CN211370709U - High-pressure cleaning equipment - Google Patents

Abstract

The utility model provides a high pressure cleaning equipment, including motor element, by motor element driven drive assembly, with pump assembly, frame and the pipeline subassembly that drive assembly connects, the frame is including the motor casing of acceping motor element and the transmission case of acceping drive assembly, the both sides of motor casing are equipped with mutually independent radiating part. Compared with the prior art, the utility model discloses a both sides at the motor casing set up mutually independent radiating part to satisfy the requirement of hand-held type high pressure cleaning equipment to radiating part structure, this high pressure cleaning equipment is small, efficient, cool off good, convenient to carry.

Description

High-pressure cleaning equipment

Technical Field

The utility model relates to a cleaning equipment technical field especially relates to a high pressure cleaning equipment.

Background

At present, the heat dissipation modes of high-pressure cleaning equipment in the market are mainly two, one mode is to adopt a fan to cool the motor, and the other mode is to adopt a water cooling channel to cool the motor.

The cooling mode of the fan is that a ventilation air groove structure is arranged on the whole machine product, and the cooling efficiency is low and the cooling effect is poor. In addition, in the use process, because the ventilation groove is easy to feed water and the waterproof grade of the high-pressure cleaning equipment is low, the operation and the use safety of the electric parts in the whole machine are easy to be influenced.

Therefore, the existing high-pressure cleaning equipment mainly adopts a water cooling channel cooling mode. The cooling mode of the water-cooling channel is that an annular plunger cavity structure is arranged on the surface of the motor shell, so that the heat dissipation efficiency is high, and the cooling effect is good. However, the annular plunger cavity has a complicated structure and a large size, and is generally used for non-handheld high-pressure cleaning equipment, and the requirement of the handheld high-pressure cleaning equipment on the plunger cavity structure cannot be met.

In view of the above, it is necessary to provide a high pressure cleaning apparatus to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a small, efficient, cool off good, convenient to carry's high pressure cleaning equipment.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the high-pressure cleaning equipment comprises a motor component, a transmission component driven by the motor component, a pump component, a base and a pipeline component, wherein the pump component, the base and the pipeline component are connected with the transmission component, the base comprises a motor shell for accommodating the motor component and a transmission case for accommodating the transmission component, and mutually independent heat dissipation parts are arranged on two sides of the motor shell.

As the utility model discloses further modified technical scheme, the motor casing includes first main part and equipment to two side cap boards and a front shroud of first main part, the transmission case includes second main part and upper cover plate, first main part and the integrative setting of second main part.

As the utility model discloses further modified technical scheme, first main part both sides face is equipped with the recess respectively, and the opening at both ends and the accommodating space that is used for acceping motor element around being equipped with in the first main part, thereby two side cover boards assemble respectively to two recesses and form the heat dissipation part, the front end opening that drive assembly was kept away from to first main part to the front cover board equipment.

As a further improved technical scheme of the utility model, be equipped with a plurality of water conservancy diversion muscle in the recess, a plurality of water conservancy diversion muscle form a rotation heat dissipation water course in the radiating part, the both ends of heat dissipation water course are located two diagonal departments of each side of main part.

As the utility model discloses further modified technical scheme, be equipped with the three opening that is used for acceping the accommodating space of drive assembly and is linked together with accommodating space on the second main part, wherein two openings are located second main part front and back both ends respectively, and another opening is located second main part top, and the opening that is located second main part front end is linked together with the opening that is located first main part rear end, the upper cover plate is used for sealing the opening at second main part top.

As the utility model discloses further modified technical scheme, transmission assembly includes that the integral type transmission shaft of mutually vertically of motor element, cover establish the eccentric block that is connected above the transmission shaft and with the pump subassembly, cover establish pinion, cover on the motor shaft and establish the duplex bearing at the transmission shaft lower extreme with pinion gear connection's gear wheel and be located gear wheel below cover on the transmission shaft, the transmission shaft is the cantilever type and installs on the transmission case.

As a technical scheme of the utility model further modified, pipeline assembly includes water intake pipe and connecting line, all be equipped with water inlet and delivery port on motor casing and the pump package spare, water intake pipe is connected with the water inlet of motor casing, connecting line is connected with the water inlet of the delivery port of motor casing and pump package spare.

