CN218795319U - Liftable stirring, deposit thick liquid integrative device - Google Patents

Abstract

The application relates to the field of stirring equipment, in particular to a liftable stirring and slurry storing integrated device. Comprises a stirring tank, a slurry storage tank and a lifting mechanism; the stirring tank is arranged above the slurry storage tank and is coaxially arranged, the lifting mechanism comprises a multi-stage hydraulic cylinder and a lifting support plate fixedly arranged on the multi-stage hydraulic cylinder, and the lifting support plate is fixedly connected with the top surface of the tank body of the stirring tank; the stirring tank is acted by the lifting mechanism, and has a contraction state of descending into the slurry storage tank and a lifting state of ascending out of the slurry storage tank. This application is in shrink or the state of rising through controllable agitator tank of elevating system and deposit between the thick liquid jar. When in use, the stirring tank is lifted from the slurry storage tank, the slurry is stirred by the stirring tank and is discharged into the slurry storage tank through the slurry discharge port for external use; when the device is used up, the stirring tank is contracted into the slurry storage tank, so that the space of the whole device is reduced, the device can be conveniently transferred and stored, the fast-paced stirring is realized, and the stirring and supply efficiency is improved.

Description

Liftable stirring, deposit thick liquid integrative device

Technical Field

The application relates to the field of stirring equipment, in particular to a liftable stirring and slurry storing integrated device.

Background

In the field of construction, a stirring tank is a common device for stirring and preparing mixture slurry. The slurry storage tank is a commonly used device for storing prepared slurry, and can be also provided with a stirring device for stirring the stored slurry, is used for storing plastic, dry and hard lightweight aggregate concrete, various mortar, mortar and the like, and can better guarantee the quality of the mortar.

But because the size of the stirring tank and the size of the slurry storage tank are relatively small, the occupied space is large and the transportation is inconvenient in the production and transportation processes.

The large-sized stirring tank has a large stirring amount per time, but is time-consuming, and requires a long waiting time from the start of preparation to the external feeding during the preparation.

In the production practice, the requirement of each mixture slurry is not large, but a plurality of different proportioning or different types of material slurries are needed, namely, a small batch of a plurality of types of slurry is needed to be supplied. But also sometimes require continuous operation of multiple types of small batches of slurry.

The large stirring tank is used for stirring, is a little large and small in material, and cannot ensure connection and provide slurry efficiently.

In view of the above-mentioned related art, the inventor considers that how to reduce the pulp supply waiting pause, improve the supply efficiency, and reduce the space occupation, etc. is a direction worthy of research.

SUMMERY OF THE UTILITY MODEL

In order to reduce and supply thick liquid to wait for intermittent type, improve supply efficiency to reduce the space and occupy, this application provides a liftable stirring, deposit thick liquid integrative device.

The application provides a liftable stir, deposit thick liquid integrative device adopts following technical scheme:

a lifting stirring and slurry storing integrated device comprises a stirring tank, a slurry storing tank and a lifting mechanism;

the stirring tank comprises a stirring tank body, a hollow stirring rotating shaft arranged in the stirring tank body, and a slurry discharging port arranged at the bottom of the stirring tank body, wherein a slurry discharging valve is arranged at the slurry discharging port;

the pulp storage tank comprises a pulp storage tank body, and the upper part of the pulp storage tank body is in an open state; a slurry storage rotating shaft is arranged in the slurry storage tank body;

the stirring tank is arranged above the slurry storage tank, the stirring tank and the slurry storage tank are coaxially arranged, and the outer diameter of the stirring tank is smaller than the inner diameter of the slurry storage tank;

the inner diameter of the stirring rotating shaft is smaller than the outer diameter of the slurry storing rotating shaft, and the upper end of the slurry storing rotating shaft extends into the hollow space of the stirring rotating shaft;

the lifting mechanism comprises a multi-stage hydraulic cylinder and a lifting support plate fixedly arranged on the multi-stage hydraulic cylinder, and the lifting support plate is fixedly connected with the top surface of the tank body of the stirring tank;

the stirring tank is acted by the lifting mechanism, and has a contraction state of descending into the slurry storage tank and a lifting state of ascending out of the slurry storage tank;

when the stirring rotating shaft is in a contraction state, the slurry storage rotating shaft contracts into the hollow space of the stirring rotating shaft;

and when the slurry storage tank is in a lifting state, the stirring tank can discharge slurry into the slurry storage tank through the slurry discharge port.

