CN113084977A

CN113084977A - Low-carbon cement foaming board forming die and water mist film covering system

Info

Publication number: CN113084977A
Application number: CN202110371528.XA
Authority: CN
Inventors: 耿傲
Original assignee: Hangzhou Yongjin Construction Engineering Co ltd
Current assignee: Hangzhou Yongjin Construction Engineering Co ltd
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2021-07-09

Abstract

The invention belongs to the technical field of building materials, provides a low-carbon cement foam board forming die and a water mist film covering system, and belongs to the technical field of building materials. The cement foaming plate pre-pouring device solves the problems that an existing cement foaming plate mostly adopts a preparation mode of firstly injecting water into a forming groove to form a film before pouring, the spread film generates a large number of folds, the surface of the formed cement foaming plate generates grains and unevenness, and the forming groove is in a corner sealing state, so that a film generates a large number of piles at four corners of the forming groove, four corners of the formed cement foaming plate are uneven, secondary cutting is needed, and the waste of resources of the foaming plate is caused. This low carbon cement foaming board forming die and water smoke tectorial membrane system, including the handle, the preceding terminal surface of handle is equipped with two backup pads. When the low-carbon cement foam board forming die and the water mist film covering system are used, the surface of a foam board can be effectively prevented from generating lines, and the four corners of the foam board are not uniform after the foam board is formed.

Description

Low-carbon cement foaming board forming die and water mist film covering system

Technical Field

The invention belongs to the technical field of building materials, and relates to a low-carbon cement foam board forming die and a water mist film covering system.

Background

The cement foaming board is formed by stirring, mixing and pouring foam prepared by using a foaming agent and cement, and curing the mixture to form the cement-based lightweight porous inorganic fireproof heat-insulation board, the combustion performance of the cement foaming board is A1 level, and the cement foaming board is an optimal product applied to a fireproof isolation strip.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a low-carbon cement foam board forming die and a water mist film covering system.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a low carbon cement foaming board forming die and water smoke tectorial membrane system, includes the handle, the preceding terminal surface of handle is equipped with two backup pads, two a lateral surface that the handle central line was kept away from to the backup pad is equipped with two wheels respectively, two be equipped with water smoke mechanism, two between the backup pad be equipped with vibration mechanism, two between the backup pad be equipped with plastic mechanism between the backup pad.

Preferably, the water mist mechanism comprises first electromagnetic slide ways which are arranged on each support plate and close to the direction of the central line of the handle, each first electromagnetic slide way is connected with a first magnetic slide block in a sliding mode, a film cylinder is arranged between the two first magnetic slide blocks, and a water mist box located below the film cylinder is sleeved on the film cylinder.

Preferably, the vibration mechanism comprises second electromagnetic slideways arranged in the direction of each support plate close to the central line of the handle, each second electromagnetic slideway is connected with a second magnetic slider in a sliding manner, a connecting rod is arranged between the two second magnetic sliders, two hydraulic cylinders are arranged on the lower end face of the connecting rod, the lower ends of piston rods of the two hydraulic cylinders are fixedly connected with a control box, the lower end of the control box is fixedly connected with two positioning plates, a rotating shaft is rotatably connected between the two positioning plates, a rotating plate is sleeved on the rotating shaft, a first belt pulley is sleeved on one end, away from the central point of the rotating shaft, of the rotating plate on the rotating shaft, an air cavity is arranged at the lower end of the rotating plate, a pressing plate is connected in the air cavity in a sliding manner, two pressing plate springs are arranged between the pressing plate and the bottom end of the air, the left side and the right side of the control box are respectively provided with a side plate assembly, and a transmission assembly is arranged between each side plate assembly and the rotating shaft.

