CN115367051A

CN115367051A - Reduce photovoltaic concrete anchor block on water of water impact effect

Info

Publication number: CN115367051A
Application number: CN202210780191.2A
Authority: CN
Inventors: 宋思谕
Original assignee: PowerChina Guiyang Engineering Corp Ltd
Current assignee: PowerChina Guiyang Engineering Corp Ltd
Priority date: 2022-07-04
Filing date: 2022-07-04
Publication date: 2022-11-22
Anticipated expiration: 2042-07-04
Also published as: CN115367051B

Abstract

The invention provides an overwater photovoltaic concrete anchor block capable of reducing water flow impact effect, which comprises a concrete anchor block; a fixing frame body is fixedly connected inside the concrete anchor block; a sliding groove is formed in the fixed frame body; a fixed cone is connected inside the sliding groove in a sliding manner; the bottom position of the concrete anchor block is arranged in an arc shape; the inner side wall of the fixed frame body is fixedly connected with a blocking tooth; a tooth socket is formed in the side wall of the fixed cone; the blocking teeth and the tooth grooves are arranged correspondingly; can make the fixed awl retract into the inside of sliding tray for fixed awl and the laminating of fixed support body are inseparabler. The method solves the problems that the position information of the anchor block obtained by the existing method is easy to generate errors, the fixing effect of the anchor block is easy to influence, and the like. Belongs to the technical field of water photovoltaic power generation.

Description

Reduce photovoltaic concrete anchor block on water of rivers impact effect

Technical Field

The invention relates to a waterborne photovoltaic concrete anchor block capable of reducing a water flow impact effect, and belongs to the technical field of waterborne photovoltaic power generation.

Background

Photovoltaic concrete anchor block on water is an accessible weight and fixes photovoltaic system floating platform for prevent that tidal activity from leading to the balancing weight of the condition that floating platform appears the displacement.

A chinese patent with publication number CN113955013A discloses an overwater photovoltaic array anchoring device and an anchoring method, wherein the anchoring device comprises a plurality of groups of piles fixed at the bottom of water or anchor blocks sinking at the bottom of water, a catenary and an anchor line; one end of the catenary is connected with the anchor block or the pile body, and the other end of the catenary is connected with one end of the anchor rope; and the other end of the anchor rope is connected with the overwater photovoltaic array.

In-process that the concrete anchor block used, after the anchor block sinks into river course silt layer inside, need fix a position the coordinate of anchor block, receive water impact when the anchor block, appear after the condition of aversion, can make the positional information of anchor block the error appear, the anchor block is when using simultaneously, is a plurality of anchor block according to regular array setting usually, if the anchor block when too near the condition, leads to the fixed action of anchor block to receive the influence easily.

Disclosure of Invention

The invention provides an overwater photovoltaic concrete anchor block capable of reducing a water flow impact effect, and aims to solve the problems that position information of the anchor block obtained by the conventional method is easy to have errors, the fixing effect of the anchor block is easy to influence and the like.

In order to solve the problems, the overwater photovoltaic concrete anchor block for reducing the water flow impact effect comprises a concrete anchor block; a fixing frame body is fixedly connected inside the concrete anchor block; a sliding groove is formed in the fixed frame body; a fixed cone is connected inside the sliding groove in a sliding manner; the bottom position of the concrete anchor block is arranged in an arc shape; the inner side wall of the fixed frame body is fixedly connected with a blocking tooth; tooth grooves are formed in the side wall of the fixed cone; the blocking teeth and the tooth grooves are arranged correspondingly; the fixed cone can be retracted into the sliding groove, so that the fixed cone and the fixed frame body are attached more tightly.

Preferably, the top of the sliding groove is fixedly connected with an elastic sheet; the elastic pieces are symmetrically arranged at the top of the sliding groove; the end part of the elastic piece is fixedly connected with reverse fixed teeth; the concrete anchor block can be fixed more firmly and stably when being positioned inside the sediment layer.

