CN113617762A - Portable automatic cleaning measuring cylinder device special for soil engineering and use method - Google Patents

Abstract

A portable automatic cleaning measuring cylinder device special for soil engineering comprises a mobile host, an integrated pipe and a flusher; the mobile host comprises a host shell, a clear water conveying device, a waste water collecting device, a control panel and trundles; the flusher comprises a flusher shell, a driving device, a third clear water pipe, a third waste water pipe, a water separator and a brush, wherein the third clear water pipe and the third waste water pipe are respectively connected with a clear water conveying device and a waste water collecting device through an integrated pipe, the third clear water pipe is connected with the water separator, the surface of the flusher shell is provided with a plurality of water spraying ports, and the third waste water pipe is connected with the brush and is driven to rotate by the driving device. After the particle analysis test is finished, the measuring cylinder is cleaned by clean water, and the cleaned waste liquid is collected, so that the whole process is simpler, safer and more efficient, and the material loss is reduced. PVC stiffener is selected for use to the stiffener of flusher, has reduced the whole weight of flusher, and the truckle of mobile host bottom makes the device remove more convenient.

Description

Portable automatic cleaning measuring cylinder device special for soil engineering and use method

Technical Field

The invention belongs to the technical field of geotechnical engineering investigation indoor geotechnical tests, and relates to a portable automatic cleaning measuring cylinder device special for geotechnical engineering and a using method thereof.

Background

The indoor geotechnical particle analysis densimeter method test is mainly suitable for samples with the particle size smaller than 0.075mm, and the measuring cylinder is a geotechnical standard special measuring cylinder with the inner diameter of 60mm, the volume of 1000ml, the height of about 420mm and the scale of 0-000 ml, and the measuring cylinder is accurate to 10 ml. During the test, the sieved suspension is poured into a measuring cylinder, 10ml of 4% sodium hexametaphosphate is added, and pure water is injected to 1000 ml. Because the sample of at every turn experiment is then hundreds, when empting the waste liquid and rinsing the graduated flask, not only consuming time hard, work efficiency is low, easily causes the damage of graduated flask during the transport, and the particle diameter is less than 0.075 mm's glutinous grain sediment is difficult for wasing in the graduated flask bottom.

Disclosure of Invention

Aiming at the problems, the invention provides a portable automatic cleaning measuring cylinder device special for soil engineering and a using method thereof.

The purpose of the invention can be realized by the following technical scheme: a portable automatic cleaning measuring cylinder device special for soil engineering comprises a mobile host, an integrated pipe and a flusher;

the movable host comprises a host shell, a clean water conveying device, a wastewater collecting device, a control panel and trundles, wherein the clean water conveying device and the wastewater collecting device are arranged in the host shell;

the flusher comprises a flusher shell, a driving device, a third clean water pipe, a third waste water pipe, a water separator and a brush, wherein the driving device, the third clean water pipe, the third waste water pipe and the water separator are arranged in the flusher shell, one ends of the third clean water pipe and the third waste water pipe are respectively connected with a clean water conveying device and a waste water collecting device through an integrated pipe, the other end of the third clean water pipe is connected with the water separator, a plurality of water spraying ports corresponding to the water separator are arranged on the surface of the flusher shell, the other end of the third waste water pipe extends out of the flusher shell and is connected with the brush, and the third waste water pipe is driven by the driving device to rotate around a self shaft.

Further, the clean water conveying device comprises a clean water tank, a first clean water pipe, a first electromagnetic valve, a clean water pump and a clean water inlet pipe, the wastewater collecting device comprises a wastewater tank, a first wastewater pipe, a second electromagnetic valve, a wastewater pump and a wastewater outlet pipe, the bottoms of the clean water tank and the waste water tank are respectively connected with one end of a first clean water pipe and one end of a first waste water pipe, the other ends of the first clean water pipe and the first waste water pipe are arranged on the surface of the main machine shell, a first electromagnetic valve and a clean water pump are sequentially arranged on the first clean water pipe along the conveying direction, a waste water pump and a second electromagnetic valve are sequentially arranged on the first waste water pipe along the collecting direction, the first electromagnetic valve and the second electromagnetic valve are respectively connected with one end of a clear water inlet pipe and one end of a waste water outlet pipe, the other ends of the clear water inlet pipe and the waste water outlet pipe are arranged on the surface of the main machine shell and connected with the integrated pipe.

