CN115370466A - Ozone generator and turbocharger combined oil saving device - Google Patents

Abstract

The invention relates to the technical field of combination of an ozone generator and a turbocharger, and discloses an oil saving device combining the ozone generator and the turbocharger. This ozone generator and turbo charger combination fuel economizing device, cooperation work through last support arm, main installation piece, main installation pole, main connecting block, lower support arm, vice installation pole, vice connecting block and vice installation piece lets the whole fixed effect of equipment more stable, lets the whole running state of equipment more stable through fixed effect, reduces the potential safety hazard of equipment, has better guarantee to the user's of equipment security of the lives and property.

Description

Ozone generator and turbocharger combined oil saving device

Technical Field

The invention relates to the technical field of combination of an ozone generator and a turbocharger, in particular to an oil saving device combining the ozone generator and the turbocharger.

Background

In recent years, along with the rapid development of Chinese economy, more and more people buy vehicles and use or engage in transportation and operation form a huge automobile user group, on the other hand, the oil price is increased year by year due to energy shortage and government benefit protection, the rapid development of the oil-saving industry is accelerated due to higher and higher oil consumption cost, the concept of saving oil and money and the concept of environmental protection are deeply introduced into people, so that energy-saving and emission-reducing products are paid attention, the market demand is strong, an indispensable macroscopic demand environment is created for the development of the energy-saving market undoubtedly, and the method for saving energy and reducing emission in the automobile field is paid attention by people because of the fact that people pay attention to the energy-saving and emission-reducing method.

How to improve the efficiency of an automobile engine and reduce the emission of exhaust gas is a problem that needs to be solved urgently in the field of automobile industry, how to enable an automobile engine to obtain better turbocharging effect than turbocharging without changing the structure of an automobile? The ozone generator and turbocharger combined oil saving device well solves the defects of the turbocharger by using the combined technology of the ozone generator and the turbocharger.

The existing ozone generator and turbocharging combined oil saving device does not have better improvement on the overall installation and disassembly efficiency of equipment in the use process, and is easy to influence the overall structure of the equipment in the use process, so that potential safety hazards appear, and the overall structure safety of the equipment is not more comprehensively perfect in the use process.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the combined oil saving device of the ozone generator and the turbocharger, which has the advantages of higher disassembly and assembly efficiency, more stable overall structure, less potential safety hazard during operation, higher safety, better guarantee on the safety during use, better improvement on the overall safety and structural integrity and the like, and solves the problems that the overall assembly and disassembly efficiency of equipment is not better improved during use, the overall structure of the equipment is also easily influenced during use, the potential safety hazard is caused, and the overall structure safety of the equipment is not more comprehensively improved during use.

(II) technical scheme

In order to realize the purposes of faster disassembly and assembly efficiency, more stable integral structure, less potential safety hazard during operation, higher safety, better guarantee of safety during use and better improvement of integral safety and structural integrity, the invention provides the following technical scheme: the utility model provides an ozone generator and turbo charger combination economizer, includes the installation section of thick bamboo, the top fixedly connected with generator of installation section of thick bamboo, the generator includes upper support arm, main installation piece, main installation pole, stack shell, main connecting block, lower support arm, fixed screw, vice installation pole, vice connecting block, vice installation block, screw rod, nut, main meshing groove, stop collar, impeller, vice meshing groove and gasket, the left side parallel arrangement of upper support arm has main installation piece, the right side fixedly connected with main installation pole of main installation piece, the right side parallel arrangement of main installation pole has the stack shell, the below fixedly connected with main connecting block of main installation pole, the right side fixedly connected with lower support arm of main connecting block, the right side fixedly connected with vice connecting block of lower support arm, the right side fixedly connected with vice installation pole, the left side parallel arrangement of vice installation pole has the fixed screw, the below laminating of fixed screw has the gasket, the right side fixedly connected with vice installation piece of vice installation pole, the top parallel arrangement of stack shell has the screw rod, the top fixedly connected with nut of screw rod, the below of upper support arm has seted up the main meshing groove, the parallel arrangement of the impeller below is provided with the parallel arrangement groove.

