CN214419095U - Assembled wall is formwork erection device for batch production - Google Patents

Abstract

The utility model discloses an assembled wall body batch production is with founding mould device and method, this founds mould device can realize the batch production of template through setting up a plurality of die cavitys, reserves out one section die sinking space moreover on the device, utilizes the die sinking space can realize the production mode of side drawing of patterns limit mould, can abundant efficient utilization time and space, has improved the production efficiency of wall body greatly. Among this founds the mould device, the interval that constitutes the coexistence template of die cavity is adjustable, the interval of both sides baffle is adjustable, still can place the piece of piecing together in the die cavity, thereby realize treating the thickness of filling the die cavity, width and height are adjusted, make it accord with the drawing design requirement of wall body, the wall body size of producing through this founds the mould device, the wall body drawing design requirement that accords with that can be accurate, need not to assemble during the construction, the problem of having avoided plastering to handle and ftracture, also need not the cutting, no waste material is extravagant, and is with low costs, and the efficiency of construction is improved.

Description

Assembled wall is formwork erection device for batch production

Technical Field

The utility model relates to a wall body production technical field especially relates to assembled wall body is founding mould device for batch production.

Background

The prefabricated building is a novel building structure, and the prefabricated building is formed by processing and manufacturing prefabricated parts in a factory and then transporting the prefabricated parts to a construction site for assembly. The assembled wall is an important component of an assembled building and is a new indoor wall structure.

In the actual construction process, the space size in the house is not the standard size, so that each manufacturer does not have mature production equipment and process of the assembled wall body, the whole wall body meeting the drawing requirements is difficult to directly produce, and the whole wall body needs to be assembled or cut during construction, so that the defects of high labor intensity, low production efficiency, long construction period, noise pollution, high cost and the like are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a can produce the formwork erection device of arbitrary specification assembled wall body in batches, high-efficiently is provided.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is:

assembled wall body is formwork erection device for batch production, its characterized in that includes:

the bottom template is horizontally arranged;

the vertical templates are vertically arranged on the bottom template and can slide along the length direction of the bottom template and can be locked; and

the side baffles are detachably arranged between two adjacent vertical templates and can slide along the width direction of the vertical templates;

the bottom surfaces of the vertical template and the side baffles are both contacted with the upper surface of the bottom template, and a mold cavity with an open top is formed by enclosing the bottom template, the two side baffles and the two vertical templates;

after the plurality of vertical templates are sequentially fixed close to one end of the bottom template, a section of die opening space is formed between the other end of the bottom template and the adjacent vertical template.

The further technical scheme is that the method further comprises the following steps:

and the plurality of splicing blocks are filled in the die cavity and can be spliced into a regular cuboid together with the wall to be produced.

The further technical scheme is that the method further comprises the following steps:

the demoulding plate is made of plastic materials and is detachably covered on the inner wall of the mould cavity.

A further technical scheme is that the wire box and/or the distribution box are/is fixed on the demoulding plate according to the design requirements of drawings, and the pipe position of the water and electricity installation line is drawn according to the design requirements of the drawings.

The further technical scheme is that the method further comprises the following steps:

the die carrier is provided with at least one sliding rail arranged along the length direction of the bottom template;

and the vertical template is provided with a pulley matched with the sliding rail.

The technical scheme is that two adjacent vertical templates are locked and fixed through a tensioning locking piece with adjustable length, and the tensioning locking piece is arranged on two sides of the width of each vertical template.

A further solution consists in that the tensioning lock comprises:

the tensioning rod comprises a sleeve and a pull rod connected to the sleeve in a threaded manner, the end part of the sleeve is rotatably fixed on a vertical template, and the tail end of the pull rod is provided with a positioning block with the edge protruding out of the pull rod; and

the lock seat is fixed on the other vertical template, a groove capable of radially accommodating the pull rod is formed in the top of the lock seat, and the positioning block can abut against the side face of the lock seat.

The further technical scheme is that the method further comprises the following steps:

four elevating system distribute in the bottom surface four corners of die block board, elevating system's top and die block board rotatable coupling.

The further technical scheme is that the method further comprises the following steps:

the support is arranged on the ground between the lifting mechanisms at the two ends;

the bottom template and the support are rotatably connected to form a fulcrum.

