CN215471945U - Curing room for magnesium fireproof plate - Google Patents

Abstract

The utility model discloses a curing room for a magnesium fireproof plate, which comprises a curing room main body, wherein an inlet is arranged on the front surface of the curing room main body, a door is arranged at the inlet on the front surface of the curing room main body, a controller is arranged on the side surface of the curing room main body, a cooling unit is arranged on the back side of the curing room, a fan group is arranged at the top in the curing room main body and is connected with the cooling unit, a heating device is arranged in the curing room main body, a plurality of displacement mechanisms are arranged at the top in the curing room main body, a plurality of humidifying devices are arranged on the plurality of displacement mechanisms, a drying device is arranged in the curing room main body, a plurality of placing frames are arranged in the curing room main body, a temperature sensor is arranged on the inner wall of the curing room main body, and a humidity sensor is arranged on the inner wall of the curing room main body. The utility model can intelligently adjust the temperature and humidity in the curing room and can uniformly humidify the curing room.

Description

Curing room for magnesium fireproof plate

Technical Field

The utility model relates to the field of production of magnesium fireproof plates, in particular to a curing room for a magnesium fireproof plate.

Background

The magnesium fireproof board is a novel multifunctional building material, and has the light weight, flexibility and reprocessing performance of a wood organic board, the fireproof performance and water resistance of an inorganic board, and higher strength and environmental protection performance. Therefore, the magnesium fireproof board is widely applied to wall bodies, ceilings and floor linings.

The magnesium fireproof board is produced by firstly producing continuous semi-finished board in the production process, and the semi-finished magnesium fireproof board sequentially comprises a bottom layer template, bottom layer non-woven fabric, a glass fiber net, magnesium oxide, magnesium chloride, a wood chip core material, a surface layer glass fiber net and non-woven fabric from bottom to top. Then cutting the semi-finished magnesium fireproof plate into smaller blocks, and curing. Along with the continuous popularization of products, the continuous development of new products, the demand on the magnesium fireproof plate is continuously increased, the performance requirement on the products is also continuously improved, the maintenance is an indispensable ring in the production process, and the quality of the magnesium fireproof plate is significantly influenced. And the curing room among the prior art can't adjust the temperature and humidity in the curing room simultaneously, and traditional curing room humidification device is fixed, and can't be even adjusts the humidity in the curing room, leads to the PLASTIC LAMINATED solidification inhomogeneous, influences the PLASTIC LAMINATED quality.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a curing room for magnesium fire-proof boards, which can intelligently adjust the temperature and humidity in the curing room and can uniformly humidify the curing room.

The utility model is realized in such a way that the curing chamber for the magnesium fireproof plate is constructed, which comprises a curing chamber main body, the front surface of the curing chamber main body is provided with an inlet, a chamber door is arranged at the inlet of the front surface of the curing chamber main body, a controller is arranged on the side surface of the curing chamber main body, a cooling unit is arranged on the back side of the curing chamber main body, a fan group is arranged at the top in the curing chamber main body, the fan set keeps being connected with the cooling unit, a heating device install in the curing room main part, several displacement mechanism install in the curing room main part top, several humidification device install in the several on the displacement mechanism, a drying device set up in the curing room main part, the several rack is placed in the curing room main part, a temperature sensor installs on curing room main part inner wall, a humidity transducer installs on curing room main part inner wall.

Furthermore, heating device includes an installation shell, a fan assembly and a heating element, the installation shell is installed in the curing room main part inside wall, fan assembly sets up on the installation shell, the heating element sets up in the installation shell.

Furthermore, the fan assembly comprises a second driving device, a speed changing device and a fan blade, the second driving device is installed on the side face of the installation shell, the input end of the speed changing device is connected with the output end of the second driving device, the fan blade is installed in the installation shell and connected with the output end of the speed changing device, an air pipe is arranged in the installation shell, and the fan blade is arranged at the inlet of the air pipe.

Further, the heating component comprises a heating pipe and an installation bin, the installation bin is sleeved outside the air pipe, and the heating pipe is installed between the installation bin and the air pipe.

Furthermore, the upper opening of the installation shell is communicated with the air pipe, the upper opening of the installation shell is provided with a cover body, two sides of the upper opening of the installation shell are provided with a pair of chutes, two sides of one end of the cover body are provided with rollers, the rollers are embedded in the chutes, two sides of the far roller end of the cover body are provided with a pair of hinged connecting pieces, the middle of each connecting piece is hinged with the installation shell, the side surface of the installation shell is hinged with a pair of first driving devices, and the end of the far cover body of each connecting piece is hinged with the output end of each first driving device.

