CN211523244U

CN211523244U - Building engineering side slope reinforcement system

Info

Publication number: CN211523244U
Application number: CN201922419410.0U
Authority: CN
Inventors: 陈水程
Original assignee: Xiamen Longqi Construction Engineering Co ltd
Current assignee: Xiamen Longqi Construction Engineering Co ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-09-18
Anticipated expiration: 2029-12-27

Abstract

The utility model belongs to the technical field of civil engineering's technique and specifically relates to a building engineering side slope reinforcerment system is related to, its technical scheme main points are: the device comprises a plurality of sashes, a connecting component for sequentially connecting the sashes and a fixing component for fixing the sashes on the slope surface; the sash is provided with a hollow area, the side walls of two adjacent sashes are respectively provided with a T-shaped block and a T-shaped groove, the T-shaped grooves are arranged along the thickness direction of the sash, the T-shaped block is in sliding fit with the T-shaped grooves, the fixing component comprises a plurality of anchor rods, every four adjacent sashes are spliced into a unit, the connecting component comprises a positioning lug and a connecting rod arranged on the sash at the opposite angle in the unit, the positioning lug and the connecting rod are both positioned at the surface end angle of one side of the sash departing from the slope surface, one end of the connecting rod is hinged with the sash, and the connecting rod rotates to be; a fastening component is arranged between the positioning lug and the connecting rod; the utility model discloses have the effect of carrying out the change alone to the sash of damage.

Description

Building engineering side slope reinforcement system

Technical Field

The utility model belongs to the technical field of civil engineering's technique and specifically relates to a building engineering side slope reinforcerment system is related to.

Background

With the implementation of western major development strategies, infrastructure projects such as water conservancy, highways, railways and the like continuously extend to mountainous areas in the western and western regions, and with the popularization of conservation-oriented land utilization modes, earth and stone engineering such as deep filling and high digging is increasingly increased, the balance of the original geological environment is seriously damaged, disasters such as slope instability and the like are promoted to be increasingly frequent, and in order to prevent the disasters and meet the requirements of modern engineering construction safety, the research of slope stability analysis and reinforcement methods becomes a subject which cannot be avoided in engineering construction.

For example, chinese patent with publication number CN109024634A discloses an ecological slope protection structure, which includes an anchor cable assembly, an anchoring assembly, and a green plant assembly, wherein the anchor cable assembly includes a locked anchor cable section and a free anchor cable section, the locked anchor cable section is disposed below a potential sliding surface of a slope, the free anchor cable section is disposed above the potential sliding surface of the slope, and one end of the free anchor cable section is connected to the locked anchor cable section; the anchoring assembly comprises a first steel bar framework, a second steel bar framework and a concrete body, the anchoring assembly is arranged on the surface of the side slope, the anchoring assembly is configured to be used for fixing the free anchor cable section, and the anchoring assembly and the side slope are enclosed to form an accommodating groove; the green subassembly of planting includes soil property layer and plant, and soil property layer sets up in the holding tank, and soil property layer is used for providing living environment for the plant.

The above prior art solutions have the following drawbacks: this ecological slope protective structure's concrete body forms for concrete monolithic pouring, needs wholly to change when the concrete skeleton damages, leads to the wasting of resources, so need improve.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a building engineering side slope reinforcement system has made things convenient for the timely change after the later stage sash damages, need not to change whole concrete skeleton, and then has improved the utilization ratio of resource.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: a side slope reinforcement system for constructional engineering comprises a plurality of sashes, a connecting assembly and a fixing assembly, wherein the connecting assembly is used for sequentially connecting the sashes, and the fixing assembly is used for fixing the sashes on a slope surface; the sash is provided with a hollow area, the side walls of two adjacent sashes are respectively provided with a T-shaped block and a T-shaped groove, the T-shaped grooves are arranged along the thickness direction of the sash, the T-shaped block is in sliding fit with the T-shaped grooves, the fixing component comprises a plurality of anchor rods fixedly arranged on one side of the sash facing the slope surface, every four adjacent sashes are spliced into a unit, the connecting component comprises a positioning lug arranged on the sash and a connecting rod arranged on the sash at the diagonal angle in the unit, the positioning lug and the connecting rod are both positioned at the surface end angle of the sash facing away from the slope surface, one end of the connecting rod is hinged with the sash, and the connecting rod is rotatably positioned on one side of the positioning lug; and a fastening assembly is arranged between the positioning lug and the connecting rod.

