CN116733064A - High-strength resin concrete pump station - Google Patents

Abstract

The application relates to the technical field of pump stations, and particularly discloses a high-strength resin concrete pump station which comprises a pump station base, wherein an integrated pump station is fixedly connected to the top of the pump station base, a damping ring is fixedly arranged on the outer side of the pump station base, a damping rod is fixedly connected to the top of the damping ring, a supporting damping device is connected to the top of the pump station base, and a pump body protecting cover is fixedly connected to the inner side of the supporting damping device, which is positioned on the outer side of the pump station base; the pump body protecting cover is arranged, so that the protection measures are favorably provided by combining the damping rods in the landfill process of the integrated pump station, the outer wall of the integrated pump station is protected from being damaged due to collision of large-scale soil or bricks, the deodorizing effect of the inner space is realized by combining the internal air circulation device after the landfill, and meanwhile, the damping effect is realized by combining the self weight with the damping plate, so that the purpose of damping is achieved.

Description

High-strength resin concrete pump station

Technical Field

The application relates to the technical field of pump stations, in particular to a high-strength resin concrete pump station.

Background

The resin concrete pump station is an integrated pump station made of resin concrete, and in municipal engineering, the pump station is a device capable of providing hydraulic power and pneumatic power with certain pressure and flow, engineering name pumps and pump station engineering, and water inlet and outlet in a building are controlled;

at present, the interior of a pump station is generally provided with an oil tank, a motor and a pump as main components, and the pump station further comprises water filling equipment, oil supply equipment, compressed air equipment, water supply equipment, water discharge equipment, ventilation equipment, lifting equipment and the like, and a special control room is required to be built in the traditional pump station, so that special management is required. The early investment and the later management cost are high;

at present, a novel integrated prefabricated resin concrete pump station is generally used in a pump station, and has the advantages of high system integration level, convenient transportation and hoisting of prefabricated integrated equipment and small occupied area. The cylinder body is made of glass fiber reinforced plastic materials and has stronger chemical corrosion resistance. The system has the advantages that the system is required to be used as a foundation and a foundation pit enclosure during installation, the rigidity of the glass fiber reinforced plastic structure is poor, the problem that larger impurities cannot be contained in landfill soil during barrel landfill is solved, the damage to the barrel wall caused by the characteristics of the glass fiber reinforced plastic structure on the outer wall is avoided, the construction requirement is higher, in addition, the operation power of a large motor can generate heat in the operation process of a pump station, the heat dissipation function is increased when the internal space is deodorized by internal ventilation equipment, the cooling of the motor is realized by utilizing the flowing of air, however, the flowing of the air has a good heat diffusion effect, but the heat glass fiber reinforced plastic structure diffused to a pump body does not have a good secondary diffusion effect, and in addition, the existing pump station does not have the processing capacity for the operation vibration of the internal motor, the vibration generated by external earthquake and the like during vibration, so that the processing capacity of the pump body and the internal components are not protected during accident.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present application provides a high-strength resin concrete pump station to solve the above-mentioned problems in the prior art.

The application provides the following technical scheme: the utility model provides a high strength's resin concrete pump station, includes the pump station base, the top fixedly connected with integral type pump station of pump station base, the outside fixedly mounted that pump station base top was located integral type pump station has the shock-absorbing ring, the top fixedly connected with shock-absorbing rod of shock-absorbing ring, the outside bolted connection that pump station base top was located the shock-absorbing ring has the support damping device, the inside fixedly connected with pump body protection casing that the top outside the integral type pump station was located the support damping device, the top fixedly connected with pump station roof of integral type pump station, the rope storage rack is installed at the top of pump station roof, one side swing joint of rope storage rack has driving motor, the both sides fixedly connected with rope support frame at pump station roof top, the walking ladder is installed to one side of integral type pump station inside;

the pump body protection casing includes the protection casing main part, two rope links of top fixedly connected with of protection casing main part, protection guide way has been seted up in the protection casing main part outside, a plurality of protection screw holes have been seted up to the inside of protection guide way, a plurality of inboard ventilation chambeies have been seted up to the protection casing main part inboard, two outside ventilation holes have been seted up at the top that the protection casing main part is located inboard ventilation chambeies, the fixed bottom hole has been seted up in the position that protection casing main part inboard ventilation chambeies bottom is located outside ventilation hole, the screw thread circular slot has been seted up in the position that protection casing main part bottom is located fixed bottom hole, protection casing main part bottom is located the inboard welding of protection guide way and has the protection bottom plate, and the damping spread groove has been seted up to the bottom in the protection bottom plate outside.