As the utility model discloses further modified technical scheme, the pump package spare includes the plunger of being connected with drive assembly and is used for holding the plunger chamber of plunger, the plunger includes connecting portion, main part and the head of being connected with drive assembly, the head separates the plunger chamber for first cavity and second cavity, be equipped with on the plunger from the head extend to the trompil of main part and plug up the plastics end cap of trompil, the position that the main part is close to the head is equipped with first ring channel.

As the utility model discloses further modified technical scheme further includes the switch module, the switch module includes the trigger, is used for controlling the switch of intaking of pipeline subassembly switching and is used for controlling the electric switch of motor element switching, trigger coordinated control intake switch and electric switch.

As the utility model discloses further modified technical scheme, motor element is direct current brushless motor, the motor casing is the cuboid, the transmission case is cylindrically.

The utility model has the advantages that: set up mutually independent radiating part through the both sides at the motor casing to satisfy the requirement of hand-held type high pressure cleaning equipment to radiating part structure, this high pressure cleaning equipment is small, efficient, cool off, convenient to carry.

Drawings

Fig. 1 is a perspective view of the high pressure cleaning apparatus of the present invention.

Fig. 2 is an exploded perspective view of the base of the present invention.

Fig. 3 is a perspective view of the first body portion and the second body portion of the present invention.

Fig. 4 is a perspective view of the transmission assembly of the present invention.

Fig. 5 is a sectional view of the high pressure cleaning apparatus of the present invention.

Fig. 6 is an enlarged view of a portion a in fig. 5.

Fig. 7 is an exploded perspective view of the plunger of the present invention.

Fig. 8 is a partially enlarged view of the water inlet switch of fig. 5.

Fig. 9 is a perspective exploded view of the water inlet pipe of the present invention.

Fig. 10 is a perspective view of the trigger of the present invention.

Fig. 11 is a perspective view of the valve seat of the present invention.

Fig. 12 is a perspective view of the valve cartridge of the present invention.

Fig. 13 is a perspective view of the driving rod of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 5, the high pressure cleaning apparatus of the present invention includes a motor assembly 1, a transmission assembly 2 driven by the motor assembly 1, a pump assembly 3 connected to the transmission assembly 2, a base 4, a pipeline assembly 5, and a switch assembly 6.

Referring to fig. 5, the motor assembly 1 includes a motor shaft 11 and a motor stator and rotor assembly 12, and the motor assembly 1 is a brushless dc motor. On one hand, the brushless direct current motor optimizes the water cooling mode of the motor stator and rotor assembly 12 under the condition of reducing the size of the motor; on the other hand, the brushless dc motor reduces the resistance in the pipeline assembly 5 under the condition of enhancing the cooling effect, thereby improving the suction force and performance parameters of the pump assembly 3 in the self-priming state.

As shown in fig. 2 and 3, the base 4 includes a motor housing 41 for accommodating the motor assembly 1 and a transmission case 42 for accommodating the transmission assembly 2. The motor casing 41 is a rectangular parallelepiped, and includes a first main body 411, and two side covers 412 and a front cover 413 assembled to the first main body 411.

The first main body 411 is provided with an opening 414 at the front end thereof, an opening (not numbered) at the rear end thereof, and an accommodating space 415 for accommodating the motor assembly 1, the first main body 411 is assembled with the front cover 413 away from the front opening 414 of the transmission assembly 2, and the first main body 411 is assembled with the transmission case 42 close to the rear opening of the transmission assembly 2.

The first body 411 has two grooves 416 formed on both side surfaces thereof, and the two side covers 412 are respectively assembled to the two grooves 416 to form heat dissipation portions 417. Compared with a common annular water tank, the heat dissipation parts 417 on two sides of the first main body part 411 have simple structure and small size, and are more beneficial to the use of handheld high-pressure cleaning equipment; on the other hand, the heat dissipation portions 417 on both sides are independent from each other, so that the cooling effect of the single heat dissipation portion 417 is enhanced. In addition, compared with a general fan cooling method, the water cooling channel cooling method adopted by the heat dissipation portion 417 can enable the high-pressure cleaning equipment to meet the waterproof grade requirement of IPX5, so that the working pressure of the high-pressure cleaning equipment is further increased to 4 MPa.

