阅读说明：本技术 一种具备砂浆涂抹功能的水泥砖用传送装置 (Cement brick conveying device with mortar painting function ) 是由 杨良群 于 2021-07-30 设计创作，主要内容包括：本发明公开了一种具备砂浆涂抹功能的水泥砖用传送装置,包括两个传送支撑板,所述两个传送支撑板之间连接有主传送轴和从传送轴,所述主传送轴和所述从传送轴之间套设有传送带,所述其中一个传送支撑板上连接有伺服电机,所述伺服电机与所述主传送轴相连,所述两个传送支撑板之间连接有底托板和砂浆下料管架,所述底托板套设在所述传送带之间,所述砂浆下料管架位于所述传送支撑板上方,所述砂浆下料管架上固定有砂浆下料管,所述砂浆下料管上连接有电子阀门,所述底托板上连接有阀门开关,所述阀门开关与所述电子阀门电性连接。本发明在传送带底部增设了重力控制的阀门开关,阀门开关控制砂浆下料管内砂浆的流动,实现定量下料的目的。(The invention discloses a cement brick conveying device with a mortar smearing function, which comprises two conveying supporting plates, wherein a main conveying shaft and a secondary conveying shaft are connected between the two conveying supporting plates, a conveying belt is sleeved between the main conveying shaft and the secondary conveying shaft, a servo motor is connected to one conveying supporting plate and is connected with the main conveying shaft, a bottom supporting plate and a mortar discharging pipe frame are connected between the two conveying supporting plates, the bottom supporting plate is sleeved between the conveying belts, the mortar discharging pipe frame is positioned above the conveying supporting plates, a mortar discharging pipe is fixed on the mortar discharging pipe frame, an electronic valve is connected to the mortar discharging pipe, a valve switch is connected to the bottom supporting plate, and the valve switch is electrically connected with the electronic valve. The gravity-controlled valve switch is additionally arranged at the bottom of the conveying belt and controls the flow of mortar in the mortar discharging pipe, so that the quantitative discharging purpose is realized.)

1. The utility model provides a conveyer for cement brick that function is paintd to possesses mortar, includes two conveying backup pad (1), be connected with main transmission axle (2) and follow transmission axle (3) between two conveying backup pad (1), main transmission axle (2) with the cover is equipped with conveyer belt (4) from between transmission axle (3), be connected with servo motor (12) on one of them conveying backup pad (1), servo motor (12) with main transmission axle (2) link to each other, its characterized in that: be connected with bottom plate board (5) and mortar unloading pipe support (7) between two conveying backup pad (1), bottom plate board (5) cover is established between conveyer belt (4), mortar unloading pipe support (7) are located conveying backup pad (1) top, be fixed with mortar unloading pipe support (7) on the mortar unloading pipe support (7), be connected with electronic valve (11) on mortar unloading pipe support (9), be connected with valve switch (6) on bottom plate board (5), valve switch (6) with electronic valve (11) electric connection.

2. The conveying device for cement bricks with mortar coating function according to claim 1, characterized in that: the improved mortar discharging pipe is characterized in that a mortar discharging pipe through groove (8) is formed in the mortar discharging pipe support (7), two fixing rings (10) are connected to the mortar discharging pipe (9), the two fixing rings (10) respectively abut against the upper surface and the lower surface of the mortar discharging pipe through groove (8) and are fixed in a spiral mode on the mortar discharging pipe support (7), and the mortar discharging pipe through groove (8) is located right above the valve switch (6).

3. The conveying device for cement bricks with mortar coating function according to claim 1, characterized in that: two conveying backup pad (1) left sides are equipped with cement brick storage box (13), cement brick storage box (13) are for falling "L" type structure, cement brick storage box (13) bottom is equipped with cement brick conveying plate (16) that can reciprocate, be equipped with the logical groove of cement brick (14) on cement brick storage box (13) right side wall, the logical groove of cement brick (14) with conveyer belt (4) are relative, be connected with on cement brick storage box (13) left side wall clamp plate (17), clamp plate (17) with cement brick conveying plate (16) link to each other.