Preferably, the side wall of the fixed cone is provided with two arc-shaped grooves which are symmetrically arranged; an arc-shaped elastic sheet is fixedly connected inside the arc-shaped groove; both ends of the arc-shaped elastic sheet are fixedly connected to the arc-shaped side wall; a water receiving arc plate is connected inside the fixed cone in a sliding manner; the water collecting arc plate is arranged in an arch shape; a pull rope is fixedly connected between the water collecting arc plate and the arc-shaped elastic sheet; the top of the water collecting arc plate is fixedly connected with a connecting rod; a positioning block is fixedly connected to the end part of the connecting rod; a positioning groove is formed in the fixing cone; the positioning block and the positioning groove are arranged correspondingly; a spring is fixedly connected between the positioning block and the positioning groove; the sliding of the water collecting arc plate is more stable.

Preferably, a plurality of elastic ropes are fixedly connected to the side wall of the fixed cone and are regularly arranged in a circumferential array; the end part of the elastic rope is fixedly connected with a hitting iron ball; the lengths of the elastic ropes are all kept consistent; a vibration cavity is formed in the fixed cone; a magnetic ball is arranged in the vibration cavity; the side wall of the vibration cavity is provided with a plurality of jacking teeth which are regularly arranged in a circumferential array; the fixing effect of the soil on the fixing cone can be better.

Preferably, the side wall of the arc-shaped elastic sheet is provided with a plurality of concave grooves; the concave groove is formed at the position corresponding to the position of hitting the iron ball; a pushing plate is fixedly connected inside the concave groove; the end surface of the pushing plate faces the direction of hitting the iron ball; the side wall of the pushing plate is fixedly connected with a striking raised head; the striking raised head is arranged at a position corresponding to the fixed cone; can make fixed awl when the silt layer is inside, fixed inseparabler by earth for fixed awl is inside more stable in the silt layer.

Preferably, the side wall of the fixed cone is provided with a containing groove; the accommodating groove is formed in the position corresponding to the position for striking the iron ball; an adsorption magnetic block is fixedly connected inside the accommodating groove; make fixed awl more stable when the inside of silt layer.

Preferably, a cutting blade is fixedly connected to the side wall of the fixed cone; the edge of the cutting blade is parallel to the sliding direction of the water collecting arc plate; the top of the water collecting arc plate is provided with a plurality of anti-skid grooves; the condition that the water collecting arc plate blocks the retraction of the fixed cone is effectively avoided.

Preferably, a connecting hanging rope is fixedly connected to the end part of the water collecting arc plate; the end part of the connecting hanging rope is fixedly connected with the end part of the fixed frame body; the condition that the water collecting arc plates fall into the inside of a river channel silt layer to easily cause pollution in the river channel silt layer is effectively avoided.

Preferably, the connecting hanging rope is fixedly connected with a plurality of hollow striking blocks, and the distances between the connecting hanging ropes are the same; the influence of the buoyancy of the bubbles on the falling speed of the concrete anchor block can be effectively reduced.

Preferably, a shaking block is arranged inside the hollow striking block; the periphery of the shaking block is fixedly connected with a shaking rod; the end part of the oscillating rod is fixedly connected to the inner side wall of the hollow striking block; the duration of the surface vibration of the hollow striking block is longer, and the effect of removing bubbles is better

Compared with the prior art, the invention has the following beneficial effects:

1) The structural design that the fixing cone is inserted into the river channel sediment layer to fix the concrete anchor block realizes the function of increasing the contact area of the concrete anchor block and the sediment layer inside the river channel sediment layer, and effectively solves the problem that the anchor block is impacted by water flow and is likely to shift;

2) Resistance through rivers promotes to receive the arc board for receive arc board pulling stay cord, and then make the inside sunken structural design of arc metal sheet, realized reducing rivers to the function of the resistance of fixed awl, make the speed that concrete anchor piece descends faster, the degree of depth that inserts the silt layer is darker, and is better to the fixed effect of concrete anchor piece.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a perspective view of the fixed cone of the present invention;

FIG. 3 is a front sectional view of the arc-shaped elastic sheet of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

FIG. 5 is an enlarged view of a portion of FIG. 1 at B;

FIG. 6 is a front view of the water collecting arc plate of the present invention;

FIG. 7 is a front sectional view of the impact block of the present invention.

