CN221072301U - Lifting slurry storage tank - Google Patents

Abstract

The utility model relates to a lifting slurry storage tank, wherein a bottom tank is formed by alternately arranging connecting plates. Each connecting plate is provided with a U-shaped strip, and the connecting plates are arranged in the U-shaped strips, so that the upper end faces of the U-shaped strips are positioned below the upper end faces of the connecting plates. The connecting plates are respectively provided with a lifting adjusting unit for connecting the connecting plates with the U-shaped strips, so that the U-shaped strips are hung below the connecting plates and can move up and down relative to the connecting plates. The upper end face of the connecting plate is provided with a plurality of pins. The top groove is surrounded by a pair of U-shaped anchor ears. The middle connecting plate and the side plate of the U-shaped hoop are provided with an inner side edge plate at the lower part of the inner side surface and an outer side edge plate at the lower part of the outer side surface. The lower end face of the U-shaped anchor ear is provided with a hole matched with the pin. The lower end face of the inner side edge plate and the lower end face of the outer side edge plate are respectively contacted with the upper end faces of the two side plates of the U-shaped strip, so that the top groove is suspended above the bottom groove. This patent can form between roof groove and kerve and shelter from, has solved the problem that appears a large amount of thick liquid that leaks between the opposite face in roof groove and kerve.

Description

Lifting slurry storage tank

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a lifting type slurry storage tank for an assembled building.

Background

The fabricated building has the advantages of short construction period, high standardization degree, environmental protection, safety and the like, and is installed after the prefabricated processing of the components is completed in a factory and the components are transported to a construction site. The connection of pier stud and bent cap in the assembled building plays an important role in the whole construction process, and the existing construction technology mainly comprises a grouting sleeve type connection mode, a grouting metal corrugated pipe connection mode and a slot type connection mode. All three modes relate to the step of arranging a slurry sitting layer on the top of the pier stud during construction. The grout layer adopts the rivet to anchor angle steel or square steel around the pier top when being constructed, forms the grout storage groove of the capping beam grout, but needs to drive in anchor bolts on the pier stud, then fills up gap with the foam rubber, and this kind of construction mode not only influences the pier stud outward appearance, but also can't guarantee the compactness of grout.

The patent number is 2021226510839, and the technical scheme disclosed in the document of the name of the automatic lifting hoop type slurry storage tank relates to a technology for installing a pier stud and a prefabricated capping beam node, and comprises a top tank and a bottom tank which are both of rectangular frame structures, and the top tank and the bottom tank are connected through a plurality of lifting assemblies. The lifting assembly comprises a top sleeve, a bottom sleeve and a spring, wherein the top sleeve is connected to the lower surface of the top groove, the bottom sleeve is connected to the upper surface of the bottom groove, one end of the spring is fixed on the bottom sleeve, and the other end of the spring is fixed on the top sleeve. The problem that it exists is that a large amount of thick liquid leaks appear in the clearance department between roof groove and the opposite face of kerve easily, and pollute the pier stud surface, cause work burden for later cleaning, and influence the final outward appearance of pier stud.

Disclosure of utility model

The utility model provides a lifting type slurry storage tank which can be used in an assembled building structure, can form shielding between a top tank and a bottom tank, and solves the problem that a large amount of slurry leakage occurs between opposite surfaces of the top tank and the bottom tank.

The technical scheme adopted for solving the technical problems is as follows: a lifting slurry storage tank comprises a bottom tank and a top tank.

The bottom slot includes a pair of first link plates and a pair of second link plates. The two first connecting plates and the two second connecting plates are alternately arranged, and the two ends of the two first connecting plates are connected with the stationary phase in sequence to form a square groove shape.

The lower part of the first connecting plate is provided with a first U-shaped strip in a matching way, the first connecting plate is arranged in a notch of the first U-shaped strip, and the upper end face of the first U-shaped strip is positioned below the upper end face of the first connecting plate.