The further technical scheme is as follows: the die carrier is provided with an upper layer of slide rails and a lower layer of slide rails, each layer of slide rails is provided with two slide rails which are respectively arranged at two sides of the width direction of the vertical template, the slide rails at the upper layer are positioned at the middle upper part of the vertical template, and the slide rails at the lower layer are positioned at the bottom of the vertical template.

A method for mass production of fabricated wall bodies, comprising the steps of:

i, obtaining the production of the vertical mold device according to any one of the above items;

II, sequentially adjusting the sizes of the die cavities from one end of the bottom template and fixing the die cavities to ensure that each die cavity meets the design requirements of the wall drawing, and filling embedded parts into the die cavities in the process;

III, pouring concrete into the mold cavity in sequence from one end close to the mold opening space;

IV, opening the mould according to the sequence of pouring concrete, loosening the vertical template close to one side of the mould opening space, and lifting the formed wall from the top;

and V, pushing the demolded vertical template to one side of the mold opening space, repeating the steps to perform mold re-making, and realizing a production mode of demolding and molding at the same time.

The further technical scheme is that the step II comprises the following steps:

2.1 positioning a first die cavity, pushing a vertical die plate at the outer end to one end of the bottom die plate and fixing;

2.2 cutting the stripper plate, wherein the rest dimensions of the stripper plate are larger than the design requirements of the drawing of the wall body except that the width dimension of the stripper plate is equal to the design requirements of the width of the wall body;

2.3, fixing a wire box and/or a distribution box on the stripping plate according to the design requirements of the wall drawing, and drawing the pipe position of the water and electricity installation wire;

2.4, the stripper plate is attached and fixed on the die surface of the vertical die plate, so that the top of the stripper plate is aligned with the top of the vertical die plate;

2.5 filling the splicing blocks according to the design requirements of the wall drawing;

2.6 placing a reinforcement cage meeting the design requirements of a drawing into the filling cavity, and fixing a hydroelectric installation wire pipe on the reinforcement cage according to the pipe position of the hydroelectric installation wire drawn on the stripper plate;

2.7 selecting side baffles with proper width according to the design requirements of the wall drawing, installing the side baffles on the fixed vertical template, and adjusting the distance between the side baffles to enable the side baffles to abut against the two sides of the corresponding stripping plate;

2.8 abutting the vertical template on the other side against the corresponding side baffle and fixing, thereby completing the adjustment and fixation of the first die cavity;

and (3) sequentially adjusting the sizes of all the die cavities according to the steps 2.1-2.8, and fixing the embedded parts to be integrated to meet the design requirements of drawings, wherein in the step 2.5, the filled splicing blocks and the wall body to be molded are spliced into a regular cuboid matched with the die cavities.

The technical scheme is that when the vertical template needs to be moved, one end of the bottom template is lifted relative to the other end of the bottom template, so that the vertical template slides towards the lower end under the action of gravity.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

this found mould device can realize the batch production of template through setting up a plurality of die cavitys, reserves one section die sinking space moreover on the device, utilizes the die sinking space can realize the production mode of mould making while drawing of patterns, can abundant efficient utilization time and space, has improved the production efficiency of wall body greatly.

In this found mould device, the interval that constitutes the coexistence template of die cavity is adjustable, the interval of both sides baffle is adjustable, in addition, because the side shield can be torn open, still can place the piece of piecing together in the bottom of die cavity, thereby realize treating the thickness of filling the die cavity, width and height are adjusted, make its drawing design requirement that accords with the wall body, and, the combination of piecing together is filled and can also be formed the special-shaped die cavity of waiting to fill, through the production theory with the wall body of dysmorphism and the cuboid of piecing together into the rule, make this found mould device can produce the special-shaped wall body of arbitrary shape. This found mould device can produce the wall body of arbitrary specification, and the universal value is high, and the wall body size of producing through this found mould device need not to assemble during the construction by accurate meeting wall body drawing design requirement, has avoided the problem of plastering processing and fracture, also need not the cutting, and no waste material is extravagant, and is with low costs, has improved the efficiency of construction.

