CN111074845A

CN111074845A - A bank protection brick places machine for administering river course soil erosion and water loss

Info

Publication number: CN111074845A
Application number: CN201911362799.8A
Authority: CN
Inventors: 陈思霆
Original assignee: Xuancheng Jiuyougu Electronic Technology Co Ltd
Current assignee: Quanzhou fangmeng Technology Co., Ltd
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2020-04-28
Anticipated expiration: 2039-12-26
Also published as: CN111074845B

Abstract

The invention relates to a slope protection brick placing machine for treating water and soil loss of a river channel, which comprises a stacking support plate, a moving frame, a pushing mechanism, a fixed inserted rod, a guide mechanism and a pressing mechanism, wherein the stacking support plate is in an I-shaped cylinder structure, the middle part of the stacking support plate is provided with a pushing groove, the pushing groove of the stacking support plate is internally provided with the pushing mechanism, the front end and the rear end of the bottom of the stacking support plate are respectively provided with the fixed inserted rod, the right end of the pushing mechanism is provided with the moving frame, the middle part of the moving frame is provided with a limiting groove, the guide mechanism is arranged on the right end of the moving frame, and the pressing mechanism is arranged on the top. The invention can solve the problems existing in the prior slope protection brick laying process that: there is the deviation in the position of artifical placing the slope protection brick to the construction effect that leads to the slope protection brick is poor, leads to the phenomenon that the slope protection brick can take place to stick up because of the hammering when artifical carries out the hammering to the slope protection brick at its side, thereby influences the scheduling problem of laying of adjacent slope protection brick.

Description

A bank protection brick places machine for administering river course soil erosion and water loss

Technical Field

The invention relates to the field of flood prevention construction, in particular to a slope protection brick placing machine for treating water and soil loss of a river channel.

Background

The slope protection brick is a building material for protecting river bank, river bank and mountain slope soil resources from being lost, has a good guarantee effect on surrounding soil, greatly reduces damage of water flow to soil, and ensures the service life of the slope protection brick.

Use comparatively extensive slope protection brick for regular hexagon structure on the present market, slope protection brick needs smooth the laying on the river bank of slope is domatic, slope protection brick need connect the stubble to lay when laying, the distance of two rows of adjacent slope protection bricks half slope protection brick that staggers each other, the current mode of generally having artifical construction when laying to the slope protection brick goes on, it hammers suitable position to it through the rubber hammer after artifical placing slope protection brick, the problem that exists when artifical is under construction to the slope protection brick is as follows:

1. the position of the slope protection brick placed manually has deviation, so that the construction effect of the slope protection brick is poor, and the slope protection brick can tilt due to hammering on the side edge of the slope protection brick when the slope protection brick is hammered manually, so that the laying of adjacent slope protection bricks is influenced;

2. the phenomenon of unevenness often can appear between the slope protection brick of adjacent two rows, and the manual work can't level and smooth the correction to the slope protection brick of laying, leads to domatic slope protection brick to lay not pleasing to the eye.

Disclosure of Invention

In order to solve the problems, the invention provides a slope protection brick placing machine for treating water and soil loss of a river channel, which comprises a stacking support plate, a moving frame, a pushing mechanism, a fixed inserted bar, a guide mechanism and a pressing mechanism, wherein the stacking support plate is in an I-shaped cylinder structure, the middle part of the stacking support plate is provided with a pushing groove, the stacking support plate is provided with two locking grooves which are symmetrically distributed on the front side and the rear side of the pushing groove, the pushing groove of the stacking support plate is internally provided with the pushing mechanism, the front end and the rear end of the bottom of the stacking support plate are respectively provided with the fixed inserted bar, the right end of the pushing mechanism is provided with the moving frame, the middle part of the moving frame is provided with a limiting groove, the guide mechanism is arranged on the right end of the moving frame, the pressing mechanism is arranged on the top of the moving frame, the slope protection brick is locked at a proper position, the guide mechanism can guide the placement of the slope protection bricks, the pressing mechanism can press the slope protection bricks to a proper position through manual hammering so that the slope protection bricks can be laid orderly, and the pushing mechanism is pushed to the right after the longitudinal row of the slope protection bricks are laid, so that the slope protection brick laying guide device can lay the slope protection bricks in the row at the right end of the stacked slope protection bricks, the fixed inserting rod can be inserted into a dam, and the stability of the slope protection brick laying guide device is improved.