The below parallel arrangement of generator has the booster, the booster includes fan axle, flabellum, jump ring, bearing, plate body, closing plate, shell, fixed strip, solid fixed cylinder, reserves entrance to a cave and pivot, the right side fixedly connected with flabellum of fan axle, the below parallel arrangement of flabellum has the jump ring, the below parallel arrangement of jump ring has the bearing, the below parallel arrangement of bearing has the pivot, the pivot includes axis body, draw-in groove and mounting groove, the below fixedly connected with draw-in groove of axis body, the below parallel arrangement of draw-in groove has the mounting groove, the below parallel arrangement of pivot has the plate body, the below fixedly connected with closing plate of plate body, the inside fixedly connected with shell of plate body, the inside fixedly connected with fixed strip of shell, the inside fixedly connected with solid fixed cylinder of fixed strip, the entrance to a cave has been seted up to the inside of solid fixed cylinder.

Preferably, a detachable structure is formed between the generator and the mounting cylinder, and the central axes formed between the generator and the mounting cylinder coincide with each other.

Preferably, a horizontal line formed between the upper support arm and the main mounting block is overlapped, and the main mounting block is connected with the main mounting rod through welding.

Preferably, a symmetrical structure is formed between the main mounting block and the auxiliary mounting block, and a symmetrical structure is formed between the main mounting rod and the auxiliary mounting rod.

Preferably, the main mounting rod and the auxiliary mounting rod are symmetrically distributed through a central axis of the cylinder body, and the upper supporting arm is connected with the cylinder body in a clamping mode through the main meshing groove.

Preferably, a detachable structure is formed between the cylinder body and the fixing screw, and the fixing screw and the gasket are tightly attached.

Preferably, the central axes of the upper support arm and the lower support arm are overlapped, and a penetrating structure is formed between the lower support arm and the auxiliary engaging groove.

Preferably, the central axes of the generator and the supercharger coincide with each other, and the mounting cylinder and the supercharger are connected in a clamping manner.

Preferably, the fan shaft is connected with the fan blades through welding, and the fan blades are symmetrically distributed through a central axis of the fan shaft.

Preferably, the outer dimension of the clamp spring is matched with the inner dimension of the bearing, and the clamp spring is connected with the bearing in a clamping manner.

Three beneficial effects

Compared with the prior art, the invention provides an oil saving device combining an ozone generator and a turbocharger, which has the following beneficial effects:

the ozone generator and turbocharger combined oil saving device ensures the overall fixing effect of the equipment to be more stable through the matching work between the upper support arm, the main mounting block, the main mounting rod, the main connecting block, the lower support arm, the auxiliary mounting rod, the auxiliary connecting block and the auxiliary mounting block, ensures the overall operation state of the equipment to be more stable through the fixing effect, reduces the potential safety hazard of the equipment, better ensures the life and property safety of users of the equipment, ensures the overall structure detachable effect of the equipment to be more comprehensive through the detachable structure between the generator and the mounting cylinder, greatly improves the overall structure mounting and detaching efficiency of the equipment in the use process, better ensures the overall operation stability of the equipment in the use process, ensures the stress balance of the equipment in the operation state to be more balanced through the coincidence of central axes between the generator and the mounting cylinder, improves the overall operation stability of the equipment, reduces the operation potential safety hazard of the equipment and improves the overall operation safety performance of the equipment, ensures the overall stress balance of the equipment to be better when the equipment is coincided with the central axis between the generator and the mounting cylinder, improves the overall operation stability of the equipment in the use process of the equipment, and improves the overall operation stability of the equipment in the use process of the equipment through the welding structure and the welding process, the whole structure safety and the whole operation stability of the equipment are better improved through the symmetrical structure between the main mounting rod and the auxiliary mounting rod, the whole structure safety, the operation efficiency and the stability of the equipment are better guaranteed, the whole structure stability and the safety of the equipment are better improved through the symmetrical distribution between the main mounting rod and the auxiliary mounting rod according to the central axis of the cylinder body, the whole operation stability and the whole operation state of the equipment are better improved, the whole clamping stability and the whole structure safety of the equipment are better improved through the clamping between the upper support arm and the cylinder body through the main meshing groove, the whole structure safety and the stability of the equipment are better guaranteed through the detachable structure between the cylinder body and the fixed screw, and the whole structure installation and the disassembly of the equipment are faster in the using process, the whole structure safety and the whole operation stability of the equipment are better improved and better guaranteed by tightly attaching the fixing screws and the gaskets in the using process, the whole structure safety and the operation stability of the equipment are better guaranteed by the coincidence of the central axes between the upper support arm and the lower support arm, the whole structure safety and the operation stability of the equipment are better promoted in the using process, the whole structure stability and the whole structure installation stability of the equipment are better promoted by the penetrating structure between the lower support arm and the auxiliary meshing groove, the whole safety of the equipment is better guaranteed, the whole structure stability and the whole structure operation safety of the equipment are better promoted by the coincidence of the central axes between the generator and the supercharger, and the whole operation of the equipment is better guaranteed in the using process, the clamping connection between the installation cylinder and the supercharger enables the overall connection stability and the overall installation efficiency of the equipment to be better in the using process, the overall operation stability and the operation safety of the equipment to be better, the overall structure stability and the overall structure safety of the equipment are better guaranteed through the welding connection between the fan shaft and the fan blades, the overall operation stability and the overall structure safety of the equipment are more comprehensively promoted in the using process of the equipment, the overall structure integrity of the equipment is better guaranteed, the overall structure stability and the laminating performance of the equipment are better promoted in the using process through the central axis symmetrical distribution of the fan blades and the fan shaft, the overall structure safety and the operation stability of the equipment are better guaranteed in the using process, the overall structure stability and the laminating performance of the equipment are better guaranteed through the coincidence of the external dimension of the clamp spring and the internal dimension of the bearing, the overall structure safety and the operation stability of the equipment are better guaranteed in the using process, and the overall structure stability and the overall operation safety of the equipment are better promoted through the clamping connection between the clamp spring and the bearing.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic diagram of a generator according to the present invention;