By adopting the technical scheme, when the slope reinforcement system is installed, an operator places the sash on the slope surface, then fixes the sash on the slope surface through the anchor rod, inserts the T-shaped block on the other sash into the T-shaped groove on the fixed sash, so that the two sashes are spliced together, the four adjacent sashes are spliced into a unit, then rotates the connecting rod, so that the connecting rod rotates to be positioned on one side of the positioning lug on the diagonal sash in the unit, the positioning lug and the connecting rod are fixed together through the fixing component, so that the two sashes are fixed together, and the other sashes are sequentially installed in a butt joint manner on the basis, and finally the installation of the slope reinforcement system can be completed; this side slope reinforcement system comprises a plurality of sash, when needs are changed, pulls down fixed subassembly, can pull down the change alone with the sash that damages, and then has improved the utilization ratio of resource.

The present invention may be further configured in a preferred embodiment as: the fastening assembly comprises a screw rod arranged on the surface of one side, away from the slope surface, of the sash and a nut in threaded sleeve connection with the screw rod, one end of the screw rod is hinged with the sash, bayonets for the screw rod to be rotatably inserted are formed in the surfaces, away from the sash, of the connecting rod and the positioning lug, and when the connecting rod is rotatably positioned on one side of the positioning lug, the screw rod is rotatably inserted in the bayonets on the connecting rod and the positioning lug; the other end of the screw rod protrudes out of the bayonet, the nut abuts against the side wall of the positioning lug, and the primary positioning assembly is arranged between the connecting rod and the positioning lug.

Through adopting above-mentioned technical scheme, rotate the connecting rod and make the bayonet socket on the connecting rod align with the bayonet socket on the locating lug, then rotate the screw rod, make the screw rod peg graft in the bayonet socket on connecting rod and locating lug, rotate the nut for the nut supports tightly and can realize the fixed between connecting rod and the locating lug in the lateral wall of locating lug.

The present invention may be further configured in a preferred embodiment as: the primary positioning assembly comprises a positioning column arranged at the other end of the connecting rod and a positioning groove arranged on the positioning convex block, one end of the positioning column is hinged to the connecting rod, the positioning column rotates to be in plug-in fit with the positioning groove, and the side wall of the positioning groove is provided with a first elastic buckle in clamping fit with the positioning column.

By adopting the technical scheme, after the connecting rod is rotationally positioned at one side of the positioning lug, the positioning column is rotated to enable the positioning column to be inserted into the positioning groove, so that the bayonets respectively arranged on the connecting rod and the positioning lug are aligned, and the screw rod is conveniently inserted into the bayonets on the connecting rod and the positioning lug; and the first elastic buckle which is arranged on the side wall of the positioning groove and is in clamping fit with the positioning column can ensure that the positioning column is stably fixed in the positioning groove.

The present invention may be further configured in a preferred embodiment as: and a knob is fixedly arranged on the side wall of the nut.

Through adopting above-mentioned technical scheme, rotatory knob, the convenient nut of twisting of ability, this simple structure is practical.

The present invention may be further configured in a preferred embodiment as: two connecting rods in every unit intercross, and two are adjacent the groove of stepping down has been seted up respectively to the intersect of connecting rod, and when two when the connecting rod cross-over lock, two the connecting rod deviates from the surperficial looks parallel and level of sash.

By adopting the technical scheme, when the two connecting rods in the unit are crossly buckled, the two connecting rods cannot interfere with each other when being crossed.

The present invention may be further configured in a preferred embodiment as: the side wall of the sash is provided with a plurality of drain holes along the slope inclination direction.

By adopting the technical scheme, the arrangement of the drain holes can drain water accumulated on the reinforcing system in time in the rainy day.

The present invention may be further configured in a preferred embodiment as: the frame is provided with a filter screen, and the filter screen is positioned at the position of the drainage hole.

By adopting the technical scheme, the filter screen can prevent the situation that a larger mud block blocks the drain hole from occurring.

