CN220532553U

CN220532553U - Controllable formula scrubbing equipment of unipolar bidirectional drive

Info

Publication number: CN220532553U
Application number: CN202322126952.5U
Authority: CN
Inventors: 陈伟水; 寿国宇
Original assignee: Zhejiang Yueyuan Mechanical Co ltd
Current assignee: Zhejiang Yueyuan Mechanical Co ltd
Priority date: 2023-08-08
Filing date: 2023-08-08
Publication date: 2024-02-27
Anticipated expiration: 2033-08-08

Abstract

The utility model discloses a single-shaft bidirectional driving controllable type decontamination device which comprises a shell and a chassis, wherein the chassis is arranged below the shell, a shell cavity is arranged in the shell, a dust absorption and water absorption device, a tool placing disc, an electric cabinet, a water bag, a water heater, an oil tank, a generator, a water pump and an air pump are arranged in the shell cavity, a left clutch and a right clutch are respectively arranged at two ends of a power output shaft of the generator, and the left clutch and the right clutch are respectively and rotatably connected at two sides of the generator. The left clutch is connected with the air pump driving end, and the right clutch is connected with the water pump driving end. The air pump, the dust-absorbing and water-absorbing device, the water pump, the tool placing plate and the electric cabinet are arranged on one side, and the water bag, the engine, the water heater and the oil tank are arranged on the other side. The utility model reasonably arranges the space in the shell cavity, the weight bearing difference between the two sides of the chassis is smaller, and the space utilization rate in the shell cavity is higher, so that the stress of the casters at the four corners of the chassis is balanced, and the chassis is prevented from being damaged; the whole volume of the decontamination equipment is reduced, and the decontamination equipment is convenient to store.

Description

Controllable formula scrubbing equipment of unipolar bidirectional drive

Technical Field

The utility model relates to a decontamination device, in particular to a single-shaft bidirectional driving controllable decontamination device.

Background

In order to clean workshops and other areas, cleaning equipment is required, and related art cleaning equipment comprises a dust collector, a high-pressure flushing pump and the like, so that cleaning operations such as dust collection and oil stain removal and the like are realized on the same area at the same time, or different types of stains in different areas are cleaned, and various decontamination equipment is required to be carried.

The Chinese patent of CN212349554U announced by 2021, 01 and 15 discloses multifunctional decontamination equipment, which comprises a shell with a containing cavity, wherein a generator, a water pump, an air pump, a first clutch and a second clutch are arranged in the containing cavity, the generator is provided with a power output shaft, the first clutch is arranged between one end of the power output shaft and the water pump, the second clutch is arranged between one end of the power output shaft and the air pump, the water pump comprises a water pump outlet pipe, a heating furnace is arranged on the water pump outlet pipe, the power of the heating furnace is provided by the generator, the heating furnace is provided with a furnace outlet pipe, the multifunctional decontamination equipment further comprises an electric control cabinet, and cleaning accessories are further arranged in the containing cavity.

The above-mentioned technique has the disadvantages:

1. most of space layout in the shell cavity of the existing decontamination equipment is as follows: the engine, the water pump and the air pump are arranged on the same side, and the tool placing tray and the heating furnace are arranged on the other side. The weight difference borne by the two sides of the chassis is large, so that the stress of the casters at the four corners of the chassis of the decontamination equipment is unbalanced, and the chassis is easy to damage.

2. The space utilization rate in the shell cavity of the decontamination equipment is low, and an idle space exists, so that the whole volume of the decontamination equipment is large, and the occupied space of the decontamination equipment in the area is increased.

Disclosure of Invention

The utility model aims to provide a single-shaft bidirectional-drive controllable decontamination device, which is characterized in that the space in a shell cavity is reasonably distributed, the bearing weight difference between two sides of a chassis is smaller, the space utilization rate in the shell cavity is higher, the stress of casters at four corners of the chassis is balanced, and damage is prevented; the whole volume of the decontamination equipment is reduced, and the decontamination equipment is convenient to store.