As preferred, transmission assembly establishes including the cover change epaxial first belt pulley, it settles the chamber to inject in the control box, it is connected with the pivot that extends to external space to settle one side inner wall rotation that the chamber is close to the control box center lead, the cover is equipped with the second belt pulley in the pivot, the second belt pulley with transmission is connected with the belt between first belt pulley, lie in the pivot one side cover that the center lead was kept away from to the second belt pulley is equipped with the ratchet plectrum, it is located the pivot below rotation and is connected with the ratchet shaft to settle one side inner wall that the chamber was kept away from the control box center lead, the epaxial cover of ratchet be equipped with ratchet plectrum complex ratchet, the epaxial cover of ratchet is equipped with the reel, the cover is equipped with the guide bar in the part.

As preferred, the curb plate subassembly is established including the cover the axle sleeve on the drive assembly guide bar, the arc slide has been seted up in the axle sleeve, the arc slide is kept away from one side inner wall of guide bar central point and has been seted up the arc wall, arc slide sliding connection have one end with the arc slider that the drive assembly guide bar linked firmly, the arc slider with be equipped with the arc slider spring between the bottom of arc slide, the arc slider is close to the one end of arc wall and has been seted up the spacing groove, spacing inslot sliding connection have with arc wall complex spacing ball, spacing ball with be equipped with spacing ball spring between the bottom of spacing groove, spacing ball with the transmission is connected with the stay cord between the drive assembly reel.

As preferred, plastic mechanism includes the shaping groove, the left and right sides in shaping groove is equipped with two baffle subassemblies respectively, the baffle subassembly is including linking firmly two optical axis boards of shaping groove side end face, two the optical axis inter-plate is rotated through the torsional spring and is connected with the optical axis, the cover is equipped with the baffle on the optical axis, the slide rail has been seted up respectively to both sides terminal surface around the baffle, every sliding connection has the slide bar in the slide rail, the slide bar with be equipped with the slide bar spring between the bottom of slide rail, the slide bar with the transmission is connected with the driving rope between the optical axis.

The working principle is as follows:

before water mist film covering is carried out, a plastic film barrel is sleeved on the film barrel, a shaping groove is positioned between two supporting plates, a connecting rod and the film barrel are positioned right ahead of the shaping groove, one end of the plastic film is fixed, a first electromagnetic slide way of a starting device controls a first magnetic slide block to slide towards a direction close to a handle, the plastic film is unfolded above the shaping groove at a constant speed by pulling the film barrel in the sliding process of the first magnetic slide block, meanwhile, water in a water mist box is sprayed below the film in a water mist mode, the phenomenon that the water is directly sprayed into the groove and the spraying amount is difficult to control, so that the phenomenon that the film is disordered in an early groove is caused is avoided;

when the first magnetic slide block slides, the second electromagnetic slide way controls the second magnetic slide block to synchronously slide, namely the second magnetic slide block drives the connecting rod and the film barrel to synchronously slide towards the direction close to the handle;

when a film covering the water surface is contacted with the bottom end of the shaping groove, the film is pasted at the bottom end of the shaping groove through the pressing plate, the film pressing effect is improved by increasing the contact area with the film along with the continuous downward movement of a piston rod of the hydraulic cylinder, the rotating plate is driven to rotate between the two positioning plates through the rotating shaft, the rotating shaft is driven to rotate through the transmission among the first belt pulley, the belt and the second belt pulley, the scraper is driven to synchronously rotate through the guide rod and the shaft sleeve when the rotating shaft rotates, the ratchet poking piece cannot poke the ratchet to rotate at the moment, when the piston rod of the hydraulic cylinder moves upwards, the rotating plate after rotating is reset at the moment, the pressing plate can be driven to carry out certain scraping test on the pasted film in the resetting process of the rotating plate so as to ensure the flatness of the film, and the rotating plate drives the rotating shaft to reversely rotate through the transmission among the first belt pulley, the belt and, at the moment, the ratchet poking piece can poke the ratchet to rotate, and the ratchet drives the winding wheel to rotate through the ratchet shaft when rotating;

