CN108757482A - Efficient non-leakage shields Pulp pump - Google Patents

Abstract

The present invention provides a kind of efficient non-leakages to shield Pulp pump, for pumping slurry medium, including the pump housing, liquid level detection device and pressurizing pack, the pump housing has working chamber and is connected to working chamber and is located at the shielding cavity above working chamber, the test side of liquid level detection device is located in shielding cavity, to detect the liquid level for entering the slurry medium in shielding cavity by working chamber, pressurizing pack is connect with the pump housing, when the liquid level of the slurry medium in shielding cavity rises to the first preset height, pressurizing pack switches to working condition, the slurry medium in shielding cavity is set to be fallen after rise into working chamber to increase the gas pressure in shielding cavity.The present invention solves the problems, such as that Pulp pump in the prior art can not solve sealing, leakage and rinse.

Description

Efficient non-leakage shields Pulp pump

Technical field

The present invention relates to machinery manufacturing technology fields, and Pulp pump is shielded in particular to a kind of efficient non-leakage.

Background technology

Pulp pump be used for pump solid-liquid mixing slurry medium, be widely used in mine, power plant, metallurgy, dredging, chemical industry with And the fields such as oil.Slurry medium leaks to the external world by the junction between transmission shaft and the pump housing in order to prevent, causes the energy unrestrained The problems such as taking and polluting environment devise the Pulp pump with sealing performance.

A kind of Pulp pump with sealing performance in the prior art is provided with screw thread pumping and Double End machine at pump seal Tool sealing plus forced water rinse or winged iron sealing (stop seal), to prevent slurry medium by the company between transmission shaft and the pump housing The place of connecing leaks to the external world.Since there is certain fit clearance, slurry medium between the transmission shaft and pumping ring of Pulp pump It is easily accessible in the fit clearance between pumping ring and transmission shaft, the damage of pumping ring or transmission shaft is caused, by the fit clearance The external world is leaked to, leads to existing Pulp pump there are maintenance costs that high, service life is low, poor sealing performance, waste of energy etc. are asked Topic.

It is rinsed using double mechanical seal plus forced water, sealing life 3-6 month is sealed using winged iron due to helical pump It send ring short life, and flies to seal when iron sealing is termination of pumping, when pump work does not work and leakage of failing.

Invention content

The main purpose of the present invention is to provide a kind of efficient non-leakages to shield Pulp pump, to solve slag in the prior art Stock pump can not solve the problems, such as sealing, leakage and rinse, to extend the Pulp pump operation and maintenance period.

To achieve the goals above, the present invention provides a kind of efficient non-leakages to shield Pulp pump, is situated between for pumping slurry Matter, including：The pump housing, the pump housing have working chamber and are connected to working chamber and are located at the shielding cavity above working chamber；Level sensing fills It sets, the test side of liquid level detection device is located in shielding cavity, to detect the liquid for entering the slurry medium in shielding cavity by working chamber Position height；Pressurizing pack, pressurizing pack are connect with the pump housing, when the liquid level of the slurry medium in shielding cavity rises to first in advance If when height, pressurizing pack switches to working condition, the slurry in shielding cavity is set to be situated between to increase the gas pressure in shielding cavity Matter is fallen after rise into working chamber.

Further, pressurizing pack includes supply air line, and supply air line is arranged on the pump housing and is connected to shielding cavity, works as screen When covering the liquid level of the slurry medium of intracavitary and reaching the first preset height, pressurizing pack is led to by supply air line into shielding cavity Enter pressure regulation gas.

Further, pressurizing pack further includes first switch valve, and first switch valve is arranged on supply air line, to control confession The break-make of air pipe, liquid level detection device are the liquid level induction meter being connect with the pump housing, and liquid level induction meter incudes with first switch valve Cooperation.

Further, pressurizing pack further includes construction of switch, and construction of switch is pivotally disposed at being located at for supply air line One end in shielding cavity, liquid level detection device include：The first end of actuating arm, actuating arm is connect with construction of switch, and actuating arm Second end towards shielding cavity bottom extend；Float, the second end in actuating arm is arranged in float, and float is located at first and presets At height.

Further, liquid level detection device is ball-cock assembly, and ball-cock assembly includes：Valve body, valve body are arranged in the position of supply air line In one end in shielding cavity；Spool, spool are movably disposed in valve body；It cranks arm, cranks arm for driving valve core movement to control The break-make of supply air line processed, the first end cranked arm are connect with spool, and the second end cranked arm extends towards the bottom of shielding cavity；It is floating Ball, floating ball is arranged in the second end cranked arm, and floating ball is located at the first preset height.

Further, pressurizing pack further includes second switch valve, and second switch valve is arranged on supply air line and and liquid level Detection device coordinates, to control the break-make of supply air line.

Further, efficient non-leakage shielding Pulp pump further includes pressure release component, and pressure release component is connect with the pump housing, works as shielding When the liquid level of the slurry medium of intracavitary drops to the second preset height or less, effect of the pressure release component in liquid level detection device Under switch to working condition, shielding cavity is in communication with the outside.

Further, liquid level detection device is the float element being arranged in shielding cavity, and pressure release component includes：Relief tube Road, pressure relief pipe is arranged on the pump housing, and the first end of pressure relief pipe is located in shielding cavity, and the second end of pressure relief pipe stretches out screen Chamber is covered so that shielding cavity to be in communication with the outside；Switch element, switch element are arranged in float element, and switch element, which has to block, to be let out The block-up position of the nozzle of the first end on pressure pipe road, and the disengaged position with the nozzle phase separation of the first end of pressure relief pipe.

Further, the surface away from the side of float element of switch element is the first end for blocking pressure relief pipe Nozzle closure end face.

Further, pressure relief pipe first end is extended to and is blocked at the position that is oppositely arranged of end face, block end face be to The end face of the curved surface being recessed away from the side of pressure relief pipe, the nozzle of the first end of pressure relief pipe is compatible with end face is blocked Curved surface.