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

the utility model provides a unipolar bidirectional drive controllable scrubbing equipment, includes casing and chassis, and the chassis is located the below of casing, is equipped with the shell intracavity, is equipped with the generator in the shell intracavity, and generator power output shaft both ends are equipped with left clutch and right clutch respectively, and left clutch and right clutch swivelling joint are in the generator both sides respectively, and when left clutch clamped generator power output shaft, generator power output shaft drove left clutch and rotates; when the right clutch clamps the power output shaft of the generator, the power output shaft of the generator drives the right clutch to rotate. After the two sides of the engine are connected with the air pump, the water pump and other machines, the same engine can drive the two machines to work, so that the number of the engines is reduced, the occupied space in the shell cavity is reduced, the whole volume of the decontamination equipment is reduced, and the decontamination equipment is convenient to store; moreover, the engine can independently drive one side machine to work through clamping and loosening the power output shaft of the generator by the clutch.

Preferably, the shell cavity is also internally provided with a water pump and an air pump, the left clutch is connected with the air pump driving end, and the right clutch is connected with the water pump driving end. The left clutch clamps the power output shaft of the generator so that the engine drives the air pump to work; the right clutch clamps the power output shaft of the generator, so that the engine drives the water pump to work.

Preferably, a left transmission synchronous belt is connected between the air pump transmission end and the left clutch, and the left transmission synchronous belt is respectively connected with the air pump transmission end and the left clutch in a meshed manner. The left transmission synchronous belt enables the output shaft of the engine to drive the air pump transmission end which is arranged in a staggered mode to rotate in the same direction, so that the engine drives the air pump to work.

Preferably, a right transmission synchronous belt is connected between the water pump transmission end and the right clutch, and the right transmission synchronous belt is respectively connected with the water pump transmission end and the right clutch in a meshed manner. The right transmission synchronous belt enables the engine output shaft to drive the water pump transmission end which is arranged in a staggered mode to rotate in the same direction, so that the engine drives the water pump to work.

Preferably, the shell cavity is also internally provided with a dust and water absorption device, a water heater and a water bag, the air pump, the dust and water absorption device and the water pump are sequentially arranged along the length direction on one edge of the chassis, the water bag, the generator and the water heater are sequentially arranged along the length direction on the other edge of the chassis, the air pump is correspondingly arranged with the water bag on the other edge, the dust and water absorption device is correspondingly arranged with the generator on the other edge, and the water pump is correspondingly arranged with the water heater on the other edge. The space in the shell cavity is reasonably distributed, so that the weight bearing difference between two sides of the chassis is smaller, the stress of the casters at four corners of the chassis is balanced, and the chassis is prevented from being damaged.

Preferably, the shell cavity is also internally provided with an oil tank, an electric cabinet and a tool placing disc, the oil tank is arranged above the water heater, the electric cabinet is arranged above the water pump, the tool placing disc is arranged above the air pump and the dust-absorbing and water-absorbing device, and tool accessories such as a pneumatic angle grinder, a pneumatic shovel and the like are stored in the tool placing disc. The space in the shell cavity is reasonably distributed, so that the weight bearing difference between two sides of the chassis is smaller, the stress of the casters at four corners of the chassis is balanced, and the chassis is prevented from being damaged.

Preferably, the side surface of the shell is provided with a turnover cover door which is covered at the position of the dust-absorbing and water-absorbing device. The operator opens the cover door, which is convenient for using and cleaning the dust and water absorbing device.

Preferably, the outer surface of the shell is provided with a plurality of heat dissipation holes, and the shell cavity is communicated with the outside through the heat dissipation holes. The radiating holes are used for radiating heat of the shell cavity, so that the damage of the decontamination equipment caused by the overhigh temperature in the shell cavity is prevented.

Compared with the prior art, the single-shaft bidirectional driving controllable decontamination equipment adopting the technical scheme has the following beneficial effects:

1. the dirt removing equipment of the utility model is characterized in that the air pump, the dust absorbing and water absorbing device, the water pump, the tool placing tray and the electric cabinet are arranged on one side, the water bag, the engine, the water heater and the oil tank are arranged on the other side, so that the weight difference born by the two sides of the chassis is smaller, the stress of the casters at the four corners of the chassis is balanced, and the damage is prevented.

2. The space utilization rate in the shell cavity is high, the whole volume of the decontamination equipment is reduced, and the decontamination equipment is convenient to store.

Drawings

Fig. 1 is a schematic structural diagram of a generator in an embodiment.

Fig. 2 is a schematic structural view of the decontamination apparatus on one side of the chassis in the embodiment.

Fig. 3 is a schematic structural view of the air pump and the water pump connected to both sides of the generator in the embodiment.