The present invention may be further configured in a preferred embodiment as: the drainage hole is internally provided with a convex edge in the circumferential direction, one side of the convex edge facing the filter screen is provided with a plurality of first elastic buckles, the surface edge of the filter screen facing the convex edge is circumferentially provided with a circular ring, and the circular ring is clamped in the first elastic buckles.

Through adopting above-mentioned technical scheme, utilize the ring joint in first elasticity buckle to in being fixed in the drain hole with the filter screen is firm, simultaneously, can take out the filter screen in the first elasticity buckle with the ring with exerting oneself a little, conveniently take out in the wash port, clear up the filter screen.

The present invention may be further configured in a preferred embodiment as: the one end that the stock nailed into domatic is provided with the point portion that is coniform, the lateral wall of stock is equipped with the barb that a plurality of is J shape, domatic one side slope is kept away from to the stock on the top of barb.

By adopting the technical scheme, after the anchor rod is nailed into the slope surface, the barb can hook the soil, so that the anchor rod is not easy to pull out, and the stability of the reinforcing system is improved; and the anchor rod contacts the bottom of the slope surface and is conical, so that the anchor rod can be driven into the slope surface more easily.

The present invention may be further configured in a preferred embodiment as: the primary positioning assembly comprises a positioning block arranged at the other end of the connecting rod and a positioning groove arranged on the positioning lug, one end of the positioning block is hinged to the connecting rod, the positioning block is rotated to be in plug-in fit with the positioning groove, and magnets attracted with each other are arranged between the positioning block and the side wall of the positioning groove.

By adopting the technical scheme, after the connecting rod is rotated and positioned at one side of the positioning lug, the positioning block is rotated to enable the positioning block to be inserted into the positioning groove, so that the bayonets respectively arranged on the connecting rod and the positioning lug are aligned, and the screw rod is conveniently inserted into the bayonets on the connecting rod and the positioning lug; and the magnets which are mutually attracted between the positioning block and the side wall of the positioning groove can ensure that the positioning block is stably fixed in the positioning groove.

To sum up, the utility model discloses a following at least one useful technological effect:

1. when the slope reinforcement system is installed, an operator splices four adjacent sashes into a unit, rotates the connecting rod to enable the connecting rod to rotate to be positioned on one side of the positioning lug on the diagonal sash in the unit, fixes the positioning lug and the connecting rod together through the fixing component, so that the two sashes are fixed together, sequentially butts and installs other sashes on the basis, and finally can complete the installation of the slope reinforcement system;

2. after the connecting rod is rotated and positioned at one side of the positioning lug, the screw rod is rotated to be inserted into the bayonet of the connecting rod and the positioning lug, the nut is screwed on the other end of the screw rod protruding out of the bayonet to fix the screw rod in the bayonet, so that the connecting rod is limited by the screw rod, and the connecting rod and the positioning lug are fixed together;

3. the side wall of the anchor rod is provided with the barbs, and after the anchor rod is nailed into the slope surface, the barbs can hook the soil, so that the anchor rod is difficult to pull out, and the stability of the reinforcing system is improved; and the anchor rod contacts the bottom of the slope surface and is conical, so that the anchor rod can be nailed into the slope surface more easily.

Drawings

Fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention;

FIG. 2 is a schematic view showing an assembly relationship between a filter screen and a drain hole according to a first embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a sash according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a sash according to a second embodiment of the present invention.

In the figure: 1. a slope surface; 2. a sash; 21. a T-shaped slot; 22. a T-shaped block; 23. positioning the bump; 231. positioning a groove; 232. a first elastic buckle; 24. a connecting rod; 241. a yielding groove; 242. a positioning column; 25. a screw; 251. a nut; 252. a knob; 26. a bayonet; 27. a hollowed-out area; 3. an anchor rod; 31. a barb; 4. a drain hole; 41. a convex edge; 42. a second elastic buckle; 5. a filter screen; 51. a circular ring; 6. positioning blocks; 61. and a magnet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1 and 2, a construction engineering slope reinforcement system includes a plurality of sashes 2, a connection assembly connecting the plurality of sashes 2 in sequence, and a fixing assembly fixing the sashes 2 to a slope 1; the sash 2 is provided with a hollowed-out area 27. Meanwhile, the side walls of two adjacent sashes 2 are respectively provided with a T-shaped block 22 and a T-shaped groove 21, the T-shaped groove 21 is formed along the thickness direction of the sashes 2, the T-shaped block 22 is in sliding fit with the T-shaped groove 21, in the embodiment, the number of the T-shaped block 22 and the T-shaped groove 21 on one sash 2 can be preferably four, the four T-shaped grooves 21 are formed on two adjacent side walls of the sashes 2 at intervals, and the four T-shaped blocks 22 are fixedly arranged on the other two adjacent side walls of the sashes 2 at intervals.