The pushing mechanism comprises pushing locking blocks and pushing connecting rods, the pushing locking blocks are connected with pushing grooves in the stacking support plate in a sliding fit mode, jacks are formed in the front side face and the rear side face of each pushing locking block, the pushing locking blocks are evenly distributed from left to right, adjacent pushing locking blocks are arranged in a staggered mode from front to back, one pushing connecting rod is connected between every two adjacent pushing locking blocks, the pushing locking block located at the right end of the stacking support plate is connected with the left side face of the middle of the moving frame through one pushing connecting rod, and during specific work, the pushing mechanism can adjust the left position and the right position, so that slope protection bricks can be laid in a longitudinal row mode continuously.

The guide mechanism comprises a guide frame, connecting insertion blocks, connecting insertion rods, inserting locking rods and a reset spring, the guide frame is uniformly distributed from front to back, the guide frame positioned in the middle of the moving frame is connected with the right side surface of the middle of the moving frame, the guide frame is of a semi-hexagonal frame structure, the connecting insertion blocks are symmetrically arranged in front of and behind the left side surface of the guide frame positioned in the middle of the moving frame, the outer ends of the rest guide frames are respectively provided with one connecting insertion block, and the inner ends of the rest guide frames are respectively provided with one connecting insertion rod;

a round hole is provided on the inner end of the connecting plug rod, a square groove is provided on the outer side of the connecting plug block, the upper side wall of the square groove of the connecting plug block is connected with an insertion locking rod by means of a sliding fit, a return spring is provided on the outer side of the upper end of the insertion locking rod, the return spring is mounted between the upper end of the insertion locking rod and the upper side of the connecting plug block, the connecting plug rod is inserted in the square groove of the connecting plug block, and the inserting locking rod passes through the round hole on the connecting inserted rod, the guide frames are connected in a way of inserting and matching the connecting inserted block and the connecting inserted rod, when in specific work, firstly, the position of the pushing mechanism is adjusted, make guiding mechanism be located the slope protection brick right-hand member top of having laid, guiding mechanism's longitudinal length can carry out the extension through the concatenation between the leading truck, and the half hexagon frame structure of leading truck can make the slope protection brick paste on its left side inner wall and lead it.

As a preferred technical scheme of the invention, the downward pressing mechanism comprises a downward pressing slide rod, an L-shaped connecting plate, a downward pressing block and a hammering rod, the downward pressing slide rod is connected in the lower end of a limiting groove of a moving frame in a sliding fit manner, the top of the downward pressing slide rod is provided with the L-shaped connecting plate, the L-shaped connecting plate passes through the upper end of the limiting groove of the moving frame, the right end of the L-shaped connecting plate is of a telescopic structure, the hammering rod is connected on the right end of the L-shaped connecting plate in a sliding fit manner, the downward pressing block is of a regular hexagon structure, a supporting frame is arranged in the downward pressing block, the lower end of the hammering rod is connected with the middle part of the supporting frame on the downward pressing block, during specific work, the downward pressing mechanism can perform downward pressing action on a placed slope protection brick, the regular hexagon structure of the downward pressing block can correspond to the structure of the slope protection brick, the hammering rod arranged on the middle part of the downward pressing block can be hammered, prevent slope protection brick skew.

According to a preferable technical scheme, the top of the hammering rod is provided with the pull disc, the upper end of the hammering rod is provided with external threads, the external threads of the hammering rod are connected with the limiting buckle in a threaded matching mode, and the limiting buckle can adjust the hammering depth of the hammering rod, so that the slope protection bricks can be at a proper laying height.

