CN215038666U - Automatic forming system for concrete building blocks - Google Patents

Abstract

The utility model belongs to the technical field of the concrete block production technique and specifically relates to indicate an automatic molding system for concrete block, including residual gas recovery unit includes intake pipe, filter equipment, cooling device and exhaust apparatus, the intake pipe with the air entrainment device intercommunication filter equipment set up in the intake pipe with between the cooling device, exhaust apparatus install in cooling device's output, the intake pipe can be dismantled and be provided with the air discharge fan, the blast pipe is used for absorbing the residual gas and passes through the residual gas the intake pipe transmits to filter equipment filters, cooling device is used for absorbing the heat of the residual gas after filtering, exhaust apparatus is used for discharging the residual gas after the cooling to the external world. The utility model discloses a can dismantle the setting to air discharge fan and intake pipe for the air discharge fan can pull down fast in the intake pipe, thereby convenient to use person washs and maintains, has promoted efficiency and has reduced the risk of meeting accident.

Description

Automatic forming system for concrete building blocks

Technical Field

The utility model belongs to the technical field of the concrete block production technique and specifically relates to indicate an automatic molding system for concrete block.

Background

At present, in order to save cost, the production and molding of the concrete block also enter an automatic stage, namely processes of raw material stirring, injection mold molding, autoclaved aeration, residual gas treatment and the like of the concrete block are automatically completed through mechanical cooperation. In the existing concrete block forming system, the other air treatment devices are usually integrated, so that if the exhaust fan frequently contacted with the residual air needs to be cleaned due to excessive attachments, the exhaust fan needs to be manually held by a water pipe to spray and wash the exhaust fan, and the mode is not only low in efficiency, but also easy to cause accidents.

Disclosure of Invention

The utility model discloses problem to prior art provides an automatic molding system for concrete block, can realize the quick washing and the maintenance of air discharge fan.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a pair of an automatic molding system for concrete block, including feed arrangement, agitating unit, forming device, mobile device, air entrainment device and residual gas recovery unit, feed arrangement is used for to agitating unit input material, agitating unit is used for stirring the material and forms the thick liquids, forming device is used for letting the thick liquids shaping be concrete block, mobile device is used for transferring concrete block to the air entrainment device evaporates and presses the gassing, residual gas recovery unit is used for retrieving the residual gas in the air entrainment device;

the exhaust device comprises an exhaust pipe and an exhaust pump, the exhaust pipe is communicated with the filtering device, and the exhaust pump is used for discharging the gas filtered in the filtering device to the outside;

the residual gas recovery unit includes intake pipe, filter equipment, cooling device and exhaust apparatus, the intake pipe with the air entrainment device intercommunication, filter equipment set up in the intake pipe with between the cooling device, exhaust apparatus install in cooling device's output, the intake pipe can be dismantled and be provided with the air discharge fan, the blast pipe is used for absorbing the residual gas and passes through the residual gas the intake pipe transmits extremely filter equipment filters, cooling device is used for absorbing the heat of the residual gas after filtering, exhaust apparatus is used for discharging the residual gas after the cooling to the external world.

Furthermore, the air inlet pipe is provided with an installation position, two sides of the installation position are respectively provided with a sliding groove, two sides of the exhaust fan are respectively provided with a sliding strip, and the sliding strips are in one-to-one corresponding sliding connection with the sliding grooves; the top and the bottom of the exhaust fan are respectively provided with a mounting plate, and the mounting plates are connected with the exhaust pipe through screws.

Furthermore, the top of installation position is provided with the jam plate, the air discharge fan is located between two jam plates, two mounting panels all with the connection can be dismantled to the air discharge fan, and two jam plates are located between two mounting panels, and jam plate and mounting panel pass through screwed connection one by one.

Furthermore, the filtering device comprises a filtering shell, two partition plates are arranged in the filtering shell at intervals, the two partition plates are used for dividing the filtering shell into a first filtering chamber, a second filtering chamber and a third filtering chamber which are sequentially arranged, the first filtering chamber, the second filtering chamber and the third filtering chamber are respectively filled with filtering media with sequentially increased filtering precision, and the first filtering chamber and the third filtering chamber are respectively provided with an air inlet and an air outlet; the partition plate is provided with air holes.