Referring to fig. 1 and 3, specifically, every four adjacent sashes 2 are spliced into a unit, each connecting assembly includes a positioning bump 23 fixed on each sash 2 and a connecting rod 24 arranged on each sash 2 at an opposite angle in the unit, each positioning bump 23 and each connecting rod 24 are located at the surface end of each sash 2 on the side away from the slope 1, in this embodiment, the number of the positioning bumps 23 and the number of the connecting rods 24 on each sash 2 are two, two positioning bumps 23 are located at two adjacent end of each sash 2, two connecting rods 24 are located at two other adjacent end of each sash 2, one end of each connecting rod 24 is hinged to each sash 2, and each connecting rod 24 is rotatably located on one side of the positioning bump 23 on each sash 2 at an opposite angle in the unit; two connecting rods 24 in each unit are mutually crossed, the cross parts of two adjacent connecting rods 24 are respectively provided with a yielding groove 241, the yielding groove 241 is arranged on the surface, facing the adjacent connecting rods 24, of the connecting rod 24, the yielding groove 241 penetrates through the other two opposite side walls of the connecting rod 24 along the length direction perpendicular to the connecting rod 24, and when the two connecting rods 24 are crossed and buckled, the two connecting rods 24 deviate from the surface level of the sash 2, so that the two crossed connecting rods 24 cannot interfere with each other.

Referring to fig. 1 and 3, a fastening assembly is provided between the positioning boss 23 and the connecting rod 24. Specifically, the positioning device comprises a screw rod 25 arranged on the surface of one side, away from the slope surface 1, of the sash 2 and a nut 251 in threaded sleeve connection with the screw rod 25, wherein a knob 252 is integrally formed on the side wall of the nut 251, one end of the screw rod 25 is hinged to the sash 2, bayonets 26 for the screw rod 25 to be rotatably inserted and connected are arranged on the surfaces, away from the sash 2, of the connecting rod 24 and the positioning lug 23, and when the connecting rod 24 is rotatably positioned on one side of the positioning lug 23, the screw rod 25 is rotatably inserted and connected with the bayonets 26 on; the other end of the screw 25 protrudes from the bayonet 26, and the nut 251 is brought into contact with the side wall of the positioning projection 23 by rotating the knob 252 to fix the connecting rod 24 and the positioning projection 23 together.

Referring to fig. 1 and 2, specifically, the fixing assembly includes a plurality of anchor rods 3 fixedly disposed on one side of the sash 2 facing the slope 1, in this embodiment, the number of the anchor rods 3 on one sash 2 may be preferably one, and one end of the anchor rod 3 nailed into the slope 1 is provided with a conical tip portion, so that the anchor rod 3 can be nailed into the slope 1 more easily; simultaneously, the lateral wall circumference welding of stock 3 has a plurality of barb 31 that is J-shaped, and the top of barb 31 is kept away from the slope from stock 3 one side slope, and such setting makes stock 3 advance domatic 1 back in the nail, and barb 31 can catch on the soil, makes stock 3 be difficult for being extracted.

Referring to fig. 1 and 2, the side wall of the sash 2 is provided with a plurality of drainage holes 4 along the inclination direction of the slope surface 1, in this embodiment, the side wall of the sash 2 is provided with one drainage hole 4 along the inclination direction of the slope surface 1, a convex edge 41 is arranged in the drainage hole 4 in the circumferential direction, a plurality of second elastic buckles 42 are fixedly installed on the convex edge 41, a filter screen 5 is arranged at the drainage hole 4, a circular ring 51 is welded on the surface edge of the filter screen 5 facing the convex edge 41 in the circumferential direction, the circular ring 51 is clamped in the first elastic buckle 232, and the circular ring 51 is clamped in the first elastic buckle 232, so that the filter screen 5 is stably fixed in the drainage hole 4, and the filter screen 5 is not easy to be separated; meanwhile, the circular ring 51 can be taken out of the first elastic buckle 232 by slight force, so that the filter screen 5 can be conveniently taken out of the drain hole 4, and the filter screen 5 can be cleaned.