4. The conveying device for cement bricks with mortar coating function according to claim 3, characterized in that: the right inner wall of the horizontal section of the cement brick storage box (13) is connected with a bearing plate (26), the distance between the bearing plate (26) and the left inner wall of the horizontal section of the cement brick storage box (13) is the same as the width of the cement brick conveying plate (16), a blanking groove (40) is arranged on the bearing plate (26), a limiting plate (18) is clamped on the cement brick through groove (14), the limiting plate (18) is abutted against the bottom surface of the bearing plate (26), the width of the limiting plate (18) is larger than that of the blanking groove (40), the outer end surface of the limiting plate (18) is connected with a pulling plate (15), the inner end surface of the pulling plate (15) is connected with two opposite limiting pins (20) in a penetrating way, two opposite limiting pin grooves (25) are formed in the right side wall of the cement brick storage box (13), and the limiting pins (20) are embedded in the limiting pin grooves (25).

5. The conveying device for cement bricks with mortar coating function according to claim 4, characterized in that: the concrete brick storage box is characterized in that two first spring columns (19) are connected to the right side wall of the concrete brick storage box (13), a limiting pin groove (25) is sleeved in the first spring columns (19), the other ends of the first spring columns (19) are fixed on the inner end face of the pulling plate (15), the limiting pin (20) is of a hollow structure with an outer end face open, two opposite clamping plate through grooves (21) are formed in the limiting pin (20), two pairs of second spring columns (22) are arranged on the inner wall of the limiting pin (20), each pair of second spring columns (22) are respectively located above and below the clamping plate through groove (21), an L-shaped extrusion plate (23) is fixed to the other end of each second spring column (22), clamping plates (24) are connected to the opposite end faces of the L-shaped extrusion plate (23) and the inner wall of the limiting pin (20), and the clamping plates (24) are opposite to the clamping plate through grooves (21), the two L-shaped extrusion plates (23) are oppositely arranged and extend out of the limiting pin (20).

6. The conveying device for cement bricks with mortar coating function according to claim 3, characterized in that: be equipped with push rod on cement brick storage box (13) left side wall and lead to groove (27), push rod leads to and is fixed with fixed pipeline (30) on groove (27), interior pole (31) of propelling movement are established to fixed pipeline (30) endotheca, be equipped with relative spout (33) on fixed pipeline (30) inner wall, be connected with relative draw runner (34) on the pole (31) lateral wall in the propelling movement, draw runner (34) inlay in spout (33), be connected with propelling movement dish (32) on pole (31) left side terminal surface in the propelling movement, be connected with push plate (35) on pole (31) right side terminal surface in the propelling movement, push plate (35) are located in cement brick storage box (13).

7. The conveying device for cement bricks with mortar coating function according to claim 3, characterized in that: the cement brick storage box is characterized in that two conveying plate sliding grooves (28) are formed in the left side wall of the cement brick storage box (13), two inner clamping plates (29) are connected to the cement brick conveying plate (16), the inner clamping plates (29) are clamped in the conveying plate sliding grooves (28), two pairs of pressing plate sliding grooves (37) are formed in the left side outer wall of the cement brick storage box (13), each pair of pressing plate sliding grooves (37) are located on the left side and the right side of the conveying plate sliding grooves (28), two outer clamping plates (38) and two pairs of clamping columns (39) are connected to the side wall of the pressing plate (17), each pair of clamping columns (39) are located on the left side and the right side of each outer clamping plate (38), each clamping column (39) is embedded in each pressing plate sliding groove (37), each outer clamping plate (38) is embedded in each conveying plate sliding groove (28), the top of each conveying plate sliding groove (28) is connected with a pulley (35), and a traction rope (36) is sleeved on each pulley (35), two ends of the traction rope (36) are respectively fixed on the outer clamping plate (38) and the inner clamping plate (29).

Technical Field

The invention relates to a cement brick conveying frame, in particular to a conveying device for cement bricks with a mortar smearing function, and belongs to the application field of building material conveying equipment.

Background

Mortar is a bonding substance used for building bricks on buildings, and is prepared by adding water into sand, cementing materials such as cement, lime paste and clay according to a certain proportion, and is also called mortar. The mortar is commonly used cement mortar, mixed mortar or cement lime mortar, lime mortar and clay mortar, is used for masonry and plastering engineering, and can be divided into masonry mortar and plastering mortar, wherein the masonry mortar is used for masonry of bricks, stones, building blocks and the like and installation of components; the latter is used for plastering the surfaces of wall surfaces, ground surfaces, roof surfaces, beam-column structures and the like so as to meet the requirements of protection, decoration and the like.

