CN213352880U - Transmission equipment for accelerating gypsum board to be quickly solidified - Google Patents

Abstract

The utility model discloses an accelerate transmission equipment that gypsum board solidifies fast, including setting up the transmission room in initial set processing area one side, transmission room bottom is provided with the water storage chamber, sets up high pressure water pump in the water storage chamber, and high pressure water pump output has power device through duct connection, has seted up transmission channel in the transmission room, and the transmission channel top is provided with cooling device, is provided with a plurality of rotation axes in the transmission channel, is provided with transmission on the rotation axis. The utility model discloses a high-pressure water flow that high-pressure water pump produced is used for driving power sprocket on the impeller and rotates, it rotates to realize the drive rotation axis, it removes to drive the gypsum board, it makes the fan rotate with the straight-teeth gear effect through the transmission ring gear, realize the wind-force cooling to the gypsum board, the gypsum board can contact the chill roll when removing, the chill roll can shift the heat of gypsum board to the circulating water of cooling chamber in, thereby accelerate the cooling rate of gypsum board, guarantee that it can realize solidifying before cutting off.

Description

Transmission equipment for accelerating gypsum board to be quickly solidified

Technical Field

The utility model relates to a gypsum board processing cooling device technical field especially relates to a accelerate quick setting's of gypsum board transmission equipment.

Background

The automatic gypsum board processing steps are as follows: feeding the upper paper into a forming machine through an automatic deviation corrector after being uncoiled, feeding the lower paper into the forming machine through the automatic deviation corrector, a scoring machine and a vibration platform after being uncoiled, feeding slurry of a stirring machine onto the lower paper of the vibration platform into the forming machine, extruding gypsum boards with required specifications on the forming machine, completing pattern formation and initial setting on a setting belt, completing final setting on a conveying roller way, cutting into required lengths through a fixed-length cutting machine, and completing processing.

This kind of mode is adding man-hour, and the gypsum board is on firm belt and is tentatively solidified the back and remove to the conveying roller way and solidify gradually, and this needs longer conveying roller way to guarantee to remove to the cutting machine when the gypsum board and can solidify completely, but longer conveying roller way needs more area to the transmission of conveying roller way needs to consume a large amount of electric power, causes the cost to increase, and a need for now can accelerate the transmission equipment that the gypsum board solidifies fast.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current longer rollgang needs more area to rollgang's transmission needs to consume a large amount of electric power, causes the shortcoming of cost increase, and the transmission equipment who accelerates the gypsum board rapid solidification who provides, it can take away a large amount of heats through wind-force and circulating water, accelerates the solidification of gypsum board.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a accelerate gypsum board rapid solidification's transmission equipment, is including setting up the transmission room in initial set processing area one side, the transmission room bottom is provided with the water storage chamber, set up high pressure water pump in the water storage chamber, high pressure water pump output has power device through duct connection, transmission channel has been seted up in the transmission room, the transmission channel top is provided with cooling device, be provided with a plurality of rotation axes in the transmission channel, the rotation axis lateral wall is provided with the driving roller, be provided with transmission on the rotation axis.

Preferably, the power device comprises a conversion block arranged on the side wall of one side of the transmission chamber, a conversion cavity is formed in the conversion block, the bottom of the conversion cavity is connected with the conveying pipe, a circular groove is formed in the conversion cavity, an impeller is arranged in the circular groove, and the impeller is connected with a power chain wheel through a power shaft penetrating through the side wall of the conversion block.

Preferably, the cooling device comprises a cooling plate arranged above the transmission chamber, a cooling cavity is formed in the cooling plate, the cooling cavity is connected with the conversion cavity through a connecting pipe, and the other end of the cooling cavity is connected with the water storage chamber through a return pipe.

Preferably, a plurality of rotating grooves which are uniformly arranged are formed in the bottom of the cooling plate, and the inner side walls of the rotating grooves are connected with cooling rollers through connecting shafts.

Preferably, the transmission device comprises transmission chain wheels arranged at the end parts of the rotating shafts, transmission toothed rings are connected to the side walls of the transmission chambers between the transmission chain wheels through bearings, and the power chain wheels are connected with the transmission chain wheels and the transmission toothed rings through chains.

Preferably, the transmission chamber has an installation groove on the side wall, a rotation shaft is arranged in the installation groove, one end of the rotation shaft is provided with a fan, and the other end of the rotation shaft is provided with a spur gear engaged with the inner side wall of the transmission gear ring.