Through adopting above-mentioned technical scheme, be in shrink or rise the state between steerable agitator tank and the depositing thick liquid jar through elevating system. When in use, the stirring tank is lifted from the slurry storage tank, the stirring tank stirs the slurry, and the slurry is discharged into the slurry storage tank through the slurry discharge port to be supplied to external use. When the device is used up, the stirring tank is contracted into the slurry storage tank, so that the space of the whole device is reduced, and the device can be conveniently transported and stored. The stirring device can realize fast-paced stirring, reduce the waiting interval time and improve the stirring and supply efficiency. Flexible and convenient use and good operation controllability. This application has still configured automatic control box, only needs just can realize its operation through operating button.

Optionally, the outside lower part of depositing the thick liquid jar body be provided with deposit the inside thick liquid groove of inhaling that link up of thick liquid jar body, inhale and set up the thick liquid pump of inhaling in the thick liquid groove for inhale thick liquid and pump sending thick liquid.

Through adopting above-mentioned technical scheme, through set up the thick liquid groove of inhaling in thick liquid jar body department, via inhaling the pump suction of stuff pump, realization that can be convenient is to the pump sending of thick liquid.

Optionally, the slurry storage tank comprises a slurry storage stirring rod arranged on the slurry storage rotating shaft;

the stirring tank comprises a feeding port arranged at the top of the stirring tank body and a raw material stirring rod arranged on the stirring rotating shaft, and raw material stirring blades are arranged on the raw material stirring rod;

the agitator tank body outside still is provided with the cover and establishes the stirring rotation axis outside is used for driving stirring rotation axis pivoted belt pulley pivot, the belt pulley pivot is connected with the belt motor through connecting the belt via motor output pivot.

Through adopting above-mentioned technical scheme, disclosed that the agitator tank is provided with raw materials puddler and blade for the stirring, still disclosed the power unit that drives the stirring. The belt motor drives the rotation, so that stirring is realized.

Optionally, the device further comprises at least two slide rail support assemblies; the arrangement direction of the slide rail supporting components is parallel to the lifting direction of the stirring tank, and the stirring tank and the slurry storage tank are arranged between the slide rail supporting components;

at least two groups of fixed spring wheels are fixedly arranged on the outer side wall of the stirring tank; the number of the groups of the fixed spring wheels corresponds to the number of the slide rail supporting components; each group of fixed spring wheels can slide on one slide rail supporting assembly.

Through adopting above-mentioned technical scheme, disclosed and set up the slide rail and strutted the subassembly, fixed two sets of fixed spring wheels that set up on the agitator tank lateral wall, through the gliding route of slide rail restraint fixed spring wheel, improve the agitator tank in the stability of rising with the decline in-process.

Optionally, the slide rail supporting assembly is a foldable slide rail supporting assembly and comprises an upper slide rail and a lower slide rail, the upper slide rail and the lower slide rail are connected through a hinge, the upper slide rail is provided with a slide rail driving mechanism, and the slide rail driving mechanism is used for enabling the upper slide rail to rotate by taking the hinge as a rotation center.

By adopting the technical scheme, the structural composition of the sliding rail support assembly is disclosed, and the arrangement of the sliding rails at the upper end and the lower end of the foldable supporting assembly can be matched with the expansion of the sliding rails when the stirring tank rises, so that the restraint is provided for the rising of the stirring tank, and the stability of the stirring tank is ensured; the cooperation is at agitator tank shrink back, and the slide rail is also folded, and the reduction space occupies, reduces the volume, convenient transportation, storage.

Optionally, a clamping groove is formed in the bottom of the stirring tank body;

at least one sliding rail supporting assembly is provided with a movable dragging valve, and the movable dragging valve penetrates through the sliding rail supporting assembly;

the movable drag valve is provided with a clamping state capable of being movably clamped in the clamping groove and an exit state far away from the clamping groove.

Through adopting above-mentioned technical scheme, it rises the stability when using in order to further improve the agitator tank to disclose, has set up the activity and has dragged the valve, and its setting is between the sliding rail support subassembly and agitator tank body bottom, and through the slot that one end inserted agitator tank body bottom, the other end is fixed in the sliding rail support subassembly, fixes the agitator tank jointly, prevents that it from taking place to descend in the use. When the fixed spring wheel needs to descend and contract, the fixed spring wheel is firstly drawn out to the sliding groove of the sliding rail supporting assembly, and the fixed spring wheel is guaranteed to smoothly pass through the sliding groove in the descending process.