Further, the displacement mechanism comprises a frame body, a longitudinal displacement assembly, a transverse displacement assembly and an installation block, the frame body is a rectangular frame and is fixedly installed at the top in the curing room main body, the longitudinal displacement assembly is connected with the transverse displacement assembly in a maintaining mode, the installation block is arranged on the longitudinal displacement assembly, and the humidifying device is installed on the lower end face of the installation block.

Furthermore, the transverse displacement assembly comprises a third driving device, two groups of first pulleys and a pair of first belts, the third driving device is fixedly installed on the side face of the frame body, one group of the first pulleys is arranged at the output end of the third driving device, and the two first belts are connected with the two groups of the first pulleys.

Furthermore, the longitudinal displacement assembly comprises a pair of connecting blocks, a fourth driving device, a pair of second belt wheels and a second belt, the connecting blocks are fixedly connected with the first belt, the fourth driving device is installed on one side face of the connecting blocks, one of the second belt wheels is arranged at the output end of the fourth driving device, and the second belt is connected with the second belt wheels.

Furthermore, a second guide rod is arranged at the joint of the connecting block and the frame body, and the connecting block is connected with the second guide rod in a sliding manner.

Furthermore, a first guide rod is arranged at the joint of the installation block and the frame body, and the installation block is connected with the first guide rod in a sliding manner.

The utility model has the following advantages: the temperature and humidity in the curing room are adjusted through the cooling unit and the heating device, the humidity in the curing room is adjusted through the humidifying device and the drying device, the temperature and humidity in the curing room are detected through the temperature sensor and the humidity sensor, numerical values are transmitted to the controller in a photoelectric signal mode, the controller analyzes and judges the signals, compares the signals with preset values, controls all devices to work, completes adjustment of the temperature and humidity of the curing room, adjustment is convenient, and the displacement mechanism drives the humidifying device to move so as to uniformly humidify the curing room.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a cross-sectional view A-A of FIG. 2;

FIG. 6 is a cross-sectional view B-B of FIG. 5;

FIG. 7 is a perspective view of the heating device configuration;

FIG. 8 is a schematic front view of the heating device configuration;

FIG. 9 is a cross-sectional view C-C of FIG. 8;

FIG. 10 is a cross-sectional view D-D of FIG. 9;

FIG. 11 is a schematic view of the displacement mechanism;

in the figure: 100. a curing chamber body; 200. a chamber door; 300. a cooling unit; 400. placing a rack; 500. a drying device; 600. a heating device; 601. mounting a shell; 602. a cover body; 603. a first driving device; 604. a connecting member; 605. a chute; 606. a roller; 607. a second driving device; 608. a speed change device; 609. heating a tube; 610. installing a bin; 611. an air duct; 612. a fan blade; 700. a fan set; 800. a displacement mechanism; 801. a frame body; 802. connecting blocks; 803. a first guide bar; 804. a third driving device; 805. a fourth drive device; 806. a first belt; 807. a second belt; 808. a second guide bar; 900. a humidifying device; 1000. a temperature sensor; 1100. a humidity sensor; 1200. and a controller.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 11, and the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

The present invention provides a curing chamber for a magnesium fire-proof plate by improvement, which comprises a curing chamber main body 100, wherein an inlet is arranged on the front surface of the curing chamber main body 100, a door 200 is arranged at the inlet of the front surface of the curing chamber main body 100, a controller 1200 is arranged on the side surface of the curing chamber main body 100, a cooling unit 300 is arranged on the back side of the curing chamber main body 100, a fan set 700 is arranged on the inner top of the curing chamber main body 100, the fan set 700 is connected with the cooling unit 300, a heating device 600 is arranged in the curing chamber main body 100, a plurality of displacement mechanisms 800 are arranged on the inner top of the curing chamber main body 100, a plurality of humidifying devices 900 are arranged on the plurality of displacement mechanisms 800, a drying device 500 is arranged in the curing chamber main body 100, a plurality of placing frames 400 are arranged in the curing chamber main body 100, a temperature sensor 1000 is arranged on the inner wall of the curing chamber main body 100, a humidity sensor 1100 is installed on the inner wall of the curing chamber body 100.

In this embodiment, the heating device 600 includes a mounting case 601, a fan assembly and a heat generating assembly, wherein the mounting case 601 is mounted on the inner side wall of the curing chamber main body 100, the fan assembly is disposed on the mounting case 601, and the heat generating assembly is disposed in the mounting case 601.

In this embodiment, the fan assembly includes a second driving device 607, a speed changing device 608, and a fan blade 612, the second driving device 607 is installed on the side surface of the installation housing 601, the input end of the speed changing device 608 is connected to the output end of the second driving device 607, the fan blade 612 is installed in the installation housing 601 and connected to the output end of the speed changing device 608, an air duct 611 is disposed in the installation housing 601, and the fan blade 612 is disposed at the inlet of the air duct 611.