Further, efficient non-leakage shielding Pulp pump further includes elastomeric pad and branch sleeve, wherein float element is logical It crosses elastomeric pad to be flexibly connected with switch element, the top of branch sleeve is connect with the pump housing, the bottom end of branch sleeve and cushion Piece connects.

Further, efficient non-leakage shielding Pulp pump further includes the first flexible sheath and branch sleeve, wherein the first bullet Property sheath be set in the peripheral side of float element, the top of branch sleeve is connect with the pump housing, the bottom end of branch sleeve and the first bullet Property sheath connection.

Further, liquid level detection device is the float element being arranged in shielding cavity, and pressure release component includes：Relief tube Road, pressure relief pipe is arranged on the pump housing, and the first end of pressure relief pipe is located in shielding cavity, and the second end of pressure relief pipe stretches out screen Chamber is covered so that shielding cavity to be in communication with the outside；Third switch valve and opening and closing structure, third switch valve are arranged on pressure relief pipe, opening and closing Structure coordinates with third switch valve to control the break-make of pressure relief pipe；Mounting frame, mounting frame are connect with the pump housing, and positioned at screen Intracavitary is covered, mounting frame has installation cavity；Connecting rod, connecting rod are telescopically disposed in mounting frame, and the of connecting rod One end is stretched into installation cavity, and the second end of connecting rod is stretched out by installation cavity and connect with float element；Opening and closing structure includes induction The sensing element of cooperation and the first close switch, wherein first is arranged close to switch in installation cavity, and sensing element is arranged even The first end of extension bar.

Further, efficient non-leakage shielding Pulp pump further includes the 4th switch valve, and the 4th switch valve is arranged in air supply pipe On the road, efficient non-leakage shielding Pulp pump further includes being arranged in the second close switch of installation cavity bottom and setting on installation cavity top Close to switch, sensing element and second coordinates close to inductive switching to control the closing of the 4th switch valve the third in portion, and incudes Element coordinates close to inductive switching to control the unlatching of the 4th switch valve with third.

Further, efficient non-leakage shielding Pulp pump further includes the second flexible sheath, and the second flexible sheath is located at floating The peripheral side of dynamic element is simultaneously connect with mounting frame.

Further, pressurizing pack includes heating device, and heating device is arranged on the pump housing, the fire end position of heating device Extend in shielding cavity, and to the bottom of shielding cavity, liquid level detection device is liquid level induction meter, liquid level induction meter and heating device Induction cooperation, to control the heating start and stop state of heating device.

Further, heating device is multiple, and multiple heating devices are provided at circumferentially spaced along shielding cavity.

Further, the construction opening being connected with shielding cavity is offered at the top of the pump housing, efficient non-leakage shields slurry Pump further includes：Transmission shaft, transmission shaft, which is stretched by construction opening after shielding cavity, to be passed through shielding cavity and stretches in working chamber；Pumping Ring, pumping ring set are located on transmission shaft, and at the construction opening in shielding cavity, and the lower face for pumping ring is default higher than first Highly.

Further, it pumps and offers installation through-hole in the side wall surface of ring, the one end of supply air line being located in shielding cavity It is connected to installation through-hole, pressure regulation gas is led in the junction of pumping ring and transmission shaft.

Further, efficient non-leakage shielding Pulp pump further includes throat bushing, and throat bushing is set on transmission shaft, throat bushing It is connect with the pump housing, and throat bushing is located at the junction of shielding cavity and working chamber.

It applies the technical scheme of the present invention, liquid level detection device and pressurizing pack is provided in shielding cavity, passes through setting Liquid level detection device, to detect the liquid level for entering the slurry medium in shielding cavity by working chamber, when the slurry in shielding cavity When the liquid level of medium rises to the first preset height, pressurizing pack is enabled to switch to working condition, in running order increasing Pressure component can be such that the gas pressure in shielding cavity increases, to make the slurry medium in shielding cavity be fallen after rise into working chamber.It is logical Being used cooperatively for liquid level detection device and pressurizing pack is crossed, the liquid level of slurry medium in shielding cavity is adjusted in realization, To avoid destroying efficient non-leakage shielding Pulp pump because the liquid level of slurry medium in shielding cavity is excessively high or cause slurry medium It leaks to extraneous problem to occur, improves the performance of efficient non-leakage shielding Pulp pump.

Description of the drawings

The accompanying drawings which form a part of this application are used to provide further understanding of the present invention, and of the invention shows Meaning property embodiment and its explanation are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 shows the structural schematic diagram of according to an embodiment of the invention one efficient non-leakage shielding Pulp pump；

Fig. 2 shows the structural schematic diagrams that according to an embodiment of the invention two efficient non-leakage shields Pulp pump；

Fig. 3 shows that the structure of the construction of switch of the shielding Pulp pump of the efficient non-leakage in Fig. 2 in the open state is shown It is intended to；

Fig. 4 shows the structural schematic diagram of according to an embodiment of the invention three efficient non-leakage shielding Pulp pump；

Fig. 5 shows the structural schematic diagram of according to an embodiment of the invention four efficient non-leakage shielding Pulp pump；

Fig. 6 shows the structural schematic diagram of according to an embodiment of the invention five efficient non-leakage shielding Pulp pump；

Fig. 7 shows the enlarged diagram at A in Fig. 6；

Fig. 8 shows the structural schematic diagram of according to an embodiment of the invention six efficient non-leakage shielding Pulp pump；

Fig. 9 shows the enlarged diagram at B in Fig. 8；

Figure 10 shows the structural schematic diagram of according to an embodiment of the invention seven efficient non-leakage shielding Pulp pump；

Figure 11 shows the enlarged diagram at C in Figure 10；

Figure 12 shows the structural schematic diagram of according to an embodiment of the invention eight efficient non-leakage shielding Pulp pump.