Fig. 4 is a schematic structural diagram of the left driving synchronous belt in the embodiment, which is respectively connected with the driving end of the air pump and the left clutch in a meshed manner.

Fig. 5 is a schematic structural diagram of the right driving synchronous belt in the embodiment, which is respectively engaged and connected with the driving end of the water pump and the right clutch.

Fig. 6 is a schematic structural view of the decontamination apparatus in the other side of the chassis in the embodiment.

Fig. 7 is a front view of the decontamination apparatus in an embodiment.

Fig. 8 is a rear view of the decontamination apparatus in an embodiment.

Reference numerals: 1. an engine; 11. a left clutch; 12. a right clutch; 13. a left driving synchronous belt; 14. a right transmission synchronous belt; 21. an air pump; 22. a water pump; 3. a dust-absorbing and water-absorbing device; 31. a water bag; 32. a water heating furnace; 33. an oil tank; 34. an electric control box; 35. a tool placement tray; 4. a housing; 41. a chassis; 42. a heat radiation hole; 43. and (5) covering the door.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The single-shaft bidirectional driving controllable decontamination equipment as shown in fig. 1 to 8 comprises a shell 4 and a chassis 41, wherein the chassis 41 is arranged below the shell 4, a shell cavity is arranged in the shell 4, a generator is arranged in the shell cavity, a left clutch 11 and a right clutch 12 are respectively arranged at two ends of a power output shaft of the generator, the left clutch 11 and the right clutch 12 are respectively and rotatably connected at two sides of the generator, and when the left clutch 11 clamps the power output shaft of the generator, the power output shaft of the generator drives the left clutch 11 to rotate; when the right clutch 12 clamps the power output shaft of the generator, the power output shaft of the generator drives the right clutch 12 to rotate. The shell cavity is also internally provided with a water pump 22 and an air pump 21, the left clutch 11 is connected with the driving end of the air pump 21, and the right clutch 12 is connected with the driving end of the water pump 22. The left clutch 11 clamps a power output shaft of the generator, so that the engine 1 drives the air pump 21 to work; the right clutch 12 clamps the power output shaft of the generator, so that the engine 1 drives the water pump 22 to work. The utility model enables the same engine 1 to respectively drive the water pump 22 and the air pump 21 to work, reduces the number of the engines 1, reduces the occupied space in the shell cavity, reduces the whole volume of the decontamination equipment and is convenient for storage; further, the engine 1 can individually drive the water pump 22 or the air pump 21 on one side to operate by clamping and releasing the power output shaft of the generator by the clutch.

Referring to fig. 4, a left driving synchronous belt 13 is connected between the driving end of the air pump 21 and the left clutch 11, and the left driving synchronous belt 13 is respectively in meshed connection with the driving end of the air pump 21 and the left clutch 11. The left transmission synchronous belt 13 enables the output shaft of the engine 1 to drive the transmission end of the air pump 21 which is arranged in a staggered mode to rotate in the same direction, so that the engine 1 drives the air pump 21 to work.

Referring to fig. 5, a right driving synchronous belt 14 is connected between the driving end of the water pump 22 and the right clutch 12, and the right driving synchronous belt 14 is respectively in meshed connection with the driving end of the water pump 22 and the right clutch 12. The right transmission synchronous belt 14 enables the output shaft of the engine 1 to drive the transmission end of the water pump 22 arranged in a staggered mode to rotate in the same direction, so that the engine 1 drives the water pump 22 to work.

Referring to fig. 2 and 6, the housing cavity is further provided with a dust and water suction device 3, a water heater 32 and a water bag 31, the air pump 21, the dust and water suction device 3 and the water pump 22 are sequentially arranged along the length direction on one side of the chassis 41, the water bag 31, the generator and the water heater 32 are sequentially arranged along the length direction on the other side of the chassis 41, the air pump 21 is correspondingly arranged with the water bag 31 on the other side, the dust and water suction device 3 is correspondingly arranged with the generator on the other side, and the water pump 22 is correspondingly arranged with the water heater 32 on the other side. The shell cavity is also internally provided with an oil tank 33, an electric cabinet 34 and a tool placing disc 35, the oil tank 33 is arranged above the water heater 32, the electric cabinet 34 is arranged above the water pump 22, the tool placing disc 35 is arranged above the air pump 21 and the dust and water sucking device 3, and tool accessories such as a pneumatic angle grinder, a pneumatic shovel and the like are stored in the tool placing disc 35. The space in the shell cavity is reasonably arranged, so that the weight bearing difference between two sides of the chassis 41 is smaller, the stress of the casters at four corners of the chassis 41 is balanced, and damage is prevented.