when the reel rotates, the stay cord is wound, the stay cord pulls the limiting ball to slide into the limiting groove, so that the limiting of the shaft sleeve on the guide rod disappears, the shaft sleeve drives the scraper to rotate on the guide rod in the direction close to the baffle under the action of the arc-shaped slider spring, and the film on the baffle is extruded and scraped through the scraper;

when the hydraulic cylinder piston rod controls the control box to approach to the bottom end of the shaping groove, the two scrapers are respectively contacted with the two baffles, the two scrapers push the two baffles to rotate on the optical axis in the direction away from the shaping groove, the left end and the right end of the shaping groove are controlled to be unfolded and opened, the baffles rotate and pull the transmission rope at the same time, so that the transmission rope drives the slide rod to slide towards the inside of the slide rail and compresses a slide rod spring to store force, when the hydraulic cylinder is lifted and disconnected to be in contact with the baffles, the baffles are reset to cancel pulling the transmission rope, the slide bar is pushed to slide towards the outside of the slide rail under the action of the slide bar spring, the four corner films of the whole groove, which are contacted with the baffle, are pushed towards the outside of the whole groove through the slide bar, namely, four corners of the film in the whole groove are controlled to be positioned outside the whole groove, so that the film in the whole groove is controlled to be in a flat state, the film at the four corners in the integral groove is prevented from being accumulated, so that the four corners of the formed foam board are irregular.

Compared with the prior art, this low carbon cement foaming board forming die and water smoke tectorial membrane system have following advantage:

1. due to the design of the vibration mechanism, when the hydraulic cylinder drives the control box to approach the bottom end of the shaping groove, the pressing plate is extruded to slide towards the air cavity, the air in the air cavity is discharged through the first vent valve in the sliding process of the pressing plate, a certain air interlayer is generated between the lower end surface of the pressing plate and the film, the friction between the pressing plate and the film is reduced, the film is prevented from being pasted on the pressing plate and covered by a hard film, when the film covering the water surface is contacted with the bottom end of the shaping groove, the film is pasted at the bottom end of the shaping groove through the pressing plate, the rotating plate rotates between the two positioning plates through the rotating shaft along with the continuous downward movement of the piston rod of the hydraulic cylinder, the film pressing effect is improved by increasing the contact area with the film, when the piston rod of the hydraulic cylinder moves upwards, the rotating plate after rotating resets at the moment, and the rotating plate can drive the pressing plate to conduct certain scraping test on the attached film in the resetting process so as to ensure the flatness of the film.

2. Due to the design of the vibration mechanism, when the reel rotates, the pull rope is wound, the transmission control shaft sleeve of the pull rope drives the scrapers to rotate on the guide rod in the direction close to the baffle, namely, the scrapers extrude and scrape the film on the baffle, when the hydraulic cylinder piston rod control box is close to the bottom end of the shaping groove, the two scrapers push the two baffles to rotate on the optical axis in the direction away from the shaping groove, the left end and the right end of the shaping groove are controlled to be opened, the baffle rotates and pulls the transmission rope simultaneously, so that the slide rod slides towards the inside of the slide rail, when the hydraulic cylinder is lifted and disconnected to be contacted with the baffle, the baffle resets and cancels the pulling of the transmission rope, the slide rod is pushed to slide towards the outside of the slide rail under the action of the slide rod spring, the four-corner film in contact with the baffle is pushed towards the outside of, the film in the whole groove is controlled to be in a flat state, and the film accumulation at the four corners in the whole groove is avoided, so that the irregular condition of the four corners of the formed foam plate is avoided.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of the low-carbon cement foam board forming die and the water mist film covering system.

Fig. 2 is a front view of the invention in fig. 1.

Fig. 3 is a right side sectional view of the film cartridge 105 of fig. 2 according to the present invention.

Fig. 4 is a sectional view taken along the line a-a of fig. 1 according to the present invention.

Fig. 5 is a partially enlarged view of the invention at B in fig. 4.

Fig. 6 is an enlarged partial schematic view at C of fig. 4 of the present invention.