Furthermore, the surface of the main machine shell is provided with an integrated pipe interface corresponding to the other end of the first clean water pipe and the first waste water pipe, an external water inlet corresponding to the other end of the clean water inlet pipe, and an external water outlet corresponding to the other end of the waste water outlet pipe, and sealing covers are arranged on the external water inlet and the external water outlet.

Furthermore, the first electromagnetic valve and the second electromagnetic valve are both electromagnetic ball valves.

Furthermore, mushroom-type rubber plugs connected through springs are arranged on pipeline interfaces at the bottoms of the clean water tank and the waste water tank, and an ejector pin device matched with the rubber plugs is further arranged at the pipeline interface at the bottom of the clean water tank.

Furthermore, the clean water tank of the clean water conveying device and the waste water tank of the waste water collecting device are detachable water tanks, and an opening for conveniently placing and taking out the clean water tank and the waste water tank is arranged on the main machine shell.

Further, the integrated pipe comprises a second clean water pipe, a second waste water pipe and an electric wire.

Further, the flusher shell comprises a handle, a motor shell and a reinforcing rod which are connected in sequence, an adjusting switch for controlling the clean water pump, the waste water pump and the waterproof motor is arranged on the handle, the driving device is the waterproof motor and is installed in the motor shell, the waterproof motor is in transmission connection with the third waste water pipe through a gear pair, and a plurality of water spraying ports are formed in the reinforcing rod.

Further, the reinforcing rod is a PVC reinforcing rod.

Further, the regulating switch comprises a start/pause switch and a rotating speed control switch, the start/pause switch controls the start/pause of the clean water pump, the waste water pump and the waterproof motor, and the rotating speed control switch controls the rotating speed of the waterproof motor; the control panel comprises a device main switch, a flow speed regulating switch, a change-over switch and a liquid crystal display screen, wherein the flow speed regulating switch controls the flow speed of the clean water pump and the flow speed of the waste water pump, and the change-over switch controls the first electromagnetic valve and the second electromagnetic valve to change the direction of a medium.

A use method of a portable automatic cleaning measuring cylinder device special for soil engineering is characterized in that when a measuring cylinder is cleaned, a flusher extends into the measuring cylinder, a device main switch on a control panel of a mobile host is started to enable the device to enter a standby state, then a starting switch of the flusher is turned on to enable a waste water pump, a clean water pump and a waterproof motor to be converted into a running state, a driving gear of the waterproof motor drives a driven gear to enable a waste water pipe and a brush connected with the waste water pipe to rotate to clean sticky particles deposited at the bottom of the measuring cylinder, and clean water in a clean water tank is pressed into a water distributor of the flusher through a first clean water pipe, a second clean water pipe and a third clean water pipe in sequence under the action of the clean water pump and is uniformly sprayed to the inner wall of the measuring cylinder through a water spraying port on a reinforcing rod; waste liquid in the measuring cylinder sequentially passes through a third waste water pipe, a second waste water pipe and a first waste water pipe under the action of a waste water pump and enters a waste water tank;

after cleaning, press the pause switch of the flusher, the clear water pump stops working immediately, the waste water pump then postpones operation 3~5 seconds, so that the residual liquid in the graduated flask is cleared, when the waste water tank stores up the waste liquid or the clear water tank is anhydrous, start control panel's change over switch, first clear water pipe and clear water inlet tube are switched to first solenoid valve, make clear water tank and clear water inlet tube communicate, second solenoid valve switches first waste water pipe and waste water outlet pipe, make waste water tank and waste water outlet pipe communicate, open the sealed lid on clear water inlet tube and the waste water outlet pipe again, connect external water pipe respectively, the clear water is filled into the clear water tank through the clear water inlet tube, the waste liquid in the waste water tank is discharged through the waste water outlet pipe.

Compared with the prior art, the invention has the beneficial effects that: the molding is succinct, easily operation, and is safe durable, can solve in the past when artifical washing graduated flask transport repeatedly consuming time hard, bottom glutinous granule washing is unclean, the easy broken drawback of graduated flask when empting the waste liquid, after the particle analysis test, the graduated flask is washd to the clear water, collects the waste liquid of having washd simultaneously, and whole process is more simple and convenient, safety, high efficiency, has reduced the material resources loss. In addition, the reinforcing rod of the flusher is a PVC reinforcing rod, the whole weight of the flusher is reduced, and the caster wheels at the bottom of the mobile host enable the device to move more conveniently.