Wherein, above-mentioned attached drawing includes the following drawings label：

10, the pump housing；11, working chamber；12, shielding cavity；13, construction opening；20, liquid level detection device；200, liquid level incudes Meter；21, actuating arm；22, float；23, ball-cock assembly；231, valve body；232, it cranks arm；233, floating ball；24, float element；30, it is pressurized Component；31, supply air line；32, first switch valve；33, construction of switch；34, second switch valve；35, heating device；351, it heats End；40, pressure release component；41, pressure relief pipe；42, switch element；421, end face is blocked；43, third switch valve；44, opening and closing knot Structure；441, sensing element；442, the first close switch；45, mounting frame；451, installation cavity；46, connecting rod；50, cushion Piece；60, branch sleeve；70, the first flexible sheath；80, the 4th switch valve；90, the second close switch；100, third is close opens It closes；110, the second flexible sheath；120, transmission shaft；130, ring is pumped；131, installation through-hole；140, throat bushing.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Below Description only actually at least one exemplary embodiment is illustrative, is never used as to the present invention and its application or makes Any restrictions.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, shall fall within the protection scope of the present invention.

Asking for sealing, leakage and flushing can not be solved in order to solve efficient non-leakage shielding Pulp pump in the prior art Topic, to extend the Pulp pump operation and maintenance period, the present invention provides a kind of efficient non-leakages to shield Pulp pump.

As shown in Figures 1 to 12, the efficient non-leakage that this application provides a kind of for pumping slurry medium shields slurry Pump, including the pump housing 10, liquid level detection device 20 and pressurizing pack 30, the pump housing 10 have working chamber 11 and are connected to simultaneously with working chamber 11 The test side of shielding cavity 12 above working chamber 11, liquid level detection device 20 is located in shielding cavity 12, to detect by working Chamber 11 enters the liquid level of the slurry medium in shielding cavity 12, and pressurizing pack 30 is connect with the pump housing 10, when in shielding cavity 12 When the liquid level of slurry medium rises to the first preset height, pressurizing pack 30 switches to working condition, to increase shielding cavity Gas pressure in 12 and so that the slurry medium in shielding cavity 12 is fallen after rise into working chamber 11.

In this application, liquid level detection device 20 and supercharging are provided in the shielding cavity 12 of efficient non-leakage shielding Pulp pump Component 30, by the way that liquid level detection device 20 is arranged, to detect the liquid level for entering the slurry medium in shielding cavity 12 by working chamber 11 Highly, when the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height, pressurizing pack 30 is enabled to switch to Working condition, in running order pressurizing pack 30 can be such that the gas pressure in shielding cavity 12 increases, to make shielding cavity Slurry medium in 12 is fallen after rise into working chamber 11.By being used cooperatively for liquid level detection device 20 and pressurizing pack 30, realize The liquid level of slurry medium in shielding cavity 12 is adjusted, to avoid the liquid level because of slurry medium in shielding cavity 12 excessively high And destroy efficient non-leakage shielding Pulp pump or slurry dielectric leakage to extraneous problem is caused to occur, improve efficient non-leakage Shield the performance of Pulp pump.

The application lists eight specific embodiments, for illustrating how liquid level detection device 20 realizes level sensing Function and pressurizing pack 30 how to realize the increased function of gas pressure of making in shielding cavity 12.

Specifically, in embodiment one to embodiment seven, pressure regulation gas is passed through into shielding cavity 12 by supply air line 31, To realize the increased technique effect of gas pressure made in shielding cavity 12；And in embodiment eight, by heating device 35 to screen The slurry medium covered in chamber 12 is heated, and it is gas to make liquid evaporation, to realize the gas pressure made in shielding cavity 12 Increased technique effect.

In embodiment five to embodiment seven, it further includes pressure release component 40, pressure release component that efficient non-leakage, which shields Pulp pump, 40 connect with the pump housing 10, when the liquid level of the slurry medium in shielding cavity 12 drops to the second preset height or less, pressure release Component 40 switches to working condition under the action of liquid level detection device 20, and shielding cavity 12 is in communication with the outside.In this way, passing through Pressure release component 40 is used cooperatively with pressurizing pack 30, is controlled the height that the slurry medium in shielding cavity 12 is fallen after rise and is specifically led to It crosses pressure release component 40 to be used cooperatively with pressurizing pack 30, keeps the gas pressure in shielding cavity 12 constant, to make in shielding cavity 12 Slurry medium liquid level it is constant.Meanwhile pressure release component 40 is set, additionally it is possible to avoid gas pressure mistake in shielding cavity 12 Greatly, efficient non-leakage shielding Pulp pump damage is caused.

Eight specific embodiments are described in detail below：

Embodiment one

As shown in Figure 1, pressurizing pack 30 includes supply air line 31, supply air line 31 is arranged on the pump housing 10 and and shielding cavity 12 connections, when the liquid level of the slurry medium in shielding cavity 12 reaches the first preset height, pressurizing pack 30 passes through gas supply Pipeline 31 is passed through pressure regulation gas into shielding cavity 12.

Optionally, pressure regulation gas is compressed air or inert gas.

Optionally, pressure regulation gas can select nitrogen.

In the alternative embodiment shown in Fig. 1, pressurizing pack 30 further includes first switch valve 32, and first switch valve 32 is arranged On supply air line 31, to control the break-make of supply air line 31, liquid level detection device 20 is the liquid level induction being connect with the pump housing 10 Meter 200, liquid level induction meter 200 coordinate with the induction of first switch valve 32.In this way, when liquid level induction meter 200 detects shielding cavity 12 When the liquid level of interior slurry medium reaches the first preset height, first switch valve 32 is opened, and supply air line 31 is on State, pressure regulation gas are entered to by supply air line 31 in shielding cavity 12, so that the gas pressure in shielding cavity 12 is increased, to make Slurry medium is fallen after rise under the action of gas pressure to working chamber 11 some or all of in shielding cavity 12, and then is realized to screen The liquid level for covering the slurry medium in chamber 12 is adjusted.

Optionally, first switch valve 32 is solenoid valve, when liquid level induction meter 200 detects the slurry medium in shielding cavity 12 Liquid level when reaching the first preset height, sent to first switch valve 32 include opening imformation electric signal, open when first It closes after valve 32 receives the electric signal including opening imformation and opens, keep supply air line 31 in the conduction state.