The cement brick is a novel wall material which is manufactured by taking one or more of fly ash, coal cinder, coal gangue, tailing slag, chemical slag or natural sand, tidal marsh mud and the like as main raw materials, taking cement as a coagulant and not calcining at high temperature.

The cement brick conforms to the general policy of developing building materials of ' farmland protection, energy conservation, local conditions and local materials ' in China, conforms to the ' suggestion of strictly limiting the land destruction and brick burning to actively promote wall body reformation ' forwarded by the State Council ', conforms to the ' notice about the implementation of value-added tax preferential policies on partial resource comprehensive utilization products and the like ' of the file No. 199620 issued by the State tax administration of the State Ministry of finance and administration of finance and is a building material product which is free of value-added tax completely. The cement brick has high strength, good durability, standard size, complete appearance and uniform color, has simple and natural appearance, and can be used as a dry wall or any external decoration. Therefore, the brick is a promising updated product for replacing clay bricks. The cement brick has heavier dead weight and higher strength, does not need to be fired, uses the pollutant fly ash of an electric power plant as a material, is more environment-friendly, and has been greatly popularized by China.

The mortar is smeared on the cement brick to play a masonry role, the existing mortar smearing mode is manual smearing mode, the smearing amount cannot be controlled, excessive mortar can cause waste, insufficient mortar cannot play the best masonry effect, and in the actual operation process, the mortar smearing mode is often excessive, so that the production cost is increased invisibly.

Disclosure of Invention

The present invention has been made to solve the above problems, and an object of the present invention is to provide a conveyor for cement bricks having a mortar application function.

The invention achieves the aim through the following technical scheme, and the conveying device for the cement bricks with the mortar smearing function comprises two conveying supporting plates, a main conveying shaft and a secondary conveying shaft are connected between the two conveying support plates, a conveying belt is sleeved between the main conveying shaft and the secondary conveying shaft, one of the conveying support plates is connected with a servo motor, the servo motor is connected with the main conveying shaft, a bottom supporting plate and a mortar discharging pipe frame are connected between the two conveying supporting plates, the bottom supporting plate is sleeved between the conveying belts, the mortar discharging pipe frame is positioned above the conveying support plate, a mortar discharging pipe is fixed on the mortar discharging pipe frame, the mortar discharging pipe is connected with an electronic valve, the bottom supporting plate is connected with a valve switch, and the valve switch is electrically connected with the electronic valve.

Preferably, a mortar discharging pipe through groove is formed in the mortar discharging pipe frame, two fixing rings are connected to the mortar discharging pipe, the two fixing rings respectively abut against the upper surface and the lower surface of the mortar discharging pipe through groove and are spirally fixed to the mortar discharging pipe frame, and the mortar discharging pipe through groove is located right above the valve switch.

Preferably, two conveying backup pads left sides are equipped with cement brick storage box, cement brick storage box is for falling "L" type structure, cement brick storage box bottom is equipped with the cement brick conveying board that can reciprocate, be equipped with the logical groove of cement brick on the cement brick storage box right side wall, the logical groove of cement brick with the conveyer belt is relative, be connected with the clamp plate on the cement brick storage box left side wall, the clamp plate with cement brick conveying board links to each other.

Preferably, be connected with the bearing plate on the horizontal section right inner wall of cement brick holding box, the bearing plate distance the distance of the horizontal section left inner wall of cement brick holding box with the width of cement brick conveying board is the same, be equipped with down the silo on the bearing plate, the cement brick leads to the groove and goes up the card and be equipped with the limiting plate, the limiting plate with the bearing plate basal surface offsets, the width of limiting plate is greater than the width of silo down, be connected with the pulling plate on the outer terminal surface of limiting plate, through connection has two relative spacer pins on the terminal surface in the pulling plate, be equipped with two relative spacer pin recesses on the cement brick holding box right side wall, the spacer pin inlays in the spacer pin recess.

Preferably, be connected with two spring posts No. one on the cement brick storage box right side wall, the spacer pin recess cover is established in the spring post No. one, the spring post other end is fixed on the terminal surface in the lifting plate, the spacer pin is outer terminal surface open-ended hollow structure, be equipped with two relative screens board through groove on the spacer pin, be equipped with two pairs of No. two spring posts on the spacer pin inner wall, every pair is located respectively to No. two spring posts the screens board is led to the groove upper and lower side, No. two spring post other ends are fixed with "L" type stripper plate, "L" type stripper plate with be connected with the screens board on the relative terminal surface of spacer pin inner wall, the screens board with the screens board is led to the groove is relative, two "L" type stripper plates set up relatively and extend outside the spacer pin.