Optionally, a hydraulic cylinder for a support is fixedly arranged at the bottom of the stirring tank body, and one end of the hydraulic cylinder for the support is fixedly connected with a movable support;

the movable support comprises an upper support plate, a lower support plate and a connecting plate, and the upper support plate and the lower support plate are connected into an integral structure by the connecting plate;

the movable support can move along the bottom of the stirring tank body under the driving of the hydraulic cylinder for the support;

the movable support is provided with a supporting state that the upper supporting plate is abutted against the bottom of the stirring tank body and the lower supporting plate is abutted against the upper edge of the slurry storage tank body.

Through adopting above-mentioned technical scheme, disclosed in order to further improve the agitator tank and rise the stability when using, set up the movable support, its setting is in agitator tank body bottom and deposit between the thick liquid jar body upper edge, prevent that the agitator tank from taking place to descend in the use. When the movable support needs to be retracted, the movable support is firstly accommodated into the space range of the slurry storage tank through the hydraulic cylinder and then moves downwards along with the stirring tank.

Optionally, a first tooth group is fixedly arranged on the inner wall of the stirring rotating shaft, and a second tooth group is arranged on the outer wall of the slurry storage rotating shaft;

in the raised state, the second set of teeth is engaged with the first set of teeth.

Through adopting above-mentioned technical scheme, it can with deposit thick liquid rotation axis meshing to disclose the stirring rotation axis, realizes using the in-process that a motor drives the agitator tank and deposit the pivot of thick liquid jar and rotate together. Certainly, a motor can also be arranged at the bottom of the pulp storage tank to drive the pulp storage rotating shaft to rotate and respectively rotate.

Optionally, the apparatus is provided on a moving conveyance.

By adopting the technical scheme, the device can be arranged on a movable tool for use, such as an engineering truck, an engineering trolley, a navigation vehicle and the like, so that the movement is conveniently realized.

The application comprises at least one of the following beneficial technical effects:

1. this application is in shrink or the state of rising through controllable agitator tank of elevating system and deposit between the thick liquid jar. When in use, the stirring tank is lifted from the slurry storage tank, the stirring tank stirs the slurry, and the slurry is discharged into the slurry storage tank through the slurry discharge port to be supplied to external use. When the device is used up, the stirring tank is contracted into the slurry storage tank, so that the space of the whole device is reduced, and the device can be conveniently transported and stored.

2. This application can carry out the agitator tank stirring simultaneously, deposit the thick liquid jar and supply thick liquid, can realize the stirring of fast rhythm, reduce and wait for intermittent type time, improve stirring and supply efficiency. Flexible and convenient use and good operation controllability.

3. This application has set up the slide rail and has strutted the subassembly for improving the agitator tank and rise the stability of in-process.

4. This application has set up activity in order to improve the agitator tank and has dragged valve, movable support etc. in the stability when using.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present application.

Fig. 2 is a schematic perspective view of another perspective view of an embodiment of the present application.

Fig. 3 is a schematic top view of an embodiment of the present application.

Fig. 4 is a front view schematic diagram of an embodiment of the present application.

Fig. 5 is a left side view schematic diagram of an embodiment of the present application.

FIG. 6 isbase:Sub>A schematic sectional view A-A of the embodiment of FIG. 4 of the present application.

FIG. 7 is a schematic cross-sectional view B-B of the embodiment of FIG. 5 of the present application.

Fig. 8 is a schematic perspective view of an embodiment of the present application.

Description of the reference numerals:

1. a stirring tank; 2. a slurry storage tank; 3. a lifting mechanism; 4. a slide rail support assembly; 101. a stirring tank body; 102. a feeding port; 103. a pulley shaft; 104. connecting a belt; 105. a motor output shaft; 106. a belt motor; 108. a stirring rotation shaft; 109. a raw material stirring rod; 110. a pulp discharge port; 111. a fixed spring wheel; 201. a pulp storage tank body; 202. a slurry storage rotating shaft; 203. a slurry storage stirring rod; 301. a multi-stage hydraulic cylinder; 302. a lifting support plate; 401. a lower slide rail; 402. an upper slide rail; 403. a hinge; 404. a movable drag valve; 405. a card slot; 406. a movable support; 407. the support is a hydraulic cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

Example 1

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, liftable stir, deposit thick liquid integrative device includes agitator tank 1, deposit thick liquid jar 2, elevating system 3.

