CN217676817U - Middle-size and small-size plate-type ozone generator system - Google Patents

Abstract

The utility model relates to the field of ozone generation equipment, in particular to a middle-size and small-size plate-type ozone generator, which comprises a cabinet body, wherein a power supply assembly, a discharge assembly, a winding displacement frame and a heat dissipation fan are arranged in the cabinet body, the power supply assembly is arranged on the upper side of the cabinet body, the winding displacement frame is arranged between the power supply assembly and the discharge assembly, a winding displacement groove is arranged in the winding displacement frame, and the discharge assembly is arranged on the lower side of the cabinet body; the power supply assembly is connected with the discharge body through a high-voltage wire, and the high-voltage wire extends along the wire arranging groove. Through arranging from top to bottom of power supply module and discharge assembly, satisfy the demand that the device is miniaturized for the radiator fan of arranging cabinet body upper end in can take away the heat of power supply module and discharge assembly simultaneously, the subassembly that discharges simultaneously still carries out main cooling through waterway system, in order to ensure the steady operation of device.

Description

Middle-size and small-size plate-type ozone generator system

Technical Field

The utility model relates to an ozone generating equipment field especially relates to a middle-size and small-size board-like ozone generator system.

Background

Ozone, as a strong oxidizing gas, has extremely strong oxidizing and sterilizing properties, is a good oxidant and disinfectant, and is widely applied to the fields of sewage treatment, space disinfection, semiconductor manufacturing, leachate treatment, flue gas denitration and the like. Ozone generators are important in modern industry as a means of producing ozone on-site. In the prior art, most ozone generator systems are arranged in the form of large units and multiple cabinets, and cannot be applied to small places; and because the cabinet power consumption is large and the discharge body produces ozone and can produce a large amount of heat, the multi-cabinet structure needs to arrange a large amount of heat dissipation fans for heat dissipation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a small and medium-sized plate type ozone generator system which is miniaturized and has a cabinet type integrated machine and reduces the arrangement of fans.

In order to solve the technical problem, the utility model discloses a technical scheme be: a middle-size and small-size plate type ozone generator system comprises a cabinet body, wherein a power supply assembly, a discharge assembly, a winding displacement frame and a heat dissipation fan are arranged in the cabinet body, the power supply assembly is arranged on the upper side of the cabinet body, the winding displacement frame is arranged between the power supply assembly and the discharge assembly, a winding displacement groove is arranged in the winding displacement frame, and the discharge assembly is arranged on the lower side of the cabinet body; the power supply assembly is connected with the discharge body through a high-voltage wire, and the high-voltage wire extends along the wire arranging groove.

Furthermore, the cabinet body comprises two side frames and a plurality of cross beams, the cross beams are connected to the side frames along the height direction of the side frames, and a plurality of locking holes are uniformly spaced along the length direction of the cross beams; the power supply assembly and the wire arranging frame are locked with different cross beams.

Furthermore, the power supply assembly comprises a control system, a first mounting plate, a second mounting plate, a high-frequency transformer and a high-frequency resonance inductor, wherein the first mounting plate is perpendicular to the plane where the flat cable frame is located, two sides of the first mounting plate are locked with the cross beam, and the control system is arranged on one side of the first mounting plate opposite to the front face of the cabinet body; first mounting panel is equipped with second mounting panel, high frequency transformer and high frequency resonance inductance with the positive relative one side of the cabinet body, the second mounting panel is on a parallel with the plane at winding displacement frame place, on the crossbeam of second mounting panel butt and two side frames and with it the lock pay, high frequency transformer and high frequency resonance inductance lock attach on the second mounting panel.

Furthermore, the winding displacement frame comprises two square pipes and two C-shaped pipes, the two square pipes are respectively locked with the cross beams of the two side frames, the two C-shaped pipes are connected between the two square pipes, C-shaped openings of the two C-shaped pipes are opposite, and the C-shaped openings of the C-shaped pipes are used as winding displacement grooves for arranging high-voltage wires.

Furthermore, the power supply module further comprises a third mounting plate, and the third mounting plate is locked between the two cross beams of the same side frame.

Further, waterway system includes the inlet tube, be equipped with the water route import that is connected with the inlet tube on the discharge body, the projection of inlet tube on the direction of height of the discharge body is less than the water route import.

Furthermore, the inlet and outlet of the water path system and the air path system are arranged on one side of the cabinet body adjacent to the front surface and the back surface of the cabinet body.