Furthermore, the first filter chamber, the second filter chamber and the third filter chamber are respectively provided with a door.

Furthermore, cooling device includes cooling tube and circulating pump, the cooling tube around locating filter shell's periphery, the both ends of cooling tube respectively with the both ends intercommunication of circulating pump, the cooling tube loading has coolant.

Furthermore, the stirring device is arranged on the support frame, the moving device is arranged below the stirring device after the support frame passes through the moving device, and the forming device is movably arranged on the moving device.

The utility model has the advantages that: the utility model discloses a can dismantle the setting to air discharge fan and intake pipe for the air discharge fan can pull down fast in the intake pipe, thereby convenient to use person washs and maintains, has promoted efficiency and has reduced the risk of meeting accident.

Drawings

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

Fig. 2 is a schematic view of the residual air recycling device of the present invention.

Fig. 3 is a top view of the installation position of the present invention with the installation plate hidden.

Fig. 4 is a schematic view of the exhaust fan of the present invention.

Fig. 5 is a schematic view of the mounting plate and the locking plate at the top of the present invention.

Fig. 6 is an internal schematic view of the filtering apparatus of the present invention.

Reference numerals: 1-feeding device, 2-residual gas recovery device, 3-forming device, 4-moving device, 5-aerating device, 6-stirring device, 7-supporting frame, 21-air inlet pipe, 22-filtering device, 23-cooling device, 24-exhausting device, 25-exhaust fan, 211-mounting position, 212-sliding chute, 213-locking plate, 221-filtering shell, 222-separating plate, 223-first filtering chamber, 224-second filtering chamber, 225-third filtering chamber, 226-baffle door, 231-cooling pipe, 232-circulating pump, 241-exhaust pipe, 242-exhaust pump, 251-sliding strip, 252-mounting plate.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, the utility model provides a pair of an automatic molding system for concrete block, including feed arrangement 1, agitating unit 6, forming device 3, mobile device 4, air entrainment device 5 and residual gas recovery unit 2, feed arrangement 1 be used for to agitating unit 6 input material, agitating unit 6 is used for forming the material stirring thick liquids, forming device 3 is used for letting the thick liquids shaping to concrete block, mobile device 4 is used for transferring concrete block extremely air entrainment device 5 evaporates the pressure air entrainment, residual gas recovery unit 2 is used for retrieving the inside residual gas of air entrainment device 5.

In actual use, the feeding device 1 inputs materials required by concrete blocks, such as fly ash, quick lime, cement, gypsum and the like into the stirring device 6 according to a predetermined proportion, the stirring device 6 stirs the materials to mix the materials into slurry, then the stirring device 6 inputs the slurry into the forming device 3 (namely a mold) for forming, the moving device 4 moves the forming device 3 to the air-entrapping device 5 in the forming process, the air-entrapping device 5 pressurizes and autoclaved the formed concrete blocks to improve the performance of the concrete blocks, and finally the concrete blocks are output and residual air generated in the autoclaved air-entrapping process is recovered by the residual air recovery device 2.

In this embodiment, the exhaust device 24 includes an exhaust pipe 241 and an exhaust pump 242, the exhaust pipe 241 is communicated with the filtering device 22, and the exhaust pump 242 is used for discharging the filtered gas in the filtering device 22 to the outside. Since the filtered and cooled residual air meets the environmental protection requirement, it is discharged by the exhaust pump 242.

Specifically, residual gas recovery unit 2 includes intake pipe 21, filter equipment 22, cooling device 23 and exhaust apparatus 24, intake pipe 21 with air entrainment device 3 intercommunication, filter equipment 22 set up in intake pipe 21 with between the cooling device 23, exhaust apparatus 24 install in cooling device 23's output, intake pipe 21 can be dismantled and be provided with air discharge fan 25, blast pipe 241 is used for absorbing the residual gas and passes through the residual gas intake pipe 21 transmit extremely filter equipment 22 filters, cooling device 23 is used for absorbing the heat of the residual gas after filtering, exhaust apparatus 24 is used for discharging the residual gas after the cooling to the external world.