FIG. 3 is a schematic view of the expanded structure of the generator parts of the present invention;

FIG. 4 is a schematic view of the expanded structure of the supercharger components of the present invention;

FIG. 5 is a sectional view of the plate structure according to the present invention;

FIG. 6 is a cross-sectional view of the structure of FIG. 5 at A in accordance with the present invention;

FIG. 7 is a schematic view of a rotating shaft structure according to the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 2 at B according to the present invention.

In the figure: 1. a generator; 101. an upper support arm; 102. a main mounting block; 103. a main mounting bar; 104. a barrel body; 105. a main connecting block; 106. a lower support arm; 107. a fixing screw; 108. an auxiliary mounting rod; 109. an auxiliary connecting block; 110. a sub-mounting block; 111. a screw; 112. a nut; 113. a primary engagement groove; 114. a position limiting sleeve; 115. an impeller; 116. a secondary engagement groove; 117. a gasket; 2. mounting the cylinder; 3. a supercharger; 301. a fan shaft; 302. a fan blade; 303. a clamp spring; 304. a bearing; 305. a plate body; 306. a sealing plate; 307. a housing; 308. a fixing strip; 309. a fixed cylinder; 310. reserving a hole; 4. a rotating shaft; 401. a shaft body; 402. a card slot; 403. and (4) mounting the groove.

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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. 1-8, an oil saving device combining an ozone generator and a turbocharger comprises an installation cylinder 2, a generator 1 is fixedly connected above the installation cylinder 2, the generator 1 comprises an upper support arm 101, a main installation block 102, a main installation rod 103, a cylinder body 104, a main connecting block 105, a lower support arm 106, a fixing screw 107, an auxiliary installation rod 108, an auxiliary connecting block 109, an auxiliary installation block 110, a screw 111, a nut 112, a main meshing groove 113, a limiting sleeve 114, an impeller 115, an auxiliary meshing groove 116 and a gasket 117, the main installation block 102 is arranged on the left side of the upper support arm 101 in parallel, the main installation rod 103 is fixedly connected on the right side of the main installation block 102, the cylinder body 104 is arranged on the right side of the main installation rod 103 in parallel, the main connecting block 105 is fixedly connected below the main installation rod 103, the right side of the main connecting block 105 is fixedly connected with a lower support arm 106, the right side of the lower support arm 106 is fixedly connected with an auxiliary connecting block 109, the right side of the auxiliary connecting block 109 is fixedly connected with an auxiliary mounting rod 108, a fixing screw 107 is arranged on the left side of the auxiliary mounting rod 108 in parallel, a gasket 117 is attached to the lower side of the fixing screw 107, an auxiliary mounting block 110 is fixedly connected on the right side of the auxiliary mounting rod 108, a screw 111 is arranged on the upper side of the barrel 104 in parallel, a nut 112 is fixedly connected on the upper side of the screw 111, a main meshing groove 113 is formed in the lower side of the upper support arm 101, a limiting sleeve 114 is arranged on the lower side of the main meshing groove 113 in parallel, an impeller 115 is arranged on the lower side of the limiting sleeve 114 in parallel, and an auxiliary meshing groove 116 is arranged on the lower side of the impeller 115 in parallel.