The water path system comprises a water inlet pipe and a water outlet pipe, the gas path system comprises a gas inlet pipe and a gas outlet pipe, and the cabinet body is provided with corresponding through holes corresponding to the water inlet pipe, the water outlet pipe, the gas inlet pipe and the gas outlet pipe; the movable cover plate is correspondingly sleeved on the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe and matched with the through hole.

The cabinet body comprises a bottom plate, and the first upright columns and the second upright columns are connected between the bottom plate and the flat cable frame; the discharge body is arranged between the adjacent first upright posts; the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe are provided with fixing parts, and one end of each fixing part is connected with the jack in an inserting mode.

The cabinet body is arranged on the base, and a plurality of hollow parts are arranged on the peripheral surface of the base; the circumferential surface of the base is provided with ear seats.

The beneficial effects of the utility model reside in that: the power supply assembly and the discharge assembly are arranged up and down, so that the requirement on miniaturization of the device is met, the heat of the power supply assembly and the heat of the discharge assembly can be taken away by the heat dissipation fan arranged at the upper end of the cabinet body at the same time, and the discharge assembly is mainly cooled through the waterway system to ensure the stable operation of the device; the arrangement of the high-voltage line is regulated by arranging the line-arranging grooves of the line-arranging frame so as to avoid the interference of the high-voltage line with a waterway system and a waterway system; meanwhile, the winding displacement frame is of a frame structure and cannot separate the discharging assembly from the power supply assembly, and effective heat dissipation of the discharging assembly can be guaranteed.

Drawings

Fig. 1 is a schematic structural view of a small and medium-sized plate-type ozone generator system according to a specific embodiment of the present invention;

fig. 2 is a schematic diagram of the high-voltage line trend of the middle and small plate-type ozone generator system according to the embodiment of the present invention.

Description of reference numerals:

1. a cabinet body; 11. a side frame; 12. a cross beam; 2. a power supply component; 21. a control system; 22. a first mounting plate; 23. a second mounting plate; 24. a high-frequency transformer; 25. a high-frequency resonant inductor; 26. a third mounting plate; 3. a discharge assembly; 31. a discharge body; 32. a gas path system; 33. a waterway system; 4. a wire arranging frame; 41. a wire arrangement groove; 42. square tubes; 43. a C-shaped pipe; 5. a heat radiation fan; 6. a removable cover plate; 7. a first upright post; 8. a second upright post; 9. a base; 91. a hollow-out section; 92. an ear mount; 10. a fixing member; 101. a high voltage line.

Detailed Description

In order to explain the technical contents, objects to be achieved, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and 2, a small and medium-sized plate-type ozone generator system comprises a cabinet body 1, wherein a power supply assembly 2, a discharge assembly 3, a winding displacement frame 4 and a heat dissipation fan 5 are arranged in the cabinet body 1, the power supply assembly 2 is arranged on the upper side of the cabinet body 1, the winding displacement frame 4 is arranged between the power supply assembly 2 and the discharge assembly 3, a winding displacement groove 41 is arranged in the winding displacement frame 4, and the discharge assembly 3 is arranged on the lower side of the cabinet body 1; the discharge assembly 3 comprises a discharge body 31, an air path system 32 and a water path system 33, the air path system 32 and the water path system 33 are both communicated with the discharge body 31, the power supply assembly 2 is connected with the discharge body 31 through a high-voltage wire 101, and the high-voltage wire 101 extends along the flat cable groove 41.

From the above description, it can be seen that the beneficial effects of the present novel form are: the power supply assembly 2 and the discharge assembly 3 are arranged up and down, so that the requirement on miniaturization of the device is met, the heat of the power supply assembly 2 and the heat of the discharge assembly 3 can be taken away by the heat dissipation fan 5 arranged at the upper end of the cabinet body 1, and the discharge assembly 3 is mainly cooled by the water path system 33 so as to ensure the stable operation of the device; the arrangement of the high-voltage wires 101 is regulated by the arrangement of the winding displacement grooves 41 of the winding displacement frame 4 so as to avoid the interference with the water path system 33 and the air path system 32; meanwhile, the frame 4 does not separate the discharge module 3 from the power module 2, and thus the effective heat dissipation of the discharge module 3 can be ensured.

Further, the cabinet body 1 comprises two side frames 11 and a plurality of cross beams 12, the cross beams 12 are connected to the side frames 11 along the height direction of the side frames 11, and a plurality of locking holes are uniformly spaced along the length direction of the cross beams 12; the power supply assembly 2 and the winding displacement frame 4 are locked with different cross beams 12.