The lower part of the second connecting plate is provided with a second U-shaped strip in a matching way, the second connecting plate is arranged in a notch of the second U-shaped strip, and the upper end face of the second U-shaped strip is positioned below the upper end face of the second connecting plate.

The upper end face of the first connecting plate and the upper end face of the second connecting plate are basically in the same plane, and the upper end face of the first U-shaped strip and the upper end face of the second U-shaped strip are basically in the same plane.

The first connecting plate and the second connecting plate are respectively provided with a plurality of lifting adjusting units which are used for respectively connecting the first connecting plate with the first U-shaped strip, connecting the second connecting plate with the second U-shaped strip, enabling the first U-shaped strip to be hung below the first connecting plate and capable of vertically and reciprocally moving relative to the first connecting plate, and enabling the second U-shaped strip to be hung below the second connecting plate and capable of vertically and reciprocally moving relative to the second connecting plate.

The upper end face of the first connecting plate and/or the upper end face of the second connecting plate are/is formed with a plurality of pins extending upwards.

The top groove comprises a pair of U-shaped hoops, and the opening sides of the two U-shaped hoops are opposite and can be fixedly connected into a square groove shape.

The U-shaped hoop is characterized in that a first inner side edge plate extending downwards is formed on the middle connecting plate of the U-shaped hoop at the lower part of the inner side surface, and a first outer side edge plate extending downwards is formed at the lower part of the outer side surface.

And second inner side edge plates extending downwards are respectively formed on the lower parts of the inner side surfaces of the two side plates of the U-shaped anchor ear, and second outer side edge plates extending downwards are respectively formed on the lower parts of the outer side surfaces of the U-shaped anchor ear.

Holes matched with the pins in one-to-one correspondence are formed in the lower end face of the U-shaped anchor ear. The depth of the hole is not smaller than the length of the pin, and the hole can be a through hole or a counter bore.

When the roof groove is arranged above the bottom groove, the upper end of the pin is inserted into the hole, the lower end face of the first inner side edge plate and the lower end face of the first outer side edge plate are respectively contacted with the upper end faces of the two side plates of the first U-shaped strip, and meanwhile, the lower end face of the second inner side edge plate and the lower end face of the second outer side edge plate are respectively contacted with the upper end faces of the two side plates of the second U-shaped strip, so that the roof groove is suspended above the bottom groove.

During construction, a thinner foam grout stopping layer is coated on the inner side plate of the first U-shaped strip and the inner side plate of the second U-shaped strip respectively, and the foam grout stopping layer is pressed between the inner side plate of the U-shaped strip and the opposite surface of the pier stud. When the top groove is arranged above the bottom groove, the upper end of the pin on the bottom groove is inserted into the hole on the top groove to play a role in guiding. Meanwhile, the lower end face of the first inner side edge plate is in contact with the upper end face of the inner side plate of the first U-shaped strip, the lower end face of the second inner side edge plate is in contact with the upper end face of the inner side plate of the second U-shaped strip, and a gap formed between the opposite faces of the top groove and the bottom groove is shielded. During the period, influenced by the self weight of the top groove, the lifting adjusting unit can deform to enable the first U-shaped strip and the second U-shaped strip to synchronously move downwards relative to the first connecting plate and the second connecting plate by a certain displacement, and a certain vertical distance between the opposite surfaces of the top groove and the bottom groove can be kept by presetting the supporting force of the lifting adjusting unit. Therefore, the top groove is suspended above the bottom groove by the acting force of the lifting adjusting unit.

After the bottom of the capping beam is pressed on the upper end face of the top groove, the capping beam can press the top groove to move downwards relative to the bottom groove until the lower end face of the top groove is contacted with the upper end face of the bottom groove, or until the lower end face of the top groove is contacted with the upper part of the lifting adjusting unit, and during the period, each inner side edge plate and each outer side edge plate can push the corresponding U-shaped strip to move downwards relative to the bottom groove.

Optionally, the lifting adjusting unit comprises a stud and a spring sleeved on the stud.