Further, the pump station base includes the base basement, a plurality of anchor nail holes have been seted up all around at base basement top, integral type pump station includes the host station main part, and the inside fixedly connected with ventilation frame of host station main part, the ventilation connector has been seted up in the outside of ventilation frame, and the air outlet has been seted up to the bottom of ventilation connector, and air circulating device is installed to the bottom of air outlet, the water inlet has been seted up to the bottom of host station main part one side, the delivery port has been seted up at the top of host station main part opposite side, the shock attenuation pole includes the shock attenuation mobile jib, the top fixedly connected with air closed loop of shock attenuation mobile jib.

Further, support damping device includes the support planking, the support planking includes outer swash plate, and the planking chute has been seted up to one side of outer swash plate, and the bottom welding of planking chute has the spring locating lever, the opposite side fixedly connected with planking screw hole of outer swash plate bottom, the top fixedly connected with planking connecting plate of support planking, a plurality of top screw holes have been seted up to one side of planking connecting plate, the internally mounted of planking chute has the damping board, and the opposite side fixedly connected with inner panel of damping board, inner panel bottom fixedly connected with inner sloping piece, vertical advancing device is installed at the top of spring locating lever, vertical advancing device is including advancing the sloping piece, advances the bottom fixedly connected with spring sleeve of sloping piece, and spring sleeve's internally mounted has the propulsion spring.

Further, the air sealing ring is made of copper metal sheets, and the diameter of the air sealing ring is the same as that of the external vent hole.

Further, the diameter of the outer vent hole is larger than that of the threaded circular groove, the air sealing ring slides in the outer vent hole, and the damping main rod slides in the fixed bottom hole.

Further, a plurality of anchor holes have been seted up at the top of pump station base, and a plurality of anchors are installed to the bottom in anchor hole, the rope accomodates the frame and is detachable support, and the both ends of lifting rope are all fixed on the rope accomodates the frame.

Further, the inside surface mounting of damping plate has the rubber slab, and the rubber slab top is connected with the pump body protection casing, and the surface of the tight integral type pump station of side subsides of rubber piece, interior panel is installed in the inside of planking chute.

Further, the top of the pushing inclined block is provided with an inclined plane, the inclination angle of the inclined plane is the same as that of the inner inclined block, and the width of the pushing inclined block is the same as the moving distance of the inner panel.

The application has the technical effects and advantages that:

the pump body protecting cover is arranged, so that the protection measures are favorably provided by combining the damping rods in the landfill process of the integrated pump station, the outer wall of the integrated pump station is protected from being damaged due to collision of large-scale soil or bricks, the deodorizing effect of the inner space is realized by combining the internal air circulation device after the landfill, and meanwhile, the damping effect is realized by combining the self weight with the damping plate, so that the purpose of damping is achieved.

The vibration absorbing rod is arranged, so that vibration generated in the integrated pump station is damped, the influence on normal operation of other parts is avoided, the stability of fixing each connecting point is guaranteed, the pump body protecting cover is supported, the surface collapse of the integrated pump station caused by self gravity is reduced, heat is transferred to the vibration absorbing main rod and then to the bottom in the ventilation process, the combination of solid and gas heat dissipation is realized, and the heating phenomenon caused by the operation of the pump body motor is better solved.

The damping plate is arranged, so that external vibration such as an earthquake is damped, the function of supporting the pump body protective cover in the vertical direction is achieved, the rubber material can be combined with the damping plate to achieve damping effect, the internal components of the integrated pump station are protected to the greatest extent, meanwhile, the damping plate is combined with the damping rod, direct damage of external force to the integrated pump station is avoided, the supporting and protecting effects are achieved, and the strength of the integrated pump station is increased.