As a preferred technical scheme of the invention, rolling wheels are uniformly arranged at the bottom of the movable frame from front to back, the positions of the rolling wheels correspond to the positions between the two guide frames, the rolling wheels can play a role in assisting movement when the pushing mechanism performs position adjustment, and the rolling wheels can also perform flattening and correcting actions on the slope protection bricks, so that the paving effect of the slope protection bricks is improved.

As a preferred technical scheme, the left side wall and the right side wall of the pushing groove on the stacking support plate are both connected with positioning slide rods in a sliding fit mode, the outer ends of the positioning slide rods are located in the locking grooves on the stacking support plate, the inner ends of the positioning slide rods are connected with positioning blocks, the positioning blocks are located in the insertion holes of the pushing lock blocks, positioning springs are arranged on the outer sides of the outer ends of the positioning slide rods and are installed between the positioning slide rods and the inner side walls of the locking grooves on the stacking support plate, the positioning blocks can position the pushing lock blocks, and the positions of the pushing mechanism can be adjusted by pulling the positioning slide rods outwards.

As a preferred technical scheme of the invention, the front side wall and the rear side wall of each guide frame are provided with the butt joint grooves which are arranged in a staggered mode, and the butt joint grooves on the guide frames can enable the two adjacent guide frames to be in butt joint, so that overlarge gaps between the slope protection bricks are prevented.

As a preferred technical scheme of the invention, the connecting inserted bar is of a telescopic structure, the connecting inserted bar is divided into a telescopic end and a fixed end, an adjusting bolt for adjusting the distance is connected between the fixed end of the connecting inserted bar and the telescopic end of the connecting inserted bar, and the adjusting bolt can drive the connecting inserted bar to adjust the length, so that the length of a gap between two adjacent slope protection bricks is adjusted.

As a preferred technical scheme of the invention, the distance between the front and the back of the two adjacent pushing locking blocks is half of the distance between the front and the back inner walls of the guide frame, the distance between the left and the right of the two adjacent pushing locking blocks is equal to the distance between the front and the back inner walls of the guide frame, and the arrangement can ensure that the slope protection bricks can be attached and paved.

As a preferred technical scheme of the invention, the lower side surface of the guide frame and the lower end of the rolling wheel are positioned on the same plane, and the arrangement can increase the accuracy of the height correction of the slope protection brick by the rolling wheel.

The invention has the beneficial effects that:

the slope protection brick splicing machine can be used for guiding and placing slope protection bricks and hammering the slope protection bricks to a proper laying height, so that the slope protection bricks are high in splicing uniformity degree, construction operation is simple and rapid, the slope protection bricks can be continuously spliced and laid, splicing effect of the slope protection bricks is good, and the laid slope protection bricks can be leveled and corrected;

the position of the pushing mechanism is adjusted, so that the guide mechanism is positioned above the right end of the laid slope protection brick, and the front position and the rear position of the pushing mechanism can move the position of a half slope protection brick when the pushing mechanism moves rightwards, so that the slope protection bricks can be jointed, spliced and laid;

thirdly, the limiting buckle on the pressing mechanism can adjust the hammering depth of the hammering rod, and the hammering rod is hammered by the rubber hammer, so that the slope protection bricks can be laid to a proper height;

the semi-hexagonal frame structure of the guide frame can enable the slope protection bricks to be attached to the inner wall of the left side of the guide frame and guide the slope protection bricks, so that the slope protection bricks can be placed uniformly, and the adjusting bolts can drive the connecting insertion rods to adjust the length, so that the length of a gap between every two adjacent slope protection bricks can be adjusted.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a first configuration of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a cross-sectional view of the present invention between the stacking support plate, the fixed plunger and the push lock;

FIG. 4 is a schematic structural view of the moving frame, the guide mechanism and the pressing mechanism of the present invention;

FIG. 5 is a cross-sectional view of the present invention between the moving frame and the hold-down mechanism;

FIG. 6 is a schematic view of the structure of the guide mechanism of the present invention;