Embodiment two

As shown in Fig. 2, pressurizing pack 30 includes supply air line 31 and construction of switch 33, supply air line 31 is arranged in the pump housing 10 It above and with shielding cavity 12 is connected to, construction of switch 33 is pivotally disposed at the one end of supply air line 31 being located in shielding cavity 12. Liquid level detection device 20 includes actuating arm 21 and float 22, and the first end of actuating arm 21 is connect with construction of switch 33, and actuating arm 21 second end extends towards the bottom of shielding cavity 12, and float 22 is arranged the second end in actuating arm 21, and float 22 is located at the At one preset height.

Fig. 2 shows alternative embodiment in, when to be located at first default for the liquid level of the slurry medium in shielding cavity 12 When below height, float 22 is naturally drooped under gravity at the first preset height；When the slurry in shielding cavity 12 is situated between After the liquid level of matter rises to the first preset height, float 22 rises under the action of buoyancy, and float 22, which rises, drives driving Arm 21 rotates, and the rotation of 21 driving switch structure 33 of actuating arm, postrotational state is as shown in figure 3, when construction of switch 33 is in Fig. 3 When the position shown, the pressure regulation gas in supply air line 31 enters in shielding cavity 12, realizes the gas pressure made in shielding cavity 12 Increased function.

Optionally, float 22 is floating ball.

Embodiment three

As shown in figure 4, pressurizing pack 30 includes supply air line 31, supply air line 31 is arranged on the pump housing 10 and and shielding cavity 12 connections, when the liquid level of the slurry medium in shielding cavity 12 reaches the first preset height, pressurizing pack 30 passes through gas supply Pipeline 31 is passed through pressure regulation gas into shielding cavity 12, and liquid level detection device 20 is ball-cock assembly 23, ball-cock assembly 23 include valve body 231, It cranks arm 232 and floating ball 233, valve body 231 is arranged in the one end of supply air line 31 being located in shielding cavity 12, and spool is movably set Set in valve body 231, crank arm 232 for driving valve core movement to control the break-make of supply air line 31, crank arm 232 first end with Spool connect, crank arm 232 second end towards shielding cavity 12 bottom extend；Floating ball 233 be arranged crank arm 232 second end, And floating ball 233 is located at the first preset height.

In the alternative embodiment shown in Fig. 4, preset when the liquid level of the slurry medium in shielding cavity 12 is located at first When below height, floating ball 233 is sagging at the first preset height under the effect of gravity, at this point, ball-cock assembly 23 is closed； After the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height, floating ball 233 floats with liquid level, cranks arm 232 move with floating ball 233 and drive valve core movement, so that ball-cock assembly is in open state, and then supply air line 31 is made to be on State, the pressure regulation gas in supply air line 31 enter in shielding cavity 12, realize the increased work(of gas pressure made in shielding cavity 12 Energy.

Example IV

As shown in figure 5, example IV is improved on the basis of embodiment two, example IV and embodiment two It differs only in：Pressurizing pack 30 further includes second switch valve 34, and second switch valve 34 is arranged on supply air line 31 and and liquid Level detecting apparatus 20 coordinates, to control the break-make of supply air line 31.When the liquid level of the slurry medium in shielding cavity 12 is located at When below the first preset height, float 22 is naturally drooped under gravity at the first preset height, second switch valve 34 It is closed；After the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height, float 22 is floating Rise under the action of power, float 22, which rises, drives actuating arm 21 to rotate, the rotation of 21 driving switch structure 33 of actuating arm, construction of switch Open signal is sent to second switch valve 34 after 33 rotations, second switch valve 34 switches to open state, in supply air line 31 Pressure regulation gas smoothly enters in shielding cavity 12, realizes the increased function of gas pressure of making in shielding cavity 12.

Similar with example IV in one embodiment not shown of the application, pressurizing pack 30 further includes second switch valve 34, Second switch valve 34 is arranged on supply air line 31 and coordinates with liquid level detection device 20, to control the break-make of supply air line 31. But difference with example IV is improved on the basis of embodiment two, and this embodiment not shown is in embodiment It is improved on the basis of three, specifically, in this embodiment not shown, when the liquid level of the slurry medium in shielding cavity 12 is high When degree is located at the first preset height or less, when ball-cock assembly 23 is closed, second switch valve 34 is closed；Work as screen Cover the slurry medium in chamber 12 liquid level rise to the first preset height after, ball-cock assembly 23 is in open state, and second opens It closes valve 34 and is in open state, to keep supply air line 31 in the conduction state, the pressure regulation gas in supply air line 31 enters screen It covers in chamber 12, realizes the increased function of gas pressure of making in shielding cavity 12.

Embodiment five

As shown in Figure 6 and Figure 7, pressurizing pack 30 include supply air line 31, supply air line 31 be arranged on the pump housing 10 and with Shielding cavity 12 is connected to, and liquid level detection device 20 is the float element 24 being arranged in shielding cavity 12, and pressure release component 40 includes pressure release Pipeline 41 and switch element 42, pressure relief pipe 41 is arranged on the pump housing 10, and the first end of pressure relief pipe 41 is located at shielding cavity 12 Interior, the second end of pressure relief pipe 41 stretches out shielding cavity 12 so that shielding cavity 12 to be in communication with the outside, and the setting of switch element 42 is being floated On element 24, switch element 42 has the block-up position of the nozzle for the first end for blocking pressure relief pipe 41, and and pressure relief pipe The disengaged position of the nozzle phase separation of 41 first end.

In the present embodiment, it when the liquid level of the slurry medium in shielding cavity 12 is less than the second preset height, floats Element 24 is sagging at the second preset height under gravity, at this point, switch element 42 is in disengaged position, pressure relief pipe 41 is in the conduction state and shielding cavity 12 is in communication with the outside；When the liquid level of the slurry medium in shielding cavity 12 rises to When two preset heights, float element 24 starts to rise and rise with liquid level, and float element 24 drives switch element 42 to move upwards, When the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height by the second preset height, float element 24 It drives switch element 42 by disconnected position to block-up position, blocks the nozzle of the first end of pressure relief pipe 41, and make pressure release Pipeline 41 is in sealed condition, and shielding cavity 12 is not in communication with the outside.