Referring to fig. 3, a primary positioning assembly is disposed between the connecting rod 24 and the positioning protrusion 23. Specifically, the positioning device comprises a positioning column 242 arranged at the other end of the connecting rod 24 and a positioning groove 231 arranged on the positioning lug 23, one end of the positioning column 242 is hinged to the connecting rod 24, the positioning column 242 rotates to be in inserting fit with the positioning groove 231, the connecting rod 24 rotates to be positioned on one side of the positioning lug 23, and the positioning column 242 is rotated to enable the positioning column 242 to be inserted into the positioning groove 231, so that bayonets 26 arranged on the connecting rod 24 and the positioning lug 23 respectively are aligned, and the screw 25 is conveniently inserted into the bayonets 26 on the connecting rod 24 and the positioning lug; the lateral wall of the positioning groove 231 is fixedly provided with a first elastic buckle 232 in clamping fit with the positioning column 242, and the positioning column 242 is clamped in the first elastic buckle 232 to enable the positioning column 242 to be stably fixed in the positioning groove 231.

The implementation principle of the embodiment is as follows: when installing the slope reinforcement system, an operator places the sash 2 on the slope 1, then fixes the sash 2 on the slope 1 through the anchor rod 3, inserts the T-shaped block 22 on the other sash 2 into the T-shaped groove 21 on the fixed sash 2, splices the two sashes 2 together, then splices the other two sashes 2, splices the adjacent four sashes 2 into a unit, rotates the connecting rod 24 to be positioned at one side of the positioning lug 23 on the diagonal sash 2 in the unit, rotates the positioning post 242 to be inserted in the positioning slot 231, thereby aligning the bayonets 26 respectively arranged on the connecting rod 24 and the positioning lug 23, then rotates the screw rod 25 to be inserted in the bayonets 26 on the connecting rod 24 and the positioning lug 23, rotates the knob 252 to rotate the nut 251 until the nut 251 abuts against the side wall of the positioning lug 23, fixing the connecting rod 24 and the positioning lug 23 together, so as to fix the two sashes 2 together, and fixing the later placed sashes 2 on the slope surface 1 through the anchor rods 3; and other sash frames 2 are sequentially installed in a butt joint mode on the basis, and finally the installation of the slope reinforcement system can be completed.

Example two: referring to fig. 4, the present embodiment is different from the first embodiment in that: the primary positioning components are different. Specifically, the primary positioning assembly comprises a positioning block 6 arranged at the other end of the connecting rod 24 and a positioning groove 231 arranged on the positioning lug 23, one end of the positioning block 6 is hinged to the connecting rod 24, the positioning block 6 rotates to be in inserting fit with the positioning groove 231, the connecting rod 24 rotates to be positioned on one side of the positioning lug 23, and then the positioning block 6 is rotated to enable the positioning block 6 to be inserted into the positioning groove 231, so that bayonets 26 arranged on the connecting rod 24 and the positioning lug 23 respectively are aligned, and a screw 25 is conveniently inserted into the bayonets 26 on the connecting rod 24 and the positioning lug 23; be provided with magnet 61 of mutual actuation between locating piece 6 and the constant head tank 231 lateral wall, the magnet 61 of mutual actuation between locating piece 6 and the constant head tank 231 lateral wall enables the stable being fixed in the constant head tank 231 of locating piece 6.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a building engineering side slope reinforcerment system which characterized in that: the slope surface fixing device comprises a plurality of sashes (2), a connecting component for sequentially connecting the sashes (2) and a fixing component for fixing the sashes (2) on a slope surface (1); the sash (2) is provided with a hollow area (27), the side walls of two adjacent sashes (2) are respectively provided with a T-shaped block (22) and a T-shaped groove (21), the T-shaped groove (21) is arranged along the thickness direction of the sash (2), the T-shaped block (22) is matched with the T-shaped groove (21) in a sliding way, the fixing component comprises a plurality of anchor rods (3) fixedly arranged on one side of the sash (2) facing the slope surface (1), every four adjacent sashes (2) are spliced into a unit, the connecting component comprises a positioning lug (23) arranged on the sash (2) and a connecting rod (24) arranged on the sash (2) at the opposite angle in the unit, the positioning lug (23) and the connecting rod (24) are both positioned at the surface end angle of one side of the sash (2) departing from the slope surface (1), one end of the connecting rod (24) is hinged with the sash (2), and the connecting rod (24) is rotatably positioned on one side of the positioning lug (23); a fastening component is arranged between the positioning lug (23) and the connecting rod (24).