The lower parallel arrangement of generator 1 has booster 3, booster 3 includes fan axle 301, flabellum 302, jump ring 303, bearing 304, plate body 305, the closing plate 306, shell 307, fixed strip 308, the solid fixed cylinder 309, reserve entrance to a cave 310 and pivot 4, the right side fixedly connected with flabellum 302 of fan axle 301, the below parallel arrangement of flabellum 302 has jump ring 303, the below parallel arrangement of jump ring 303 has bearing 304, the below parallel arrangement of bearing 304 has pivot 4, pivot 4 includes axis body 401, draw-in groove 402 and mounting groove 403, the below fixedly connected with draw-in groove 402 of axis body 401, the below parallel arrangement of draw-in groove 402 has mounting groove 403, the below parallel arrangement of pivot 4 has plate body 305, the below fixedly connected with closing plate 306 of plate body 305, the inside fixedly connected with shell 307 of plate body 305, the inside fixedly connected with fixed strip 308 of shell 307, the inside fixedly connected with solid fixed cylinder 309 of fixed strip 308, reserve entrance to a cave 310 has been seted up to the inside of solid fixed cylinder 309.

This embodiment, constitute detachable construction between generator 1 and the installation section of thick bamboo 2, and constitute the axis between generator 1 and the installation section of thick bamboo 2 and coincide mutually, detachable construction through between generator 1 and the installation section of thick bamboo 2 lets the overall structure detachable effect of equipment more comprehensive, the overall structure installation and the dismantlement efficiency to equipment in the use improve by a wide margin, also there is better guarantee to the whole operating stability of equipment in the use, the axis coincidence through between generator 1 and the installation section of thick bamboo 2 lets the atress of equipment under the running state more balanced, improve equipment's whole operating stability, reduce the operation potential safety hazard of equipment and improve equipment's whole operation security performance.

This embodiment, it coincides to constitute the water flat line between upper boom 101 and the main installation piece 102, and pass through welded connection between main installation piece 102 and the main installation pole 103, constitute the water flat line and coincide between support arm 101 and the main installation piece 102 and let the whole stress balance nature of equipment better, it is more comprehensive to the running state guarantee of equipment, the horizontality of the holding device during operation that can be better when using equipment, improve equipment's operational safety, it is better to let the overall connection stability of equipment better to let welded connection between main installation piece 102 and the main installation pole 103, there is better promotion to the overall safety nature of equipment in the use, potential safety hazard when avoiding moving that can be better in the use.

This embodiment, constitute symmetrical structure between main installation piece 102 and the vice installation piece 110, and constitute symmetrical structure between main installation pole 103 and the vice installation pole 108, it has better guarantee to let the overall structure security and the stability of equipment have better guarantee to the overall structure security and the stability of equipment through the symmetrical structure between main installation piece 102 and the vice installation piece 110, it has better promotion to let the overall structure security and the whole operating stability of equipment have better promotion through the symmetrical structure between main installation pole 103 and the vice installation pole 108, let the overall structure security and the operating efficiency and the stability of equipment all have better guarantee.

This embodiment, carry out the symmetric distribution through the axis of stack shell 104 between main installation pole 103 and the vice installation pole 108, and go up and carry out the block through main meshing groove 113 between arm 101 and the stack shell 104 and be connected, carry out the symmetric distribution according to the axis of stack shell 104 between main installation pole 103 and the vice installation pole 108 and let the overall structure stability and the security of equipment all have better promotion, let the overall operation stability and the overall operation state of equipment all have better promotion, carry out the block through main meshing groove 113 between arm 101 and the stack shell 104 and let the overall block stability and the overall structure security of equipment all have better promotion.