Fig. 7 is a top cross-sectional view of the sleeve 144 of fig. 6 in accordance with the present invention.

Fig. 8 is a top sectional view of the component block 157 of fig. 2 in accordance with the present invention.

In the figure, a supporting plate 100, a wheel 101, a handle 102, a first magnetic slide way 103, a first magnetic slide block 104, a film tube 105, a water mist box 107, a second magnetic slide way 109, a second magnetic slide block 110, a connecting rod 111, a hydraulic cylinder 112, a control box 114, a shaping groove 115, a slide rail 116, a slide rod 117, a slide rod spring 118, a driving rope 119, an air cavity 123, a pressing plate 124, a pressing plate spring 125, a first ventilation valve 126, a second ventilation valve 127, a rotating plate 128 and a positioning plate 129, the device comprises a rotating shaft 130, a first belt pulley 131, a mounting cavity 132, a rotating shaft 135, a second belt pulley 137, a belt 138, a ratchet plectrum 139, a ratchet shaft 140, a reel 141, a ratchet 142, a guide rod 143, a shaft sleeve 144, an arc-shaped slide way 145, an arc-shaped groove 146, an arc-shaped slide block 147, a limiting groove 148, a limiting ball 149, a limiting ball spring 150, an arc-shaped slide block spring 152, a scraper 153, a pull rope 154, an optical axis plate 155, an optical axis 156 and a baffle 157.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, a low-carbon cement foam board forming die and a water mist laminating system include a handle 102, two support plates 100 are disposed on a front end surface of the handle 102, two wheels 101 are disposed on end surfaces of two support plates 100, which are away from a central line of the handle 102, respectively, a water mist mechanism is disposed between the two support plates 100, a vibration mechanism is disposed between the two support plates 100, and a shaping mechanism is disposed between the two support plates 100.

As shown in fig. 1 and 3, the water mist mechanism includes first electromagnetic slides 103 provided on each support plate 100 in a direction close to a center line of the handle 102, a first magnetic slider 104 is slidably connected in each first electromagnetic slide 103, a film tube 105 is provided between the two first magnetic sliders 104, and a water mist tank 107 located below the film tube 105 is sleeved on the film tube 105.

As shown in fig. 1, 4 and 5, the vibration mechanism includes a second electromagnetic slide 109 provided in each support plate 100 and close to the central line direction of the handle 102, a second magnetic slider 110 is slidably connected in each second electromagnetic slide 109, a connecting rod 111 is provided between the two second magnetic sliders 110, two hydraulic cylinders 112 are provided on the lower end surface of the connecting rod 111, a control box 114 is fixedly connected to the lower end of the piston rods of the two hydraulic cylinders 112, two positioning plates 129 are fixedly connected to the lower end of the control box 114, a rotating shaft 130 is rotatably connected between the two positioning plates 129, a rotating plate 128 is sleeved on the rotating shaft 130, a first belt pulley 131 is sleeved on the rotating shaft 130 at the end of the rotating plate 128 far from the central point of the rotating shaft 130, an air cavity 123 is provided at the lower end of the rotating plate 128, a pressing plate 124 is slidably connected in the air cavity 123, two pressing plate springs 125 are provided between the pressing plate 124 and the, the left and right sides of the control box 114 are respectively provided with a side plate assembly, and a transmission assembly is arranged between each side plate assembly and the rotating shaft 130.

As shown in fig. 4 and 6, the transmission assembly includes a first belt pulley 131 sleeved on the rotating shaft 130, a placement cavity 132 is defined in the control box 114, a rotating shaft 135 extending to an external space is rotatably connected to an inner wall of one side of the placement cavity 132 close to a center line of the control box 114, a second belt pulley 137 is sleeved on the rotating shaft 135, a belt 138 is drivingly connected between the second belt pulley 137 and the first belt pulley 131, a ratchet dial 139 is sleeved on one side of the rotating shaft 135, which is located on the second belt pulley 137 and away from the center line of the control box 114, a ratchet shaft 140 is rotatably connected below the rotating shaft 135, a ratchet 142 engaged with the ratchet dial 139 is sleeved on the ratchet shaft 140, a winding wheel 141 is sleeved on the ratchet shaft 140, and a guide rod 143 is sleeved on a portion of the rotating shaft 135, which is located in the external space.