In the figure: 1. a concrete anchor block; 101. a blocking tooth; 2. fixing the frame body; 3. a sliding groove; 4. a fixed cone; 5. an elastic sheet; 6. reversely fixing teeth; 7. an arc-shaped elastic sheet; 8. pulling a rope; 9. a water collecting arc plate; 10. a connecting rod; 11. positioning a block; 12. positioning a groove; 13. a spring; 14. an elastic cord; 15. hitting an iron ball; 151. a vibration chamber; 152. a magnetic ball; 153. jacking the teeth; 16. a concave groove; 161. a push plate; 162. striking the raised head; 17. a receiving groove; 18. an adsorption magnetic block; 19. a cutting insert; 20. connecting a hanging rope; 21. a hollow striking block; 22. a shaking block; 23. and a vibrating rod.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings, and it should be understood that the specific embodiments described herein are only for explaining the present invention and are not intended to limit the present invention.

Examples

As shown in fig. 1 to fig. 2, the waterborne photovoltaic concrete anchor block for reducing the water flow impact effect according to the embodiment includes a concrete anchor block 1; a fixing frame body 2 is fixedly connected inside the concrete anchor block 1; a sliding groove 3 is formed in the fixed frame body 2; a fixed cone 4 is connected inside the sliding groove 3 in a sliding manner; the bottom position of the concrete anchor block 1 is arranged in an arc shape; a blocking tooth 101 is fixedly connected to the inner side wall of the fixed frame body 2; a tooth socket is formed in the side wall of the fixed cone 4; the blocking teeth 101 are arranged corresponding to the tooth grooves; when the concrete anchor block 1 needs to be poured, the fixing frame body 2 can be placed in a mold, the shape of the concrete anchor block 1 is poured, after the pouring is finished, when the concrete anchor block 1 needs to be fixed inside a river mud and sand layer, the pointed end of the fixing cone 4 faces downwards, and the concrete anchor block 1 is thrown into water, because the weight of the fixing cone 4 is larger than that of the concrete anchor block 1, and meanwhile, the ground of the concrete anchor block 1 is arranged in an arc shape, in the process that the concrete anchor block 1 falls into the river mud and sand layer, the pointed end of the fixing cone 4 can face downwards all the time until the fixing cone 4 is inserted into the river mud and sand layer, the contact area between the concrete anchor block 1 and the river mud and sand layer is larger, so that the concrete anchor block 1 is more stable when being impacted by water flow, less displacement occurs, and after the fixing cone 4 moves to a position where the fixing cone 4 cannot move, the subsequent inertia of the concrete anchor block 1 can press and break teeth 101, and the fixing cone 4 can retract into the fixing groove 3, and the fixing cone 2 can be more tightly attached to a fixing frame body.

The top of the sliding groove 3 is fixedly connected with an elastic sheet 5; the elastic pieces 5 are symmetrically arranged at the top of the sliding groove 3; the end part of the elastic piece 5 is fixedly connected with a reverse fixed tooth 6; at the during operation, when stopping the fracture of tooth 101, fixed awl 4 withdrawal sliding tray 3's inside back, fixed awl 4 can extrude flexure strip 5, can make the other end of flexure strip 5 pushed fixed support body 2, after flexure strip 5 was pushed fixed support body 2, earth falls into between reverse fixed tooth 6 and the flexure strip 5, can make the area of contact of concrete anchor block 1 and silt layer increase, thereby can make concrete anchor block 1 fix more firmly when silt in situ is inside, simultaneously stretch out to fix after silt in the inside of silt layer as reverse fixed tooth 6, can drag fixed awl 4 fixedly, make the condition of appearing the activity less of fixed awl 4 in the inside of fixed support body 2, make the whole of concrete anchor block 1 more stable.