Preferably, be equipped with the push rod on the cement brick storage box left side wall and lead to the groove, the push rod is fixed with fixed pipeline on leading to the groove, the fixed pipeline endotheca is equipped with pole in the propelling movement, be equipped with relative spout on the fixed pipeline inner wall, be connected with relative draw runner on the pole lateral wall in the propelling movement, the draw runner inlays in the spout, be connected with the propelling movement dish on the pole left side terminal surface in the propelling movement, be connected with push plate on the pole right-hand member face in the propelling movement, push plate is located in the cement brick storage box.

Preferably, be equipped with two conveying board spouts on cement brick storage box left side wall, be connected with two interior cardboards on the cement brick conveying board, interior cardboard is established in the conveying board spout, be equipped with two pairs of clamp plate spouts on the cement brick storage box left side outer wall, every pair of clamp plate spout all is located conveying board spout left and right both sides, be connected with two outer cardboards and two pairs of screens post on the clamp plate lateral wall, every pair of screens post is located respectively outer cardboard left and right both sides, the screens post inlays in the clamp plate spout, outer cardboard inlays in the conveying board spout, conveying board spout top is connected with the pulley, the cover is equipped with the haulage rope on the pulley, the haulage rope both ends are fixed respectively outer cardboard with on the interior cardboard.

The invention has the beneficial effects that: the invention discloses a cement brick conveying device with a mortar smearing function, wherein a gravity-controlled valve switch is additionally arranged at the bottom of a conveying belt and controls the flow of mortar in a mortar discharging pipe, the valve switch is opened after a cement brick touches the valve switch, the mortar in the mortar discharging pipe flows onto the cement brick, the valve switch is closed after the cement brick leaves the valve switch, and the mortar in the mortar discharging pipe stops flowing, so that the purpose of quantitative discharging is realized; in addition, the cement brick storage box is additionally arranged, so that cement bricks can be uninterruptedly conveyed, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the cement brick storage box of the invention.

Fig. 3 is a schematic structural view of the left side wall of the cement brick storage box of the invention.

FIG. 4 is a schematic view of the structure of the pressing plate of the present invention.

Fig. 5 is a schematic view of a connection structure of the pulling plate and the limiting plate according to the present invention.

FIG. 6 is a schematic view of an internal structure of the limit pin according to the present invention.

In the figure: 1. conveying support plate, 2, main conveying shaft, 3, auxiliary conveying shaft, 4, conveying belt, 5, bottom supporting plate, 6, valve switch, 7, mortar blanking pipe frame, 8, mortar blanking pipe through groove, 9, mortar blanking pipe, 10, fixing ring, 11, electronic valve, 12, servo motor, 13, cement brick storage box, 14, cement brick through groove, 15, lifting plate, 16, cement brick conveying plate, 17, pressing plate, 18, limiting plate, 19, spring column I, 20, limiting pin, 21, clamping plate through groove, 22, spring column II, 23, "L" -shaped extrusion plate, 24, clamping plate, 25, limiting pin groove, 26, bearing plate, 27, push rod through groove, 28, conveying plate through groove, 29, inner clamping plate, 30, fixing pipeline, 31, push inner rod, 32, push disc, 33, sliding groove, 34, sliding strip, 35, push plate, 36, traction rope, 37, 36, The device comprises a pressing plate sliding groove 38, an outer clamping plate 39, a clamping column 40 and a blanking groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner" and "outer" indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the connection may be direct or indirect via an intermediate medium, and may be a communication between the two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in figure 1, the conveying device for cement bricks with mortar coating function comprises two conveying support plates 1, a main conveying shaft 2 and a secondary conveying shaft 3 are connected between the two conveying support plates 1, a conveying belt 4 is sleeved between the main conveying shaft 2 and the secondary conveying shaft 3, one of the conveying support plates 1 is connected with a servo motor 12, the servo motor 12 is connected with the main conveying shaft 2, a bottom supporting plate 5 and a mortar discharging pipe frame 7 are connected between the two conveying supporting plates 1, the bottom supporting plate 5 is sleeved between the conveying belts 4, the mortar discharging pipe frame 7 is positioned above the conveying support plate 1, a mortar discharging pipe 9 is fixed on the mortar discharging pipe frame 7, the mortar discharging pipe 9 is connected with an electronic valve 11, the bottom supporting plate 5 is connected with a valve switch 6, and the valve switch 6 is electrically connected with the electronic valve 11.