Drawings

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

FIG. 2 is a front view of a mobile host of the present invention;

FIG. 3 is a top view of the mobile host of the present invention with the clean water tank and the waste water tank removed;

FIG. 4 is a perspective view of the water tank of the present invention;

FIG. 5 is a front elevational view of the flusher of the present invention;

FIG. 6 is a schematic view of the internal structure of the flusher of the present invention;

the reference numbers are as follows:

1 Mobile host

101 host casing

102 clear water tank

103 first clear water pipe

104 first solenoid valve

105 clean water pump

106 clear water inlet pipe

107 waste water tank

108 first waste pipe

109 second solenoid valve

110 waste water pump

111 waste water outlet pipe

112 integrated tube interface

113 is externally connected with a water inlet

114 external water outlet

115 sealing cover

116 handle

117 rubber plug

118 control panel

119 castor

2 Integrated tube

3 scouring device

301 handle

302 electric motor casing

303 reinforcing bar

304 waterproof motor

305 third clear water pipe

306 third waste water pipe

307 water knockout drum

308 drive gear

309 driven gear

310 hairbrush

311 regulating switch

312 air hole

313 water jet.

Detailed Description

The following detailed description of the embodiments of the present invention will be given in conjunction with the accompanying drawings to make it clear to those skilled in the art how to practice the present invention. While the invention has been described in connection with preferred embodiments thereof, these embodiments are merely illustrative, and not restrictive, of the scope of the invention.

Referring to fig. 1, the portable automatic cleaning measuring cylinder device special for soil engineering and the using method thereof comprise a mobile host 1, an integrated pipe 2 and a flusher 3, wherein the mobile host 1 is connected with the flusher 3 through the integrated pipe 2.

Referring to fig. 2 and 3, the mobile main body 1 includes a main body housing 101, a fresh water delivery device, a waste water collecting device, a control panel 118, and casters 119.

A clear water conveying device and a waste water collecting device are installed in the main machine shell 101. Clear water conveyor includes clear water tank 102, first clear water pipe 103, first solenoid valve 104, clear water pump 105, clear water inlet tube 106, the bottom of clear water tank 102 is connected with the one end of first clear water pipe 103, the other end of first clear water pipe 103 sets up on the surface of host computer casing 101, be equipped with first solenoid valve 104 and clear water pump 105 along direction of delivery in proper order on the first clear water pipe 103, the one end and the first solenoid valve 104 of clear water inlet tube 106 are connected, the other end of clear water inlet tube 106 sets up on the surface of host computer casing 101. The wastewater collection device comprises a wastewater tank 107, a first wastewater pipe 108, a second electromagnetic valve 109, a wastewater pump 110 and a wastewater outlet pipe 111, the bottom of the wastewater tank 107 is connected with one end of the first wastewater pipe 108, the other end of the first wastewater pipe 108 is arranged on the surface of the main machine shell 101, the first wastewater pipe 108 is sequentially provided with the wastewater pump 110 and the second electromagnetic valve 109 along the collection direction, one end of the first wastewater pipe 108 is connected with the second electromagnetic valve 109, and the other end of the first wastewater pipe 108 is arranged on the surface of the main machine shell 101.

Wherein, the clean water tank 102 and the waste water tank 107 are detachable water tanks, and the top of the main machine shell 101 is provided with an opening for the clean water tank 102 and the waste water tank 107 to be put in and taken out conveniently. The surface of the main machine shell 101 is provided with an integrated pipe interface 112 corresponding to the other end of the first clean water pipe 103 and the other end of the first waste water pipe 108, an external water inlet 113 corresponding to the other end of the clean water inlet pipe 106, and an external water outlet 114 corresponding to the other end of the waste water outlet pipe 111, and the external water inlet 113 and the external water outlet 114 are both provided with sealing covers 115. Sealing rings for preventing water leakage are arranged at the joint of the clean water tank 102 and the first clean water pipe 103 and the joint of the waste water tank 107 and the first waste water pipe 108. The first solenoid valve 104 and the second solenoid valve 109 are both solenoid ball valves.