As shown in fig. 4 and 7, the side plate assembly includes a shaft sleeve 144 sleeved on the guide rod 143 of the transmission assembly, an arc-shaped slide way 145 is provided in the shaft sleeve 144, an arc-shaped groove 146 is provided on an inner wall of one side of the arc-shaped slide way 145, which is far away from the central point of the guide rod 143, an arc-shaped slide block 147, one end of which is fixedly connected with the guide rod 143 of the transmission assembly, is slidably connected in the arc-shaped slide way 145, an arc-shaped slide block spring 152 is provided between the bottom ends of the arc-shaped slide block 147 and the arc-shaped slide way 145, a limit groove 148 is provided at one end of the arc-shaped slide block 147, which is close to the arc-shaped groove 146, a limit ball 149 matched with the arc-shaped groove 146 is slidably connected in the limit.

As shown in fig. 2, 4 and 8, the shaping mechanism includes a shaping groove 115, two baffle assemblies are respectively disposed on the left side and the right side of the shaping groove 115, each baffle assembly includes two optical axis plates 155 fixedly connected to the side end face of the shaping groove 115, an optical axis 156 is rotatably connected between the two optical axis plates 155 through a torsion spring, a baffle 157 is sleeved on the optical axis 156, slide rails 116 are respectively disposed on the front side end face and the rear side end face of the baffle 157, a slide bar 117 is slidably connected to each slide rail 116, a slide bar spring 118 is disposed between the bottom ends of the slide bars 117 and the slide rails 116, and a transmission rope 119 is drivingly connected between the slide bars.

The working principle is as follows:

before water mist film covering is carried out, a plastic film cylinder is sleeved on a film cylinder 105, a whole-shaped groove 115 is positioned between two supporting plates 100, a connecting rod 111 and the film cylinder 105 are positioned right ahead of the whole-shaped groove 115, one end of a plastic film is fixed, a first electromagnetic slide way 103 of a starting device controls a first magnetic slide block 104 to slide towards a direction close to a handle 102, the plastic film is unfolded above the whole-shaped groove 115 at a constant speed by pulling the film cylinder 105 in the sliding process of the first magnetic slide block 104, meanwhile, water in a water mist box 107 is sprayed below the film in a water mist mode, the phenomenon that the water is directly sprayed into the groove and the water spraying amount is difficult to control, so that the phenomenon that the film is disordered in the early groove is caused is avoided;

when the first magnetic slider 104 slides, the second electromagnetic slide 109 controls the second magnetic slider 110 to slide synchronously, that is, the second magnetic slider 110 drives the connecting rod 111 and the film barrel 105 to slide synchronously in a direction close to the handle 102, when the connecting rod 111 slides, the control box 114 is driven by the extension of the hydraulic cylinder 112 to press down the unfolded film to the shaping groove 115, when the control box 114 approaches the bottom end of the shaping groove 115, the pressing plate 124 is pressed to slide into the air cavity 123, and in the sliding process of the pressing plate 124, the air in the air cavity 123 is discharged through the first vent valve 126, so that a certain air interlayer is generated between the lower end surface of the pressing plate 124 and the film, the friction between the pressing plate 124 and the film is reduced, and the film is prevented from being attached to the pressing plate 124 and affecting the covering of the film;