Compared with the prior art, the beneficial effects of the utility model are that:

1. high-pressure water flow produced by the high-pressure water pump acts on the impeller to drive the power chain wheel to rotate, the driving rotating shaft is driven to rotate, the gypsum board is driven to move through the driving roller on the rotating shaft, the fan is driven to rotate through the action of the driving toothed ring and the straight gear, and wind power cooling of the gypsum board is achieved.

2. The gypsum board top can contact the chill roll of setting in the cooling plate bottom when removing, and the chill roll can shift the heat of gypsum board to the circulating water of cooling intracavity to accelerate the cooling rate of gypsum board, guarantee that it can realize solidifying before cutting off.

Drawings

Fig. 1 is a schematic structural view of a transmission device for accelerating rapid solidification of gypsum boards according to the present invention;

fig. 2 is the utility model provides an accelerate transmission equipment's of gypsum board rapid solidification side structure schematic diagram.

In the figure: the device comprises a primary setting processing belt 1, a transmission chamber 2, a water storage chamber 3, a high-pressure water pump 4, a delivery pipe 5, a transmission channel 6, a rotating shaft 7, a conversion block 8, a conversion cavity 9, an impeller 10, a power sprocket 11, a cooling plate 12, a connecting pipe 13, a cooling roller 14, a transmission sprocket 15, a transmission toothed ring 16, a fan 17 and a spur gear 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a transmission device for accelerating the rapid solidification of gypsum board comprises a transmission chamber 2 disposed on one side of an initial solidification processing belt 1, the initial solidification processing belt 1 is prior art and not described herein, and is a place for processing gypsum board, a water storage chamber 3 is disposed at the bottom of the transmission chamber 2, a high pressure water pump 4 is disposed in the water storage chamber 3, the high pressure water pump 4 is prior art and not described herein, the water pressure thereof satisfies the transmission of a driving transmission device, the output end of the high pressure water pump 4 is connected with a power device through a conveying pipe 5, further, the power device comprises a conversion block 8 disposed on one side wall of the transmission chamber 2, a conversion cavity 9 is disposed in the conversion block 8, the bottom of the conversion cavity 9 is connected with the conveying pipe 5, a circular groove is disposed in the conversion cavity 9, an impeller 10 is disposed in the circular groove, the impeller 10 is prior art and not described herein, the impeller 10 is connected with a power chain wheel 11 through a power shaft penetrating through the side wall of the conversion block 8, and the power shaft is rotatably connected with the side wall of the conversion block 8 through a first bearing.

Transport chamber 2 is provided with transport passageway 6, and transport passageway 6 top is provided with cooling device, and furtherly, cooling device is including setting up cooling plate 12 in transport chamber 2 top, has seted up the cooling chamber in cooling plate 12, and the cooling plate 12 material adopts easy heat conduction material, and the cooling chamber passes through connecting pipe 13 to be connected with conversion chamber 9, and the cooling chamber other end passes through the back flow and is connected with water storage chamber 3.

Further, a plurality of rotation grooves that evenly set up are seted up to cooling plate 12 bottom, rotate the inslot lateral wall and have cooling roller 14 through connecting axle connection, reduce the contact friction with the gypsum board through a plurality of cooling rollers 14 to the area of contact of increase and gypsum board, make the heat exchange more quick.

Be provided with a plurality of rotation axes 7 in the transmission path 6, 7 lateral walls of rotation axis are provided with driving roller 8, be provided with transmission on the rotation axis 7, furtherly, transmission is including setting up the drive sprocket 15 at 7 tip of rotation axis, 2 lateral walls of transmission room that lie in between the drive sprocket 15 are connected with transmission ring gear 16 through the bearing, all be provided with the straight tooth layer inside and outside transmission ring gear 16, power sprocket 11 passes through the chain and is connected with a plurality of drive sprocket 15 and transmission ring gear 16.

Still further, the mounting groove has been seted up on the lateral wall of transmission chamber 2, and the opening has been seted up with mounting groove opposite face transmission chamber 2 lateral wall, and wherein the mounting groove lateral wall has seted up the air inlet and has filtered the hole, is provided with the axis of rotation in the mounting groove, and axis of rotation one end is provided with fan 17, and the other end is provided with spur gear 18 with the meshing of transmission ring gear 16 inside wall is connected, through the meshing of spur gear 18 and transmission ring gear 16, realizes the conversion of drive ratio, guarantees that fan 17 rotates and produces sufficient big wind-.