2. A construction work slope reinforcement system according to claim 1, characterized in that: the fastening assembly comprises a screw rod (25) arranged on one side surface of the sash (2) departing from the slope surface (1) and a nut (251) sleeved on the screw rod (25) in a threaded manner, one end of the screw rod (25) is hinged to the sash (2), bayonets (26) for the screw rod (25) to be rotatably inserted and connected are formed in the surfaces of the connecting rod (24) and the positioning lug (23) departing from the sash (2), and when the connecting rod (24) is rotatably positioned on one side of the positioning lug (23), the screw rod (25) is rotatably inserted and connected with the bayonets (26) on the connecting rod (24) and the positioning lug (23); the other end of the screw rod (25) protrudes out of the bayonet (26), the nut (251) abuts against the side wall of the positioning lug (23), and a primary positioning assembly is arranged between the connecting rod (24) and the positioning lug (23).

3. A construction work slope reinforcement system according to claim 2, characterized in that: just initial locating component is including setting up in reference column (242) of connecting rod (24) other end and seting up constant head tank (231) on locating lug (23), just reference column (242) one end is articulated with connecting rod (24), reference column (242) rotate and peg graft the cooperation with constant head tank (231), the lateral wall of constant head tank (231) is provided with and connects first elasticity buckle (232) of complex with reference column (242).

4. A construction work slope reinforcement system according to claim 2, characterized in that: the side wall of the nut (251) is fixedly provided with a knob (252).

5. A construction work slope reinforcement system according to claim 1, characterized in that: two in every unit connecting rod (24) intercrossing, and two adjacent abdicating groove (241) have been seted up respectively to the intersect of connecting rod (24), and when two when connecting rod (24) cross-over lock, two the surface that connecting rod (24) deviate from sash (2) is the same level and level mutually.

6. A construction work slope reinforcement system according to claim 1, characterized in that: the side wall of the sash (2) is provided with a plurality of drain holes (4) along the inclined direction of the slope surface (1).

7. A construction work slope reinforcement system according to claim 6, characterized in that: a filter screen (5) is arranged on the sash (2), and the filter screen (5) is positioned at the drain hole (4).

8. A construction work slope reinforcement system according to claim 7, characterized in that: the novel water draining device is characterized in that a convex edge (41) is arranged in the inner circumferential direction of the water draining hole (4), a plurality of second elastic buckles (42) are arranged on one side, facing the filter screen (5), of the convex edge (41), a circular ring (51) is arranged on the surface edge of the filter screen (5), facing the convex edge (41), in the circumferential direction, and the circular ring (51) is clamped in the second elastic buckles (42).

9. A construction work slope reinforcement system according to claim 1, characterized in that: the one end that domatic (1) was nailed in stock (3) is provided with the point portion that is coniform, the lateral wall of stock (3) is equipped with barb (31) that a plurality of is J shape, the top of barb (31) is kept away from the one side slope of domatic (1) from stock (3).

10. A construction work slope reinforcement system according to claim 2, characterized in that: just the locating component is including setting up in locating piece (6) of connecting rod (24) other end and seting up constant head tank (231) on locating lug (23), just locating piece (6) one end is articulated with connecting rod (24), locating piece (6) rotate and peg graft the cooperation with constant head tank (231), be provided with magnet (61) of mutual actuation between locating piece (6) and constant head tank (231) lateral wall.