In order to further enhance the cooling effect of the heat dissipating portion 417, a plurality of flow guiding ribs 418 are disposed in the groove 416, a rotary heat dissipating water channel (shown by arrows in fig. 3) is formed in the heat dissipating portion 417 by the plurality of flow guiding ribs 418, and two ends of the heat dissipating water channel are respectively located at two opposite corners of each side surface of the main body portion 411, so that water flows through the heat dissipating portion 417 from top to bottom under the guidance of the flow guiding ribs 418, and then two sides of the motor assembly 1 are uniformly cooled.

The transmission case 42 is cylindrical and includes a second main body 421 and an upper cover 422. The second body 421 has a receiving space 423 for receiving the transmission assembly 2 and three openings communicating with the receiving space 423. The two openings are respectively located at the front end and the rear end of the second main body 421, specifically, an opening (not numbered) at the front end of the second main body 421 is communicated with an opening at the rear end of the first main body 411, and an opening 424 at the rear end of the second main body 421 is communicated with the pump assembly 3. Another opening 425 is formed at the top of the second body 421, and the upper cover 422 is used to close the opening 425.

The first main body part 411 and the second main body part 421 are integrally arranged, so that the problems of noise and vibration between the motor assembly 1 and the transmission case 42 caused by machining and matching errors are reduced, the transmission precision and the transmission efficiency of the high-pressure cleaning equipment are improved, and the useless power consumption of the whole machine is reduced.

Referring to fig. 1 and 3, the pipeline assembly 5 includes a water inlet pipeline 51 and a connecting pipeline 52, and the motor casing 41 and the pump assembly 3 are both provided with a water inlet and a water outlet. The water inlet 419 and the water outlet 410 of the motor casing 41 are respectively located at two ends of the heat dissipation water channel, and the water inlet pipeline 51 is divided into two pipelines to be respectively connected with the water inlet 419 of the heat dissipation water channel at two sides of the motor casing 41. One end of the connecting pipeline 52 is connected to the water outlet 410 of the heat dissipation water channel on both sides of the motor casing 41, and the other end is connected to the water inlet 35 of the pump assembly 3.

Referring to fig. 8 and 9, the water inlet pipe 51 includes a connecting pipe 53, a water inlet pipe 54 and a water inlet seat 55 connected in sequence, the water inlet pipe 54 includes a pipe body 541, a mounting pipe 542 perpendicular to the pipe body 541 and communicating with the pipe body 541, and a water inlet end 543 and a water outlet end 544 located at two ends of the pipe body 541, the water inlet seat 55 is connected to the water inlet end 543, and the connecting pipe 53 is connected to the water outlet end 544.

Referring to fig. 4 and 5, the transmission assembly 2 includes an integrated transmission shaft 21 perpendicular to the motor shaft 11 of the motor assembly 1, an eccentric block 22 disposed above the transmission shaft 21 and connected to the pump assembly 3, a pinion 23 disposed on the motor shaft 11, a bull gear 24 disposed on the transmission shaft 21 and connected to the pinion 23, and a dual bearing 25 disposed below the bull gear 24 and disposed on the transmission shaft 21. The high-pressure cleaning equipment mainly adopts the double bearings 25 to support the cantilever type transmission shaft 21 for transmission, avoids the problems of machine vibration and noise caused by fit clearance caused by the fact that the transmission shaft 21 needs to be split into two sections when bearings are designed at two ends of the transmission shaft 21, and simultaneously reduces the processing precision and cost of parts.

Referring to fig. 5 and 6, the pump assembly 3 is a single-plunger and dual-cavity structure, and includes a pump housing 30, a plunger 31 located inside the pump housing 30 and connected to the transmission assembly 2, a plunger cavity 32 for accommodating the plunger 31, four check valves 33, and a water outlet 34. The transmission assembly 2 drives the plunger 31 to reciprocate to pressurize the liquid in the plunger cavity 32, and the pressurized liquid flows out through the water outlet body 34.

Referring to fig. 7, the plunger 31 includes a connecting portion 311 connected to the transmission assembly 2, a main body portion 312 and a head portion 313. The head 313 of the plunger 31 divides the plunger cavity 32 into a first chamber 321 and a second chamber 322, the second chamber 322 is close to the transmission assembly 2; the first chamber 321 and the second chamber 322 are not communicated with each other.