FIG. 7 is a cross-sectional view of the guide mechanism of the present invention;

fig. 8 is a schematic plan view of the arrangement of slope protection bricks;

fig. 9 is a schematic structural view at the time of construction of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 9, a slope protection brick placing machine for treating water and soil loss of a river comprises a stacking support plate 1, a moving frame 2, a pushing mechanism 3, a fixed inserted link 4, a guiding mechanism 5 and a pressing mechanism 6, wherein the stacking support plate 1 is in an i-shaped cylinder structure, the middle part of the stacking support plate 1 is provided with a pushing groove, the stacking support plate 1 is provided with two locking grooves which are symmetrically distributed at the front side and the rear side of the pushing groove, the pushing mechanism 3 is arranged in the pushing groove of the stacking support plate 1, the front end and the rear end of the bottom of the stacking support plate 1 are respectively provided with the fixed inserted link 4, the right end of the pushing mechanism 3 is provided with the moving frame 2, the middle part of the moving frame 2 is provided with a limiting groove, the guiding mechanism 5 is arranged at the right end of the moving frame 2, the pressing mechanism 6 is arranged at the top of the moving frame 2, firstly, the slope protection brick placing machine is locked at a proper position on a, the guide mechanism 5 can guide the placement of the slope protection bricks, the pressing mechanism 6 can press the slope protection bricks to a proper position through manual hammering so that the slope protection bricks can be laid orderly, and the pushing mechanism 3 is pushed to the right after the longitudinal row of the slope protection bricks are laid, so that the slope protection brick laying guide device can lay the slope protection bricks in a row at the right end of the stacked slope protection bricks, the fixed insertion rod 4 can be inserted into a dam, and the stability of the slope protection brick laying guide device is improved.

The pushing mechanism 3 comprises pushing locking blocks 31 and pushing connecting rods 32, the pushing locking blocks 31 are connected with pushing grooves in the stacking support plate 1 in a sliding fit mode, the front side and the rear side of each pushing locking block 31 are provided with a jack, the pushing locking blocks 31 are uniformly distributed from left to right, the adjacent pushing locking blocks 31 are arranged in a staggered mode from front to back, one pushing connecting rod 32 is connected between every two adjacent pushing locking blocks 31, the pushing locking block 31 at the right end of the stacking support plate 1 is connected with the left side face of the middle of the moving frame 2 through one pushing connecting rod 32, and during specific work, the pushing mechanism 3 can adjust the left and right positions, so that slope protection bricks can be laid in a longitudinal row mode continuously.

Stack extension board 1 and go up all to be connected with location slide bar 11 through sliding fit's mode on the lateral wall about the propelling movement groove, location slide bar 11's outer end is located and stacks extension board 1 and to lock the inslot, be connected with locating piece 12 on location slide bar 11's the inner, locating piece 12 is located propelling movement locking piece 31's jack, location slide bar 11's the outer end outside is provided with positioning spring 13, positioning spring 13 installs at location slide bar 11 and stacks and to lock between the inslot lateral wall on extension board 1, locating piece 12 can fix a position propelling movement locking piece 31's position, can adjust push mechanism 3's position through outside pulling location slide bar 11.

The guide mechanism 5 comprises a guide frame 51, connecting insertion blocks 52, connecting insertion rods 53, inserting locking rods 54 and a return spring 55, the guide frame 51 is uniformly arranged from front to back, the guide frame 51 positioned in the middle of the moving frame 2 is connected with the right side surface of the middle of the moving frame 2, the guide frame 51 is of a semi-hexagonal frame structure, the connecting insertion blocks 52 are symmetrically arranged in front of and behind the left side surface of the guide frame 51 positioned in the middle of the moving frame 2, the outer ends of the rest guide frames 51 are respectively provided with one connecting insertion block 52, and the inner ends of the rest guide frames 51 are respectively provided with one connecting insertion rod 53;