The rope storage rack is arranged, so that the pump body protective cover is beneficial to controlling to ascend, and the gravity on two sides is balanced, so that the ascending process of the pump body protective cover is more stable, meanwhile, the detachable structure ensures that the pump body protective cover does not occupy the inner space during normal operation, and the installation convenience of a pump station is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present application.

Fig. 2 is a cross-sectional view of the overall structure of the present application.

FIG. 3 is a schematic view of the structure of an integrated pump station of the present application.

Fig. 4 is a schematic diagram of the pump body protecting cover structure of the present application.

Fig. 5 is a cross-sectional view of the pump body shield structure of the present application.

FIG. 6 is a schematic view of a supporting damper device according to the present application.

Fig. 7 is a schematic structural diagram of the structure a of the present application.

FIG. 8 is a schematic view of the support outer plate structure of the present application.

FIG. 9 is a flow chart of a method for installing a resin concrete pump body according to the present application.

The reference numerals are: 1. a pump station base; 101. a base substrate; 102. anchor holes; 2. an integrated pump station; 201. a host station body; 202. a ventilation frame; 203. a water inlet; 204. a water outlet; 205. a ventilation connection port; 206. an air outlet; 3. a shock-absorbing ring; 4. a shock-absorbing rod; 401. damping main rod; 402. an air-sealing ring; 5. supporting a damping device; 501. supporting an outer plate; 5011. an outer sloping plate; 5012. an outer plate chute; 5013. a spring positioning rod; 5014. an outer plate threaded hole; 502. an outer plate connecting plate; 503. a top threaded hole; 504. a damping plate; 505. an inner panel; 506. an inner sloping block; 507. a longitudinal propulsion device; 5071. pushing the oblique block; 5072. a spring sleeve; 5073. a propulsion spring; 6. the pump body protecting cover; 601. a shield body; 602. a rope connecting frame; 603. a protective threaded hole; 604. an external vent; 605. an inner ventilation chamber; 606. fixing the bottom hole; 607. a thread circular groove; 608. a protective bottom plate; 609. damping connecting grooves; 610. a protective guide groove; 7. pump station top plate; 8. a drive motor; 9. a rope storage rack; 10. a rope support; 11. and (5) a walking ladder.

Detailed Description

The embodiments of the present application will be clearly and completely described below with reference to the drawings in the present application, and the configurations of the structures described in the following embodiments are merely examples, and the high-strength resin concrete pump station according to the present application is not limited to the structures described in the following embodiments, and all other embodiments obtained by a person skilled in the art without any inventive effort are within the scope of the present application.

Referring to fig. 1 and 4-5, the application provides a high-strength resin concrete pump station, which comprises a pump station base 1, wherein the top of the pump station base 1 is fixedly connected with an integrated pump station 2, the top of the pump station base 1 is positioned at the outer side of the integrated pump station 2 and is fixedly connected with a shock absorption ring 3, the top of the shock absorption ring 3 is fixedly connected with a shock absorption rod 4, the top of the pump station base 1 is positioned at the outer side of the shock absorption ring 3 and is connected with a supporting damping device 5 by bolts, the top of the outer side of the integrated pump station 2 is positioned at the inner side of the supporting damping device 5 and is fixedly connected with a pump body protecting cover 6, the top of the integrated pump station 2 is fixedly connected with a pump station top plate 7, the top of the pump station top plate 7 is provided with a rope storage rack 9, one side of the rope storage rack 9 is movably connected with a transmission motor 8, two sides of the top of the pump station top plate 7 are fixedly connected with rope support frames 10, and one side of the inside the integrated pump station 2 is provided with a travelling ladder 11;

the pump body protection cover 6 comprises a protection cover main body 601, two rope connecting frames 602 are fixedly connected to the top of the protection cover main body 601, a protection guide groove 610 is formed in the outer side of the protection cover main body 601, a plurality of protection threaded holes 603 are formed in the protection guide groove 610, a plurality of inner ventilation cavities 605 are formed in the inner side of the protection cover main body 601, two outer ventilation holes 604 are formed in the top of the inner ventilation cavities 605 of the protection cover main body 601, a fixed bottom hole 606 is formed in the position, located in the outer ventilation holes 604, of the bottom of the protection cover main body 601, a threaded round groove 607 is formed in the position, located in the fixed bottom hole 606, of the bottom of the protection cover main body 601, a protection bottom plate 608 is welded in the protection guide groove 610, and a damping connecting groove 609 is formed in the bottom of the outer side of the protection bottom plate 608;