As apparent from the above description, the power module 2 and the discharge module 3 can be easily locked by the provision of the cross member 12 on the side frame 11 and the provision of the plurality of lock holes on the cross member 12.

Further, the power supply module 2 comprises a control system 21, a first mounting plate 22, a second mounting plate 23, a high-frequency transformer 24 and a high-frequency resonance inductor 25, the first mounting plate 22 is perpendicular to the plane where the flat cable frame 4 is located, two sides of the first mounting plate 22 are locked with the cross beam 12, and one side of the first mounting plate 22 opposite to the front face of the cabinet 1 is provided with the control system 21; first mounting panel 22 is equipped with second mounting panel 23, high frequency transformer 24 and high frequency resonance inductance 25 with the cabinet body 1 openly relative one side, second mounting panel 23 is on a parallel with the plane at winding displacement frame 4 place, second mounting panel 23 butt is paid with locking on the crossbeam 12 of two side frames 11 with it, high frequency transformer 24 and high frequency resonance inductance 25 lock are paid on second mounting panel 23.

As can be seen from the above description, the control system 21 is connected to the first mounting plate 22 and is isolated from the high-frequency transformer 24 and the high-frequency resonant inductor 25, so as to ensure the safety of the operator in debugging the control system 21; a second mounting plate 23 which is vertical to the first mounting plate 22 is used as a bearing plate for a high-frequency transformer 24 and a high-frequency resonance inductor 25; the quick installation of the control system 21, the high-frequency transformer 24 and the high-frequency resonance inductor 25 is realized by the connection of the beam 12 with the lock hole with the first mounting plate 22 and the second mounting plate 23.

Further, the winding displacement frame 4 includes two square pipes 42 and two C-shaped pipes 43, the two square pipes 42 are respectively locked with the cross beams 12 of the two side frames 11, the two C-shaped pipes 43 are connected between the two square pipes 42, the C-shaped openings of the C-shaped pipes 43 are opposite, and the C-shaped openings of the C-shaped pipes 43 are used as the winding displacement groove 41 to arrange the high-voltage line 101.

From the above description, through the locking of the square tube 42 and the cross beam 12, the inner cavity of the square tube 42 can be used as a slot for the bolt to get out of position during the locking due to the stable structure, so as to prevent the bolt from being locked too deeply and damaging the internal devices. By the arrangement of the C-shaped pipe, the straight arrangement of the high voltage line 101 is ensured by the C-shaped opening of the C-shaped pipe as the flat cable groove 41 of the high voltage line 101.

Further, the power module 2 further includes a third mounting plate 26, and the third mounting plate 26 is locked between the two cross members 12 of the same side frame 11.

As can be seen from the above description, through the arrangement of the third mounting plate 26, the space between the two cross beams 12 on the same side frame 11 is reasonably utilized, and the mounting space is provided for the subsequent expansion of the added equipment.

Further, waterway system 33 includes the inlet tube, be equipped with the water route import that is connected with the inlet tube on the discharge body 31, the projection of inlet tube on the direction of height of discharge body 31 is less than the water route import.

As can be seen from the above description, the water inlet pipe of the water path system 33 is lower than the inlet of the water path in the height direction of the discharge body 31, so as to facilitate the subsequent water drainage of the discharge body 31 during the maintenance of the discharge body 31 and avoid the cooling water remained in the water inlet pipe flowing towards the inlet of the water path and leaking when the discharge body 31 is disassembled.

Furthermore, the inlet and outlet of the water path system 33 and the air path system 32 are both disposed at one side of the cabinet 1 adjacent to the front and the back of the cabinet 1.

As can be seen from the above description, the arrangement of the inlets and outlets of the water path system 33 and the air path system 32 on the same side facilitates the connection between the subsequent cooling water equipment and the air supply equipment, and the pipelines are arranged in the same way.

Further, the water-saving cabinet also comprises a movable cover plate 6, the water path system 33 comprises a water inlet pipe and a water outlet pipe, the gas path system 32 comprises a gas inlet pipe and a gas outlet pipe, and the cabinet body 1 is provided with corresponding through holes corresponding to the water inlet pipe, the water outlet pipe, the gas inlet pipe and the gas outlet pipe; the movable cover plate 6 is correspondingly sleeved on the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe and matched with the through holes.

