CN-224226674-U - Reinforced insulation seal head of tubular ozone generator

Abstract

The utility model discloses a tubular ozone generator reinforced insulating seal head, which is applied to the field of ozone equipment, and solves the technical problems that the structure of a stainless steel seal head part at the end part of the existing ozone generating equipment is complicated, the structural design is unreasonable due to excessive waste of local space, and the technical scheme is characterized by comprising a generator shell, wherein a seal head block is movably connected at the end part of the generator shell, and the tubular ozone generator is characterized in that: the end of the generator shell is provided with a supporting block, the supporting block is provided with a plurality of sleeve holes sleeved by the electrode pairs, the electrode pairs comprise cathode stainless steel sleeves fixedly welded with the supporting block, anode stainless steel electrode rods sleeved in the cathode stainless steel sleeves and a blocking discharge glass tube sleeved between the anode stainless steel electrode rods and the cathode stainless steel sleeves, and one end of the blocking discharge glass tube extends out of the end of the anode stainless steel electrode rods, so that the end insulating sealing head structure layout design of the ozone generating equipment is optimized, and the technical effect of reliable insulating sealing performance is guaranteed.

Inventors

• WANG YAN

Assignees

• 欧奏沛尔(江苏)环保技术有限公司

Dates

Publication Date

20260512

Application Date

20250513

Claims (5)

1. 1. The tubular ozone generator reinforced insulating seal head comprises a generator shell (1), wherein a seal head block (2) is movably connected to the end part of the generator shell (1), a support block (3) is arranged at the end part of the generator shell (1), a plurality of sleeve holes (4) sleeved by a power supply pair are formed in the support block (3), the electrode pair comprises a cathode stainless steel sleeve (5) welded and fixed with the support block (3), an anode stainless steel electrode rod (6) sleeved in the cathode stainless steel sleeve (5) and a blocking discharge glass tube (7) sleeved between the anode stainless steel electrode rod (6) and the cathode stainless steel sleeve (5), one end of the blocking discharge glass tube (7) extends out from the end part of the anode stainless steel electrode rod (6), a discharge cavity (8) is formed in the seal head block (2), a plurality of end parts of the anode stainless steel electrode rod (6) extend into the discharge cavity (8), a lug (3) is provided with a lug (9) connected with the inner side part of the support block (3), the insulating seal head block (12) is matched with the insulating seal head (12), the stainless steel explosion-proof housing (11) and insulating interior piece (12) between activity joint, the middle part of stainless steel explosion-proof housing (11) still is equipped with grafting groove (13) that supply insulating interior piece (12) cover to establish, the both sides of insulating interior piece (12) are equipped with spacing fixture block (14), the both sides of stainless steel explosion-proof housing (11) are equipped with spacing groove block (15) with spacing fixture block (14) block, bolt fastening hole (16) have been seted up on connecting lug piece (9) and locking lug piece (10) correspondingly, wear to be equipped with fastening bolt (17) in bolt fastening hole (16).
2. 2. The reinforced insulation seal head of the tubular ozone generator of claim 1, wherein the connecting lug blocks (9) are further provided with positioning ring blocks (18), and the insulation inner blocks (12) are provided with auxiliary limiting ring grooves (19) which are clamped with the positioning ring blocks (18).
3. 3. The reinforced insulation seal head of the tubular ozone generator according to claim 1, wherein the notch of the inserting groove (13) is also provided with a connecting sleeve (20).
4. 4. The reinforced insulation seal head of the tubular ozone generator of claim 1, wherein an insulation coating is further arranged inside the stainless steel explosion-proof housing (11).
5. 5. The reinforced insulation seal head of the tubular ozone generator of claim 1, wherein an explosion-proof hoop (21) is sleeved outside the stainless steel explosion-proof housing (11).

Description

Reinforced insulation seal head of tubular ozone generator Technical Field The utility model relates to the field of ozone equipment, in particular to a reinforced insulating sealing head of a tubular ozone generator. Background The barrier discharge electrode of the tubular ozone generator is formed by combining a stainless steel inner electrode (anode), a barrier discharge body (glass tube) and a stainless steel outer electrode (cathode), and a discharge chamber is formed by dozens to thousands of electrode pairs. The anode is sleeved in the cathode stainless steel tube through a glass tube, the exposed part of the anode is connected with high-voltage electricity, and for insulation, a sufficient insulation distance is usually reserved between a joint connected with the high-voltage electricity and an external stainless steel seal head shell, so that the discharge phenomenon between the anode and the stainless steel seal head is avoided. However, in practical use, especially for the generator with smaller specification, the space waste of the inner cavity of the end part of the tubular ozone generator is often too large due to the arrangement of the standard insulation space in the end seal head, and the filling rate of the electrode in the discharge chamber is too low, so that the structural design of the ozone generator is complicated, and the efficient structural design and stable performance use requirements cannot be ensured. Disclosure of utility model The utility model aims to provide a reinforced insulating seal head of a tubular ozone generator, which has the advantages of optimizing the structural layout design of a seal head part and realizing a stable insulating protection effect. The technical aim of the utility model is realized by the following technical scheme: the tubular ozone generator reinforced insulating seal head comprises a generator shell, wherein a seal head block is movably connected to the end part of the generator shell, a support block is arranged at the end part of the generator shell, a plurality of sleeve holes sleeved by a power supply pair are formed in the support block, the electrode pair comprises a cathode stainless steel sleeve fixedly welded with the support block, an anode stainless steel electrode rod sleeved in the cathode stainless steel sleeve, and a blocking discharge glass tube sleeved between the anode stainless steel electrode rod and the cathode stainless steel sleeve, one end of the blocking discharge glass tube extends out of the end part of the anode stainless steel electrode rod, the seal head block and the support block are movably disassembled and assembled, a discharge cavity is formed in the seal head block, a plurality of end parts of the anode stainless steel electrode rod extend into the discharge cavity, a connecting lug block is arranged at the side part of the support block, locking lug blocks are arranged at two sides of the seal head block, the stainless steel explosion-proof shell is sleeved outside the insulating inner block, a blocking discharge glass tube is sleeved between the stainless steel explosion-proof shell and the insulating inner block, a fastening lug block is arranged in the middle part of the insulating inner block, a corresponding fastening lug block is arranged in the sealing lug block, and a fastening hole is formed in the sealing lug block, and the sealing lug block is correspondingly arranged at the two sides of the sealing lug block. Further, a positioning ring block is further arranged on the connecting lug block, and an auxiliary limiting ring groove which is clamped with the positioning ring block is arranged on the insulating inner block. Further, the notch of the inserting groove is also provided with a connecting sleeve. Further, an insulating coating is arranged inside the stainless steel explosion-proof shell. Further, an explosion-proof hoop is sleeved outside the stainless steel explosion-proof shell. In summary, the utility model has the following beneficial effects: 1. through the split type assembly design of the seal head block part, the stable insulation performance of the seal head block part in the small-specification ozone generator is realized by means of the combined design of the insulation inner block and the stainless steel explosion-proof shell, the insulation space requirement required by the existing stainless steel seal head design is effectively solved, the structural design compactness of the seal head block part is improved, the overall compression resistance and impact resistance of the seal head block can be effectively guaranteed by the stainless steel explosion-proof shell, and the optimal design and reliable operation of the seal head block part are finally realized. Drawings FIG. 1 is a schematic view of a partial structure of an ozone generator for use in a presentation embodiment. Reference numeral 1, a generator housing; 2, a sealing head block, 3, a supporting block, 4, a sleev