a round hole is provided on the inner end of the connection plug 53, a square groove is provided on the outer side of the connection plug 52, the upper side wall of the square groove of the connection plug 52 is connected with an insertion locking lever 54 by means of sliding fit, a return spring 55 is provided on the outer side of the upper end of the insertion locking lever 54, the return spring 55 is installed between the upper end of the insertion locking lever 54 and the upper side of the connection plug 52, the connection plug 53 is inserted in the square groove of the connection plug 52, and the inserting locking rod 54 passes through the round hole on the connecting inserted rod 53, the guide frame 51 is connected with the connecting inserted rod 53 in the inserting matching way through the connecting inserted block 52, when in specific work, firstly, by adjusting the position of the pushing mechanism 3, make guiding mechanism 5 be located the slope protection brick right-hand member top of having laid, guiding mechanism 5's longitudinal length can be prolonged through the concatenation between leading truck 51, and leading truck 51's half hexagon frame structure can make the slope protection brick paste on its left side inner wall and lead it.

Two adjacent propelling movement locking piece 31 between the front and back distance be half of distance between the inner wall around the leading truck 51, distance between two adjacent propelling movement locking piece 31 about equals with the distance between the inner wall around the leading truck 51, this kind of setting can make the slope protection brick can laminate and lay.

The front and back side walls of the guide frame 51 are provided with the butt joint grooves which are arranged in a staggered mode, the butt joint grooves in the guide frame 51 can enable the two adjacent guide frames 51 to be in butt joint, and the gap between the slope protection bricks is prevented from being too large.

Connect inserted bar 53 be extending structure, connect inserted bar 53 and divide into flexible end and stiff end, and be connected with the adjusting bolt 531 that is used for the spacing between the stiff end of connecting inserted bar 53 and the flexible end of connecting inserted bar 53, adjusting bolt 531 can drive and connect inserted bar 53 and carry out the regulation of length to adjust the gap length between two adjacent slope protection bricks.

The downward pressing mechanism 6 comprises a downward pressing slide rod 61, an L-shaped connecting plate 62, a downward pressing block 63 and a hammering rod 64, the downward pressing slide rod 61 is connected in the lower end of a limiting groove of the moving frame 2 in a sliding fit mode, the top of the downward pressing slide rod 61 is provided with the L-shaped connecting plate 62, the L-shaped connecting plate 62 penetrates through the upper end of the limiting groove of the moving frame 2, the right end of the L-shaped connecting plate 62 is of a telescopic structure, the hammering rod 64 is connected on the right end of the L-shaped connecting plate 62 in a sliding fit mode, the downward pressing block 63 is of a regular hexagon structure, a supporting frame is arranged in the downward pressing block 63, the lower end of the hammering rod 64 is connected with the middle part of the supporting frame on the downward pressing block 63, during specific work, the downward pressing mechanism 6 can perform downward pressing action on the placed slope protection bricks, the regular hexagon structure of the downward pressing block 63 can correspond to the structure of the slope protection bricks, the downward pressing block 63 can enable the slope protection bricks to be uniformly pressed downwards by hammering through, prevent slope protection brick skew.

The top of hammering pole 64 is provided with draws the dish, and the upper end of hammering pole 64 is provided with the external screw thread, is connected with limit buckle 65 through screw-thread fit's mode on hammering pole 64's the external screw thread, and limit buckle 65 can be adjusted by hammering pole 64's hammering degree of depth for the slope protection brick can be in suitable laying height.

The rolling wheels 21 are uniformly arranged at the bottom of the movable frame 2 from front to back, the positions of the rolling wheels 21 correspond to the positions between the two guide frames 51, the rolling wheels 21 can play a role in assisting movement when the pushing mechanism 3 adjusts the position, and the rolling wheels 21 can also perform flattening and correcting actions on the slope protection bricks, so that the paving effect of the slope protection bricks is improved.

The lower side surface of the guide frame 51 and the lower end of the rolling wheel 21 are in the same plane, and the arrangement can increase the accuracy of the rolling wheel 21 in correcting the height of the slope protection brick.