Cement bricks are conveyed on the conveyor belt 4, when the cement bricks are positioned right above the valve switch 6, the weight of the whole cement bricks is pressed on the valve switch 6, the valve switch 6 is opened, mortar in the mortar discharging pipe 9 flows onto the cement bricks, the cement bricks are continuously conveyed rightwards on the conveyor belt 4, when 1/3 cement bricks are conveyed out of the valve switch 6, the gravity action of the cement bricks on the valve switch 6 disappears, the valve switch 6 is closed, and the mortar in the mortar discharging pipe 9 stops flowing.

As shown in fig. 1, a through groove 8 for a mortar discharging pipe is arranged on the mortar discharging pipe frame 7, two fixing rings 10 are connected to the mortar discharging pipe 9, the two fixing rings 10 respectively abut against the upper and lower surfaces of the through groove 8 for the mortar discharging pipe and are spirally fixed on the mortar discharging pipe frame 7, and the through groove 8 for the mortar discharging pipe is located right above the valve switch 6.

As shown in fig. 1, two conveying support plates 1 left sides are equipped with cement brick storage box 13, cement brick storage box 13 is "L" type structure of falling, cement brick storage box 13 bottom is equipped with cement brick conveying plate 16 that can reciprocate, be equipped with cement brick logical groove 14 on the cement brick storage box 13 right side wall, cement brick logical groove 14 with conveyer belt 4 is relative, be connected with clamp plate 17 on the cement brick storage box 13 left side wall, clamp plate 17 with cement brick conveying plate 16 links to each other.

A plurality of cement bricks are conveyed into the cement brick storage box 13 through the cement brick conveying plate 16 for storage, and then fall onto the conveyor belt 4 through the cement brick through groove 14.

As shown in fig. 2, be connected with bearing plate 26 on the wall of cement brick storage box 13 horizontal segment right side, bearing plate 26 distance the distance of the wall of cement brick storage box 13 horizontal segment left side inner wall with cement brick conveying plate 16's width is the same, be equipped with down silo 40 on the bearing plate 26, cement brick logical groove 14 goes up the card and is equipped with limiting plate 18, limiting plate 18 with bearing plate 26 basal surface offsets, limiting plate 18's width is greater than down silo 40's width, be connected with lifting plate 15 on the outer terminal surface of limiting plate 18, through connection has two relative spacer pins 20 on the terminal surface in lifting plate 15, be equipped with two relative spacer pin recesses 25 on the wall of cement brick storage box 13 right side, spacer pin 20 inlays in spacer pin recess 25.

The pulling plate 15 is pulled out, the blocking effect of the limiting plate 18 on the blanking groove 40 disappears, cement bricks in the cement brick storage box 13 fall into the cement brick through groove 14 through the blanking groove 40, and the cement brick storage box 13 is conveyed out under the conveying effect of the conveyor belt 4.

As shown in fig. 5 and 6, two first spring columns 19 are connected to the right side wall of the cement brick storage box 13, the limiting pin groove 25 is sleeved in the first spring column 19, the other end of the first spring column 19 is fixed on the inner end face of the lifting plate 15, the limiting pin 20 is a hollow structure with an opening on the outer end surface, two opposite clamping plate through grooves 21 are arranged on the limiting pin 20, two pairs of second spring columns 22 are arranged on the inner wall of the limiting pin 20, each pair of second spring columns 22 are respectively positioned above and below the clamping plate through groove 21, an L-shaped extrusion plate 23 is fixed at the other end of the second spring column 22, a clamping plate 24 is connected on the end surface of the L-shaped extrusion plate 23 opposite to the inner wall of the limiting pin 20, the clamping plate 24 is opposite to the clamping plate through groove 21, and the two L-shaped extrusion plates 23 are oppositely arranged and extend out of the limiting pin 20.

The pulling plate 15 is pulled outwards, the clamping plate 24 ejects out of the clamping plate through groove 21 and clamps the limit pin 20 outside the limit pin groove 25; the L-shaped extrusion plate 23 is extruded towards the middle, the clamping plate 24 retracts into the limiting pin 20, the limiting plate 18 is clamped into the cement brick through groove 14 under the action of the restoring force of the first spring column 19 and has a blocking effect on the blanking groove 40, and the cement bricks in the cement brick storage box 13 are prevented from falling.