When specifically used, when the liquid level of the slurry medium in shielding cavity 12 is less than the second preset height, Floating RMB Part 24 is sagging at the second preset height under gravity, and pressurizing pack 30 is in off working state, at pressure release component 40 In working condition；When the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height, pressurizing pack 30 is cut Working condition is shifted to, and pressure release component 40 is in off working state, pressurizing pack 30 is by supply air line 31 into shielding cavity 12 It is passed through pressure regulation gas, the liquid level of the slurry medium in shielding cavity 12 declines under the influence of air pressure；When in shielding cavity 12 When the liquid level of slurry medium drops to the second preset height or less by the first preset height, pressure release component 40 switches to work State, i.e. switch element 42 are in disengaged position, and shielding cavity 12 is in communication with the outside by pressure relief pipe 41, the pressure regulation in shielding cavity 12 Shielding cavity 12 is discharged by pressure relief pipe 41 in gas, to keep the gas pressure in shielding cavity 12 constant, and then controls shielding cavity The liquid level of slurry medium in 12.

As shown in fig. 7, the surface away from the side of float element 24 of switch element 42 is for blocking pressure relief pipe 41 First end nozzle closure end face 421.

As shown in fig. 7,41 first end of pressure relief pipe is extended to and blocked at the position that end face 421 is oppositely arranged, end is blocked Face 421 is to the curved surface being recessed away from the side of pressure relief pipe 41, and the end face of the nozzle of the first end of pressure relief pipe 41 is and envelope Stifled 421 compatible curved surface of end face.In such manner, it is possible to improve closure of the float element 24 to the nozzle of the first end of pressure relief pipe 41 Effect.

As shown in Figure 6 and Figure 7, efficient non-leakage shielding Pulp pump further includes elastomeric pad 50 and branch sleeve 60, wherein Float element 24 is flexibly connected by elastomeric pad 50 and switch element 42, and the top of branch sleeve 60 is connect with the pump housing 10, even The bottom end of female connector cylinder 60 is connect with elastomeric pad 50.In this way, float element 24 is fixed on the second default height by branch sleeve 60 At degree, when the liquid level of the slurry medium in shielding cavity 12 rises to the second preset height or more, float element 24 is upward It floats, float element 24 pushes elastomeric pad 50 under the action of buoyancy, makes elastomeric pad 50 that flexible deformation, elastomeric pad occur 50 pull switch elements 42 are by disconnected position to block-up position.

Optionally, float element 24 is in bottled Floater Structure.

Optionally, switch element 42, float element 24 with the junction of switch element 42 and elastomeric pad 50 by Latex material is made.

Optionally, switch element 42, float element 24 and elastomeric pad 50 are bonded.

Embodiment six

Difference lies in replace with the first elasticity by the elastomeric pad 50 in embodiment five and protect embodiment six with embodiment five Set 70, specifically, as shown in Figure 8 and Figure 9, the first flexible sheath 70 is set in the peripheral side of float element 24, branch sleeve 60 Top connect with the pump housing 10, the bottom end of branch sleeve 60 is connect with the first flexible sheath 70.In this way, the first flexible sheath 70 is right Float element 24 plays a protective role.

Optionally, switch element 42, float element 24 are made of latex material with the junction of switch element 42, and Switch element 42 and float element 24 are bonded.

Optionally, the first flexible sheath 70 is made of latex material.

Embodiment seven

As shown in Figure 10 and Figure 11, pressurizing pack 30 includes supply air line 31, and supply air line 31 is arranged on the pump housing 10 simultaneously It is connected to shielding cavity 12, liquid level detection device 20 is the float element 24 being arranged in shielding cavity 12, and pressure release component 40 includes letting out Pressure pipe road 41, third switch valve 43, opening and closing structure 44, mounting frame 45 and connecting rod 46, pressure relief pipe 41 are arranged in the pump housing 10 On, and the first end of pressure relief pipe 41 is located in shielding cavity 12, the second end of pressure relief pipe 41 stretches out shielding cavity 12 will shield Chamber 12 is in communication with the outside, and third switch valve 43 is arranged on pressure relief pipe 41, opening and closing structure 44 and third switch valve 43 coordinate with The break-make of pressure relief pipe 41 is controlled, mounting frame 45 is connect with the pump housing 10, and in shielding cavity 12, and mounting frame 45 has peace It behave affectedly 451, connecting rod 46 is telescopically disposed in mounting frame 45, and the first end of connecting rod 46 stretches into installation cavity 451, The second end of connecting rod 46 is stretched out by installation cavity 451 and is connect with float element 24；Wherein, opening and closing structure 44 includes that induction coordinates Sensing element 441 and first close to switch 442, first close to the setting of switch 442 in installation cavity 451, sensing element 441 is set Set the first end in connecting rod 46.In this way, when the liquid level of the slurry medium in shielding cavity 12 drops to the second preset height When, sensing element 441 coordinates with first close to switch 442 under float element driving, and first switchs close to switch 442 to third Valve 43 sends open signal, and third switch valve 43 is opened after receiving open signal, keeps pressure relief pipe 41 in the conduction state, will Shielding cavity 12 is in communication with the outside.