in this embodiment, it is to be specifically described that: the main difference between the embodiment and the prior art is that the rising effect of the pump station protective cover is combined with the shock absorption rod to realize the protection of the pump station landfill process, and meanwhile, when the protective cover rises to the top point, the device is combined with the internal air circulation device to realize the circulation of internal air to achieve the purpose of deodorization, and the device is characterized in that the shock absorption rod 4, the supporting damping device 5 and the pump body protective cover 6;

the above structure is the main structure of this embodiment, which solves the problem that the wall of the cylinder is damaged easily due to the thin wall and poor rigidity of the cylinder in the landfill process of the concrete pump station at present, and solves the problem that the protection capability of the pump station cylinder is reduced due to the earthquake and the vibration of the internal pump body in the operation process, while the integral pump station 2 is the existing structure, the specific structure and the connection mode of the internal air circulation device of the integral pump station 2 are not specifically described in this embodiment, and in addition, the connection mode of the internal pipeline system of the integral pump station 2 also belongs to the prior art with respect to the installation of the pump body, therefore, the application is not explained in detail.

Referring to fig. 2-3, the pump station base 1 includes a base substrate 101, a plurality of anchor holes 102 have been seted up around the base substrate 101 top, integral type pump station 2 includes this station main part 201, the inside fixedly connected with ventilation frame 202 of this station main part 201, ventilation connector 205 has been seted up in the outside of ventilation frame 202, air outlet 206 has been seted up to the bottom of ventilation connector 205, air circulating device is installed to the bottom of air outlet 206, water inlet 203 has been seted up to the bottom of this station main part 201 one side, delivery port 204 has been seted up at the top of this station main part 201 opposite side, shock attenuation pole 4 includes shock attenuation mobile jib 401, the top fixedly connected with air seal ring 402 of shock attenuation mobile jib 401.

In this embodiment, it is to be specifically described that: the air sealing ring 402 is made of copper metal sheets, so that the heat dissipation efficiency of the shock absorption main rod 401 is improved, the diameter of the air sealing ring 402 is the same as that of the external vent holes 604, the diameter of the external vent holes 604 is larger than that of the threaded round grooves 607, the air sealing ring 402 slides in the external vent holes 604 in the rising process of the pump body protecting cover 6, the shock absorption main rod 401 slides in the fixed bottom holes 606, the protection effect of the bottom of the pump body protecting cover 6 is provided when the shock absorption main rod 401 plays a guiding role, after the pump body protecting cover 6 rises to the top point, the air sealing ring 402 covers the top of the fixed bottom holes 606 from the bottom of the inner ventilation cavity 605, the contact surface with air is increased when the effect of sealing the fixed bottom holes 606 is achieved, and the heat dissipation effect is enhanced;

the width of the damping connecting slot 609 is the same as that of the damping plate 504, when the pump body protecting cover 6 is lifted to the top, the damping plate 504 is tightly attached to the outer surface of the integrated pump station 2 under the action of the longitudinal pushing device 507, the top is displaced to the bottom of the damping connecting slot 609, and the purpose of buffering vibration is provided by utilizing the self damping action while the supporting action is achieved.

The top of pump station base 1 has seted up a plurality of anchor holes 102, installs pump station base 1 in the foundation ditch bottom and passes through anchor hole 102 and install a plurality of anchors in the bottom to increase the stability of pump station, rope accomodate the frame 9 and be detachable support, the both ends of rope are all fixed on rope accomodate frame 9, and both sides lifting rope synchronous upward movement under the rotation of frame 9 is accomodate to the rope.