The vertical mold device is provided with the demolding plate, on one hand, the demolding plate can prevent the slurry from being adhered to the template, the demolding is convenient, the surface of the manufactured wall is flat, floating ash dirt and the like do not exist, so that the subsequent procedure of treating an interface agent when the demolding agent is used is reduced, the construction efficiency is further improved, and the production cost is saved; on the other hand, the stripper plate is used as a carrier for fixing the wire box and/or the distribution box, so that the position of the wire box and/or the distribution box is stable and fixed when slurry is poured, the positions of other embedded parts are drawn on the stripper plate in advance, a reference basis is provided for the installation positions of the subsequent embedded parts, all parameters of the manufactured wall body are enabled to be more in line with the design requirements of drawings, the embedded parts such as the wire box, the distribution box and water and electricity pipelines are integrated on the wall body during production, the secondary construction of later grooving is avoided, and the construction period is further shortened.

The four corners at the bottom of the device are also provided with lifting mechanisms, when the vertical template needs to be moved, one end of the bottom template is lifted, so that the vertical template to be moved slides towards the lower end under the action of gravity, the labor intensity of workers is reduced, and the efficiency of opening and closing the mold is improved.

Drawings

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

FIG. 1 is a front view of the mold erecting device;

FIG. 2 is a side sectional view of the present formwork erection apparatus;

figure 3 is a schematic view, partly in section, of the principal direction of the present formwork erection device.

Detailed Description

The technical solutions in the embodiments of the present invention are 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 some, not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1 to 3, the vertical mold device for mass production of assembled wall bodies according to the present disclosure can be used for mass production of wall panels of various specifications. The vertical mold device comprises a bottom template 1, a plurality of vertical templates 2 and a plurality of side baffles 3.

The bottom form 1 is horizontally disposed as a bottom support of the entire apparatus, and the size of the bottom form 1 may be set to 3m × 8 m. The vertical arrangement of polylith vertical template 2 locates on the die block board 1, vertical template 2 can slide and can lock along the length direction of die block board 1, and vertical template 2's size can set up to 3 mx 4m, can satisfy all wall body specifications that have now. Two side baffles 3 with the same width are detachably arranged between two adjacent vertical templates 2, and the side baffles 3 can slide along the width direction of the vertical templates 2. Specifically, the fixed channel-section steel of top accessible at vertical template 2 is formed with the spread groove, and the top setting of side shield 3 is colluded the couple that links with the spread groove, makes the gliding string of width direction on vertical template 2 of side shield 3 can be followed, and the fixed of side shield 3 is through two vertical template 2 clamp tightly realize fixedly.

The bottom surfaces of the vertical template 2 and the side baffle plates 3 are in contact with the upper surface of the bottom template 1, a mold cavity with an open top is formed by enclosing the bottom template 1, the two side baffle plates 3 and the two vertical template 2, and the inner wall of the mold cavity is a smooth mold surface.

And after the plurality of vertical templates 2 are fixed in sequence by one end of the bottom template 1, a section of mold opening space 4 with at least 1 meter is arranged between the other end of the bottom template 1 and the adjacent vertical template 2.

A method of mass producing fabricated wall bodies comprising the steps of:

i, obtaining the production of the vertical mold device;

II, sequentially adjusting the sizes of the die cavities from one end of the bottom template 1 and fixing the die cavities to ensure that each die cavity meets the design requirements of the wall drawing, and filling embedded parts into the die cavities in the process;

III, pouring concrete into the mold cavity in sequence from one end close to the mold opening space 4;

IV, opening the mould according to the sequence of pouring concrete, loosening the vertical template 2 close to one side of the mould opening space 4, and lifting the formed wall from the top;

and V, pushing the demolded vertical template 2 to one side of the mold opening space 4, repeating the steps to perform mold re-molding, and realizing a production mode of performing mold opening while demolding.

Because the design requirement still needs to reserve door head etc. part on the wall body, makes the wall body be the dysmorphism, is anomalous shape, consequently according to the production demand, the device still includes polylith piece 5, fills in the die cavity, can piece into regular cuboid with the wall body of waiting to produce.

This found mould device can realize the batch production of template through setting up a plurality of die cavitys, reserves one section die sinking space 4 moreover on the device, utilizes die sinking space 4 can realize the production mode of mould making while drawing of patterns, can abundant efficient utilization time and space, has improved the production efficiency of wall body greatly.