In the present embodiment, the stirring tank 1 includes a stirring tank body 101, a material inlet 102, a stirring rotation shaft 108, a raw material stirring rod 109, and a slurry outlet 110, and a belt pulley rotation shaft 103, a connecting belt 104, a motor output rotation shaft 105, a belt motor 106, and the like are provided on the top of the stirring tank body 101. A batch port 102 is provided at the top of the blender jar 101. A hollow stirring shaft 108 is provided inside the stirring tank 101, a raw material stirring rod 109 is provided on the stirring shaft 108, and raw material stirring blades are provided on the raw material stirring rod 109. The slurry discharging port 110 is arranged at the bottom of the stirring tank body 101, and a slurry discharging valve is arranged at the slurry discharging port 110. The outer side of the top of the stirring tank body 101 is further provided with a belt pulley rotating shaft 103 which is sleeved on the outer side of the stirring rotating shaft 108 and used for driving the stirring rotating shaft 108 to rotate, and the belt pulley rotating shaft 103 is connected with a belt motor 106 through a connecting belt 104 via a motor output rotating shaft 105. And a protective cover is arranged at the position of the connecting belt 104, the belt pulley rotating shaft 103 and the belt motor 106.

In this embodiment, slurry storage tank 2 includes a slurry storage tank body 201, and an upper portion of slurry storage tank body 201 is open. The slurry storage rotating shaft 202 is arranged inside the slurry storage tank body 201; the paddle storage rotation shaft 202 is provided with a paddle storage stirring rod 203. Wherein, be provided with the motor in depositing thick liquid jar body 201 bottom, the motor drives to deposit thick liquid rotation axis 202 and rotate the effect that realizes stirring thick liquid.

In this embodiment, agitator tank 1 is disposed above slurry storage tank 2, agitator tank 1 is arranged coaxially with slurry storage tank 2, and the outer diameter of agitator tank 101 is smaller than the inner diameter of slurry storage tank 201. The inner diameter of the stirring rotation shaft 108 is smaller than the outer diameter of the paddle storage rotation shaft 202, and the upper end of the paddle storage rotation shaft 202 extends into the hollow space of the stirring rotation shaft 108.

In this embodiment, the lifting mechanism 3 includes a multi-stage hydraulic cylinder 301, and a lifting support plate 302 fixedly disposed on the multi-stage hydraulic cylinder 301, and the lifting support plate 302 is fixedly connected to the top surface of the stirring tank 1. The agitation tank 1 has a contracted state of being lowered into the slurry storage tank 2 and a raised state of being raised out of the slurry storage tank 2 by the action of the elevating mechanism 3.

In the present embodiment, when in the contracted state, the paddle rotary shaft 202 is contracted into the hollow space of the stirring rotary shaft 108. When in the raised state, the upper end of the paddle rotation shaft 202 may extend partially into the hollow space of the stirring rotation shaft 108, but may not extend into the hollow space of the stirring rotation shaft 108. The slurry storage rotating shaft 202 may be a hollow rotating shaft or a solid rotating shaft.

In this embodiment, while in the raised state, the agitator tank 1 may discharge the slurry into the slurry storage tank 2 through the slurry discharge port 110. The material slurry stirred by the stirring tank 1 is discharged into a slurry storage tank 2. At this time, the agitation tank 1 can perform mixing and agitation of new materials.

This application is in shrink or rise the state between steerable agitator tank 1 and the deposit thick liquid jar 2 through elevating system 3. In use, agitator tank 1 is raised from holding tank 2, and agitator tank 1 stirs the slurry and discharges it through discharge port 110 into holding tank 2 for use in providing the slurry. When using up, with agitator tank 1 receipts indentation deposit thick liquid jar 2 in to reduce the space of whole equipment, can conveniently transport and save. Flexible and convenient use and good operation controllability.

This application still through having configured automatic control box, through plc embedded programming, only need just can realize its operation through operating button. The specific information collection point and the programming control method which are matched with each other are not the technical purpose of the present application, and therefore, are not described in detail herein. Of course, there are also currently research and attempts to automate the transfer of data and command control for connection to peripheral terminals.

This application, to the mode of using in unified configuration to depositing thick liquid jar 2 after forming the thick liquid for a large amount of materials of once stirring, the device of this application can realize the stirring of small batch volume material, stirs to shift to depositing thick liquid jar 2, deposits thick liquid jar 2 and can begin to provide thick liquid externally to can accelerate the time that first batch thick liquid provided, practice thrift the stirring latency of first batch material. Meanwhile, the stirring tank 1 continuously stirs a new batch of materials, so that small-batch fast-paced stirring can be realized, and the stirring and supply efficiency is improved.