In this embodiment, the heat generating component includes a heating pipe 609 and an installation bin 610, the installation bin 610 is sleeved outside the air duct 611, and the heating pipe 609 is installed between the installation bin 610 and the air duct 611.

In this embodiment, the upper opening of the mounting housing 601, the air duct 611 and the upper opening of the mounting housing 601 are communicated, the upper opening of the mounting housing 601 is provided with a cover 602, two sides of the upper opening of the mounting housing 601 are provided with a pair of sliding grooves 605, two sides of one end of the cover 602 are provided with rollers 606, the rollers 606 are embedded in the sliding grooves 605, two sides of the far roller 606 end of the cover 602 are provided with a pair of hinged connectors 604, the middle of the connector 604 is hinged to the mounting housing 601, the side surface of the mounting housing 601 is hinged to a pair of first driving devices 603, and the far cover 602 end of the connector 604 is hinged to the output end of the first driving device 603.

In this embodiment, the displacement mechanism 800 includes a frame body 801, a longitudinal displacement assembly, a transverse displacement assembly, and an installation block 809, the frame body 801 is a rectangular frame and is fixedly installed at the top inside the curing room main body 100, the longitudinal displacement assembly is connected to the transverse displacement assembly, the installation block 809 is disposed on the longitudinal displacement assembly, and the humidifying device 900 is installed on the lower end face of the installation block 809.

In this embodiment, the lateral displacement assembly includes a third driving device 804, two sets of first pulleys and a pair of first belts 806, the third driving device 804 is fixedly installed on the lateral surface of the frame body 801, one set of the first belts is disposed at the output end of the third driving device 804, and the two first belts 806 are connected to the two sets of the first belts.

In this embodiment, the longitudinal displacement assembly includes a pair of connection blocks 802, a fourth driving device 805, a pair of second pulleys and a second belt 807, wherein the connection blocks 802 are fixedly connected to the first belt 806, the fourth driving device 805 is installed at a side of the connection blocks 802, the second pulleys are disposed at an output end of the fourth driving device 805, and the second belt 807 is connected to the two second pulleys.

In this embodiment, a second guide rod 808 is disposed at a connection position of the connection block 802 and the frame body 801, and the connection block 802 is slidably connected to the second guide rod 808.

In this embodiment, a first guide rod 803 is disposed at a connection position of the mounting block 809 and the frame body 801, and the mounting block 809 is slidably connected to the first guide rod 803.

When the maintenance room is implemented, the fireproof plate is placed on the placing frame 400 and pushed into the maintenance room main body 100, the door 200 is closed, the temperature sensor 1000 detects the temperature in the maintenance room main body 100 and transmits the temperature in the maintenance room main body 100 to the controller in an electric signal mode, the humidity sensor 1100 detects the humidity in the maintenance room main body 100 and transmits the humidity in the maintenance room main body 100 to the controller 1200 in an electric signal mode, and the controller 1200 analyzes and judges the signals;

when the temperature is higher than the preset value, the controller controls the cooling unit 300 to work, the sucked air is refrigerated, the refrigerated air is led to the fan set 700, the fan set 700 blows the cold air into the curing room main body 100, the temperature in the curing room main body 100 is cooled, and the cooling unit 300 and the fan set 700 stop working until the temperature is lower than the preset value;

when the temperature is lower than the preset value, the controller 1200 controls the heating device 600 to work, the first driving device 603 drives the cover body 602 to slide along the sliding groove 605, the air pipe 611 is communicated with the outside, the second driving device 607 drives the fan blades 612 to rotate, the air is driven to flow, meanwhile, the heating pipe 609 starts to generate heat, the flowing air is heated, the heated air is blown into the curing chamber main body 100 through the air outlet of the air pipe 611, the temperature of the curing chamber main body 100 is raised until the temperature is higher than the preset value, and the heating device 600 stops working;

when the humidity is higher than the predetermined value, the controller 1200 controls the drying device 500 to operate, sucks air in the curing room main body 100, dehumidifies the sucked air, and blows the dehumidified air into the curing room main body 100, until the humidity is lower than the predetermined value, the drying device 700 stops operating;

when the humidity is lower than the predetermined value, the controller 1200 controls the operation of the humidifying device 900, and at the same time, the third driving device 804 and the fourth driving device 805 operate to drive the humidifying device 900 to displace and uniformly humidify the interior of the curing room main body 100 until the humidity level reaches the predetermined value, and the humidifying device 900 and the displacement mechanism 800 stop operating.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a maintenance room for magnesium PLASTIC LAMINATED which characterized in that: comprises that