As shown in fig. 2 and 3, it leads to groove 27 to be equipped with the propelling movement pole on the left side wall of cement brick storage box 13, be fixed with fixed pipeline 30 on the groove 27 of propelling movement pole, the interior pole 31 of propelling movement is equipped with to fixed pipeline 30 endotheca, be equipped with relative spout 33 on the fixed pipeline 30 inner wall, be connected with relative draw runner 34 on the pole 31 lateral wall in the propelling movement, draw runner 34 inlays in spout 33, be connected with propelling movement dish 32 on the pole 31 left side terminal surface in the propelling movement, be connected with push plate 35 on the pole 31 right side terminal surface in the propelling movement, push plate 35 is located in the cement brick storage box 13.

The pushing disc 32 is pushed inwards, the pushing inner rod 31 moves inwards along the fixed pipeline 30, and the pushing plate 35 pushes the cement bricks onto the bearing plate 26.

As shown in fig. 2 to 4, two transfer plate chutes 28 are provided on the left side wall of the cement brick storage box 13, the cement brick conveying plate 16 is connected with two inner clamping plates 29, the inner clamping plates 29 are clamped in the conveying plate sliding grooves 28, two pairs of pressing plate sliding grooves 37 are arranged on the outer wall of the left side of the cement brick storage box 13, each pair of pressing plate sliding grooves 37 are positioned on the left side and the right side of the conveying plate sliding groove 28, the side wall of the pressure plate 17 is connected with two outer clamping plates 38 and two pairs of clamping columns 39, each pair of clamping columns 39 is respectively positioned at the left side and the right side of the outer clamping plates 38, the position-locking columns 39 are embedded in the pressure plate slide grooves 37, the outer locking plates 38 are embedded in the conveying plate slide grooves 28, the top of the transmission plate sliding groove 28 is connected with a pulley 35, a traction rope 36 is sleeved on the pulley 35, the two ends of the pulling rope 36 are respectively fixed on the outer clamping plate 38 and the inner clamping plate 29.

Placing the cement brick on cement brick conveying plate 16, trampling pressing plate 17 downwards, pressing plate 17 moves down and upwards pulls up cement brick conveying plate 16 under the traction of haulage rope 36, moves up to the back of flushing with bearing plate 26 when cement brick conveying plate 16, and inside propelling movement dish 32, pole 31 inwards moves along fixed pipeline 30 in the propelling movement, and propelling movement board 35 is with cement brick propelling movement to bearing plate 26 on.

Examples

The L-shaped extrusion plate 23 is extruded towards the middle, the clamping plate 24 retracts into the limiting pin 20, the limiting plate 18 is clamped into the cement brick through groove 14 under the action of the restoring force of the first spring column 19 and has a blocking effect on the feeding groove 40, and the cement bricks in the cement brick storage box 13 are prevented from falling;

placing cement bricks on the cement brick conveying plate 16, stepping down on the pressing plate 17, moving down the pressing plate 17 and pulling up the cement brick conveying plate 16 under the traction action of the traction rope 36, pushing the pushing plate 32 inwards after the cement brick conveying plate 16 moves upwards to be level with the bearing plate 26, pushing the inner rod 31 inwards along the fixed pipeline 30, and pushing the cement bricks to the bearing plate 26 by the pushing plate 35;

the pulling plate 15 is pulled outwards, the clamping plate 24 ejects out of the clamping plate through groove 21 and clamps the limiting pin 20 outside the limiting pin groove 25, the blocking effect of the limiting plate 18 on the blanking groove 40 disappears, cement bricks in the cement brick storage box 13 fall into the cement brick through groove 14 through the blanking groove 40, and the cement bricks are conveyed out of the cement brick storage box 13 under the conveying effect of the conveyor belt 4;

cement bricks are conveyed on the conveyor belt 4, when the cement bricks are positioned right above the valve switch 6, the weight of the whole cement bricks is pressed on the valve switch 6, the valve switch 6 is opened, mortar in the mortar discharging pipe 9 flows onto the cement bricks, the cement bricks are continuously conveyed rightwards on the conveyor belt 4, when 1/3 cement bricks are conveyed out of the valve switch 6, the gravity action of the cement bricks on the valve switch 6 disappears, the valve switch 6 is closed, and the mortar in the mortar discharging pipe 9 stops flowing.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.