Namely, the exhaust fan 25 works to suck the residual gas into the air inlet pipe 21 from the gas adding device 3, the residual gas is guided into the filtering device 22 by the air inlet pipe 21 to be filtered and cooled by the cooling device 23, the treated residual gas meets the environmental protection requirement at the moment, and the residual gas can be discharged to the outside through the exhaust device 24, so that the environment is prevented from being polluted.

After the live time has been long, exhaust fan 25 surface can be attached to considerable attachment, and the staff can be in this moment the utility model discloses after the stop work, directly pull down exhaust fan 25 from intake pipe 21 and wash and maintain, then install exhaust fan 25 back original position to reach quick assembly disassembly's effect, promoted efficiency and reduced the risk that the incident takes place.

In this embodiment, the air inlet pipe 21 is provided with an installation position 211, two sides of the installation position 211 are respectively provided with a sliding groove 212, two sides of the exhaust fan 25 are respectively provided with a sliding strip 251, and the sliding strips 251 and the sliding grooves 212 are in one-to-one corresponding sliding connection; the top and the bottom of the exhaust fan 25 are respectively provided with a mounting plate 252, and the mounting plate 252 is in screw connection with the exhaust pipe 241.

Namely, the exhaust fan 25 is installed by sliding the slide bar 251 into the slide groove 212, so that the accurate positioning of the installation is ensured, and the installation plate 252 is connected with the exhaust pipe 241 through screws, thereby facilitating the subsequent disassembly.

Specifically, the top of installation position 211 is provided with locking plate 213, exhaust fan 25 is located between two locking plates 213, two mounting panels 252 all with exhaust fan 25 can dismantle the connection, and two locking plates 213 are located between two mounting panels 252, and locking plate 213 passes through screwed connection with mounting panel 252 one by one. The locking plate 213 and the mounting plate 252 form a double-layer structure, which has a good sealing effect, ensures that the mounting position 211 cannot leak gas, and avoids environmental pollution.

The mating relationship between the mounting plate 252 and the lock plate 213 is shown in fig. 5 on the top, and the bottom is reversed. When the exhaust fan 25 is dismounted, the mounting plate 252 at the bottom is separated from the exhaust fan 25, and then the screw between the top mounting plate and the locking plate 213 is screwed, so that the mounting plate 252 is lifted up after the mounting plate and the exhaust fan are separated, the exhaust fan 25 can be communicated and picked up together, and the effect of quick dismounting is achieved.

In this embodiment, the filtering device 22 includes a filtering shell 221, two partition plates 222 are arranged in the filtering shell 221 at intervals, the two partition plates 222 are used for dividing the filtering shell 221 into a first filtering chamber 223, a second filtering chamber 224 and a third filtering chamber 225 which are sequentially arranged, the first filtering chamber 223, the second filtering chamber 224 and the third filtering chamber 225 are respectively filled with filtering media with sequentially increased filtering precision, and the first filtering chamber 223 and the third filtering chamber 225 are respectively provided with an air inlet and an air outlet; the partition plate 222 is provided with air holes. Namely the utility model discloses a three filter chamber increases filter fineness with this, for example is provided with garrulous stone, cotton and active carbon respectively, has realized tertiary filterable effect, has guaranteed to absorb the impurity in the residual air as far as possible for the emission of residual air accords with the environmental protection requirement.

Specifically, the first filtering chamber 223, the second filtering chamber 224 and the third filtering chamber 225 are respectively provided with a door 226, which is convenient for a worker to open for replacing the filtering medium.