This application, in the use scene to the material thick liquid continuity of different ratios or different grade type, agitator tank 1 at first stirs the material thick liquid of first kind of ratio or first type, stirs to shift to depositing thick liquid jar 2 well, and it provides the material thick liquid use of first kind of ratio or first type to deposit thick liquid jar 2 this moment. While at the same time, the agitator tank 1 may agitate a second portion or type of material slurry. Therefore, continuous operation of material slurry with different proportions or different types can be realized, waiting time and intermittent time are reduced, and production efficiency and supply efficiency are improved.

Example 2

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, the difference from embodiment 1 is that a slurry suction tank penetrating the inside of the slurry storage tank body 201 is provided in the lower portion of the outer side of the slurry storage tank body 201, and a slurry suction pump is provided in the slurry suction tank to suck and pump the slurry. The specific structure is not shown in the drawings. Through set up at the thick liquid jar body and inhale the dressing trough, via inhaling the suction of stuff pump, realization that can be convenient is to the pump sending of thick liquid.

Example 3

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, the difference from the previous embodiment is that the device further includes at least two slide rail support assemblies 4, two of which are taken as an example in the drawings.

In this embodiment, the setting direction of the slide rail support component 4 is parallel to the lifting direction of the stirring tank 1, and the stirring tank 1 and the slurry storage tank 2 are arranged between the slide rail support components 4. The slide rail support assembly 4 is a foldable slide rail support assembly 4, and includes an upper slide rail 402 and a lower slide rail 401, the upper slide rail 402 and the lower slide rail 401 are connected by a hinge 403, the upper slide rail 402 is provided with a slide rail driving mechanism, and the slide rail driving mechanism is used for enabling the upper slide rail 402 to rotate by using the hinge 403 as a rotation center. The sliding rail supporting assembly 4 is composed of a foldable sliding rail with an upper end and a lower end, and can be matched with the sliding rail to be unfolded when the stirring tank 1 rises, so that restriction is provided for the rising of the stirring tank 1, and the stability of the stirring tank 1 is ensured; after the cooperation is in agitator tank 1 shrink, the slide rail is also folded, reduces the space and occupies, reduces the volume, convenient transportation, storage. The slide rail driving mechanism can be a rotating motor, a hydraulic cylinder and the like.

In this embodiment, at least two sets of fixed spring wheels 111 are fixedly disposed on the outer side wall of the stirring tank 1; the number of the groups of the fixed spring wheels 111 corresponds to the number of the slide rail supporting assemblies 4; each set of fixed spring wheels 111 is able to slide on one track support assembly 4. The fixed spring wheel 111 comprises a spring with one end fixedly arranged on the outer side wall of the stirring tank 1, and the other end of the spring is fixedly connected with the pulley yoke; the pulley yoke is provided with pulleys. The fixed spring wheel 111 restrains the sliding path of the fixed spring wheel 111 through the sliding rail, and the stability of the stirring tank 1 in the ascending and descending processes is improved. In order to ensure that the fixed spring wheel 111 can smoothly enter the inside of the slurry storage tank body 201 in the descending process, the radius of the pulley on the fixed spring wheel 111 should be greater than the distance between the inner wall of the slide rail support assembly 4 and the inner wall of the upper edge of the slurry storage tank body 201, and the difference between the inner diameter of the slurry storage tank body 201 and the outer diameter of the stirring tank 1 should be at least greater than the diameter of the pulley on the fixed spring wheel 111.

Example 4

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, the difference from embodiment 3 is that a clamping groove 405 is provided at the bottom of the agitation tank 101. The slide rail supporting component 4 is provided with a movable dragging valve 404, and the movable dragging valve 404 penetrates through the slide rail supporting component 4. The movable drag valve 404 has a movable engagement state in which it is engaged in the engaging groove 405 and an exit state away from the engaging groove 405. When the stirring tank 1 is lifted for use, the movable dragging valve 404 is arranged between the sliding rail support component 4 and the bottom of the stirring tank body 101, one end of the movable dragging valve can be inserted into the slot at the bottom of the stirring tank body 101, the other end of the movable dragging valve is fixed in the sliding rail support component 4, the stirring tank 1 is fixed together, the stirring tank 1 is prevented from falling in the using process, and the safety and stability of the using process are ensured. When the fixed spring wheel 111 needs to descend and contract, the fixed spring wheel is firstly drawn out to the sliding groove of the sliding rail supporting component 4, so that the fixed spring wheel 111 can smoothly pass through the sliding groove in the descending process.