In this found mould device, the interval that constitutes the coexistence template of die cavity is adjustable, the interval of both sides baffle 3 is adjustable, in addition, because side baffle 3 can be torn open, still can place in the die cavity and piece 5, thereby realize treating the thickness of filling the die cavity, width and height are adjusted, make its drawing design requirement that accords with the wall body, and, the combination of piece 5 is filled and can also be formed the special-shaped die cavity of waiting to fill, through the production theory with the special-shaped wall body and 5 splice into the cuboid of rule of piecing together, make this found mould device can produce the special-shaped wall body of arbitrary shape. This found mould device can produce the wall body of arbitrary specification, and the universal value is high, and the wall body size of producing through this found mould device need not to assemble during the construction by accurate meeting wall body drawing design requirement, has avoided the problem of plastering processing and fracture, also need not the cutting, and no waste material is extravagant, and is with low costs, has improved the efficiency of construction.

In the device, the demoulding plate 6 is preferably adopted for demoulding, and the demoulding plate 6 is made of plastic materials and is detachably covered on the inner wall of the mould cavity. The top of the demoulding plate 6 can be provided with a flanging which is buckled on a single side of a connecting groove at the top of the vertical template and is fixed by a clamping piece 14 such as a clamp and the like. In addition, a wire box and/or a distribution box 61 is fixed on the stripping plate 6 according to the design requirement of a drawing, and a water and electricity installation wire pipe position 62 is drawn according to the design requirement of the drawing.

The step II comprises the following steps:

2.1 positioning a first die cavity, pushing a vertical die plate 2 at the outer end to one end of the bottom die plate 1 and fixing;

2.2 cutting the stripper plate 6, wherein the rest dimensions of the stripper plate 6 are larger than the design requirements of the drawing of the wall except that the width dimension of the stripper plate 6 is equal to the design requirements of the width of the wall, and the stripping treatment on the side baffle can be realized by arranging the stripper plate or coating a film agent;

2.3, fixing a wire box and/or a distribution box 61 on the stripping plate 6 according to the design requirements of the wall drawing, and drawing a pipe position 62 of a water and electricity installation line;

2.4, attaching and fixing the stripper plate 6 on the die surface of the vertical die plate 2, so that the top of the stripper plate 6 is aligned with the top of the vertical die plate 2;

2.5 filling the splicing blocks 5 matched with the wall thickness designed by the drawing according to the drawing design requirement of the wall, and stacking a plurality of the splicing blocks 5 on the bottom template or fixing the splicing blocks at required positions;

2.6 placing a reinforcement cage 12 meeting the design requirements of a drawing into the filling cavity, and fixing a hydropower installation wire pipe on the reinforcement cage 12 according to a hydropower installation wire pipe position 62 drawn on the stripper plate 6;

2.7 selecting side baffles 3 with proper width according to the design requirements of the wall drawing, installing the side baffles 3 on the fixed vertical template 2, and adjusting the distance between the side baffles 3 to enable the side baffles 3 to abut against the two sides of the corresponding stripping plate 6;

2.8, the vertical template 2 at the other side is tightly abutted against the corresponding side baffle 3 and fixed, so that the first die cavity is adjusted and fixed;

and (3) sequentially adjusting the sizes of all the die cavities according to the steps 2.1-2.8, and fixing the embedded parts to be integrated to meet the design requirements of drawings, wherein in the step 2.5, the filled split blocks 5 and the wall to be molded are spliced into regular cuboids matched with the die cavities. If the height of the stripper plate 6 is greater than the design requirements of the drawing, the segments are pressed against the bottom of the stripper plate 6 after the segments 5 are placed, so that the whole stripper plate 6 is in flat fit with the vertical die plate 2.

The reinforcement cage 12 comprises two reinforcement meshes according to design requirements, and the two reinforcement meshes are connected into a cuboid cage in the process, so that the strength is higher. In order to ensure that the position of the reinforcement cage 12 in the die cavity meets the drawing requirements, positioning ribs horizontally extend out of two sides of the reinforcement cage 12, and a set distance is kept between the reinforcement cage 12 and the vertical die plate 2. And a lifting ring 13 protruding out of the die cavity is fixed at the top of the reinforcement cage 12, so that the formed wall edge can be conveniently lifted out, and the lifting stability is higher.