As can be seen from the above description, the movable cover plate 6 is provided with the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe to compensate the deviation between the pipeline and the through hole caused by inaccurate manufacture and installation, deformation or thermal expansion during operation, and the like.

Further, the cabinet body 1 comprises a plurality of first upright posts 7 and second upright posts 8, the cabinet body comprises a bottom plate, and the first upright posts 7 and the second upright posts 8 are connected between the bottom plate and the flat cable frame 4; the discharge body 31 is arranged between the adjacent first upright posts 7; the second upright post 8 is provided with a jack, the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe are provided with fixing parts 10, and one end of each fixing part 10 is connected with the jack in an inserting mode.

As can be seen from the above description, the first upright post 7 is arranged as the fixing support of the discharge body 31, and the fixing member 10 on the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe is arranged, so that the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe are fixed by the insertion of the fixing member 10 and the insertion hole on the second upright post 8.

Further, the wardrobe also comprises a base 9, wherein the wardrobe body 1 is arranged on the base 9, and a plurality of hollow parts 91 are arranged on the peripheral surface of the base 9; the circumferential surface of the base 9 is provided with ear seats 92.

As can be seen from the above description, the hollow-out portion 91 on the base 9 is used for adapting the forklift to the base 9 during transportation; the lug seat 92 is used for fixing the base 9 during hoisting; the structure of carrying through multiple adaptation satisfies different transport conditions.

Referring to fig. 1 and 2, the first embodiment of the present invention is:

the utility model discloses novel application scene does: under the occasion like scientific research test place or individual use, the large-scale ozone generator unit that has many rack forms has now surpassed the user demand far away, and whole power consumption is big, and the fan is arranged manyly, is unfavorable for the use in middle-size and small-size place.

The middle-small plate-type ozone generator system of the embodiment comprises a cabinet body 1, a base 9, a movable cover plate 6, a plurality of first upright posts 7 and a plurality of second upright posts 8.

A power supply assembly 2, a discharge assembly 3, a winding displacement frame 4 and a heat dissipation fan 5 are arranged in the cabinet body 1, the power supply assembly 2 is arranged on the upper side of the cabinet body 1, the winding displacement frame 4 is arranged between the power supply assembly 2 and the discharge assembly 3, a winding displacement groove 41 is arranged in the winding displacement frame 4, and the discharge assembly 3 is arranged on the lower side of the cabinet body 1; the discharge assembly 3 comprises a discharge body 31, an air path system 32 and a water path system 33, the air path system 32 and the water path system 33 are both communicated with the discharge body 31, the power supply assembly 2 is connected with the discharge body 31 through a high-voltage wire 101, and the high-voltage wire 101 extends along the flat cable groove 41.

The cabinet body 1 comprises two side frames 11 and a plurality of cross beams 12, the cross beams 12 are connected to the side frames 11 along the height direction of the side frames 11, and a plurality of locking holes are uniformly spaced along the length direction of the cross beams 12; the power supply assembly 2 and the winding displacement frame 4 are locked with different cross beams 12.

The power supply module 2 comprises a control system 21, a first mounting plate 22, a second mounting plate 23, a third mounting plate 26, a high-frequency transformer 24 and a high-frequency resonance inductor 25, wherein the first mounting plate 22 is perpendicular to the plane where the flat cable frame 4 is located, two sides of the first mounting plate 22 are locked with the cross beam 12, and one side, opposite to the front face of the cabinet body 1, of the first mounting plate 22 is provided with the control system 21; a second mounting plate 23, a high-frequency transformer 24 and a high-frequency resonant inductor 25 are arranged on one side, opposite to the front side of the cabinet body 1, of the first mounting plate 22, the second mounting plate 23 is parallel to the plane where the flat cable frame 4 is located, the second mounting plate 23 is abutted against and locked with the cross beams 12 of the two side frames 11, and the high-frequency transformer 24 and the high-frequency resonant inductor 25 are locked on the second mounting plate 23; the third mounting plate 26 is locked between the two cross members 12 of the same side frame 11.

The high-frequency transformer 24 is electrically connected to the high-frequency resonant inductor 25, the high-voltage line 101 between the high-frequency resonant inductor 25 and the discharge body 31 is first suspended and extends downwards to the winding displacement slot 41 of the winding displacement frame 4, and the suspended section of the high-voltage line 101 is supported by the insulating member disposed on the side frame 11. And then the high-voltage wire 101 extends along the direction of the flat cable groove 41 to be connected with the discharge body 31, a waterproof junction box is arranged on the discharge body 31, and the high-voltage wire 101 is connected with the waterproof junction box to supply power to the discharge body 31.