Referring to fig. 4, handles 116 are disposed on the clean water tank 102 and the waste water tank 107, mushroom-shaped rubber plugs 117 connected by springs are disposed on the pipe interfaces at the bottoms of the clean water tank 102 and the waste water tank 107, and an ejector pin device matched with the rubber plugs 117 is further disposed at the pipe interface at the bottom of the clean water tank 102. When the device is not started, the bottom of the clean water tank 102 and the bottom of the waste water tank 107 can be ensured to have sufficient tightness under the action of the gravity and the spring tension of the rubber plug 117; after the device is started, the rubber plug 117 at the bottom of the waste water tank 107 is pushed open by the water pressure in the first waste water pipe 108, the waste water flows into the waste water tank 107, meanwhile, the rubber plug 117 at the bottom of the clean water tank 102 is pushed open by the ejector pin device, and the clean water flows into the first clean water pipe 103.

The surface of the main machine casing 101 is provided with a control panel 118, and the control panel 118 comprises three switches and a liquid crystal display screen, wherein the three switches are a main switch, a flow rate regulating switch and a change-over switch respectively. The flow rate regulating switch controls the flow rate of the clean water pump 105 and the waste water pump 110, and has three stages of high, medium and low. The change-over switch controls the first electromagnetic valve 104 and the second electromagnetic valve 109 to change the medium direction, so as to complete the switching of the first clean water pipe 103, the clean water inlet pipe 106, the first waste water pipe 108 and the waste water outlet pipe 111. All parameters of the device are displayed on the liquid crystal display screen, so that the regulation and control of operators are facilitated.

The caster 119 is installed at the bottom of the main machine housing 101, so that the mobile main machine 1 can move conveniently, and the caster 119 can be a universal wheel.

Referring to fig. 2, one end of the integrated pipe 2 is connected with the integrated pipe interface 112 of the mobile host 1, and the other end is connected with the tail end of the flusher 3, and the integrated pipe 2 comprises a second clean water pipe, a second waste water pipe and an electric wire.

Referring to fig. 5 and 6, the flusher 3 includes a handle 301, a motor housing 302, a reinforcing bar 303, a waterproof motor 304, a third clean water pipe 305, a third waste water pipe 306, a water separator 307, a driving gear 308, a driven gear 309, and a brush 310.

The handle 301, the motor shell 302 and the reinforcing rod 303 are sequentially connected to form a shell of the flusher. A waterproof motor 304 is arranged in the motor shell 302, and a driving gear 308 is arranged on an output shaft of the waterproof motor 304. A third clear water pipe 305, a third waste water pipe 306 and a water separator 307 are arranged in the reinforcing rod 303, one end of the third clear water pipe 305 extends into the motor shell 302 and is connected with a second clear water pipe of the integrated pipe 2, the other end of the third clear water pipe 305 is connected with the water separator 307, one end of the third waste water pipe 306 extends into the motor shell 302 and is connected with a second waste water pipe of the integrated pipe 2, a driven gear 309 meshed with the driving gear 308 is arranged at one end of the third waste water pipe 306, and a brush 310 is arranged at the other end of the third waste water pipe 306 extending out of the reinforcing rod 303 and is arranged on the other end of the third waste water pipe 306.

The handle 301 is provided with an adjusting switch 311, the adjusting switch 311 comprises a start/pause switch and a rotating speed control switch, the start/pause switch controls the start/pause of the clean water pump 105, the waste water pump 110 and the waterproof motor 304, and the rotating speed control switch controls the rotating speed of the waterproof motor 304 and is divided into three stages, namely high, medium and low. The motor housing 302 is provided with a vent hole 312. PVC stiffener can be selected for use to stiffener 303 to alleviate the whole quality of device, improve the durability, stiffener 303 is the shaft-like and the ladder face of ladder distributes and has a plurality of water jets 313. The brush 310 is a multi-head rigid brush 310, and is mainly used for cleaning sticky particles deposited at the bottom of the measuring cylinder.