Two arc-shaped grooves are formed in the side wall of the fixed cone 4 and are symmetrically arranged; an arc-shaped elastic sheet 7 is fixedly connected inside the arc-shaped groove; both ends of the arc-shaped elastic sheet 7 are fixedly connected to the arc-shaped side wall; a water collecting arc plate 9 is connected inside the fixed cone 4 in a sliding manner; the water collecting arc plate 9 is arranged in an arch shape; a pull rope 8 is fixedly connected between the water collection arc plate 9 and the arc-shaped elastic sheet 7; the top of the water collecting arc plate 9 is fixedly connected with a connecting rod 10; a positioning block 11 is fixedly connected to the end of the connecting rod 10; a positioning groove 12 is formed in the fixed cone 4; the positioning block 11 and the positioning groove 12 are arranged correspondingly; a spring 13 is fixedly connected between the positioning block 11 and the positioning groove 12; at the during operation, at the in-process of concrete anchor block 1 whereabouts, the resistance of rivers promotes receives water arc board 9, can make to receive water arc board 9 pulling stay cord 8, thereby can make arc shell fragment 7 inwards sunken in the inside of arc wall, and then can make the front end of stationary cone 4 receive the resistance of rivers littleer, make the falling speed of concrete anchor block 1 faster, the depth that stationary cone 4 inserted the inside in river course silt layer is also darker, fixed effect to concrete anchor block 1 can be better, simultaneously through the restriction of constant head tank 12 to locating piece 11, can make and receive water arc board 9 at the in-process that rises, the condition of slope appears still less, make the slip of receiving water arc board 9 more stable.

As shown in fig. 1 and 5, a plurality of elastic cords 14 are fixedly connected to the side wall of the fixed cone 4 and are regularly arranged in a circumferential array; the end part of the elastic rope 14 is fixedly connected with a hitting iron ball 15; the lengths of the elastic ropes 14 are all kept consistent; a vibration cavity 151 is formed in the fixed cone 4; a magnetic ball 152 is arranged in the vibration cavity 151; the side wall of the vibration cavity 151 is provided with a plurality of jacking teeth 153 which are regularly arranged in a circumferential array; when the fixing cone 4 is inserted into a sediment layer of a river, the hitting iron ball 15 can be left at the top of the sediment layer, the elastic rope 14 can be pulled continuously in the process that the fixing cone 4 is inserted into the sediment layer, the fixing cone 4 can move downwards in the process that the fixing cone 4 moves downwards, the fixed cone 4 can be kept in a vertical state better when inserted into the sediment layer, the contact area between the fixing cone 4 and the sediment layer is larger, the fixing effect of the fixing cone 4 on the concrete anchor block 1 can be better, the hitting iron ball 15 can be adsorbed and hit inside the vibration cavity 151 by the magnetic ball 152 in the process that the hitting iron ball 15 moves upwards, the fixing cone can move towards the top of the vibration cavity 151, when the hitting iron ball falls down through the jacking teeth 153 and hits on the side wall of the fixing cone 4, vibration can be generated, soil around the fixing cone 4 can be loosened through vibration, more soil around the fixing cone 4 can enter between the fixing cone 4 and the fixing cone 4, and the soil can be better fixed cone 4 fixing effect.