Referring to fig. 7, a reversible cover door 43 is provided on the side of the housing 4, and the cover door 43 is covered on the dust-absorbing and water-absorbing device 3. The operator opens the cover door 43 to facilitate use and cleaning of the dust and water suction device 3.

Referring to fig. 8, the outer surface of the housing 4 is provided with a plurality of heat dissipation holes 42, and the housing cavity is communicated with the outside through the heat dissipation holes 42. The heat dissipation holes 42 are used for dissipating heat of the shell cavity, so that damage to the decontamination equipment caused by overhigh temperature in the shell cavity is prevented.

While the foregoing is directed to the preferred embodiment of the present utility model, other and further modifications and improvements may be made by those skilled in the art without departing from the principles of the utility model, and such are intended to be considered within the scope of the utility model.

Claims

1. A controllable scrubbing equipment of unipolar bidirectional drive, its characterized in that: the power output shaft of the generator is characterized by comprising a shell (4) and a chassis (41), wherein the chassis (41) is arranged below the shell (4), a shell cavity is formed in the shell (4), a generator is arranged in the shell cavity, a left clutch (11) and a right clutch (12) are respectively arranged at two ends of a power output shaft of the generator, the left clutch (11) and the right clutch (12) are respectively and rotatably connected to two sides of the generator, and when the left clutch (11) clamps the power output shaft of the generator, the power output shaft of the generator drives the left clutch (11) to rotate; when the right clutch (12) clamps the power output shaft of the generator, the power output shaft of the generator drives the right clutch (12) to rotate.

2. The single-shaft bi-directional drive controllable decontamination apparatus of claim 1, wherein: the shell cavity is internally provided with a water pump (22) and an air pump (21), the left clutch (11) is connected with the driving end of the air pump (21), and the right clutch (12) is connected with the driving end of the water pump (22).

3. The single-shaft bi-directional drive controllable decontamination apparatus of claim 2, wherein: a left transmission synchronous belt (13) is connected between the transmission end of the air pump (21) and the left clutch (11), and the left transmission synchronous belt (13) is respectively connected with the transmission end of the air pump (21) and the left clutch (11) in a meshed manner.

4. A single-shaft bi-directional drive controllable decontamination apparatus according to claim 3, wherein: a right transmission synchronous belt (14) is connected between the transmission end of the water pump (22) and the right clutch (12), and the right transmission synchronous belt (14) is respectively connected with the transmission end of the water pump (22) and the right clutch (12) in a meshed manner.

5. The single-shaft bi-directional drive controllable abatement apparatus of claim 4, wherein: still be equipped with dust absorption water sucking device (3), water heater (32) and water bag (31) in the shell intracavity, air pump (21) dust absorption water sucking device (3) with water pump (22) are arranged in proper order along length direction on one side of chassis (41), water bag (31) the generator with water heater (32) are arranged in proper order along length direction on the other side of chassis (41), and air pump (21) correspond with water bag (31) position of another side and set up, and dust absorption water sucking device (3) correspond with the generator position of another side and set up, and water pump (22) correspond with water heater (32) position of another side.

6. The single-shaft bi-directional drive controllable abatement apparatus of claim 5, wherein: the utility model discloses a water heater, including shell cavity, water pump (22), air pump (21), dust absorption water sucking device (3), instrument placing tray (35), oil tank (33), electric cabinet (34) and instrument placing tray (35) are still be equipped with in the shell cavity, oil tank (33) are located water heater (32) top, electric cabinet (34) are located water pump (22) top, instrument placing tray (35) are located air pump (21) with the top of dust absorption water sucking device (3), have deposited the instrument annex in instrument placing tray (35).

7. The single-shaft bi-directional drive controllable abatement apparatus of claim 5, wherein: the side of the shell (4) is provided with a turnover cover door (43), and the cover door (43) is covered at the position of the dust-absorbing and water-absorbing device (3).

8. The single-shaft bi-directional drive controllable decontamination apparatus of claim 1, wherein: the shell (4) is provided with a plurality of radiating holes (42) on the outer surface, and the shell cavity is communicated with the outside through the radiating holes (42).