When the device is used for cleaning a measuring cylinder, referring to fig. 6, the flusher 3 is stretched into the measuring cylinder, the main switch of the device on the control panel 118 of the mobile host 1 is started, the device enters a standby state, the starting switch of the flusher 3 is turned on, the wastewater pump 110, the clean water pump 105 and the waterproof motor 304 are turned to a running state, the driving gear 308 of the waterproof motor 304 drives the driven gear 309, the wastewater pipe and the connected brush 310 rotate, and sticky particles deposited at the bottom of the measuring cylinder are cleaned. At this time, the clean water in the clean water tank 102 is pressed into the water separator 307 of the flusher 3 through the first clean water pipe 103, the second clean water pipe and the third clean water pipe 305 in sequence under the action of the clean water pump 105, and is uniformly sprayed to the inner wall of the vector cylinder through the water spray opening 313 on the reinforcing rod 303; waste liquid in the measuring cylinder enters the waste water tank 107 through the third waste water pipe 306, the second waste water pipe and the first waste water pipe 108 in sequence under the action of the waste water pump 110. After cleaning, the pause switch of the flusher 3 is pressed, the clean water pump 105 stops working immediately, and the waste water pump 110 operates for 3-5 seconds in a delayed mode so as to drain residual liquid in the measuring cylinder. When the waste water tank 107 is full of waste water or the clean water tank 102 is anhydrous, a switch of the control panel 118 is started, the first electromagnetic valve 104 switches the first clean water pipe 103 and the clean water inlet pipe 106, so that the clean water tank 102 is communicated with the clean water inlet pipe 106, the second electromagnetic valve 109 switches the first waste water pipe 108 and the waste water outlet pipe 111, so that the waste water tank 107 is communicated with the waste water outlet pipe 111, sealing covers 115 on the clean water inlet pipe 106 and the waste water outlet pipe 111 are opened, external water pipes are respectively connected, clean water is filled into the clean water tank 102 through the clean water inlet pipe 106, and waste water in the waste water tank 107 is discharged through the waste water outlet pipe 111.

It should be noted that many variations and modifications of the embodiments of the present invention fully described are possible and are not to be considered as limited to the specific examples of the above embodiments. The above examples are given by way of illustration of the invention and are not intended to limit the invention. In conclusion, the scope of the present invention should include those changes or substitutions and modifications which are obvious to those of ordinary skill in the art.

Claims (10)

1. A portable automatic cleaning measuring cylinder device special for soil engineering is characterized by comprising a mobile host, an integrated pipe and a flusher;

the movable host comprises a host shell, a clean water conveying device, a wastewater collecting device, a control panel and trundles, wherein the clean water conveying device and the wastewater collecting device are arranged in the host shell;

the flusher comprises a flusher shell, a driving device, a third clean water pipe, a third waste water pipe, a water separator and a brush, wherein the driving device, the third clean water pipe, the third waste water pipe and the water separator are arranged in the flusher shell, one ends of the third clean water pipe and the third waste water pipe are respectively connected with a clean water conveying device and a waste water collecting device through an integrated pipe, the other end of the third clean water pipe is connected with the water separator, a plurality of water spraying ports corresponding to the water separator are arranged on the surface of the flusher shell, the other end of the third waste water pipe extends out of the flusher shell and is connected with the brush, and the third waste water pipe is driven by the driving device to rotate around a self shaft.

2. The portable geotechnical specific automatic cleaning measuring cylinder device according to claim 1, the clear water conveying device comprises a clear water tank, a first clear water pipe, a first electromagnetic valve, a clear water pump and a clear water inlet pipe, the wastewater collecting device comprises a wastewater tank, a first wastewater pipe, a second electromagnetic valve, a wastewater pump and a wastewater outlet pipe, the bottoms of the clean water tank and the waste water tank are respectively connected with one end of a first clean water pipe and one end of a first waste water pipe, the other ends of the first clean water pipe and the first waste water pipe are arranged on the surface of the main machine shell, a first electromagnetic valve and a clean water pump are sequentially arranged on the first clean water pipe along the conveying direction, a waste water pump and a second electromagnetic valve are sequentially arranged on the first waste water pipe along the collecting direction, the first electromagnetic valve and the second electromagnetic valve are respectively connected with one end of a clear water inlet pipe and one end of a waste water outlet pipe, the other ends of the clear water inlet pipe and the waste water outlet pipe are arranged on the surface of the main machine shell and connected with the integrated pipe.