This embodiment, constitute detachable construction between stack shell 104 and the fixed screw 107, and constitute closely laminating between fixed screw 107 and the gasket 117, detachable construction through between stack shell 104 and the fixed screw 107 lets the overall structure security and the stability of equipment have better guarantee, all there is faster efficiency to the overall structure installation and the dismantlement of equipment in the use, closely laminating through between fixed screw 107 and the gasket 117 in the use lets the overall structure security and the whole operating stability of equipment all have better promotion, let the overall security of equipment all have better guarantee.

This embodiment, it coincides to go up the axis that constitutes between arm 101 and the lower arm 106, and constitute the structure that runs through between lower arm 106 and the vice meshing groove 116, it has better guarantee to let the overall structure security and the operating stability of equipment have better guarantee to coincide mutually through the axis between last arm 101 and the lower arm 106, there is better promotion to the whole operation security of equipment in the use, it all has better promotion to let the overall structure stability and the overall structure installation stability of equipment have better promotion to run through the structure that runs through between lower arm 106 and the vice meshing groove 116, there is better guarantee to the overall security of equipment.

This embodiment, constitute the axis coincidence between generator 1 and the booster 3, and constitute the block between installation section of thick bamboo 2 and the booster 3 and be connected, it all has better promotion to let the overall structure stability and the overall structure operation security of equipment all to coincide through the axis coincidence between generator 1 and the booster 3, there is better guarantee to the overall operation of equipment in the use, it is better to let the overall connection stability and the integral erection efficiency of equipment be connected through the block between installation section of thick bamboo 2 and the booster 3 in the use, it is better to let the overall operation stability and the operation security of equipment.

This embodiment, through welded connection between fan axle 301 and the flabellum 302, and flabellum 302 carries out the symmetric distribution through the axis of fan axle 301, welded connection between fan axle 301 and the flabellum 302 lets the overall structure stability and the overall structure security of equipment all have better guarantee, let equipment all have more comprehensive promotion to the whole operating stability and the security of equipment in the use, let the overall structure integrality of equipment have better guarantee, the axis symmetric distribution through flabellum 302 and fan axle 301 in the use lets the whole atress equilibrium of equipment have better promotion, there is better guarantee to the overall structure security of equipment in the use.

In this embodiment, the external dimension of jump ring 303 is identical with the internal dimension of bearing 304, and be connected through the block between jump ring 303 and the bearing 304, the external dimension through jump ring 303 is identical with the internal dimension of bearing 304 and lets the overall structure stability and the laminating nature of equipment have better promotion, there is better guarantee to the overall structure security and the operating stability of equipment in the use, the block through jump ring 303 and bearing 304 in the use is connected and is let the overall structure stability and the overall operating safety of equipment all have better promotion.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

When the oil-saving combined type oil-saving engine is used, the generator 1 is installed on the installation cylinder 2 through the upper support arm 101, the main installation block 102, the main installation rod 103, the main connecting block 105, the lower support arm 106, the auxiliary installation rod 108, the auxiliary connecting block 109 and the auxiliary installation block 110, then is installed inside the installation cylinder 2 through the plate body 305, and after the installation is finished, the combined oil-saving operation is carried out through the generator 1 and the supercharger 3.