As shown in Figure 10 and Figure 11, efficient non-leakage shielding Pulp pump further includes the 4th switch valve 80, the 4th switch valve 80 It is arranged on supply air line 31, efficient non-leakage shielding Pulp pump further includes being arranged to approach the second of 451 bottom of installation cavity to open It closes 90 and the third at 451 top of installation cavity is set close to switch 100, sensing element 441 is matched with second close to the induction of switch 90 It closes to control the closing of the 4th switch valve 80, and sensing element 441 is opened close to the induction cooperation of switch 100 with controlling the 4th with third Close the unlatching of valve 80.In this way, when the liquid level of the slurry medium in shielding cavity 12 is less than third preset height, float element 24 is sagging under gravity, and sensing element 441 and third is driven to coordinate close to switch 100, second approach switch 90 to 4th switch valve 80 sends shutdown signal, and the 4th switch valve 80 is closed after receiving shutdown signal；When shielding cavity 12 When the liquid level of interior slurry medium rises to the first preset height by third preset height, sensing element 441 is in Floating RMB It is moved upwards under the action of part 24, and approaches the induction of switch 100 with third and coordinate, third approaches switch 100 to the 4th switch valve 80 send open signals, and the 4th switch valve 80, which receives, switches to open state after open signal, and supply air line 31 is to shielding cavity Pressure regulation gas is passed through in 12, the liquid level of the slurry medium in shielding cavity 12 is begun to decline under the action of gas pressure, when When the liquid level of slurry medium in shielding cavity 12 drops to the second preset height by the first preset height, sensing element 441 It moves downward under the action of float element 24, and coordinates close to the induction of switch 442 with first, first approaches switch 442 to the Three switch valves 43 send open signal, and third switch valve 43 is opened after receiving open signal, and pressure relief pipe 41 is made to be on Shielding cavity 12 is in communication with the outside by state, and then controls the liquid level of slurry medium in shielding cavity 12.

As shown in figure 11, efficient non-leakage shielding Pulp pump further includes the second flexible sheath 110, the second flexible sheath 110 It is located at the peripheral side of float element 24 and is connect with mounting frame 45.In this way, the second flexible sheath 110 of setting can be to floating Element 24 plays a protective role.

Optionally, the second flexible sheath 110 is made of latex material.

Embodiment eight

As shown in figure 12, pressurizing pack 30 includes heating device 35, and heating device 35 is arranged on the pump housing 10, heating device 35 fire end 351 is located in shielding cavity 12, and extends to the bottom of shielding cavity 12, and liquid level detection device 20 is liquid level induction meter 200, liquid level induction meter 200 coordinates with the induction of heating device 35, to control the heating start and stop state of heating device 35.In this way, working as When liquid level induction meter 200 detects that the liquid level of the slurry medium in shielding cavity 12 rises to the first preset height, liquid level sense Accrued 200 send open signal to heating device 35, and heating device 35 is in open state after receiving open signal, to shielding Slurry medium in chamber 12 is heated, and the moisture evaporation in liquid is made, to increase the gas pressure in shielding cavity 12.

In one embodiment not shown of the application, heating device 35 is multiple, and multiple heating devices 35 are along shielding cavity 12 It is provided at circumferentially spaced.Can the quantity of heating device 35 be flexibly set according to actual needs, it is high to control 12 liquid level of shielding cavity Degree.Meanwhile after which part heating device 35 damages, remaining heating device 35 remains able to work, to improve height Imitate the service life of No leakage shielding Pulp pump.

As shown in Figure 1, Figure 2, shown in Fig. 4, Fig. 5, Fig. 6, Fig. 8, Figure 10 and Figure 12, the top of the pump housing 10 offers and shielding cavity 12 The construction opening 13 being connected, efficient non-leakage shielding Pulp pump further include transmission shaft 120 and pumping ring 130, transmission shaft 120 by Construction opening 13 passes through shielding cavity 12 after stretching into shielding cavity 12 and stretches in working chamber 11；Pumping ring 130 is set in transmission shaft On 120, and at the construction opening 13 in shielding cavity 12, the lower face of pumping ring 130 is higher than the first preset height.In this way, By setting pressurizing pack 30, the liquid level of the slurry medium in shielding cavity 12 is made to be consistently lower than the lower face for pumping ring 130, to The slurry medium in shielding cavity 12 is avoided to enter in the fit clearance between pumping ring 130 and transmission shaft 120, to avoid pumping Ring 130 or transmission shaft 120 are worn, and improve the service life of efficient non-leakage shielding Pulp pump.

As shown in Fig. 6, Fig. 8 and Figure 10, pumps and offer installation through-hole 131 in the side wall surface of ring 130, supply air line 31 One end in shielding cavity 12 is connected to installation through-hole 131, and pressure regulation gas is led in pumping ring 130 and transmission shaft 120 Junction.In this way, even if can incited somebody to action if thering is slurry medium to enter in the fit clearance between pumping ring 130 and transmission shaft 120 Pressure regulation gas is passed through behind the junction of pumping ring 130 and transmission shaft 120, makes the slurry between pumping ring 130 and transmission shaft 120 Medium is fallen after rise under the action of pressure regulation gas in shielding cavity 12 or falling after rise to working chamber 11, and then slurry medium is avoided to pass through Fit clearance between pumping ring 130 and transmission shaft 120 leaks to the external world, further improves efficient non-leakage shielding slurry The sealing performance of pump.

As shown in Figure 1, Figure 2, shown in Fig. 4, Fig. 5, Fig. 6, Fig. 8, Figure 10 and Figure 12, efficient non-leakage shielding Pulp pump further includes section Stream set 140, throat bushing 140 is set on transmission shaft 120, and throat bushing 140 is connect with the pump housing 10, and throat bushing 140 is located at shielding The junction of chamber 12 and working chamber 11.In this way, throat bushing 140 is arranged in the junction of shielding cavity 12 and working chamber 11, to prevent Slurry medium in working chamber 11 enters in shielding cavity 12, further improves the leakproofness of efficient non-leakage shielding Pulp pump Energy.

It should be noted that in this application, the first preset height is greater than or equal to the second preset height, the second default height Degree is greater than or equal to third preset height.

It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or combination thereof.

Unless specifically stated otherwise, positioned opposite, the digital table of the component and step that otherwise illustrate in these embodiments It is not limited the scope of the invention up to formula and numerical value.Simultaneously, it should be appreciated that for ease of description, attached each portion shown in the drawings The size divided not is to be drawn according to actual proportionate relationship.For technology, side known to person of ordinary skill in the relevant Method and equipment may be not discussed in detail, but in the appropriate case, and the technology, method and apparatus should be considered as authorizing explanation A part for book.In shown here and discussion all examples, any occurrence should be construed as merely illustrative, and Not by way of limitation.Therefore, the other examples of exemplary embodiment can have different values.It should be noted that：Similar label Similar terms are indicated in following attached drawing with letter, therefore, once it is defined in a certain Xiang Yi attached drawing, then subsequent attached It need not be further discussed in figure.