when the film covering the water surface contacts with the bottom end of the shaping groove 115, the film is pasted at the bottom end of the shaping groove 115 through the pressing plate 124, the rotating plate 128 rotates between the two positioning plates 129 through the rotating shaft 130 along with the continuous downward movement of the piston rod of the hydraulic cylinder 112, the film pressing effect is improved by increasing the contact area with the film, the rotating shaft 130 drives the rotating shaft 135 to rotate through the transmission among the first belt pulley 131, the belt 138 and the second belt pulley 137 when rotating, the rotating shaft 135 drives the scraping plate 153 to synchronously rotate through the guide rod 143 and the shaft sleeve 144 when rotating, the ratchet poking piece 139 cannot poke the ratchet 142 to rotate, when the piston rod of the hydraulic cylinder 112 moves upwards, the rotating plate 128 after rotating at the moment resets, the rotating plate 128 can drive the pressing plate 124 to scrape the pasted film to a certain degree in the resetting process to ensure the flatness of the film, and the rotating plate 128 drives the rotating shaft 130 to reversely rotate through the first belt pulley 131 when the, The transmission between the belt 138 and the second belt wheel 137 controls the rotating shaft 135 to rotate reversely, at this time, the ratchet poking piece 139 can poke the ratchet wheel 142 to rotate, and the ratchet wheel 142 drives the reel 141 to rotate through the ratchet wheel shaft 140 when rotating;

when the reel 141 rotates, the pull rope 154 is wound, the limit ball 149 is pulled by the pull rope 154 to slide into the limit groove 148, so that the limit of the shaft sleeve 144 on the guide rod 143 disappears, the shaft sleeve 144 drives the scraper 153 to rotate on the guide rod 143 in the direction close to the baffle 157 under the action of the arc-shaped slider spring 152, and the thin film on the baffle 157 is extruded and scraped by the scraper 153;

when the piston rod control box 114 of the hydraulic cylinder 112 approaches the bottom end of the shaping groove 115, the two scrapers 153 are respectively contacted with the two baffles 157, the two scrapers 153 push the two baffles 157 to rotate on the optical axis 156 in the direction away from the shaping groove 115, the left and right ends of the shaping groove 115 are controlled to be opened, the baffles 157 rotate and pull the driving rope 119 at the same time, so that the driving rope 119 drives the sliding rod 117 to slide towards the inside of the sliding rail 116 and compress the sliding rod spring 118 to accumulate force, when the hydraulic cylinder 112 is lifted and disconnected from contacting with the baffles 157, the baffles 157 are reset to cancel pulling the driving rope 119, the sliding rod 117 is pushed to slide towards the outside of the sliding rail 116 under the action of the sliding rod spring 118, the four-corner film contacting with the baffles 157 of the shaping groove 115 is pushed towards the outside of the shaping groove 115 through the sliding rod 117, namely, the four corners of the film in the shaping groove 115 are controlled to, the film accumulation at the four corners in the integral groove 115 is avoided, so that the four corners of the formed foam board are irregular.

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 low carbon cement foaming board forming die and water smoke tectorial membrane system, includes handle (102), the preceding terminal surface of handle (102) is equipped with two backup pads (100), two a side end face that handle (102) central line was kept away from in backup pad (100) is equipped with two wheels (101) respectively, its characterized in that: a water mist mechanism is arranged between the two support plates (100), a vibration mechanism is arranged between the two support plates (100), and a shaping mechanism is arranged between the two support plates (100).

2. The low-carbon cement foam board forming die and the water mist film covering system as claimed in claim 1, wherein: the water mist mechanism comprises first electromagnetic slide ways (103) which are arranged on each support plate (100) and close to the direction of the central line of the handle (102), each first electromagnetic slide way (103) is internally and slidably connected with a first magnetic slide block (104), two film tubes (105) are arranged between the first magnetic slide blocks (104), and water mist boxes (107) which are positioned below the film tubes (105) are sleeved on the film tubes (105).