In the utility model, when using, open the high pressure water pump 4 that sets up in the catch chamber 3, make high pressure water pump 4 pressurize the water in the catch chamber 3 and convey to the conversion chamber 9 through the delivery pipe 5, high pressure water flow can strike impeller 10 that is located conversion chamber 9 and make impeller 10 constantly rotate, power sprocket 11 through the power shaft with impeller 10 can rotate, make a plurality of driving sprocket 15 that are connected through the chain with power sprocket 11 rotate, make rotation axis 7 that is connected with driving sprocket 15 rotate, rotation axis 7 drives the driving roller and rotates, carry 6 in the transmission channel to the gypsum board that is located on removing and congealing processing area;

the transmission toothed ring 16 connected with the power chain wheel 11 through the chain can continuously rotate, and the straight gear 18 meshed and connected with the inner side wall of the transmission toothed ring 16 can rotate, so that the fan 17 connected with the straight gear 18 through the rotating shaft can rotate, and when the fan 17 rotates, the heat of the gypsum board in the transmission channel 6 can be taken away, and the wind power cooling of the gypsum board is realized;

when the gypsum board moves in transmission path 6, the gypsum board top can contact with the cooling roller 14 that sets up in cooling plate 12 bottom, drive cooling roller 14 and rotate, under the contact effect that cooling roller 14 formed, the heat area that the gypsum board produced leaves to take away the heat through the circulating water in the cooling chamber of seting up on cooling plate 12, thereby realize the contact cooling to the gypsum board, accelerate the cooling efficiency of gypsum board, realize the rapid solidification of gypsum board.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a accelerate gypsum board rapid solidification's transmission equipment, is including setting up transmission room (2) in initial set processing area (1) one side, its characterized in that, transmission room (2) bottom is provided with reservoir (3), set up high pressure water pump (4) in reservoir (3), power device is connected through conveyer pipe (5) to high pressure water pump (4) output, transmission passageway (6) have been seted up in transmission room (2), transmission passageway (6) top is provided with cooling device, be provided with a plurality of rotation axis (7) in transmission passageway (6), rotation axis (7) lateral wall is provided with the driving roller, be provided with transmission on rotation axis (7).

2. The transmission equipment for accelerating the quick setting of gypsum boards according to claim 1, wherein the power device comprises a conversion block (8) arranged on one side wall of the transmission chamber (2), a conversion cavity (9) is formed in the conversion block (8), the bottom of the conversion cavity (9) is connected with the conveying pipe (5), a circular groove is formed in the conversion cavity (9), an impeller (10) is arranged in the circular groove, and the impeller (10) is connected with a power chain wheel (11) through a power shaft penetrating through the side wall of the conversion block (8).

3. A driving device for accelerating the rapid setting of gypsum board according to claim 1, wherein the cooling device comprises a cooling plate (12) disposed above the transfer chamber (2), a cooling chamber is formed in the cooling plate (12), the cooling chamber is connected with the conversion chamber (9) through a connecting pipe (13), and the other end of the cooling chamber is connected with the water storage chamber (3) through a return pipe.

4. The transmission equipment for accelerating the rapid solidification of gypsum boards as claimed in claim 3, wherein a plurality of uniformly arranged rotating grooves are formed at the bottom of the cooling plate (12), and the inner side walls of the rotating grooves are connected with the cooling roller (14) through connecting shafts.

5. A driving device for accelerating the rapid setting of gypsum board according to claim 2, wherein the driving means comprises driving sprockets (15) arranged at the ends of the rotating shaft (7), the side walls of the conveying chamber (2) between the driving sprockets (15) are connected with a driving toothed ring (16) through bearings, and the power sprocket (11) is connected with a plurality of driving sprockets (15) and the driving toothed ring (16) through chains.

6. The transmission equipment for accelerating the rapid setting of gypsum boards as claimed in claim 5, wherein the side wall of the transmission chamber (2) is provided with a mounting groove, a rotating shaft is arranged in the mounting groove, one end of the rotating shaft is provided with a fan (17), and the other end of the rotating shaft is provided with a spur gear (18) meshed and connected with the inner side wall of the transmission gear ring (16).

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