During operation, firstly, the slope surface on which slope protection bricks need to be laid is leveled, the invention is locked at a proper position on the dam on which the slope protection bricks need to be laid through the fixed inserting rods 4 on the stacking support plates 1, the longitudinal length of the guide mechanism 5 can be lengthened through splicing between the guide frames 51, then the adjusting bolts 531 are rotated to drive the connecting inserting rods 53 to adjust the length, so that the length of a gap between two adjacent slope protection bricks is adjusted, the butt joint grooves on the guide frames 51 can enable the two adjacent guide frames 51 to be in butt joint, and the half-hexagonal frame structure of the guide frames 51 can enable the slope protection bricks to be attached to the inner wall of the left side of the slope protection bricks and guide the slope protection bricks, so that the slope protection bricks can be uniformly placed;

after the slope protection bricks are placed, the L-shaped connecting plate 62 is pulled rightwards, the lower pressing block 63 is moved forwards and backwards to enable the front and rear positions of the lower pressing block to correspond to the positions of the slope protection bricks needing to be pressed downwards, the lower pressing block 63 is pushed downwards to be abutted to the upper sides of the slope protection bricks, the hammering rod 64 is hammered through the rubber hammers, the limiting buckle 65 can adjust the hammering depth of the hammering rod 64, the slope protection bricks can be laid to a proper height, the slope protection bricks are hammered downwards according to the hammering, after the hammering of the slope protection bricks is completed, the L-shaped connecting plate 62 is moved to the left side of the guide frame 51, and the L-shaped connecting plate 62 is prevented from influencing the laying of the slope protection bricks;

after the slope protection bricks in rows are laid longitudinally, the position of the pushing mechanism 3 can be adjusted by pulling the positioning slide rod 11 outwards, so that the guide mechanism 5 is positioned above the right end of the laid slope protection bricks, the rolling wheel 21 can play a role in assisting movement when the pushing mechanism 3 adjusts the position, the rolling wheel 21 can also perform flattening and correcting actions on the slope protection bricks, the laying effect of the slope protection bricks is improved, the front position and the rear position of the pushing mechanism 3 can move half of the slope protection bricks when the pushing mechanism moves rightwards, the slope protection bricks can be spliced and laid, and the laying action of the slope protection bricks can be completed by repeating the steps.

The slope protection brick splicing machine can be used for guiding and placing slope protection bricks and hammering the slope protection bricks to a proper laying height, so that the slope protection bricks are high in splicing uniformity degree, the construction operation is simple and rapid, the slope protection bricks can be continuously spliced and laid, the splicing effect of the slope protection bricks is good, and the laid slope protection bricks can be leveled and corrected.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a bank protection brick places machine for administering river course soil erosion and water loss, includes stacks extension board (1), removes frame (2), push mechanism (3), fixed inserted bar (4), guiding mechanism (5) and pushes down mechanism (6), its characterized in that: the stacking support plate (1) is of an I-shaped cylinder structure, a pushing groove is formed in the middle of the stacking support plate (1), two locking grooves are formed in the stacking support plate (1), the locking grooves are symmetrically distributed on the front side and the rear side of the pushing groove, a pushing mechanism (3) is arranged in the pushing groove of the stacking support plate (1), a fixed inserted rod (4) is mounted at the front end and the rear end of the bottom of the stacking support plate (1), a moving frame (2) is mounted on the right end of the pushing mechanism (3), a limiting groove is formed in the middle of the moving frame (2), a guide mechanism (5) is mounted on the right end of the moving frame (2), and a pressing mechanism (6) is mounted on the top of the moving frame (2); wherein:

the pushing mechanism (3) comprises pushing locking blocks (31) and pushing connecting rods (32), the pushing locking blocks (31) are connected with pushing grooves in the stacking support plate (1) in a sliding fit mode, jacks are formed in the front side face and the rear side face of each pushing locking block (31), the pushing locking blocks (31) are uniformly distributed from left to right, adjacent pushing locking blocks (31) are arranged in a front-back staggered mode, one pushing connecting rod (32) is connected between every two adjacent pushing locking blocks (31), and the pushing locking block (31) located at the right end of the stacking support plate (1) is connected with the left side face of the middle of the moving frame (2) through one pushing connecting rod (32);