The plunger 31 is provided with an opening 314 extending from the head portion 313 to the body portion 312, which is mainly used for reducing the mass of the plunger 31, thereby reducing the vibration caused by the impact of the plunger 31 on the pump assembly 3 during the reciprocating motion. The head 313 of the plunger 31 is also provided with a plastic plug 315 for plugging the opening 314, which not only can reduce the mass of the plunger 31, but also can reduce the clearance volume of the plunger cavity 32 after compression, thereby improving the working efficiency of the high-pressure cleaning equipment. The main body 312 of the plunger 31 is provided with a first annular groove 316 near the head 313, which is mainly used for increasing the water inflow and the water discharge of the second chamber 322, thereby increasing the water flow of the high pressure cleaning device. The head 313 of the plunger 31 is provided with a second annular groove 317, and a water seal 318 is sleeved in the second annular groove 317.

The four check valves 33 include a first inlet valve 331, a second inlet valve 332, and a first outlet valve 333 and a second outlet valve 334 corresponding to the first inlet valve 331 and the second inlet valve 332, respectively. The first inlet valve 331 and the second inlet valve 332 are located below the plunger 31 and perpendicular to the plunger 31, and the first outlet valve 333 and the second outlet valve 334 are parallel to the plunger 31, wherein the first outlet valve 333 is flush with the plunger 31, and the second outlet valve 334 is higher than the plunger 31. Meanwhile, the first and second inlet valves 331 and 332 are connected to the connecting pipe 52 of the pipe assembly 5, and the first and second outlet valves 333 and 334 are connected to the outlet body 34.

The outlet body 34 is provided with a safety valve 341, and when the pump assembly 3 is in operation and the outlet nozzle (not shown) on the outlet body 34 is blocked, the water pressure in the outlet body 34 will rise immediately, and the water pressure will react on the first outlet valve 333 and the second outlet valve 334 immediately and close, and at the same time, act on the safety valve 341 below the outlet body 34. The valve core 342 of the safety valve 341 is immediately opened under the action of the return water pressure, the high-pressure return water is released into the pipeline assembly 5, and after the water pressure is released, the valve core 342 of the safety valve is immediately restored to a closed state. So set up, can avoid when the shower nozzle blocks up, bring the harm to the squirt (not shown) that pump assembly 3 communicates.

The working principle of the pump assembly 3 is specifically as follows:

referring to fig. 6, when the plunger 31 moves to the left, the water in the first chamber 321 on the left is compressed to form high pressure, the first inlet valve 331 is closed and the first outlet valve 333 is opened, so that the high pressure water enters the outlet body 34 through the first outlet valve 333; meanwhile, the right second chamber 322 is vacuumed, opening the second inlet valve 332 and closing the second outlet valve 334, so that the external water source enters the second chamber 322 through the second inlet valve 332.

When the plunger 31 moves to the right, the water in the right second chamber 322 is compressed to form high pressure, closing the second inlet valve 332 and opening the second outlet valve 334, so that the high pressure water enters the outlet body 34 through the second outlet valve 334; meanwhile, the first chamber 321 on the left is vacuumed, and the first inlet valve 331 is opened and the first outlet valve 333 is closed, so that the external water source enters the first chamber 321 through the first inlet valve 331.

Referring to fig. 8, the switch assembly 6 includes a trigger 61, a water inlet switch 62 and an electric switch 63, and the trigger 61 controls the water inlet switch 62 and the electric switch 63 in a linkage manner, so that a water and electricity linkage control function of the handheld high-pressure cleaning device is realized, and the handheld high-pressure cleaning device is convenient to use and good in user experience.

Referring to fig. 10, the trigger 61 includes a bottom wall 611, two sidewalls 612 on two sides of the bottom wall 611, and a middle wall 613 between the two sidewalls 612, wherein the bottom wall 611 and the two sidewalls 612 form a receiving groove 614. When assembled, the mounting tube 542 is received within the receiving channel 614, thereby captively coupling the inlet tube 54 to the trigger 61.

Referring to fig. 8 and 11, the water inlet switch 62 includes a water inlet valve 64 and a driving rod 65, which are mainly used for controlling the opening and closing of the pipeline assembly 5. The inlet valve 64 is mounted in the inlet pipe 54 and includes a valve seat 641 and a valve element 642 cooperating with the valve seat 641. The valve seat 641 is located at the water outlet end 544 and includes a first main body portion 643 and a first through hole 644 opened in the first main body portion 643.