3. The low-carbon cement foam board forming die and the water mist film covering system as claimed in claim 1, wherein: the vibration mechanism comprises second electromagnetic slide ways (109) which are arranged on each support plate (100) and are close to the direction of the central line of the handle (102), each second electromagnetic slide way (109) is internally and slidably connected with a second magnetic slider (110), a connecting rod (111) is arranged between the two second magnetic sliders (110), two hydraulic cylinders (112) are arranged on the lower end face of the connecting rod (111), the lower ends of piston rods of the two hydraulic cylinders (112) are fixedly connected with a control box (114), the lower end of the control box (114) is fixedly connected with two positioning plates (129), two rotating shafts (130) are rotatably connected between the two positioning plates (129), rotating plates (128) are sleeved on the rotating shafts (130), a first belt pulley (131) is sleeved on one end of the rotating shafts (130) which is far away from the central point of the rotating shaft (130) and positioned on the rotating plate (128), and air cavities (123), the pneumatic control valve is characterized in that a pressing plate (124) is connected in the air cavity (123) in a sliding mode, two pressing plate springs (125) are arranged between the pressing plate (124) and the bottom end of the air cavity (123), a plurality of first vent valves (126) and second vent valves (127) are alternately arranged in the pressing plate (124) at intervals, side plate assemblies are respectively arranged on the left side and the right side of the control box (114), and a transmission assembly is arranged between each side plate assembly and the rotating shaft (130).

4. The low-carbon cement foam board forming die and the water mist film covering system as claimed in claim 3, wherein: the transmission assembly comprises a first belt pulley (131) sleeved on the rotating shaft (130), a placement cavity (132) is limited in the control box (114), one side inner wall of the placement cavity (132) close to the central line of the control box (114) is rotatably connected with a rotating shaft (135) extending to the external space, a second belt pulley (137) is sleeved on the rotating shaft (135), a belt (138) is in transmission connection between the second belt pulley (137) and the first belt pulley (131), one side of the rotating shaft (135) far away from the central line of the control box (114) is sleeved with a ratchet poking piece (139), one side inner wall of the placement cavity (132) far away from the central line of the control box (114) is positioned below the rotating shaft (135) and is rotatably connected with a ratchet shaft (140), and a ratchet wheel (142) matched with the ratchet poking piece (139) is sleeved on the ratchet shaft (140), a reel (141) is sleeved on the ratchet shaft (140), and a guide rod (143) is sleeved on the part, located in the external space, of the rotating shaft (135).

5. The low-carbon cement foam board forming die and the water mist film covering system as claimed in claim 4, wherein: the side plate assembly comprises a shaft sleeve (144) sleeved on the transmission assembly guide rod (143), an arc slide way (145) is arranged in the shaft sleeve (144), an arc-shaped groove (146) is formed in the inner wall of one side, away from the center point of the guide rod (143), of the arc-shaped slide way (145), an arc-shaped sliding block (147) with one end fixedly connected with the transmission assembly guide rod (143) is connected in the arc-shaped slide way (145) in a sliding mode, an arc-shaped sliding block spring (152) is arranged between the arc-shaped sliding block (147) and the bottom end of the arc-shaped slide way (145), a limiting groove (148) is formed in one end, close to the arc-shaped groove (146), of the arc-shaped sliding block (147), a limiting ball (149) matched with the arc-shaped groove (146) is connected in the limiting groove (148) in a sliding mode, a limiting ball spring (150) is arranged between the limiting ball (149) and the bottom end of the, the lower end of the shaft sleeve (144) is provided with a scraper (153).

6. The low-carbon cement foam board forming die and the water mist film covering system as claimed in claim 1, wherein: the shaping mechanism comprises a shaping groove (115), and the left side and the right side of the shaping groove (115) are respectively provided with two baffle plate assemblies; the baffle subassembly is including linking firmly two optical axis boards (155) of whole groove (115) side end face, two be connected with optical axis (156) through the torsional spring rotation between optical axis board (155), the cover is equipped with baffle (157) on optical axis (156), slide rail (116), every have been seted up respectively to both sides terminal surface around baffle (157) sliding connection has slide bar (117) in slide rail (116), slide bar (117) with be equipped with slide bar spring (118) between the bottom of slide rail (116), slide bar (117) with the transmission is connected with driving rope (119) between optical axis (156).