3. The portable automatic cleaning measuring cylinder device for soil engineering special purpose according to claim 2, wherein the surface of the main machine housing is provided with an integrated pipe interface corresponding to the other end of the first clean water pipe and the first waste water pipe, an external water inlet corresponding to the other end of the clean water inlet pipe, an external water outlet corresponding to the other end of the waste water outlet pipe, and the external water inlet and the external water outlet are provided with sealing covers.

4. The portable geotechnical special automatic cleaning measuring cylinder device according to claim 2, wherein said first solenoid valve and said second solenoid valve are electromagnetic ball valves.

5. The portable automatic cleaning measuring cylinder device special for soil engineering according to claim 2, wherein mushroom-shaped rubber plugs connected through springs are arranged on the pipeline interfaces at the bottoms of the clean water tank and the waste water tank, and a thimble device matched with the rubber plugs is further arranged at the pipeline interface at the bottom of the clean water tank.

6. The portable geotechnical special automatic cleaning measuring cylinder device according to claim 2, wherein the clean water tank of the clean water delivery device and the waste water tank of the waste water collecting device are detachable water tanks, and the main machine shell is provided with openings for facilitating the insertion and extraction of the clean water tank and the waste water tank.

7. The portable geotechnical specific self-cleaning measuring cylinder device according to claim 1, wherein said integrated pipe comprises a second clean water pipe, a second waste water pipe and an electric wire.

8. The portable automatic cleaning measuring cylinder device special for soil engineering according to any one of claims 1 to 7, wherein the flusher housing comprises a handle, a motor housing and a reinforcing rod which are connected in sequence, the handle is provided with a regulating switch for controlling a clean water pump, a waste water pump and a waterproof motor, the driving device is the waterproof motor and is installed in the motor housing, the waterproof motor is in transmission connection with a third waste water pipe through a gear pair, and the reinforcing rod is provided with a plurality of water spraying ports.

9. The portable geotechnical special automatic cleaning measuring cylinder device according to claim 8, wherein said adjusting switch includes start/stop switch and rotation speed control switch, said start/stop switch controls start/stop of clean water pump, waste water pump, waterproof motor, said rotation speed control switch controls rotation speed of waterproof motor; the control panel comprises a device main switch, a flow speed regulating switch, a change-over switch and a liquid crystal display screen, wherein the flow speed regulating switch controls the flow speed of the clean water pump and the flow speed of the waste water pump, and the change-over switch controls the first electromagnetic valve and the second electromagnetic valve to change the direction of a medium.

10. A use method of a portable automatic cleaning measuring cylinder device special for soil engineering is characterized in that when a measuring cylinder is cleaned, a flusher extends into the measuring cylinder, a device main switch on a control panel of a mobile host is started to enable the device to enter a standby state, then a starting switch of the flusher is turned on to enable a waste water pump, a clean water pump and a waterproof motor to be converted into a running state, a driving gear of the waterproof motor drives a driven gear to enable a waste water pipe and a brush connected with the waste water pipe to rotate to clean sticky particles deposited at the bottom of the measuring cylinder, and clean water in a clean water tank is pressed into a water distributor of the flusher through a first clean water pipe, a second clean water pipe and a third clean water pipe in sequence under the action of the clean water pump and is uniformly sprayed to the inner wall of the measuring cylinder through a water spraying port on a reinforcing rod; waste liquid in the measuring cylinder sequentially passes through a third waste water pipe, a second waste water pipe and a first waste water pipe under the action of a waste water pump and enters a waste water tank;

after cleaning, press the pause switch of the flusher, the clear water pump stops working immediately, the waste water pump then postpones operation 3~5 seconds, so that the residual liquid in the graduated flask is cleared, when the waste water tank stores up the waste liquid or the clear water tank is anhydrous, start control panel's change over switch, first clear water pipe and clear water inlet tube are switched to first solenoid valve, make clear water tank and clear water inlet tube communicate, second solenoid valve switches first waste water pipe and waste water outlet pipe, make waste water tank and waste water outlet pipe communicate, open the sealed lid on clear water inlet tube and the waste water outlet pipe again, connect external water pipe respectively, the clear water is filled into the clear water tank through the clear water inlet tube, the waste liquid in the waste water tank is discharged through the waste water outlet pipe.

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