Referring to fig. 8 and 12, the valve element 642 includes a thimble 645, a second body 646, and a second through hole 647 formed in the second body 646. The thimble 645 of the valve core 642 is tightly matched with the first through hole 644 of the valve seat 641, and when the water inlet switch 62 is closed, the thimble 645 of the valve core 642 is tightly plugged in the first through hole 644, so that water flow through the water inlet pipe 54 is prevented; when the water inlet switch 62 is turned on, the needle 645 of the valve element 642 is disengaged from the first through hole 644, thereby allowing water to flow into the connecting pipe 53 through the water inlet pipe 54. In addition, a spring 66 is disposed between the second main body 646 and the water inlet seat 55, and a chamfered surface 648 protruding upward is disposed on the bottom surface of the second through hole 647 away from the valve seat 641.

Referring to fig. 8 and 13, the driving rod 65 is an integral structure and is accommodated in the mounting tube 542, and one end of the driving rod is engaged with the trigger 61, and the other end thereof is engaged with the water inlet valve 64 to control the opening and closing of the water inlet valve 64. The drive ram 65 includes a head 651 that abuts the bottom wall 611 of the trigger 61 and a shaft 652 that abuts the chamfered surface 648 of the valve spool 642. In addition, the rod portion 652 is provided with a sealing ring 653 for preventing water from leaking out through the mounting pipe 542; the rod portion 652 is provided with a spring 67.

Referring to fig. 8, the electric switch 63 includes a trigger 631 and a contact 632 disposed on the trigger 631, and is mainly used for controlling the motor assembly 1 to open and close. The trigger 631 is electrically connected to the motor assembly 1, the contact 632 is disposed adjacent to the middle wall 613, and the trigger 61 presses the contact 632, so that the trigger 631 activates the motor assembly 1. The electric switch 63 structure of the present invention is prior art and is not described herein.

The working principle of the switch assembly 6 is specifically as follows:

when the high-pressure cleaning device is activated by pressing the trigger 61, on the one hand, the intermediate wall 613 of the trigger 61 presses the contact 632, activating the electric switch 63; on the other hand, the bottom wall 611 of the trigger 61 presses the head 651 of the driving rod 65, and at the same time, pushes the rod portion 652 of the driving rod 65 to move toward the inclined surface 648, so that the needle 645 of the valve element 642 is gradually separated from the first through hole 644 of the valve seat 641, and the water flows through the water inlet pipe 54 into the connecting pipe 53. When the high-pressure cleaning equipment is turned off by releasing the trigger 61, on one hand, the contact 632 is reset and the power supply is cut off, and the electric switch 63 is turned off; on the other hand, the drive rod 65 is returned by the spring 67, and the spool 642 is also re-inserted into the first through hole 644 by the spring 66.

The working mode of the high-pressure cleaning equipment is as follows:

firstly, a pinion 23 in a transmission box 41 is driven to rotate through a motor shaft 11, the pinion 23 drives a bull gear 24 to rotate, and the bull gear 24 drives a transmission shaft 21 to rotate; secondly, the transmission shaft 21 drives the eccentric block 22 to rotate, and the eccentric block 22 drives the plunger 31 to reciprocate, so that the rotation of the motor shaft 11 is converted into the linear motion of the plunger 31; then, the four check valves 33 provided inside the pump assembly 3 are driven by the reciprocating motion of the plunger 31, thereby performing water sucking and pressing operations; and finally, realizing the high-pressure output of the water flow of the high-pressure cleaning equipment.

To sum up, the utility model provides a high pressure cleaning equipment, including motor element 1, by motor element 1 driven drive assembly 2, with the pump assembly 3, frame 4 and the pipeline subassembly 5 that drive assembly 2 is connected. The high-pressure cleaning equipment is provided with the mutually independent heat dissipation parts 417 on two sides of the motor shell 41, so that the requirement of the handheld high-pressure cleaning equipment on the structure of the heat dissipation parts 417 is met, and the high-pressure cleaning equipment is small in size, high in efficiency, good in cooling and convenient to carry.

Terms such as "upper," "lower," "left," "right," "front," "rear," and the like, used herein to denote relative spatial positions, are used for ease of description to describe one feature's relationship to another feature as illustrated in the figures. It will be understood that the spatially relative positional terms may be intended to encompass different orientations than those shown in the figures depending on the product presentation position and should not be construed as limiting the claims. In addition, the descriptor "horizontal" as used herein is not entirely equivalent to allowing an angular tilt along a direction perpendicular to the direction of gravity.