The vertical mold device is provided with the demolding plate 6, on one hand, the demolding plate 6 can prevent the slurry from being adhered to the template, the demolding is convenient, the surface of the manufactured wall is smooth, floating ash dirt and the like are avoided, so that the subsequent procedure of treating an interface agent when the demolding agent is used is reduced, the construction efficiency is further improved, and the production cost is saved; on the other hand, the stripper plate 6 is used as a carrier for fixing the wire box and/or the distribution box 61, so that the position of the wire box and/or the distribution box 61 is stable and fixed when slurry is poured, the positions of other embedded parts are drawn on the stripper plate 6 in advance, a reference basis is provided for the installation positions of subsequent embedded parts, all parameters of the manufactured wall body are enabled to be more in line with the design requirements of drawings, the embedded parts such as the wire box, the distribution box and water and electricity pipelines are integrated on the wall body during production, the secondary construction of later grooving is avoided, and the construction period is further shortened.

The device also comprises a die carrier, the whole die carrier is a steel structure support, at least one sliding rail 7 arranged along the length direction of the bottom die plate 1 is arranged on the die carrier, and a pulley 8 matched with the sliding rail 7 is arranged on the vertical die plate 2. Preferably, be equipped with upper and lower two-layer slide rail 7 on the die carrier, every layer of slide rail 7 includes two slide rails 7, two slide rails 7 divide and arrange the both sides of erecting 2 width directions of template in, rotatable pulley 8 that is fixed with on erecting 2 template to guarantee the stability that erects 2 templates and carry out, wherein the slide rail 7 on upper strata is located the well upper portion of erecting 2 templates, erect 2 template and carry on the slide rail 7 on upper strata, the slide rail 7 on upper strata bears the main gravity of erecting 2 templates, the slide rail 7 of lower floor is located the bottom of erecting 2 templates, guarantee the gliding stationarity of erecting 2 templates.

The fixing mode of the vertical template 2 is various, and preferably, a locking piece with a tensioning function can be selected, so that the thickness of the die cavity can be accurately adjusted. Can lock fixedly through length adjustable taut latch fitting 9 between two adjacent perpendicular templates 2, taut latch fitting 9 is located the both sides of perpendicular template 2 width.

The tensioning locking piece 9 comprises a tensioning rod and a locking seat, the tensioning rod comprises a sleeve and a pull rod in threaded connection with the sleeve, the end part of the sleeve is rotatably fixed on a vertical template 2, and the tail end of the pull rod is provided with a positioning block with the edge protruding out of the pull rod. The lock seat is fixed on the other vertical template 2, a groove capable of radially accommodating the pull rod is formed in the top of the lock seat, and the positioning block can abut against the side face of the lock seat.

During locking, the length of the pre-adjusting tensioning locking piece 9 is larger than the required wall thickness size, then the tensioning rod is clamped in the groove of the lock seat, finally the tensioning rod is rotated inwards to the required size, and the positioning block is tightly abutted to the side face of the lock seat.

Four lifting mechanisms 10 are distributed at four corners of the bottom surface of the bottom template 1, the lifting mechanisms 10 can adopt structures such as oil cylinders, jacks and the like, and the top ends of the lifting mechanisms 10 are rotatably connected with the bottom template 1. When the vertical template 2 needs to be moved, one end of the bottom template 1 is lifted, so that the vertical template 2 slides to the lower end under the action of gravity. When the bottom template 1 is lifted, the sliding rails 7 are always parallel to the bottom template 1, and the die carrier and the bottom template 1 can be fixed into a whole.

In addition, after the lifting and tilting functions of the bottom form 1 are added, the fixing structure of the vertical form 2 needs to be added with the connection and fixation of the vertical form 2 and the bottom form 1 or the form frame, such as the connection of a pull rope, a pull rod and the like, besides using the tensioning lock 9, so as to prevent the vertical form 2 which does not need to be opened/closed from sliding.

The four corners at the bottom of the device are also provided with lifting mechanisms 10, when the vertical template 2 needs to be moved, one end of the bottom template 1 is lifted relative to the other end, so that the vertical template 2 to be moved slides towards the lower end under the action of gravity, the labor intensity of workers is reduced, and the efficiency of opening and closing the mold is improved. After the vertical formwork 2 is moved, the lifting mechanism 10 is adjusted before the concrete is poured, so that the bottom formwork is adjusted to be in a horizontal state.