In the description of the present invention, it is to be understood that, the noun of locality such as " front, rear, top, and bottom, left and right ", " it is laterally, vertical, Vertically, the orientation or positional relationship indicated by level " and " top, bottom " etc. is normally based on orientation or position shown in the drawings and closes System, is merely for convenience of description of the present invention and simplification of the description, in the absence of explanation to the contrary, these nouns of locality do not indicate that Signified device or element must have a particular orientation or with specific azimuth configuration and operations with hint, therefore cannot manage Solution is limiting the scope of the invention；The noun of locality " inside and outside " refers to inside and outside the profile relative to each component itself.

For ease of description, herein can with use space relative terms, as " ... on ", " in ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, if the device in attached drawing is squeezed, it is described as " in other devices It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and " in ... lower section " two kinds of orientation.The device can also other different modes positioning (be rotated by 90 ° or be in other orientation), and And respective explanations are made to the opposite description in space used herein above.

Furthermore, it is necessary to which explanation, limits parts, it is only for be convenient for using the words such as " first ", " second " Corresponding parts are distinguished, do not have Stated otherwise such as, there is no particular meanings for above-mentioned word, therefore should not be understood as to this The limitation of invention protection domain.

It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, work, device, component and/or combination thereof.

It should be noted that term " first " in the description and claims of this application and above-mentioned attached drawing, " Two " etc. be for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that using in this way Data can be interchanged in the appropriate case, so that presently filed embodiment described herein can be in addition to illustrating herein Or the sequence other than those of description is implemented.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (20)

1. a kind of efficient non-leakage shields Pulp pump, for pumping slurry medium, which is characterized in that including：

The pump housing (10), the pump housing (10) have working chamber (11) and are connected to the working chamber (11) and are located at the working chamber (11) shielding cavity (12) above；

The test side of liquid level detection device (20), the liquid level detection device (20) is located in the shielding cavity (12), with detection Enter the liquid level of the slurry medium in the shielding cavity (12) by the working chamber (11)；

Pressurizing pack (30), the pressurizing pack (30) connect with the pump housing (10), the slurry in the shielding cavity (12) When the liquid level of medium rises to the first preset height, the pressurizing pack (30) switches to working condition, described in increase Gas pressure in shielding cavity (12) and so that the slurry medium in the shielding cavity (12) is fallen after rise into the working chamber (11).

2. efficient non-leakage according to claim 1 shields Pulp pump, which is characterized in that the pressurizing pack (30) includes Supply air line (31), the supply air line (31) are arranged on the pump housing (10) and are connected to the shielding cavity (12), work as institute When stating the liquid level of the slurry medium in shielding cavity (12) and reaching first preset height, the pressurizing pack (30) passes through The supply air line (31) is passed through pressure regulation gas into the shielding cavity (12).

3. efficient non-leakage according to claim 2 shields Pulp pump, which is characterized in that the pressurizing pack (30) is also wrapped First switch valve (32) is included, the first switch valve (32) is arranged on the supply air line (31), to control the air supply pipe The break-make on road (31), the liquid level detection device (20) are the liquid level induction meter (200) being connect with the pump housing (10), the liquid Position induction meter (200) coordinates with the first switch valve (32) induction.

4. efficient non-leakage according to claim 2 shields Pulp pump, which is characterized in that the pressurizing pack (30) is also wrapped Include construction of switch (33), what the construction of switch (33) was pivotally disposed at the supply air line (31) is located at the shielding cavity (12) one end in, the liquid level detection device (20) include：

The first end of actuating arm (21), the actuating arm (21) is connect with the construction of switch (33), and the actuating arm (21) Second end towards the shielding cavity (12) bottom extend；

Float (22), the second end in the actuating arm (21) is arranged in the float (22), and the float (22) is positioned at described At first preset height.

5. efficient non-leakage according to claim 2 shields Pulp pump, which is characterized in that the liquid level detection device (20) For ball-cock assembly (23), the ball-cock assembly (23) includes：

Valve body (231), be located at the shielding cavity (12) in one of valve body (231) setting in the supply air line (31) End；

Spool, the spool are movably disposed in the valve body (231)；

It cranks arm (232), described crank arm (232) are used to drive the valve core movement to control the break-make of the supply air line (31), The first end for cranking arm (232) is connect with the spool, it is described crank arm (232) second end towards the shielding cavity (12) Bottom extends；

Floating ball (233), the floating ball (233) setting is in the second end for cranking arm (232), and the floating ball (233) is located at institute It states at the first preset height.

6. efficient non-leakage according to claim 4 or 5 shields Pulp pump, which is characterized in that the pressurizing pack (30) Further include second switch valve (34), the second switch valve (34) is arranged on the supply air line (31) and is examined with the liquid level It surveys device (20) to coordinate, to control the break-make of the supply air line (31).

7. efficient non-leakage according to claim 2 shields Pulp pump, which is characterized in that the efficient non-leakage shields slag Stock pump further includes pressure release component (40), and the pressure release component (40) connect with the pump housing (10), when in the shielding cavity (12) The liquid level of slurry medium when dropping to the second preset height or less, the pressure release component (40) fills in the level sensing It sets and switches to working condition under the action of (20), the shielding cavity (12) is in communication with the outside.

8. efficient non-leakage according to claim 7 shields Pulp pump, which is characterized in that the liquid level detection device (20) For the float element (24) being arranged in the shielding cavity (12), the pressure release component (40) includes：

Pressure relief pipe (41), the pressure relief pipe (41) are arranged on the pump housing (10), and the of the pressure relief pipe (41) One end is located in the shielding cavity (12), and the second end of the pressure relief pipe (41) stretches out the shielding cavity (12) with by the screen Chamber (12) is covered to be in communication with the outside；

Switch element (42), the switch element (42) are arranged in the float element (24), switch element (42) tool There are the block-up position of the nozzle for the first end for blocking the pressure relief pipe (41), and the first end with the pressure relief pipe (41) Nozzle phase separation disengaged position.