The first connecting plate and the second connecting plate are respectively provided with a multi-stage through hole correspondingly matched with the stud, two ends of the spring are positioned between the inner bottom surface of a certain-stage counter bore at the upper end of the multi-stage through hole and the lower end surface of a nut of the stud, and the lower end of the stud penetrates out to the lower end of the multi-stage through hole and is matched with the upper nut.

The initial compression amount of the spring and the length of the stud extending upwards relative to the upper end face of the bottom groove in the initial state can be regulated and controlled by adjusting the axial position of the nut relative to the stud.

Preferably, the aperture of the first-order counter bore at the upper end of the multi-order through hole is larger than the outer diameter of the nut of the stud. Therefore, after the bottom of the capping beam is pressed on the upper end face of the top groove, the capping beam can be pressed against the top groove gradually until the opposite faces of the capping beam and the top groove are contacted, and at the moment, the upper end of the stud can be completely retracted into the upper cavity of the multi-step through hole. And during the period, each inner side edge plate and each outer side edge plate can push the corresponding U-shaped strip to move downwards relative to the bottom groove, and the degree of compression of the springs is gradually increased.

Optionally, a chute extending along a vertical direction is formed on the inner side surface of the first connecting plate, and the inner side plate on the first U-shaped strip is correspondingly matched with the chute.

And the corners at two ends of the inner side plate on the second U-shaped strip are respectively contacted with the corners at two ends of the inner side plate on the two first U-shaped strips.

Preferably, the thickness of the inner side plate on the first U-shaped strip is consistent with the depth of the chute.

The both ends of spout run through respectively to the upper end and the lower extreme of first connecting plate medial surface, the medial plate on the first U type strip upwards inserts in the spout from the lower extreme of spout.

Optionally, a space is formed between the outer side plate of the first U-shaped strip and the opposite surface of the first connecting plate; and/or a space is formed between the outer side plate of the second U-shaped strip and the opposite surface of the second connecting plate.

Optionally, two ends of the inner side surface of the first connecting plate are respectively formed with a connecting arm plate extending outwards, and correspondingly, two ends of the second connecting plate are formed with strip-shaped grooves correspondingly matched with the connecting arm plates. The connecting arm plate can be inserted into the strip-shaped groove, a hole cavity for a bolt to pass through is formed in the connecting arm plate, and a threaded hole is formed in the bottom surface of the strip-shaped groove. The first connecting plate and the second connecting plate are fixedly connected into a whole through bolts arranged on the connecting arm plates.

Optionally, two free ends of the U-shaped anchor ear are respectively formed with an ear. A foaming plate is arranged between the opposite surfaces of the lugs of the two U-shaped hoops, and the two U-shaped hoops are fixedly connected into a whole through a tightening bolt set arranged on the lugs.

The beneficial effects of the utility model are as follows:

Through set up relevant structural feature such as U type strip, curb plate, lift adjustment unit between kerve and roof groove, can effectively shelter from the gap that forms between two grooves, effectively solved the thick liquid serious problem that leaks, do not influence the decline removal of roof groove relative kerve moreover, can not change the construction form.

Four pins that set up can play the guide effect to the roof groove, make it can keep straight direction of movement that goes up straight down, help solving the roof groove and appear the slope at the bent cap seat thick liquid in-process, and lead to having the problem of leaking thick liquid.

In addition, the whole slurry storage tank has a simple structure, does not need too much professional skill during operation, has simple operation procedures, is convenient to install and remove, and can be recycled; the roof groove of the formed slurry storage groove can be closely attached to the bottom of the bent cap, and the slurry leakage prevention of the peripheral attachment of the roof groove and the bottom of the bent cap can be ensured by adding foam slurry stopping strips on the top surface of the roof groove.

Drawings

Fig. 1 is a schematic view showing a process of matching a top groove with a bottom groove in the embodiment of the present patent.

Fig. 2 is a schematic diagram of the assembled structure of the bottom tank (top view).