Example 5

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, a hydraulic cylinder 407 for a stand is fixedly provided at the bottom of the agitation tank 101, and a movable stand 406 is fixedly connected to one end of the hydraulic cylinder 407 for a stand, which is different from embodiment 3. The movable support 406 comprises an upper support plate, a lower support plate and a connecting plate, wherein the upper support plate and the lower support plate are connected into an integral structure by the connecting plate. The movable stand 406 is movable along the bottom of the agitation tank 101 by a stand hydraulic cylinder 407. The movable support 406 has a supporting state that an upper supporting plate abuts against the bottom of the stirring tank body 101, and a lower supporting plate abuts against the upper edge of the slurry storage tank body 201. When the stirring tank 1 is lifted for use, the movable support 406 is arranged between the bottom of the stirring tank body 101 and the upper edge of the slurry storage tank body 201 and is in a supporting state, so that the stirring tank 1 is prevented from descending in the using process. When the stirring tank 1 needs to be contracted, the movable support 406 is firstly put into the space range of the slurry storage tank 2 through the hydraulic cylinder and then moves downwards along with the stirring tank 1, so that the stirring tank 1 can smoothly pass through the space range in the descending process.

Example 6

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, the device may be provided on a moving conveyance. Such as engineering trucks, engineering trolleys, walkers and the like, thereby conveniently realizing the movement. Of course, the device can be placed at any work surface with a placement space.

Example 7

The embodiment of the application discloses a liftable stirring, deposit integrative device of thick liquid.

In this embodiment, the difference from embodiment 1 is that no motor is provided at the bottom of the stock tank 2. A first tooth group is fixedly arranged on the inner wall of the lower end of the stirring rotating shaft 108, and a second tooth group is arranged on the outer wall of the upper end of the slurry storage rotating shaft 202; when the agitation tank 1 is in the raised state, the second teeth group is engaged with the first teeth group. The stirring rotating shaft 108 is meshed with the slurry storage rotating shaft 202 through a tooth group, so that a motor is used for driving the rotating shafts of the stirring tank 1 and the slurry storage tank 2 to rotate together in the using process. The design mode is practical for the scene that two jar bodies all use about for a long time, can practice thrift the cost and the energy consumption of a motor. But for non-simultaneous use scenarios, there may be a phenomenon where one of the agitator arms idles. And is therefore selected according to the particular situation of use.

As shown in fig. 1-3, the belt motor 106 is disposed at the upper portion of the track support assembly 4, and the belt motor 106 is folded when the track support assembly 4 is folded. As shown in fig. 8, the belt motor 106 is disposed on the top of the stirring tank 1, and the belt motor 106 and the related belt are not affected when the track support assembly 4 is folded.

The lifting stirring and slurry storing integrated device comprises part or all of the following steps in the using process.

The device is in place; the lifting stirring and slurry storing integrated device is arranged on a flat and stable supporting surface.

Jacking the stirring tank 1; the stirring tank 1 is jacked up through the multi-stage hydraulic cylinder 301, and the fixed spring wheel 111 on the outer wall of the stirring tank body 101 is bounced into the slide rail of the slide rail supporting assembly 4 until the lifting state position is reached.

Installing a connecting belt 104; the connecting belt 104 is installed on the pulley rotating shaft 103 and the motor output rotating shaft 105.

The belt motor 106 is energized.

Feeding and stirring; the materials are put into a stirring tank 1 and stirred to form slurry.

Discharging to a pulp storage tank 2; and opening a slurry discharge valve arranged at a slurry discharge port 110 of the stirring tank body 101, and discharging the slurry uniformly stirred into the slurry storage tank 2.

Slurry suction operation; and (5) placing the slurry suction pump in the slurry suction groove, and starting the slurry suction pump to perform grouting operation.

Cleaning the tank body; and after finishing, cleaning the stirring tank 1 and the slurry storage tank 2.

The belt motor 106 is de-energized.

The connecting strap 104 is removed.

Lowering the stirring tank 1; the multistage hydraulic cylinder 301 drives the stirring tank body 101 to move downwards so as to be contracted; until the contracted state position is reached.

With this embodiment, the functions of raising and lowering the agitation tank 1 can be realized.

Example 9

The embodiment of the application discloses a use method of a lifting stirring and slurry storing integrated device, which comprises part or all of the following steps.

The device is in place; the lifting stirring and slurry storing integrated device is arranged on a flat and stable supporting surface.