In addition, a support 11 is arranged on the ground between the lifting mechanisms 10 at the two ends, the bottom template 1 and the support 11 are rotatably connected to form a fulcrum, the position of the support 11 can be set according to the actual stress condition, when the vertical template 2 needs to be moved, the lifting mechanism is opened, one end of the lifting mechanism is lifted, the other end of the lifting mechanism is synchronously lowered, and the die carrier and the bottom template 1 are integrally inclined. The force output of the lifting mechanism 10 can be reduced by providing the fulcrum.

The above is only the preferred embodiment of the present invention, and any person can make some simple modifications, deformations and equivalent replacements according to the present invention, all fall into the protection scope of the present invention.

Claims (10)

1. Assembled wall body is formwork erection device for batch production, its characterized in that includes:

the bottom template (1) is horizontally arranged;

the vertical templates (2) are vertically arranged on the bottom template (1), and the vertical templates (2) can slide along the length direction of the bottom template (1) and can be locked; and

the side baffles (3) are detachably arranged between two adjacent vertical templates (2), and the side baffles (3) can slide along the width direction of the vertical templates (2);

the bottom surfaces of the vertical template (2) and the side baffles (3) are in contact with the upper surface of the bottom template (1), and a mold cavity with an open top is formed by enclosing the bottom template (1), the two side baffles (3) and the two vertical templates (2);

after the plurality of vertical templates (2) are sequentially fixed close to one end of the bottom template (1), a mold opening space (4) is formed between the other end of the bottom template (1) and the adjacent vertical template (2).

2. A formwork apparatus as claimed in claim 1, further comprising:

and the splicing blocks (5) are filled in the die cavity and can be spliced with a wall body to be produced into a regular cuboid.

3. A formwork apparatus as claimed in claim 1, further comprising:

the demoulding plate (6) is made of plastic materials and is detachably covered on the inner wall of the mould cavity.

4. The vertical mould device according to claim 3, characterized in that the stripper plate (6) is provided with a cable box and/or a distribution box (61) according to the design requirements of the drawing and is provided with a water and electricity installation wire pipe position (62) according to the design requirements of the drawing.

5. A formwork apparatus as claimed in claim 1, further comprising:

the die carrier is provided with at least one slide rail (7) arranged along the length direction of the bottom die plate (1);

the vertical template (2) is provided with a pulley (8) matched with the sliding rail (7).

6. A formwork erection device as claimed in claim 1, wherein adjacent two vertical formworks (2) are locked and fixed by a tensioning lock (9) with adjustable length, and the tensioning lock (9) is arranged at both sides of the width of the vertical formworks (2).

7. Formwork apparatus as claimed in claim 6, characterized in that said tensioning lock (9) comprises:

the tensioning rod comprises a sleeve and a pull rod connected to the sleeve in a threaded manner, the end part of the sleeve is rotatably fixed on a vertical template (2), and the tail end of the pull rod is provided with a positioning block with the edge protruding out of the pull rod; and

the lock seat is fixed on the other vertical template (2), a groove capable of radially accommodating the pull rod is formed in the top of the lock seat, and the positioning block can abut against the side face of the lock seat.

8. A formwork apparatus as claimed in claim 1, further comprising:

four elevating system (10) distribute in the bottom surface four corners of die block board (1), elevating system's (10) top and die block board (1) rotatable coupling.

9. The formwork apparatus defined in claim 8, further comprising:

the support (11) is arranged on the ground between the lifting mechanisms (10) at the two ends;

the bottom template (1) and the support (11) are rotatably connected to form a fulcrum.

10. The mould erecting device according to claim 5, wherein the mould frame is provided with an upper layer of slide rails (7) and a lower layer of slide rails (7), each layer of slide rails (7) is provided with two slide rails which are respectively arranged at two sides of the vertical template (2) in the width direction, the slide rails (7) at the upper layer are positioned at the middle upper part of the vertical template (2), and the slide rails (7) at the lower layer are positioned at the bottom of the vertical template (2).

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