9. efficient non-leakage according to claim 8 shields Pulp pump, which is characterized in that the back of the body of the switch element (42) The surface of side from the float element (24) is the closure of the nozzle of the first end for blocking the pressure relief pipe (41) End face (421).

10. efficient non-leakage according to claim 9 shields Pulp pump, which is characterized in that the pressure relief pipe (41) the One end extends at the position being oppositely arranged with closure end face (421), and the closure end face (421) is to be let out to away from described The curved surface of the side recess on pressure pipe road (41), the end face of the nozzle of the first end of the pressure relief pipe (41) are and the closure end The compatible curved surface in face (421).

11. efficient non-leakage according to claim 8 shields Pulp pump, which is characterized in that the efficient non-leakage shielding Pulp pump further includes elastomeric pad (50) and branch sleeve (60), wherein the float element (24) passes through the elastomeric pad (50) it is flexibly connected with the switch element (42), the top of the branch sleeve (60) is connect with the pump housing (10), described The bottom end of branch sleeve (60) is connect with the elastomeric pad (50).

12. efficient non-leakage according to claim 8 shields Pulp pump, which is characterized in that the efficient non-leakage shielding Pulp pump further includes the first flexible sheath (70) and branch sleeve (60), wherein first flexible sheath (70) is set in institute The peripheral side of float element (24) is stated, the top of the branch sleeve (60) is connect with the pump housing (10), the branch sleeve (60) bottom end is connect with first flexible sheath (70).

13. efficient non-leakage according to claim 7 shields Pulp pump, which is characterized in that the liquid level detection device (20) it is the float element (24) being arranged in the shielding cavity (12), the pressure release component (40) includes：

Pressure relief pipe (41), the pressure relief pipe (41) are arranged on the pump housing (10), and the of the pressure relief pipe (41) One end is located in the shielding cavity (12), and the second end of the pressure relief pipe (41) stretches out the shielding cavity (12) with by the screen Chamber (12) is covered to be in communication with the outside；

Third switch valve (43) and opening and closing structure (44), the third switch valve (43) are arranged on the pressure relief pipe (41), The opening and closing structure (44) coordinates with the third switch valve (43) to control the break-make of the pressure relief pipe (41)；

Mounting frame (45), the mounting frame (45) connect with the pump housing (10), and in the shielding cavity (12), institute Stating mounting frame (45) has installation cavity (451)；

Connecting rod (46), the connecting rod (46) is telescopically disposed in the mounting frame (45), and the connecting rod (46) first end stretches into the installation cavity (451), and the second end of the connecting rod (46) is stretched out by the installation cavity (451) And it is connect with the float element (24)；

The opening and closing structure (44) includes sensing element (441) and the first close switch (442) of induction cooperation, wherein described First is interior in the installation cavity (451) close to switch (442) setting, and the sensing element (441) is arranged in the connecting rod (46) first end.

14. efficient non-leakage according to claim 13 shields Pulp pump, which is characterized in that the efficient non-leakage shielding Pulp pump further includes the 4th switch valve (80), and the 4th switch valve (80) is arranged on the supply air line (31), the height Effect No leakage shielding Pulp pump further includes setting in the second close switch (90) of the installation cavity (451) bottom and is arranged in institute State the close switch (100) of third at the top of installation cavity (451), the sensing element (441) and the described second close switch (90) Induction cooperation is to control the closing of the 4th switch valve (80), and the sensing element (441) and the close switch of the third (100) induction cooperation is to control the unlatching of the 4th switch valve (80).

15. efficient non-leakage according to claim 14 shields Pulp pump, which is characterized in that the efficient non-leakage shielding Pulp pump further includes the second flexible sheath (110), and second flexible sheath (110) is located at the outer of the float element (24) Side is simultaneously connect with the mounting frame (45).

16. efficient non-leakage according to claim 1 shields Pulp pump, which is characterized in that pressurizing pack (30) packet Heating device (35) is included, the heating device (35) is arranged on the pump housing (10), the fire end of the heating device (35) (351) it is located in the shielding cavity (12), and extends to the bottom of the shielding cavity (12), the liquid level detection device (20) is Liquid level induction meter (200), the liquid level induction meter (200) coordinates with the heating device (35) induction, to control the heating The heating start and stop state of device (35).

17. efficient non-leakage according to claim 16 shields Pulp pump, which is characterized in that the heating device (35) is It is multiple, multiple heating device (35) being provided at circumferentially spaced along the shielding cavity (12).

18. efficient non-leakage according to claim 2 shields Pulp pump, which is characterized in that the top of the pump housing (10) The construction opening (13) being connected with the shielding cavity (12) is offered, the efficient non-leakage shielding Pulp pump further includes：

Transmission shaft (120), the transmission shaft (120) stretch into the shielding cavity (12) afterwards across described by the construction opening (13) Shielding cavity (12) simultaneously stretches in the working chamber (11)；

Ring (130) is pumped, the pumping ring (130) is set on the transmission shaft (120), and in the shielding cavity (12) The construction opening (13) at, it is described pumping ring (130) lower face be higher than first preset height.

19. efficient non-leakage according to claim 18 shields Pulp pump, which is characterized in that the pumping ring (130) Installation through-hole (131), the one end of the supply air line (31) being located in the shielding cavity (12) and institute are offered in side wall surface Installation through-hole (131) connection is stated, the pressure regulation gas is led into the company in pumping ring (130) and the transmission shaft (120) Meet place.

20. efficient non-leakage according to claim 18 shields Pulp pump, which is characterized in that the efficient non-leakage shielding Pulp pump further includes throat bushing (140), and the throat bushing (140) is set on the transmission shaft (120), the throat bushing (140) it is connect with the pump housing (10), and the throat bushing (140) is located at the shielding cavity (12) and the working chamber (11) Junction.