Lifting the slide rail supporting assembly 4; the upper slide rail 402 of the slide rail support assembly 4 is driven by the slide rail driving mechanism, and rotates and rises with the hinge 403 as a rotation center, and is fixed and limited.

Jacking the stirring tank 1; the stirring tank 1 is jacked up through the multi-stage hydraulic cylinder 301, and the fixed spring wheel 111 on the outer wall of the stirring tank body 101 is popped into a slide rail of the slide rail supporting assembly 4 until a lifting state position is reached.

Mounting a movable support 406; the hydraulic cylinder 407 for the control support drives the movable support 406 to move outwards until the upper supporting plate of the movable support 406 abuts against the bottom of the stirring tank body 101 and the lower supporting plate abuts against the upper edge of the slurry storage tank body 201.

Installing a movable drag valve 404; the control movable dragging valve 404 penetrates through the sliding rail support component 4 and is clamped in a clamping groove 405 at the bottom of the stirring tank body 101.

The multistage hydraulic cylinder 301 is depressurized; after the movable support 406 and/or the movable drag valve 404 are/is fixedly installed, the multistage hydraulic cylinder 301 is decompressed, and the agitation tank body 101 is fixed.

Installing a connecting belt 104; the connecting belt 104 is installed on the pulley rotating shaft 103 and the motor output rotating shaft 105.

The belt motor 106 is energized.

Feeding and stirring; the mixture is fed into a stirring tank 1 and stirred to form slurry.

Discharging to a pulp storage tank 2; and opening a slurry discharge valve arranged at the slurry discharge port 110 of the stirring tank body 101, and discharging the slurry which is uniformly stirred into the slurry storage tank 2.

Slurry suction operation; and (4) placing a slurry suction pump in the slurry suction groove, and starting the slurry suction pump to perform grouting operation.

Cleaning the tank body; and after finishing, cleaning the stirring tank 1 and the slurry storage tank 2.

The belt motor 106 is de-energized.

The connecting strap 104 is removed.

The multi-stage hydraulic cylinder 301 is supported in a pressurizing manner; the multistage hydraulic cylinder 301 supports the agitation tank 101 under pressure.

Removing the cradle 406; the hydraulic cylinder 407 for the control support drives the movable support 406 to move inwards until the lower support plate of the movable support 406 leaves the upper edge of the pulp storage tank body 201.

Removing the movable drag valve 404; the movable dragging valve 404 is controlled to exit from a clamping groove 405 at the bottom of the stirring tank body 101 and move outwards through the sliding rail support assembly 4.

The stirring tank 1 is lowered; after the movable support 406 and the movable dragging valve 404 are removed, the multistage hydraulic cylinder 301 drives the stirring tank body 101 to move downwards to be contracted; until the contracted state position is reached.

Lowering the sliding rail support assembly 4; the upper slide rail 402 of the slide rail support assembly 4 is driven by the slide rail driving mechanism to rotate and descend by taking the hinge 403 as a rotation center.

The difference between the embodiment 8 and the embodiment is that the processes related to the installation and the removal of the movable support 406 and the movable tow valve 404 are added, and the guarantee of the stability when the stirring tank 1 is lifted for use is increased.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a liftable stirring, deposit integrative device of thick liquid which characterized in that: comprises a stirring tank (1), a slurry storage tank (2) and a lifting mechanism (3);

the stirring tank (1) comprises a stirring tank body (101), a hollow stirring rotating shaft (108) arranged in the stirring tank body (101), and a slurry discharging port (110) arranged at the bottom of the stirring tank body (101), wherein a slurry discharging valve is arranged at the slurry discharging port (110);

the pulp storage tank (2) comprises a pulp storage tank body (201), and the upper part of the pulp storage tank body (201) is in an open state; a pulp storage rotating shaft (202) is arranged in the pulp storage tank body (201);

the stirring tank (1) is arranged above the slurry storage tank (2), the stirring tank (1) and the slurry storage tank (2) are coaxially arranged, and the outer diameter of the stirring tank body (101) is smaller than the inner diameter of the slurry storage tank body (201);

the inner diameter of the stirring rotating shaft (108) is larger than the outer diameter of the slurry storing rotating shaft (202), and the upper end of the slurry storing rotating shaft (202) extends into the hollow space of the stirring rotating shaft (108);

the lifting mechanism (3) comprises a multi-stage hydraulic cylinder (301) and a top lifting support plate (302) fixedly arranged on the multi-stage hydraulic cylinder (301), and the lifting support plate (302) is fixedly connected with the top surface of the stirring tank (1);

the stirring tank (1) is acted by the lifting mechanism (3), has a contraction state of descending into the slurry storage tank (2), and a rising state of ascending out of the slurry storage tank (2);

when the stirring device is in a contraction state, the slurry storage rotating shaft (202) contracts into a hollow space of the stirring rotating shaft (108);

in the lifting state, the stirring tank (1) can discharge slurry into the slurry storage tank (2) through the slurry discharge opening (110).