Referring to fig. 6 to 8, the support damper 5 includes a support outer plate 501, the support outer plate 501 includes an outer inclined plate 5011, an outer plate inclined groove 5012 is provided at one side of the outer inclined plate 5011, a spring positioning rod 5013 is welded at the bottom of the outer plate inclined groove 5012, an outer plate threaded hole 5014 is fixedly connected to the other side of the bottom of the outer inclined plate 5011, an outer plate connecting plate 502 is fixedly connected to the top of the support outer plate 501, a plurality of top threaded holes 503 are provided at one side of the outer plate connecting plate 502, a damper plate 504 is mounted inside the outer plate inclined groove 5012, an inner panel 505 is fixedly connected to the bottom of the inner panel 505, an inner inclined block 506 is mounted at the top of the spring positioning rod 5013, a longitudinal pushing device 507 includes a pushing inclined block 5071, a spring sleeve 5072 is fixedly connected to the bottom of the pushing inclined block 5071, and a pushing spring 5073 is mounted inside the spring sleeve 5072.

In this embodiment, it is to be specifically described that: the inside surface mounting of damping plate 504 has the rubber slab, the rubber slab top is connected with pump body protection casing 6, when the earthquake accident takes place, the surface of rubber piece is closely attached to the surface of integrative pump station 2, the top is located the bottom of pump body protection casing 6 and takes place the vibration under the drive of pump body protection casing 6, because rubber itself has damping characteristic, the motion at top can not drive the bottom motion and influence the stability of integrative pump station 2 and the vibration is eliminated under the self characteristic of rubber gradually, realize the effect of protection, make pump station shock resistance higher, the inside panel 505 is installed in the inside of planking chute 5012, when the damping plate 504 begins to move under the effect of vertical advancing device 507, inside panel 505 is always moved in planking chute 5012, play the effect of location support, avoid damping plate 504 to break away from the inside of supporting planking 501 and take place the slope phenomenon, advance the top of sloping block 5071 is offered at the sloping and is the same as interior sloping block 506, the width of advancing sloping block 5071 is the same with interior panel 505, when damping plate 504 breaks away from with protection bottom plate 608, the effect that advancing sloping block 5071 upwards moves under the effect of advancing spring 5073 and makes top 504 and moves to the inside panel 505 and makes the inside panel 505 connect the sloping block 505 to the inside of supporting the sloping panel 71 to make side of the inside panel 5071 to make side of the interior panel 5071 closely contact with the inside panel of damping plate 5071.

The working principle of the application is as follows:

the main problems solved by this embodiment are: the rising effect of the pump station protective cover is combined with the damping rod to realize the protection of the pump station landfill process, and meanwhile, when the protective cover rises to the top point, the protective cover is combined with the internal air circulation device to realize the circulation of internal air to achieve the purpose of deodorization, so that the problem that the wall of the cylinder is damaged easily due to the fact that the wall of the cylinder is thin and the rigidity is poor in the landfill process of the existing concrete pump station is solved, and the problem that the protection capacity of the pump station cylinder is reduced due to the earthquake and the vibration of the internal pump body in the operation process is solved.

The method comprises the following specific steps:

the installation process comprises the following steps:

s1: a foundation pit is formed, a base is arranged at the bottom of the foundation pit, anchors are paved at the bottom of the base, one end of each anchor is arranged at the bottom of the foundation pit, and the other end of each anchor is fixed on the base;

s2: the top of the base is provided with an integrated pump station 2, a damping rod 4, a supporting damping device 5 and a pump body protecting cover 6, a bottom water inlet pipeline is connected, the damping rod 4 is arranged in an external ventilation hole 604, the supporting damping device 5 is fixed on the pump station base 1 through bolts at an external plate threaded hole 5014, the top of the integrated pump station 2 is provided with a lifting rope on a rope storage rack 9, and the other end of the lifting rope penetrates through a rope supporting rack 10 to be fixed on a rope connecting rack 602;