To sum up, this ozone generator and turbo charger combination fuel economizing device, it is faster to dismantle and the installation effectiveness, and overall structure is more stable, and the potential safety hazard is less when the operation, and the security is higher, and the safety to when using that can be better is ensured, has better promotion to holistic security and structural integrity.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an ozone generator and turbo charger combination fuel economizing device, includes installation section of thick bamboo (2), its characterized in that: the generator (1) is fixedly connected above the mounting cylinder (2), the generator (1) comprises an upper support arm (101), a main mounting block (102), a main mounting rod (103), a cylinder body (104), a main connecting block (105), a lower support arm (106), a fixing screw (107), an auxiliary mounting rod (108), an auxiliary connecting block (109), an auxiliary mounting block (110), a screw rod (111), a nut (112), a main meshing groove (113), a limiting sleeve (114), an impeller (115), an auxiliary meshing groove (116) and a gasket (117), the main mounting block (102) is arranged on the left side of the upper support arm (101) in parallel, the main mounting rod (103) is fixedly connected on the right side of the main mounting block (102), the cylinder body (104) is arranged on the right side of the main mounting rod (103) in parallel, the main connecting block (105) is fixedly connected below the main mounting rod (103), the lower support arm (106) is fixedly connected on the right side of the main mounting block (105), the auxiliary connecting block (109) is fixedly connected on the right side of the lower support arm (106), the auxiliary connecting block (109) is fixedly connected on the right side of the auxiliary connecting block (108), the auxiliary connecting block (108) is fixedly connected with the auxiliary mounting rod (107), the auxiliary connecting block (107) is fixedly connected with the auxiliary connecting block (107), the left side of the auxiliary mounting rod (107) in parallel, and the auxiliary connecting block (107) is arranged below the auxiliary connecting block (107), an auxiliary mounting block (110) is fixedly connected to the right side of the auxiliary mounting rod (108), a screw (111) is arranged above the barrel body (104) in parallel, a nut (112) is fixedly connected to the upper side of the screw (111), a main meshing groove (113) is formed below the upper support arm (101), a limiting sleeve (114) is arranged below the main meshing groove (113) in parallel, an impeller (115) is arranged below the limiting sleeve (114) in parallel, and an auxiliary meshing groove (116) is arranged below the impeller (115) in parallel;

the generator is characterized in that a supercharger (3) is arranged below the generator (1) in parallel, the supercharger (3) comprises a fan shaft (301), fan blades (302), clamp springs (303), bearings (304), plate bodies (305), sealing plates (306), a shell (307), fixing strips (308), a fixing cylinder (309), a reserved hole (310) and a rotating shaft (4), the fan blades (302) are fixedly connected to the right side of the fan shaft (301), the clamp springs (303) are arranged below the fan blades (302) in parallel, the bearings (304) are arranged below the clamp springs (303) in parallel, the rotating shaft (4) is arranged below the bearings (304) in parallel, the rotating shaft (4) comprises a shaft body (401), a clamping groove (402) and a mounting groove (403), the clamping groove (402) is fixedly connected below the shaft body (401), the mounting groove (403) is arranged below the clamping groove (402) in parallel, the plate bodies (305) are arranged below the rotating shaft (4) in parallel, the sealing plates (305) are fixedly connected below the plate bodies (306), the shell (307) is fixedly connected to the inner part of the fixing strips (308), and the fixing strips (308) are connected to the sealing plates (309), a reserved hole (310) is formed in the fixed cylinder (309).

2. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: constitute detachable construction between generator (1) and the installation section of thick bamboo (2), and constitute the axis between generator (1) and the installation section of thick bamboo (2) and coincide mutually.

3. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the upper support arm (101) and the main mounting block (102) form horizontal line coincidence, and the main mounting block (102) is connected with the main mounting rod (103) through welding.

4. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: a symmetrical structure is formed between the main mounting block (102) and the auxiliary mounting block (110), and a symmetrical structure is formed between the main mounting rod (103) and the auxiliary mounting rod (108).

5. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the main mounting rod (103) and the auxiliary mounting rod (108) are symmetrically distributed through a central axis of the cylinder body (104), and the upper supporting arm (101) is connected with the cylinder body (104) in a clamping mode through a main meshing groove (113).

6. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the barrel body (104) and the fixing screw (107) form a detachable structure, and the fixing screw (107) and the gasket (117) form tight fit.

7. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the central axes of the upper support arm (101) and the lower support arm (106) are overlapped, and a penetrating structure is formed between the lower support arm (106) and the auxiliary engaging groove (116).

8. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the central axes of the generator (1) and the supercharger (3) are overlapped, and the mounting cylinder (2) and the supercharger (3) are connected in a clamping manner.

9. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the fan shaft (301) is connected with the fan blades (302) through welding, and the fan blades (302) are symmetrically distributed through the central axis of the fan shaft (301).

10. The ozone generator and turbocharger combined oil saving device according to claim 1, characterized in that: the outer size of the clamp spring (303) is matched with the inner size of the bearing (304), and the clamp spring (303) is connected with the bearing (304) in a clamping mode.

Images