Fig. 3 is a schematic front or rear view of the first connecting plate, wherein (3-1) is a view of the surface a in fig. 2, and (3-2) is a view of the surface B in fig. 2.

Fig. 4 is a schematic side view of the first connecting plate.

Fig. 5 is a schematic front or rear view of the second connecting plate, wherein (5-1) is a view of the C-plane in fig. 2, and (5-2) is a view of the D-plane in fig. 2.

Fig. 6 is a schematic side view of the second link plate.

Fig. 7 is a schematic view (plan view) of an assembly structure of the top groove.

Fig. 8 is a schematic diagram of a front view structure of a U-shaped anchor ear.

In the figure: 100 bottom grooves, 200 top grooves;

10a first connecting plate, 101 a chute;

The lifting adjusting device comprises a first U-shaped strip, a first inner side plate, a first outer side plate, a lifting adjusting unit, a stud, a spring, a connecting arm plate and a pin, wherein the U-shaped strip is 1, the first inner side plate, the first outer side plate, the lifting adjusting unit, the stud, the spring, the connecting arm plate and the pin are 3;

a second connecting plate, 201, a multi-step through hole;

A second U-shaped strip 5, a second inner side plate 51, a second outer side plate 52 and a 6-shaped groove;

30U-shaped anchor ear;

7 middle connecting plates, 71 first inner side edge plates, 72 first outer side edge plates and 73 holes; 8 side plates, 81 second inner side edge plates, 82 second outer side edge plates, 83 lugs, 84 tightening bolt groups and 9 foaming plates.

Detailed Description

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the disclosure of the present utility model, and are not intended to limit the scope of the utility model, which is defined by the claims, but rather by the terms of modification, variation of proportions, or adjustment of sizes, without affecting the efficacy or achievement of the present utility model, should be understood as falling within the scope of the present utility model. Also, the terms such as "upper", "lower", "front", "rear", "middle", and the like are used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

A lifting type slurry storage tank as shown in fig. 1 to 8 includes a bottom tank 100 and a top tank 200.

The bottom slot 100 includes a pair of first link plates 10 and a pair of second link plates 20. The two first connecting plates 10 and the two second connecting plates 20 are alternately arranged and the two ends of the connecting plates are connected in a square groove shape in sequence. The two ends of the inner side surface of the first connecting plate 10 are respectively provided with a connecting arm plate 3 which extends outwards, and correspondingly, the two ends of the second connecting plate 20 are respectively provided with a strip-shaped groove 6 which is correspondingly matched with the connecting arm plate 3. The connecting arm plate 3 can be inserted into the strip-shaped groove 6, a hole cavity for a bolt to pass through is formed in the connecting arm plate 3, and a threaded hole is formed in the bottom surface of the strip-shaped groove 6. The first connecting plate 10 and the second connecting plate 20 are fixedly connected to each other by bolts disposed on the connecting arm plate 3.

The lower part of the first connecting plate 10 is provided with a first U-shaped strip 1 in a matching way, the first connecting plate 10 is arranged in a notch of the first U-shaped strip 1, and the upper end face of the first U-shaped strip 1 is positioned below the upper end face of the first connecting plate 10.

The lower part of the second connecting plate 20 is provided with a second U-shaped strip 5 in a matching way, the second connecting plate 20 is arranged in a notch of the second U-shaped strip 5, and the upper end face of the second U-shaped strip 5 is positioned below the upper end face of the second connecting plate 20.

After assembly, the upper end surface of the first connecting plate 10 and the upper end surface of the second connecting plate 20 are in the same plane, and the upper end surface of the first U-shaped strip 1 and the upper end surface of the second U-shaped strip 5 are in the same plane.

A plurality of lifting and lowering adjusting units 2 are provided on the first connecting plate 10 and the second connecting plate 20, respectively. The lifting adjusting unit 2 is used for respectively connecting the first connecting plate 10 with the first U-shaped strip 1, connecting the second connecting plate 20 with the second U-shaped strip 5, enabling the first U-shaped strip 1 to hang below the first connecting plate 10 and to reciprocate up and down relative to the first connecting plate 10, and enabling the second U-shaped strip 5 to hang below the second connecting plate 20 and to reciprocate up and down relative to the second connecting plate 20.