s3: removing a foundation pit protection device, starting a transmission motor 8, enabling two lifting ropes on two sides to be stored on a rope storage rack 9, enabling the lifting ropes on two sides to synchronously lift a pump body protection cover 6 to move upwards, enabling an outer plate connecting plate 502 to slide in a protection guide groove 610 to play a guiding direction effect when the pump body protection cover 6 ascends, enabling an inner panel 505 to be blocked by a protection bottom plate 608 to move, enabling the inner panel to be static in an outer plate chute 5012, enabling pump body protection cover 6 to move and simultaneously enabling pump station edge protection soil to be buried, enabling the protection soil to be in contact with a damping rod 4 and a supporting damping device 5 at first, enabling large-sized soil blocks to be incapable of being in contact with the outer wall of a main body 201 of the foundation station under the blocking effect of a damping rod 401, and achieving a protection effect, enabling the damping rod 401 to slide in an outer vent hole 604 and a fixed bottom hole 606, and enabling the damping rod 401 to have a shorter working length in the sliding landfill process because the diameter of the fixed bottom hole 606 is smaller than the diameter of the outer vent hole 604 and is the diameter of the damping rod 401;

s4: fixing a pump station protecting sleeve and a supporting frame, installing a pump station air circulation device at the bottom of an air outlet 206, installing fixing bolts at the positions of a threaded round groove 607 and a protecting threaded hole 603 at the bottom of the pump station, dismantling a transmission motor 8 and a rope storage frame 9 after installation is completed, and simultaneously installing an air protecting cover at the top of an external vent 604 to prevent sundries from falling into the air protecting cover in the ventilation process.

The using process comprises the following steps: when internal vibration occurs, since the vibration absorbing main rod 401 is fixed in the soil, the vibration effect is transmitted to the outside through the vibration absorbing main rod 401, and the vibration effect is greatly weakened when transmitted from the bottom to the top under the buffering action of the vibration absorbing main rod 401, so that the operation of other internal components is not influenced; when external vibration occurs, the external vibration firstly contacts the support outer plate 501 and is transmitted, but the external vibration is not transmitted to the integrated pump station 2 under the damping action of the damping plate 504; when ventilation is carried out, the heat generated by the operation of the odor inside the pump station and the pump body is transmitted to the inside through the ventilation connector 205 under the drive of air, and meanwhile, part of the heat is transmitted to the shock absorption main rod 401 through the air sealing ring 402 and is transmitted to the soil through the shock absorption main rod 401, so that the dual heat dissipation effect of solids and gases is achieved.

Secondly, the problem that the stability is reduced due to the fact that the pump body protecting cover 6 generates additional pressure on the cylinder under the action of self gravity is solved;

when the pump body protection cover 6 moves to the top position, the protection guide groove 610 loses the blocking effect on the damping plate 504, the inner panel 505 moves to one side close to the integrated pump station 2 under the action of the longitudinal pushing device 507, as the width of the top of the damping plate 504 is the same as the width of the damping connecting groove 609 and the inner side surface is made of rubber, the damping plate 504 is tightly attached to the outer surface of the integrated pump station 2 under the action of the longitudinal pushing device 507 and the top is fixed at the bottom of the damping connecting groove 609, the pump body protection cover 6 is vertically supported, meanwhile, when accidents such as external earthquakes happen, the influence of external vibration on the inner structure can be effectively reduced due to the rubber material and the structure of the annular pump body protection cover 6, the supporting damping device 5 plays a vertical supporting role on the pump body protection cover 6 when the damping effect is utilized, and the influence of the pump body protection cover 6 on the position deviation of the inner ventilation cavity 605 due to the gravity and vibration of the damping device is reduced, so that the influence on the internal air circulation process is caused.

Claims (8)

1. The utility model provides a high strength resin concrete pump station, includes pump station base (1), its characterized in that: the novel hydraulic pump station is characterized in that an integrated pump station (2) is fixedly connected to the top of the pump station base (1), a damping ring (3) is fixedly arranged on the outer side of the integrated pump station (2) at the top of the pump station base (1), a damping rod (4) is fixedly connected to the top of the damping ring (3), a supporting damping device (5) is connected to the top of the pump station base (1) at the outer side of the damping ring (3) through bolts, a pump body protecting cover (6) is fixedly connected to the inner side of the supporting damping device (5) at the top of the integrated pump station (2), a pump station top plate (7) is fixedly connected to the top of the integrated pump station (2), a rope storage rack (9) is arranged at the top of the pump station top plate (7), a transmission motor (8) is movably connected to one side of the rope storage rack (9), a rope supporting frame (10) is fixedly connected to two sides of the top of the pump station top plate (7), and a travelling ladder (11) is arranged on one side of the inner side of the integrated pump station (2);