The curing room comprises a curing room main body (100), wherein an inlet is formed in the front surface of the curing room main body (100);

a door (200) provided at the entrance of the front surface of the curing chamber body (100);

a controller (1200) arranged on the side surface of the curing room main body (100);

a cooling unit (300) disposed on a back side of the curing chamber body (100);

a fan set (700) arranged at the top of the curing chamber main body (100);

the fan set (700) is connected with the cooling unit (300);

a heating device (600) installed in the curing chamber body (100);

a plurality of displacement mechanisms (800) which are arranged on the top in the curing room main body (100);

a plurality of humidification devices (900) attached to the plurality of displacement mechanisms (800);

a drying device (500) disposed in the curing chamber body (100);

a plurality of placing racks (400) placed in the curing room main body (100);

a temperature sensor (1000) mounted on the inner wall of the curing chamber main body (100);

a humidity sensor (1100) installed on the inner wall of the curing chamber body (100).

2. A curing room for a magnesium fire proof plate according to claim 1, wherein: the heating device (600) comprises an installation shell (601), a fan assembly and a heating assembly, wherein the installation shell (601) is installed on the inner side wall of the curing room main body (100), the fan assembly is arranged on the installation shell (601), and the heating assembly is arranged in the installation shell (601).

3. A curing room for a magnesium fire proof plate according to claim 2, wherein: the fan assembly comprises a second driving device (607), a speed changing device (608) and fan blades (612), wherein the second driving device (607) is installed on the side face of the installation shell (601), the input end of the speed changing device (608) is connected with the output end of the second driving device (607), the fan blades (612) are installed in the installation shell (601) and connected with the output end of the speed changing device (608), an air pipe (611) is arranged in the installation shell (601), and the fan blades (612) are arranged at the inlet of the air pipe (611).

4. A curing room for a magnesium fire proof plate according to claim 3, wherein: the heating component comprises a heating pipe (609) and an installation bin (610), the installation bin (610) is sleeved outside the air pipe (611), and the heating pipe (609) is installed between the installation bin (610) and the air pipe (611).

5. A curing room for magnesium fire-proof boards according to claim 4, characterized in that: the utility model provides a fan mounting structure, including installation shell (601), installation shell (601) upper portion opening, tuber pipe (611) and installation shell (601) upper portion opening intercommunication, installation shell (601) upper portion opening department sets up a lid (602), installation shell (601) upper portion opening both sides set up a pair of spout (605), lid (602) one end both sides are provided with gyro wheel (606), gyro wheel (606) inlay in spout (605), lid (602) are far away gyro wheel (606) end both sides and are set up articulated a pair of connecting piece (604), connecting piece (604) middle part is articulated with installation shell (601), installation shell (601) side is articulated a pair of first drive arrangement (603), lid (602) end is far away to connecting piece (604) and first drive arrangement (603) output is articulated.

6. A curing room for a magnesium fire proof plate according to claim 1, wherein: the displacement mechanism (800) comprises a frame body (801), a longitudinal displacement assembly, a transverse displacement assembly and an installation block (809), wherein the frame body (801) is a rectangular frame and is fixedly installed at the inner top of the curing room main body (100), the longitudinal displacement assembly is connected with the transverse displacement assembly, the installation block (809) is arranged on the longitudinal displacement assembly, and the humidifying device (900) is installed on the lower end face of the installation block (809).

7. A curing room for magnesium fire-proof boards according to claim 6, characterized in that: the transverse displacement assembly comprises a third driving device (804), two groups of first pulleys and a pair of first belts (806), the third driving device (804) is fixedly installed on the side face of the frame body (801), one group of first pulleys are arranged at the output end of the third driving device (804), and the two first belts (806) are connected with the two groups of first pulleys.

8. A curing room for magnesium fire-proof boards according to claim 7, characterized in that: the longitudinal displacement assembly comprises a pair of connecting blocks (802), a fourth driving device (805), a pair of second belt wheels and a second belt (807), wherein the connecting blocks (802) are fixedly connected with the first belt (806), the fourth driving device (805) is installed on the side surface of one connecting block (802), one second belt wheel is arranged at the output end of the fourth driving device (805), and the second belt (807) is connected with the two second belt wheels.

9. A curing room for a magnesium fire proof plate according to claim 8, wherein: the connecting block (802) is provided with second guide bar (808) with support body (801) junction, connecting block (802) and second guide bar (808) sliding connection.

10. A curing room for a magnesium fire proof plate according to claim 9, wherein: a first guide rod (803) is arranged at the joint of the mounting block (809) and the frame body (801), and the mounting block (809) is connected with the first guide rod (803) in a sliding manner.

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