Two pins 4 extending upwards are formed at two ends of the upper end surface of the first connecting plate 10.

The top groove comprises a pair of U-shaped hoops 30, and the U-shaped hoops 30 comprise a middle connecting plate 7 and side plates 8 arranged at two ends of the middle connecting plate 7. The two U-shaped hoops 30 are opposite in open sides and can be fixedly connected in a square groove shape. The two free ends of the U-shaped anchor ear 30 are respectively formed with an ear 83. A foaming plate 9 is arranged between opposite surfaces of the lug parts 83 of the two U-shaped hoops 30, and the two U-shaped hoops 30 are fixedly connected into a whole through a tightening bolt group 84 arranged on the lug parts 83.

The middle connecting plate 7 of the U-shaped anchor ear 30 has a first inner flange 71 extending downward formed on the lower portion of the inner side surface, and a first outer flange 72 extending downward formed on the lower portion of the outer side surface.

The two side plates 8 of the U-shaped anchor ear 30 are respectively formed with a second inner side edge plate 81 extending downward at the lower part of the inner side surface, and a second outer side edge plate 82 extending downward at the lower part of the outer side surface.

Holes 73 which are matched with the pins 4 in a one-to-one correspondence are formed in the lower end face of the U-shaped anchor ear 30. The depth of the hole 73 is not smaller than the length of the pin 4, and the hole 73 may be a through hole or a counter bore.

When the top groove 200 is disposed above the bottom groove 100, the upper end of the pin 4 is inserted into the hole 73, the lower end surfaces of the first inner side plate 71 and the first outer side plate 72 are respectively contacted with the upper end surface of the first inner side plate 11 and the upper end surface of the first outer side plate 12 on the first U-shaped strip 1, and simultaneously, the lower end surfaces of the second inner side plate 81 and the second outer side plate 82 are respectively contacted with the upper end surface of the second inner side plate 51 and the upper end surface of the second outer side plate 52 on the second U-shaped strip 5, so that the top groove 200 is suspended directly above the bottom groove 100.

During construction, a thin foam grout stopping layer is coated on the first inner side plate 11 of the first U-shaped strip 1 and the second inner side plate 51 of the second U-shaped strip 5 respectively, and the foam grout stopping layer is pressed between the inner side plates of the U-shaped strips and the opposite surfaces of the pier columns. When the top groove 200 is placed above the bottom groove 100, the upper end of the pin 4 on the bottom groove 100 is inserted into the hole 73 on the top groove 200 to perform a guiding function. Meanwhile, the lower end surface of the first inner side plate 71 contacts with the upper end surface of the first inner side plate 11 of the first U-shaped strip 1, the lower end surface of the second inner side plate 81 contacts with the upper end surface of the second inner side plate 51 of the second U-shaped strip 5, and a gap formed between the opposite surfaces of the top groove 200 and the bottom groove 100 is blocked. During this time, the lifting adjusting unit 2 is deformed under the influence of the weight of the top slot 200, so that the first U-shaped strip 1 and the second U-shaped strip 5 synchronously move downward relative to the first connecting plate 10 and the second connecting plate 20 by a certain displacement, and a certain vertical distance between the opposite surfaces of the top slot 200 and the bottom slot 100 can be maintained by presetting the supporting force of the lifting adjusting unit 2. Therefore, the suspension of the top groove 200 above the bottom groove 100 is realized by the force of the elevation adjusting unit 2.

After the bottom of the capping beam is pressed against the upper end surface of the top groove 200, the capping beam can be pressed against the top groove 200 to move downward relative to the bottom groove 100 until the lower end surface of the top groove 200 contacts with the upper end surface of the bottom groove 100, or until the lower end surface of the top groove 200 contacts with the upper portion of the lifting adjusting unit 2, during which each of the inner and outer side flanges can push the corresponding U-shaped strip to move downward relative to the bottom groove 100.