As shown in fig. 3, the side wall of the arc-shaped elastic sheet 7 is provided with a plurality of concave grooves 16; the concave groove 16 is formed at the position corresponding to the striking iron ball 15; a pushing plate 161 is fixedly connected inside the concave groove 16; the end surface of the push plate 161 faces the direction of hitting the iron ball 15; a striking raised head 162 is fixedly connected to the side wall of the pushing plate 161; the striking nose 162 is arranged at a position corresponding to the fixed cone 4; at the during operation, in the in-process of concrete anchor block 1 whereabouts, receive the influence of the resistance of water, hit iron ball 15 can be attached on arc shell fragment 7's lateral wall, and then when fixed awl 4 inserts inside the silt layer, arc shell fragment 7 sets up the concave groove 16 on the surface, can promote to hit iron ball 15, make and hit iron ball 15 and arc shell fragment 7 surface impact, and then produce the effect of vibrations, can shake the earth around fixed awl 4 loose through vibrations, and then make more activity of earth, fall into the silt layer and the gap of fixed awl 4, thereby can make fixed awl 4 when silt in the in-situ, be fixed inseparabler by earth, make fixed awl 4 more stable in the silt in-situ, simultaneously when arc shell fragment 7 inserts inside the earth, the contact area of multiplicable arc shell fragment 7 and silt layer of seting up of concave groove 16, thereby can make the silt layer better to the fixed effect of arc shell fragment 7, when hitting iron ball 15 when moving upwards, can promote push plate 161 to produce deformation, when hitting iron ball 15, after the past, hit iron ball 15, the influence of arc shell fragment can be in a step on the hitting 161 and can make the hitting raise the effect of hitting, the protruding head can further shake and can improve on the earth and shake.

As shown in fig. 1 to 2, the side wall of the fixed cone 4 is provided with a receiving groove 17; the accommodating groove 17 is formed at a position corresponding to the striking iron ball 15; an adsorption magnetic block 18 is fixedly connected inside the accommodating groove 17; at the during operation, at the in-process that fixed awl 4 inserted the silt layer, hit and beat iron ball 15 and can continue to move to the top position of fixed awl 4, after removing to the position of accomodating groove 17, through the absorption of absorption magnetic path 18, can inhale the inside of accomodating groove 17 with hitting iron ball 15, and then fix the inside of accomodating groove 17, thereby can make the area of contact of fixed awl 4 and earth bigger, simultaneously taut stretch cord 14, can make the area of contact of fixed awl 4 and earth further increase, make fixed awl 4 more stable when the inside of silt layer.

As shown in fig. 4, a cutting blade 19 is fixed on the side wall of the fixed cone 4; the edge of the cutting blade 19 is parallel to the sliding direction of the water collecting arc plate 9; the top of the water collecting arc plate 9 is provided with a plurality of anti-skid grooves; when the water receiving arc plate cutting device works, when the blocking teeth 101 are broken, and the fixed cone 4 retracts into the sliding groove 3, the cutting blade 19 can cut off the water receiving arc plate 9, the situation that the water receiving arc plate 9 blocks the retraction of the fixed cone 4 is effectively avoided, and meanwhile, due to the design of the anti-skidding groove in the top of the water receiving arc plate 9, the water receiving arc plate 9 can be cut off more simply.

As shown in fig. 6, a connecting hanging rope 20 is fixedly connected to the end of the water collecting arc plate 9; the end part of the connecting hanging rope 20 is fixedly connected with the end part of the fixed frame body 2; when the river channel silt layer cleaning device works, after the water collecting arc plates 9 are cut off, the possibility that the water collecting arc plates 9 float to other places is avoided through the connection of the connecting hanging ropes 20, and the condition that the water collecting arc plates 9 fall into the inside of a river channel silt layer to easily cause pollution to the inside of the river channel silt layer is effectively avoided.