In addition, the above embodiments are only used for illustrating the present invention and not for limiting the technical solutions described in the present invention, and the understanding of the present specification should be based on the technical personnel in the technical field, and although the present specification has described the present invention in detail with reference to the above embodiments, the person of ordinary skill in the art should understand that the person of ordinary skill in the art can still modify the present invention or substitute the same, and all the technical solutions and modifications that do not depart from the spirit and scope of the present invention should be covered within the scope of the claims of the present invention.

Claims (10)

1. A high pressure cleaning apparatus, characterized by: the motor comprises a motor component, a transmission component driven by the motor component, a pump component, a base and a pipeline component, wherein the pump component, the base and the pipeline component are connected with the transmission component, the base comprises a motor shell for accommodating the motor component and a transmission case for accommodating the transmission component, and mutually independent heat dissipation parts are arranged on two sides of the motor shell.

2. The high pressure cleaning apparatus of claim 1, wherein: the motor casing includes first main part and assembles two side cover boards and a front shroud to first main part, the transmission case includes second main part and upper cover plate, first main part and the integrative setting of second main part.

3. The high pressure cleaning apparatus of claim 2, wherein: the two side faces of the first main body part are respectively provided with a groove, the first main body part is internally provided with openings at the front end and the rear end and an accommodating space for accommodating the motor assembly, the two side cover plates are respectively assembled to the two grooves to form the heat dissipation part, and the front cover plate is assembled to the front end opening of the first main body part, which is far away from the transmission assembly.

4. The high pressure cleaning apparatus of claim 3, wherein: the groove is internally provided with a plurality of flow guide ribs, the flow guide ribs form a rotary heat dissipation water channel in the heat dissipation part, and two ends of the heat dissipation water channel are positioned at two opposite angles of each side face of the main body part.

5. The high pressure cleaning apparatus of claim 2, wherein: the second main body part is provided with an accommodating space for accommodating the transmission assembly and three openings communicated with the accommodating space, wherein two openings are respectively positioned at the front end and the rear end of the second main body part, the other opening is positioned at the top of the second main body part, the opening positioned at the front end of the second main body part is communicated with the opening positioned at the rear end of the first main body part, and the upper cover plate is used for sealing the opening at the top of the second main body part.

6. The high pressure cleaning apparatus of claim 1, wherein: the transmission assembly comprises an integrated transmission shaft vertical to a motor shaft of the motor assembly, an eccentric block sleeved above the transmission shaft and connected with the pump assembly, a pinion sleeved on the motor shaft, a large gear sleeved on the transmission shaft and connected with a pinion gear, and double bearings sleeved at the lower end of the transmission shaft and located below the large gear, wherein the transmission shaft is cantilever-mounted on the transmission box.

7. The high pressure cleaning apparatus of claim 1, wherein: the pipeline assembly comprises a water inlet pipeline and a connecting pipeline, a water inlet and a water outlet are formed in the motor casing and the pump assembly, the water inlet pipeline is connected with the water inlet of the motor casing, and the connecting pipeline is connected with the water outlet of the motor casing and the water inlet of the pump assembly.

8. The high pressure cleaning apparatus of claim 1, wherein: the pump assembly includes the plunger of being connected with drive assembly and is used for holding the plunger chamber of plunger, the plunger includes connecting portion, main part and the head of being connected with drive assembly, the head is separated the plunger chamber for first cavity and second cavity, be equipped with on the plunger and extend to the trompil of main part and plug up the plastics end cap of trompil from the head, the position that the main part is close to the head is equipped with first ring channel.

9. The high pressure cleaning apparatus of claim 1, wherein: the water inlet switch is connected with the switch assembly through a water inlet pipe, the switch assembly comprises a trigger, a water inlet switch and an electric switch, the water inlet switch is used for controlling the opening and closing of the pipeline assembly, the electric switch is used for controlling the opening and closing of the motor assembly, and the trigger controls the water inlet switch and the electric switch in a linkage mode.

10. The high pressure cleaning apparatus of claim 1, wherein: the motor assembly is a direct-current brushless motor, the motor shell is a cuboid, and the transmission case is cylindrical.

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