As shown in the figure, the lifting adjusting unit 2 comprises a stud 21 and a spring 22 sleeved on the stud 21.

The first connecting plate 10 and the second connecting plate 20 are respectively provided with a multi-step through hole 201 correspondingly matched with the stud 21, two ends of the spring 22 are positioned between the inner bottom surface of a certain step counter bore at the upper end of the multi-step through hole 201 and the lower end surface of a nut of the stud 21, and the lower end of the stud 21 penetrates out of the lower end of the multi-step through hole 201 and is matched with the upper nut.

By adjusting the axial position of the nut relative to the stud 21, the initial compression amount of the spring 22 and the length of the stud 21 extending upward relative to the upper end surface of the bottom groove 100 in the initial state can be adjusted.

As shown in fig. 5, the diameter of the first-stage counterbore at the upper end of the multi-stage through hole 201 is larger than the outer diameter of the nut of the stud 21. Thus, when the bottom of the capping beam is pressed against the upper end surface of the top and 200, the top groove 200 can be pressed against the bottom groove 100 gradually until the opposite surfaces of the two are contacted, and at this time, the upper end of the stud 21 can be completely received in the upper hole cavity of the multi-stage through hole 201. And during which the respective inner and outer flanges can push the corresponding U-shaped strips further downwardly relative to the bottom slot, the spring 22 is compressed to a progressively greater extent.

As shown in fig. 1 to 6, a chute 101 extending in a vertical direction is formed on an inner side surface of the first connecting plate 10, and a first inner side plate 11 on the first U-shaped strip 1 is correspondingly matched with the chute 101.

The corners at the two ends of the second inner side plate 51 on the second U-shaped strip 5 are respectively contacted with the corners at the two ends of the first inner side plate 11 on the two first U-shaped strips 1.

The thickness of the first inner side plate 11 on the first U-shaped strip 1 is identical to the depth of the chute 101.

Both ends of the chute 101 penetrate to the upper end and the lower end of the inner side surface of the first connecting plate 10, respectively, and the first inner side plate 11 on the first U-shaped strip 1 is inserted into the chute 101 from the lower end of the chute 101.

A space is formed between the first outer side plate 12 of the first U-shaped strip 11 and the opposite surface of the first connecting plate 10. A space is formed between the second outer side plate 52 of the second U-shaped bar 5 and the opposite surface of the second connecting plate 20.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. The present utility model is capable of modifications in the foregoing embodiments, as obvious to those skilled in the art, without departing from the spirit and scope of the present utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. The utility model provides a over-and-under type holds thick liquid groove, includes bottom tank and roof groove, its characterized in that:

The bottom groove comprises a pair of first connecting plates and a pair of second connecting plates; the two first connecting plates and the two second connecting plates are alternately arranged, and the two ends of the two first connecting plates are connected with each other in a square groove shape in sequence;

The lower part of the first connecting plate is provided with a first U-shaped strip in a matching way, the first connecting plate is arranged in a notch of the first U-shaped strip, and the upper end face of the first U-shaped strip is positioned below the upper end face of the first connecting plate;

the lower part of the second connecting plate is provided with a second U-shaped strip in a matching way, the second connecting plate is arranged in a notch of the second U-shaped strip, and the upper end face of the second U-shaped strip is positioned below the upper end face of the second connecting plate;

A plurality of lifting adjusting units are respectively arranged on the first connecting plate and the second connecting plate and used for respectively connecting the first connecting plate with a first U-shaped strip, connecting the second connecting plate with a second U-shaped strip, enabling the first U-shaped strip to be hung below the first connecting plate and capable of moving up and down relative to the first connecting plate, and enabling the second U-shaped strip to be hung below the second connecting plate and capable of moving up and down relative to the second connecting plate;

the upper end face of the first connecting plate and/or the upper end face of the second connecting plate is/are provided with a plurality of pins extending upwards;

the top groove comprises a pair of U-shaped hoops, and the opening sides of the two U-shaped hoops are opposite and can be fixedly connected into a square groove shape;