the pump body protection casing (6) comprises a protection casing body (601), two rope connecting frames (602) are fixedly connected to the top of the protection casing body (601), protection guide grooves (610) are formed in the outer side of the protection casing body (601), a plurality of protection threaded holes (603) are formed in the protection guide grooves (610), a plurality of inner ventilation cavities (605) are formed in the inner side of the protection casing body (601), two outer ventilation holes (604) are formed in the top of the protection casing body (601) located the inner ventilation cavities (605), fixed bottom holes (606) are formed in the positions, located in the outer ventilation cavities (604), of the bottom of the protection casing body (601), threaded circular grooves (607) are formed in the positions, located in the protection guide grooves (610), of the bottom of the protection casing body (601), damping connecting grooves (609) are formed in the bottoms of the outer sides of the protection bottom plates (608) in a welding mode.

2. The high strength resin concrete pump station of claim 1, wherein: the pump station base (1) comprises a base substrate (101), a plurality of anchor holes (102) have been seted up around base substrate (101) top, integral type pump station (2) are including this station main part (201), inside fixedly connected with ventilation frame (202) of this station main part (201), ventilation connector (205) have been seted up in the outside of ventilation frame (202), air outlet (206) have been seted up to the bottom of ventilation connector (205), air circulation device is installed to the bottom of air outlet (206), water inlet (203) have been seted up to the bottom of this station main part (201) one side, delivery port (204) have been seted up at the top of this station main part (201) opposite side, shock attenuation pole (4) are including shock attenuation mobile jib (401), the top fixedly connected with air seal ring (402) of shock attenuation mobile jib (401).

3. The high strength resin concrete pump station of claim 1, wherein: support damping device (5) including supporting planking (501), support planking (501) including outer swash plate (5011), planking chute (5012) have been seted up to one side of outer swash plate (5011), and the bottom welding of planking chute (5012) has spring locating lever (5013), the opposite side fixedly connected with planking screw hole (5014) of outer swash plate (5011) bottom, the top fixedly connected with planking connecting plate (502) of supporting planking (501), a plurality of top screw holes (503) have been seted up to one side of planking connecting plate (502), the internally mounted of planking chute (5012) has damping plate (504), the opposite side fixedly connected with interior panel (505) of damping plate (504), interior panel (505) bottom fixedly connected with interior sloping block (506), longitudinal propulsion device (507) are installed at the top of spring locating lever (5013), longitudinal propulsion device (507) are including advancing sloping block (5071), advance sloping block (5071) bottom fixedly connected with spring sleeve (5072), and the internally mounted of spring sleeve (5072) advances spring (5073).

4. The high-strength resin concrete pump station according to claim 2, wherein: the air sealing ring (402) is made of copper metal sheet, and the diameter of the air sealing ring (402) is the same as the diameter of the external vent hole (604).

5. The high strength resin concrete pump station of claim 1, wherein: the diameter of the outer vent hole (604) is larger than that of the threaded circular groove (607), the air sealing ring (402) slides in the outer vent hole (604), and the damping main rod (401) slides in the fixed bottom hole (606).

6. The high strength resin concrete pump station of claim 1, wherein: a plurality of anchor holes (102) are formed in the top of the pump station base (1), a plurality of anchors are mounted at the bottoms of the anchor holes (102), the rope storage rack (9) is a detachable support, and two ends of the lifting rope are fixed on the rope storage rack (9).

7. A high strength resin concrete pump station according to claim 3, wherein: the damping plate (504) is characterized in that a rubber plate is mounted on the inner side surface of the damping plate (504), the top of the rubber plate is connected with the pump body protection cover (6), the side surface of the rubber block is tightly attached to the outer surface of the integrated pump station (2), and the inner panel (505) is mounted in the outer plate chute (5012).

8. A high strength resin concrete pump station according to claim 3, wherein: the top of the pushing inclined block (5071) is provided with an inclined plane, the inclination angle of the inclined plane is the same as that of the inner inclined block (506), and the width of the pushing inclined block (5071) is the same as the moving distance of the inner panel (505).