In this embodiment, the cooling device 23 includes a cooling pipe 231 and a circulating pump 232, the cooling pipe 231 is wound around the periphery of the filter shell 221, two ends of the cooling pipe 231 are respectively communicated with two ends of the circulating pump 232, and the cooling pipe 231 is loaded with a cooling medium. The cooling medium may be water or a refrigerant, and is used to circulate the circulating pump 232 along the inside of the cooling pipe 231 wound around the filter casing 221, and absorb heat to the residual air inside the filter casing 221, thereby achieving a cooling effect.

In this embodiment, the utility model discloses still include support frame 7, agitating unit 6 set up in support frame 7, mobile device 4 in support frame 7 passes through and is located agitating unit 6's below, forming device 3 activity set up in mobile device 4. That is, after the stirring of the stirring device 6 is completed, the slurry is directly output through the bottom and falls into the forming device 3, thereby improving the efficiency. The bottom of the stirring device 6 may be provided with a corresponding valve, preferably a solenoid valve, for controlling the opening and closing to achieve the output or to block the slurry.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (7)

1. An automatic molding system for concrete blocks, characterized in that: the concrete block forming device comprises a feeding device, a stirring device, a forming device, a moving device, an air-entrapping device and a residual gas recovery device, wherein the feeding device is used for inputting materials to the stirring device, the stirring device is used for stirring the materials to form slurry, the forming device is used for forming the slurry into concrete blocks, the moving device is used for transferring the concrete blocks to the air-entrapping device for steam-pressure air entrapping, and the residual gas recovery device is used for recovering residual gas in the air-entrapping device; residual gas recovery unit includes intake pipe, filter equipment, cooling device and exhaust apparatus, the intake pipe with air entrainment device intercommunication, filter equipment set up in the intake pipe with between the cooling device, exhaust apparatus install in cooling device's output, exhaust apparatus includes blast pipe and air discharge pump, the blast pipe with filter equipment intercommunication, the air discharge pump be used for the handle gas emission after the internal warp filtration of filter equipment is to the external world, the intake pipe can be dismantled and be provided with the air discharge fan, the blast pipe is used for absorbing the residual gas and passes through the residual gas the intake pipe transmits extremely filter equipment filters, cooling device is used for absorbing the heat of the residual gas after filtering, exhaust apparatus is used for discharging the residual gas after the cooling to the external world.

2. The automated molding system for concrete segments of claim 1, wherein: the air inlet pipe is provided with an installation position, two sides of the installation position are respectively provided with a sliding groove, two sides of the exhaust fan are respectively provided with a sliding strip, and the sliding strips are in one-to-one corresponding sliding connection with the sliding grooves; the top and the bottom of the exhaust fan are respectively provided with a mounting plate, and the mounting plates are connected with the exhaust pipe through screws.

3. The automated molding system for concrete segments of claim 2, wherein: the top of installation position is provided with the jam plate, the air discharge fan is located between two jam plates, two mounting panels all with the connection can be dismantled to the air discharge fan, and two jam plates are located between two mounting panels, and jam plate and mounting panel pass through screwed connection one by one.

4. The automated molding system for concrete segments of claim 1, wherein: the filtering device comprises a filtering shell, two partition plates are arranged in the filtering shell at intervals and used for dividing the filtering shell into a first filtering chamber, a second filtering chamber and a third filtering chamber which are sequentially arranged, filtering media with sequentially increased filtering precision are respectively filled in the first filtering chamber, the second filtering chamber and the third filtering chamber, and an air inlet and an air outlet are respectively formed in the first filtering chamber and the third filtering chamber; the partition plate is provided with air holes.

5. The automated molding system for concrete segments of claim 4, wherein: the first filter chamber, the second filter chamber and the third filter chamber are respectively provided with a shutter.

6. The automated molding system for concrete segments of claim 4, wherein: the cooling device comprises a cooling pipe and a circulating pump, the cooling pipe is wound on the periphery of the filter shell, two ends of the cooling pipe are respectively communicated with two ends of the circulating pump, and a cooling medium is loaded on the cooling pipe.

7. The automated molding system for concrete segments of claim 1, wherein: the stirring device is arranged on the support frame, the moving device is arranged below the stirring device after the support frame passes through the moving device, and the forming device is movably arranged on the moving device.

Images