the guide mechanism (5) comprises guide frames (51), connecting insertion blocks (52), connecting insertion rods (53), inserting locking rods (54) and a reset spring (55), the guide frames (51) are uniformly distributed from front to back, the guide frame (51) positioned in the middle of the moving frame (2) is connected with the right side surface of the middle of the moving frame (2), the guide frames (51) are of a semi-hexagonal frame structure, the connecting insertion blocks (52) are symmetrically arranged in front of and behind the left side surface of the guide frame (51) positioned in the middle of the moving frame (2), the outer ends of the rest guide frames (51) are respectively provided with one connecting insertion block (52), and the inner ends of the rest guide frames (51) are respectively provided with one connecting insertion rod (53);

a round hole is formed in the inner end of the connecting insert rod (53), a square groove is formed in the outer side face of the connecting insert block (52), an insert locking rod (54) is connected to the upper side wall of the square groove of the connecting insert block (52) in a sliding fit mode, a return spring (55) is arranged on the outer side of the upper end of the insert locking rod (54), the return spring (55) is installed between the upper end of the insert locking rod (54) and the upper side face of the connecting insert block (52), the connecting insert rod (53) is inserted into the square groove of the connecting insert block (52), the insert locking rod (54) penetrates through the round hole in the connecting insert rod (53), and the guide frame (51) is connected with the connecting insert rod (53) in an insert fit mode through the connecting insert block (52).

2. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: push down mechanism (6) including pushing down slide bar (61), L type even board (62), briquetting (63) and hammering pole (64) down, push down slide bar (61) and connect in the spacing groove lower extreme that removes frame (2) through sliding fit's mode, install L type even board (62) on pushing down the top of slide bar (61), L type even board (62) pass the spacing groove upper end that removes frame (2), the right-hand member of L type even board (62) is extending structure, hammering pole (64) are connected on the right-hand member of L type even board (62) through sliding fit's mode, briquetting (63) are the regular hexagon structure down, be provided with braced frame in briquetting (63) down, the lower extreme of hammering pole (64) is connected with braced frame's on briquetting (63) down in the middle part.

3. The slope protection brick placing machine for governing the water and soil loss of the river according to claim 2, wherein: the top of hammering pole (64) is provided with draws the dish, and the upper end of hammering pole (64) is provided with the external screw thread, is connected with spacing knot (65) through screw-thread fit's mode on the external screw thread of hammering pole (64).

4. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: rolling wheels (21) are uniformly arranged at the bottom of the movable frame (2) from front to back, and the positions of the rolling wheels (21) correspond to the positions between the two guide frames (51) which are connected.

5. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: stack on extension board (1) propelling movement groove all be connected with location slide bar (11) through sliding fit's mode on the left and right sides lateral wall, the outer end of location slide bar (11) is located and stacks the locking inslot on extension board (1), be connected with on the inner of location slide bar (11) locating piece (12), locating piece (12) are located the jack of propelling movement locking piece (31), the outer end outside of location slide bar (11) is provided with positioning spring (13), positioning spring (13) are installed and are stacked between the locking inside wall on extension board (1) in location slide bar (11).

6. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: the front and rear side walls of the guide frame (51) are provided with butt joint grooves which are arranged in a staggered mode.

7. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: connect inserted bar (53) be extending structure, connect inserted bar (53) and divide into flexible end and stiff end, and be connected with between the stiff end of connecting inserted bar (53) and the flexible end of connecting inserted bar (53) and be used for adjusting apart from adjusting bolt (531).

8. The slope protection brick placing machine for treating water and soil loss of the river according to claim 1, wherein: the distance between the front and the back of the two adjacent pushing locking blocks (31) is half of the distance between the front and the back inner walls of the guide frame (51), and the distance between the left and the right of the two adjacent pushing locking blocks (31) is equal to the distance between the front and the back inner walls of the guide frame (51).

9. The slope protection brick placing machine for governing river course water and soil loss according to claim 4, characterized in that: the lower side surface of the guide frame (51) and the lower end of the rolling wheel (21) are in the same plane.