The control system 21 comprises a micro power module for rectifying, filtering and inverting the current, a controller, a monitoring unit, a control touch screen and an emergency stop button; little power module, control touch-sensitive screen, scram button monitoring unit are connected with the controller electricity respectively, monitoring unit includes multi-functional instrument and suggestion device, multi-functional instrument is used for operation data such as display current, voltage, power factor, suggestion device includes pilot lamp and bee calling organ.

The winding displacement frame 4 includes two square pipes 42 and two C venturi tubes 43, two square pipes 42 lock with the crossbeam 12 of two side frames 11 respectively and pay, two C venturi tubes 43 connect between two square pipes 42, two C shape opening of C venturi tubes 43 is relative, C shape opening of C venturi tubes 43 is as winding displacement groove 41 in order to arrange high-voltage line 101. Shielding may be applied to the C-shaped tube 43 to reduce interference of the high voltage line 101 with the outside, such as wrapping a conductive aluminum foil.

The inlets and outlets of the water path system 33 and the air path system 32 are arranged at one side of the cabinet body 1 adjacent to the front and the back of the cabinet body 1.

The waterway system 33 comprises a water inlet pipe and a water outlet pipe, a waterway inlet connected with the water inlet pipe is arranged on the discharge body 31, and the projection of the water inlet pipe on the height direction of the discharge body 31 is lower than the waterway inlet.

The gas path system 32 comprises a gas inlet pipe and a gas outlet pipe, and corresponding through holes are formed in the cabinet body 1 corresponding to the water inlet pipe, the water outlet pipe, the gas inlet pipe and the gas outlet pipe; the movable cover plate 6 is correspondingly sleeved on the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe and matched with the through holes.

The cabinet body 1 further comprises a bottom plate, and the first upright posts 7 and the second upright posts 8 are connected between the bottom plate and the flat cable frame 4; the first upright posts 7 are provided with L-shaped steel pieces, and the discharge bodies 31 are arranged between the adjacent first upright posts 7 and can move along the length direction of the L-shaped steel pieces; a fixing plate is further arranged in the length direction of the L-shaped steel piece, and the fixing plate is locked with the adjacent first upright post 7 and the discharge body 31 to fix the discharge body 31; the second upright post 8 is provided with a jack, the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe are provided with fixing parts 10, and one end of each fixing part 10 is connected with the jack in an inserting mode. Optionally, the fixture 10 is a pipe clamp having one end extending.

The cabinet body 1 is arranged on a base 9, and a plurality of hollow parts 91 are arranged on the peripheral surface of the base 9; the circumferential surface of the base 9 is provided with an ear seat 92.

The water path system 33 is communicated with cooling water equipment, the gas path system 32 is communicated with gas supply equipment, and correspondingly, a plurality of instrument instruments such as an oxygen concentration instrument, a pressure gauge, a safety valve, a pressure reducing valve, a filter, a pressure transmitter, a flowmeter and various switch valves are arranged on pipelines of the water path system 33 and the gas path system 32.

The novel working principle of the utility model is as follows: air is supplied through the air path system 32, cooling water is supplied through the water path system 33, the control system 21, the high-frequency transformer 24 and the high-frequency resonance inductor 25 convert commercial power into high-voltage current, the high-voltage current is introduced into the discharge body 31, and the high-voltage current and the air in the discharge body 31 generate electrochemical reaction to produce ozone.

Through arranging power supply module 2 and discharge assembly 3 from top to bottom for the device integrates, the miniaturization, and by the frame shape setting of winding displacement frame 4, make in the device through a cooling fan 5, can dispel the heat to power supply module 2 and discharge assembly 3 simultaneously, and discharge assembly 3 also has waterway system 33 to provide main heat dissipation simultaneously. Due to the miniaturization of the device, the number and the power of the corresponding discharge bodies 31 are reduced, and the heat dissipation of the heat dissipation fan 5 matched with the water path system 33 is enough to stabilize the operation temperature of the whole device.