A first inner side edge plate extending downwards is formed on the lower part of the inner side surface, and a first outer side edge plate extending downwards is formed on the lower part of the outer side surface;

Two side plates of the U-shaped anchor ear are respectively provided with a second inner side edge plate extending downwards at the lower part of the inner side surface, and a second outer side edge plate extending downwards at the lower part of the outer side surface;

Holes which are matched with the pins in a one-to-one correspondence manner are formed in the lower end face of the U-shaped anchor ear; the depth of the hole is not less than the length of the pin;

The upper end of the pin is inserted into the hole, the lower end face of the first inner side edge plate and the lower end face of the first outer side edge plate are respectively contacted with the upper end faces of the two side plates of the first U-shaped strip, and meanwhile, the lower end face of the second inner side edge plate and the lower end face of the second outer side edge plate are respectively contacted with the upper end faces of the two side plates of the second U-shaped strip, so that the top groove is suspended above the bottom groove.

2. The lifting slurry storage tank according to claim 1, wherein: the upper end face of the first connecting plate and the upper end face of the second connecting plate are located in the same plane, and the upper end face of the first U-shaped strip and the upper end face of the second U-shaped strip are located in the same plane.

3. The lifting slurry storage tank according to claim 1, wherein: the lifting adjusting unit comprises a stud and a spring sleeved on the stud;

The first connecting plate and the second connecting plate are respectively provided with a multi-stage through hole correspondingly matched with the stud, two ends of the spring are positioned between the inner bottom surface of a certain-stage counter bore at the upper end of the multi-stage through hole and the lower end surface of a nut of the stud, and the lower end of the stud penetrates out of the lower end of the multi-stage through hole and is matched with the upper nut.

4. A lifting slurry tank according to claim 3, wherein: and the aperture of the first-order counter bore at the upper end of the multi-order through hole is larger than the outer diameter of the nut of the stud.

5. The lifting slurry storage tank according to any one of claims 1 to 4, wherein: a chute extending along the vertical direction is formed on the inner side surface of the first connecting plate, and the inner side plate on the first U-shaped strip is correspondingly matched with the chute;

And the corners at two ends of the inner side plate on the second U-shaped strip are respectively contacted with the corners at two ends of the inner side plate on the two first U-shaped strips.

6. The lifting slurry storage tank according to claim 5, wherein: the thickness of the inner side plate on the first U-shaped strip is consistent with the depth of the chute.

7. The lifting slurry storage tank of claim 6, wherein: a space is formed between the outer side plate of the first U-shaped strip and the opposite surface of the first connecting plate; and/or a space is formed between the outer side plate of the second U-shaped strip and the opposite surface of the second connecting plate.

8. The lifting slurry storage tank according to any one of claims 1 to 4, wherein: a space is formed between the outer side plate of the first U-shaped strip and the opposite surface of the first connecting plate; and/or a space is formed between the outer side plate of the second U-shaped strip and the opposite surface of the second connecting plate.

9. The lifting slurry storage tank according to any one of claims 1 to 4, wherein:

Connecting arm plates extending outwards are respectively formed at two ends of the inner side surface of the first connecting plate, and correspondingly, strip-shaped grooves matched with the connecting arm plates are formed at two ends of the second connecting plate; the connecting arm plate can be inserted into the strip-shaped groove;

The connecting arm plate is provided with a hole cavity for a bolt to pass through, and a threaded hole is formed on the bottom surface of the strip-shaped groove.

10. The lifting slurry storage tank according to any one of claims 1 to 4, wherein: two free ends of the U-shaped anchor ear are respectively provided with an ear part; a foaming plate is arranged between the opposite surfaces of the lugs of the two U-shaped hoops, and the two U-shaped hoops are fixedly connected into a whole through a tightening bolt set arranged on the lugs.