.

6. the composite rubber cushion suitable for an ozone generator as claimed in claim 1, wherein: the connecting piece is integrally formed with the first fixed rubber mat through the second fixed rubber mat, one end, close to the connecting piece, of the first fixed rubber mat is provided with a space for accommodating the conductive elastic sheet, and the conductive elastic sheet sequentially penetrates through the second fixed rubber mat and the connecting piece through the accommodating space to be connected with an external high-voltage power supply.

7. An ozone generator, characterized by: including at least a set of ozone generation unit, every ozone generation unit of group all includes two telluric electricity field, two dielectric slabs, two heat conduction conducting plates and a compound cushion, and each part assembles in proper order as follows: grounding electrode-dielectric plate-heat conducting plate-composite rubber mat-heat conducting plate-dielectric plate-grounding electrode; wherein the content of the first and second substances,

the composite rubber mat comprises a rubber mat body and a conductive elastic sheet, the rubber mat body and the conductive elastic sheet are integrally attached through a vulcanization process, the rubber mat body comprises a first fixed rubber mat, a second fixed rubber mat and a connecting piece which are integrally formed, the second fixed rubber mat is respectively arranged at two ends of the first fixed rubber mat in the length direction and extends along the width direction of the first fixed rubber mat, the thickness of the second fixed rubber mat is thicker than that of the first fixed rubber mat, and a height difference for fixing the heat-conducting and current-conducting plate is formed at the joint of the first fixed rubber mat and the second fixed rubber mat;

bosses for fixing the medium plate are arranged at four corners of the second fixing rubber pad;

the first fixed rubber pad and the second fixed rubber pad form a height difference and are in arc transition at four corners.

8. The ozone generator of claim 7, wherein: the connecting piece is integrally formed with the first fixed rubber mat through the second fixed rubber mat, one end, close to the connecting piece, of the first fixed rubber mat is provided with a space for accommodating the conductive elastic sheet, and the conductive elastic sheet sequentially penetrates through the second fixed rubber mat and the connecting piece through the accommodating space to be connected with an external high-voltage power supply.

9. The ozone generator of claim 8, wherein: all be provided with two at least convexities on the earthing electrode, the air flue of formation concave surface between two adjacent convexities, the one end that the connecting piece was kept away from to electrically conductive shell fragment corresponds with one of them convex surface position on the earthing electrode.

10. The ozone generator of claim 7, wherein: the second fixed rubber mat sets up to two sets ofly, and after every a set of width direction that all follows first fixed rubber mat extended to the both ends of first fixed rubber mat, the length direction of following first fixed rubber mat again extended a segment to the direction of another second fixed rubber mat relative with it for the width direction and the length direction of first fixed rubber mat all are formed with the difference in height with the second fixed rubber mat.

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