To sum up, the small and medium plate type ozone generator system provided by the utility model meets the miniaturization requirement of the device by arranging the power supply assembly and the discharge assembly up and down, so that the heat of the power supply assembly and the discharge assembly can be taken away by the heat dissipation fan arranged at the upper end of the cabinet body at the same time, and the discharge assembly is mainly cooled by the waterway system to ensure the stable operation of the device; the arrangement of the high-voltage line is regulated by arranging the line arrangement grooves of the line arrangement frame so as to avoid the interference of the high-voltage line with the waterway system and the waterway system; meanwhile, the bus bar frame is of a frame structure and cannot separate the discharge assembly from the power supply assembly, and effective heat dissipation of the discharge assembly can be guaranteed.

The above mentioned is only the embodiment of the present invention, and the patent scope of the present invention is not limited thereby, and all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. A middle-size and small-size plate type ozone generator system is characterized by comprising a cabinet body, wherein a power supply assembly, a discharge assembly, a winding displacement frame and a heat dissipation fan are arranged in the cabinet body, the power supply assembly is arranged on the upper side of the cabinet body, the winding displacement frame is arranged between the power supply assembly and the discharge assembly, a winding displacement groove is arranged in the winding displacement frame, and the discharge assembly is arranged on the lower side of the cabinet body; the power supply assembly is connected with the discharge body through a high-voltage wire, and the high-voltage wire extends along the wire arranging groove.

2. The small and medium sized plate type ozone generator system according to claim 1, wherein the cabinet body comprises two side frames and a plurality of cross beams, the side frames are connected with a plurality of cross beams along the height direction of the side frames, and the cross beams are provided with a plurality of locking holes at even intervals along the length direction; the power supply assembly and the wire arranging frame are locked with different cross beams.

3. The small and medium plate ozone generator system according to claim 2, wherein the power supply assembly comprises a control system, a first mounting plate, a second mounting plate, a high frequency transformer and a high frequency resonance inductor, the first mounting plate is perpendicular to the plane where the cable frame is located, two sides of the first mounting plate are locked with the cross beam, and one side of the first mounting plate opposite to the front face of the cabinet body is provided with the control system; first mounting panel is equipped with second mounting panel, high frequency transformer and high frequency resonance inductance with the positive relative one side of the cabinet body, the second mounting panel is on a parallel with the plane at winding displacement frame place, on the crossbeam of second mounting panel butt and two side frames and with it the lock pay, high frequency transformer and high frequency resonance inductance lock attach on the second mounting panel.

4. The middle-size and small-size plate type ozone generator system according to claim 2, wherein the bus bar frame comprises two square tubes and two C-shaped tubes, the two square tubes are respectively locked with the cross beams of the two side frames, the two C-shaped tubes are connected between the two square tubes, the C-shaped openings of the two C-shaped tubes are opposite, and the C-shaped openings of the C-shaped tubes are used as bus bar slots for arranging high-voltage wires.

5. The small and medium plate ozone generator system of claim 3, wherein the power module further comprises a third mounting plate, the third mounting plate being locked between two cross beams of the same side frame.

6. The small and medium sized plate type ozone generator system according to claim 1, wherein the water path system comprises a water inlet pipe, the discharge body is provided with a water path inlet connected with the water inlet pipe, and the projection of the water inlet pipe in the height direction of the discharge body is lower than the water path inlet.

7. The small and medium sized plate type ozone generator system according to claim 1, wherein the inlet and outlet of the water path system and the air path system are both arranged at one side of the cabinet body adjacent to the front and back of the cabinet body.

8. The small and medium sized plate type ozone generator system according to claim 7, further comprising a movable cover plate, wherein the waterway system comprises a water inlet pipe and a water outlet pipe, the gas circuit system comprises a gas inlet pipe and a gas outlet pipe, and the cabinet body is provided with corresponding through holes corresponding to the water inlet pipe, the water outlet pipe, the gas inlet pipe and the gas outlet pipe; the movable cover plate is correspondingly sleeved on the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe and matched with the through hole.

9. The small and medium plate ozone generator system of claim 8, further comprising a plurality of first and second uprights, the cabinet body including a bottom plate, the plurality of first and second uprights connected between the bottom plate and the cable frame; the discharge body is arranged between the adjacent first upright posts; the water inlet pipe, the water outlet pipe, the air inlet pipe and the air outlet pipe are provided with fixing pieces, and one end of each fixing piece is connected with the jack in an inserting mode.

10. The small and medium plate ozone generator system according to claim 1, further comprising a base, wherein the cabinet is disposed on the base, and a plurality of hollowed-out portions are disposed on the peripheral surface of the base; the circumferential surface of the base is provided with ear seats.

Images