2. The lifting stirring and slurry storing integrated device according to claim 1, characterized in that:

deposit the outside lower part of the thick liquid jar body (201) be provided with deposit the inside thick liquid groove of inhaling that link up of the thick liquid jar body (201), inhale and set up the thick liquid pump of inhaling in the thick liquid groove for inhale thick liquid and pump sending thick liquid.

3. The lifting stirring and slurry storing integrated device according to claim 1, characterized in that:

the slurry storage tank (2) comprises a slurry storage stirring rod (203) arranged on the slurry storage rotating shaft (202);

the stirring tank (1) comprises a feeding port (102) arranged at the top of the stirring tank body (101) and a raw material stirring rod (109) arranged on the stirring rotating shaft (108), wherein raw material stirring blades are arranged on the raw material stirring rod (109).

4. The lifting stirring and slurry storing integrated device according to claim 1, characterized in that:

the stirring tank body (101) top still is provided with the cover and establishes stirring rotation axis (108) upper end outside is used for driving stirring rotation axis (108) pivoted belt pulley pivot (103), belt pulley pivot (103) are connected with belt motor (106) via motor output pivot (105) through connecting belt (104).

5. The integrated device capable of stirring and storing slurry in a lifting way according to any one of claims 1 to 4, which is characterized in that:

the device also comprises at least two slide rail supporting components (4); the arrangement direction of the slide rail support assemblies (4) is parallel to the lifting direction of the stirring tank (1), and the stirring tank (1) and the slurry storage tank (2) are arranged between the slide rail support assemblies (4);

at least two groups of fixed spring wheels (111) are fixedly arranged on the outer side wall of the stirring tank (1); the number of the groups of the fixed spring wheels (111) corresponds to the number of the slide rail supporting assemblies (4); each set of fixed spring wheels (111) can slide on one of the track support assemblies (4).

6. The lifting stirring and slurry storing integrated device according to claim 5, characterized in that:

the slide rail supporting assembly (4) is a foldable slide rail supporting assembly (4) and comprises an upper slide rail (402) and a lower slide rail (401), the upper slide rail (402) is connected with the lower slide rail (401) through a hinge (403), the upper slide rail (402) is provided with a slide rail driving mechanism, and the slide rail driving mechanism is used for enabling the upper slide rail (402) to rotate by taking the hinge (403) as a rotation center.

7. The lifting stirring and slurry storing integrated device according to claim 5, characterized in that:

a clamping groove (405) is formed in the bottom of the stirring tank body (101);

at least one sliding rail supporting assembly (4) is provided with a movable dragging valve (404), and the movable dragging valve (404) penetrates through the sliding rail supporting assembly (4);

the movable dragging valve (404) is provided with a clamping state capable of being movably clamped in the clamping groove (405) and an exit state far away from the clamping groove (405).

8. The lifting stirring and slurry storing integrated device according to claim 5, characterized in that:

a support hydraulic cylinder (407) is fixedly arranged at the bottom of the stirring tank body (101), and one end of the support hydraulic cylinder (407) is fixedly connected with a movable support (406);

the movable support (406) comprises an upper support plate, a lower support plate and a connecting plate, and the upper support plate and the lower support plate are connected into an integral structure by the connecting plate;

the movable support (406) can move along the bottom of the stirring tank body (101) under the drive of the support hydraulic cylinder (407);

the movable support (406) is provided with a supporting state that the upper supporting plate abuts against the bottom of the stirring tank body (101) and the lower supporting plate abuts against the upper edge of the slurry storage tank body (201).

9. The lifting stirring and slurry storing integrated device according to claim 1, characterized in that:

a first tooth group is fixedly arranged on the inner wall of the stirring rotating shaft (108), and a second tooth group is arranged on the outer wall of the pulp storing rotating shaft (202);

in the raised state, the second set of teeth is engaged with the first set of teeth.

10. The lifting stirring and slurry storing integrated device according to claim 1, characterized in that:

the device is arranged on a moving vehicle.

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