A plurality of hollow striking blocks 21 are fixedly connected to the connecting hanging rope 20, and the distances between the connecting hanging ropes 20 are the same; when the concrete anchor block 1 falls, the impact force of water flow can push the hollow striking block 21 to shake at the bottom of the concrete anchor block 1 in the falling process of the concrete anchor block 1, so that the bottom of the concrete anchor block 1 is struck, and bubbles at the bottom of the concrete anchor block 1 can be knocked away by the vibration generated by striking the bottom of the concrete anchor block 1, so that the influence of the buoyancy of the bubbles on the falling speed of the concrete anchor block 1 can be effectively reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a reduce photovoltaic concrete anchor block on water of water impact effect which characterized in that: comprises a concrete anchor block; a fixing frame body is fixedly connected inside the concrete anchor block; a sliding groove is formed in the fixed frame body; a fixed cone is connected inside the sliding groove in a sliding manner; the bottom position of the concrete anchor block is arranged in an arc shape; the inner side wall of the fixed frame body is fixedly connected with a blocking tooth; a tooth socket is formed in the side wall of the fixed cone; the blocking teeth and the tooth grooves are arranged correspondingly; the fixed cone can be retracted into the sliding groove, so that the fixed cone and the fixed frame body are attached more tightly.

2. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 1, wherein: the top of the sliding groove is fixedly connected with an elastic sheet; the elastic pieces are symmetrically arranged at the top of the sliding groove; the end part of the elastic piece is fixedly connected with reverse fixed teeth.

3. The waterborne photovoltaic concrete anchor block capable of reducing water impact effect according to claim 1, wherein: two arc-shaped grooves are formed in the side wall of the fixed cone and are symmetrically arranged; an arc-shaped elastic sheet is fixedly connected inside the arc-shaped groove; both ends of the arc-shaped elastic sheet are fixedly connected to the arc-shaped side wall; a water arc collecting plate is connected inside the fixed cone in a sliding manner; the water collecting arc plate is arranged in an arch shape; a pull rope is fixedly connected between the water collecting arc plate and the arc-shaped elastic sheet; the top of the water collecting arc plate is fixedly connected with a connecting rod; a positioning block is fixedly connected to the end part of the connecting rod; a positioning groove is formed in the fixing cone; the positioning block and the positioning groove are arranged correspondingly; and a spring is fixedly connected between the positioning block and the positioning groove.

4. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 1, wherein: the side wall of the fixed cone is fixedly connected with a plurality of elastic ropes which are regularly arranged in a circumferential array; the end part of the elastic rope is fixedly connected with a hitting iron ball; the lengths of the elastic ropes are all kept consistent; a vibration cavity is formed in the fixed cone; a magnetic ball is arranged in the vibration cavity; the side wall of the vibration cavity is provided with a plurality of jacking teeth which are regularly arranged in a circumferential array.

5. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 3, wherein: the side wall of the arc-shaped elastic sheet is provided with a plurality of concave grooves; the concave groove is formed at the position corresponding to the position of hitting the iron ball; a pushing plate is fixedly connected inside the concave groove; the end surface of the pushing plate faces the direction of hitting the iron ball; the side wall of the pushing plate is fixedly connected with a striking raised head; the striking raised head is arranged at a position corresponding to the fixed cone.

6. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 4, wherein: the side wall of the fixed cone is provided with a containing groove; the accommodating groove is formed in the position corresponding to the position for striking the iron ball; and an adsorption magnetic block is fixedly connected inside the accommodating groove.

7. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 3, wherein: a cutting blade is fixedly connected to the side wall of the fixed cone; the edge of the cutting blade is parallel to the sliding direction of the water collecting arc plate; the top of the water collecting arc plate is provided with a plurality of anti-skidding grooves.

8. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 3, wherein: the end part of the water collecting arc plate is fixedly connected with a connecting hanging rope; the end part of the connecting hanging rope is fixedly connected with the end part of the fixed frame body.

9. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 8, wherein: a plurality of hollow striking blocks are fixedly connected to the connecting hanging rope, and the distances between the connecting hanging rope and the hollow striking blocks are the same.

10. The waterborne photovoltaic concrete anchor block capable of reducing the water flow impact effect according to claim 9, wherein: a shaking block is arranged inside the hollow striking block; the periphery of the shaking block is fixedly connected with a shaking rod; the end part of the oscillating rod is fixedly connected to the inner side wall of the hollow striking block.