CN210418140U - Gypsum line production line and gypsum mould station switching device - Google Patents

Abstract

The utility model provides a gypsum mould station auto-change over device, gypsum mould are sent into by mould bracket width direction's first end, and first carriage rises and sends into the gypsum mould on the mould bracket, and the gypsum mould is supported by the mould bracket after the decline to drag the width direction translation along the gypsum mould. After the gypsum mould was translated to predetermined position by the mould bracket, position monitoring device triggered, control second carriage rises, hold up the gypsum mould and export the mould bracket, can follow the mould bracket of its width direction translation with the gypsum mould through the setting, and set up first carriage and second carriage that have raising and lowering functions, make the gypsum mould in following its length direction transportation process, can follow width direction and carry out the position switch, realize the station switch between different gypsum line rollgang, improve switching efficiency. The utility model also provides a gypsum line production line.

Description

Gypsum line production line and gypsum mould station switching device

Technical Field

The utility model relates to a gypsum line production facility technical field, more specifically say, relate to a gypsum line production line and gypsum mould station auto-change over device.

Background

The gypsum line is a house decoration material, is mainly used for indoor decoration, can be provided with various patterns on the surface, has the functions of fire prevention, moisture prevention, heat preservation, sound insulation and heat insulation, and can play a luxurious decoration effect. The material of the gypsum line is an airtight cementing material, and the gypsum relief decoration product has to have a corresponding thickness so as to ensure that the intermolecular affinity reaches the optimal degree.

In the existing gypsum line pouring process, a gypsum mold is used for molding a gypsum line material, the gypsum material and water are mixed into a gelled state for pouring, and the gypsum mold needs to be conveyed to a subsequent station for cooling and shaping after being subjected to injection molding. For the lath-shaped gypsum line mold, after the existing injection molded gypsum mold is subjected to injection molding, the existing injection molded gypsum mold needs to be switched to a cooling roller way through a pouring roller way. When carrying out the track switching to the gypsum mould, place a plurality of backs side by side with single gypsum mould usually, whole translation to cooling roll table, the cooling roll table has many, and a plurality of backs are placed side by side to the gypsum line correspondingly, unifies and carries out parallel switching track. Unordered placing when arranging side by side between the current gypsum mould, the gypsum mould is by pouring the station conveying and switching on the track, extrudeing each other through the gypsum mould on the width direction and carry out the translation, removes to the mould side by side and lifts the station, and the back is by switching orbital reciprocal translation, lifts the gypsum mould and carries out the station and switch. The station switches the process, influences the continuous transport of pouring the gypsum mould on the roll table, influences the production beat, reduces production efficiency.

Therefore, how to improve the efficiency of switching the stations of the plaster mold is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides a gypsum mold station switching device to improve the efficiency of switching the gypsum mold station; the utility model also provides a gypsum line production line.

In order to achieve the above object, the utility model provides a following technical scheme:

a gypsum mould station switching device comprises a mould bracket for supporting a gypsum mould and dragging the gypsum mould to translate along the width direction of the gypsum mould;

a first lifting conveying frame extending out of the supporting end face of the mould bracket and guiding the gypsum mould into the mould bracket along the length direction of the mould bracket is arranged at the first end of the mould bracket in the width direction;

a second conveying frame which can lift and stretch out of the supporting end face of the mould bracket and lead out the gypsum mould along the length direction of the mould bracket is arranged at the second end of the mould bracket in the width direction;

the plaster mold lifting device further comprises a position monitoring device for controlling the second conveying frame to lift when the plaster mold is translated to the preset position conveyed by the second conveying frame.

Preferably, in the station switching device for gypsum molds, the second conveying frame comprises an output frame main body and an output roller table erected on the output frame main body, and the output roller table comprises a plurality of output roller shafts erected and arranged in parallel for the gypsum molds.

Preferably, in the station switching device for the gypsum mold, the mold bracket comprises a bracket main body, which is arranged on the top of the bracket main body and respectively supports a first dragging belt and a second dragging belt at two ends of the gypsum mold in the length direction;

and a plurality of dragging teeth matched with the bottom of the gypsum mold in a clamping manner are continuously arranged on the first dragging belt and the second dragging belt respectively.

Preferably, in the station switching device for a gypsum mold, a driving pulling shaft and a driven pulling shaft for supporting the first pulling belt and the second pulling belt are further disposed at the top of the bracket main body, and a pulling motor for driving the driving pulling shaft to move is disposed on the bracket main body.

Preferably, in the station switching device for a gypsum mold, the bracket body is further provided with a first dragging belt support plate and a second dragging belt support plate which respectively support inner sides of the dragging belts of the first dragging belt and the second dragging belt.

Preferably, in the station switching device for gypsum molds, the first conveying frame comprises an input frame main body and an input roller way erected on the input frame main body, and the bracket main body is internally provided with an input frame supporting table for supporting the input frame main body and an input frame driving cylinder which is fixedly arranged at the bottom of the input frame supporting table and drives the input frame main body to lift.

Preferably, in the station switching device for the gypsum mold, an output frame supporting table for supporting the output frame main body and an output frame driving cylinder which is fixedly arranged at the bottom of the output frame supporting table and drives the output frame main body to lift are arranged in the bracket main body.

Preferably, in the station switching device for a gypsum mold, the position monitoring device is a first photoelectric sensing switch which is fixedly mounted on the output frame support table and is triggered when the gypsum mold is translated to the end of the output roller way in the conveying direction of the mold bracket.

Preferably, in the station switching device for the gypsum mold, the input frame support table is further provided with a second photoelectric sensing switch which is used for monitoring the position of the dragging tooth and triggering the dragging tooth to control the first conveying frame to act when the dragging tooth moves horizontally for a dragging distance.

The utility model provides a gypsum line production line, includes that the gypsum line that pours the gypsum line pours the roll table, and the gypsum line after the parallel conveying is pour carries out the gypsum line cooling roll table that conveys the cooling to it, the gypsum line pour the roll table with the switching end frame of gypsum line cooling roll table is equipped with as above arbitrary one gypsum mould station auto-change over device.

The utility model provides a station switching device for a gypsum mould, which comprises a mould bracket for supporting the gypsum mould and dragging the gypsum mould to translate along the width direction; a first lifting conveying frame extending out of the supporting end face of the mould bracket and guiding the gypsum mould in the length direction of the mould bracket is arranged at the first end of the mould bracket in the width direction; a second conveying frame which can lift and stretch out of the supporting end face of the mould bracket and lead out the gypsum mould along the length direction is arranged at the second end of the mould bracket in the width direction; the plaster mold lifting device further comprises a position monitoring device for controlling the second conveying frame to lift when the plaster mold is translated to a preset position conveyed by the second conveying frame. The gypsum mould is sent into by mould bracket width direction's first end, and first carriage rises and sends the gypsum mould into on the mould bracket, and the gypsum mould is supported by the mould bracket after the decline to drag along the width direction translation of gypsum mould. After the gypsum mould was translated to predetermined position by the mould bracket, position monitoring device triggered, control second carriage rises, hold up the gypsum mould and export the mould bracket, can follow the mould bracket of its width direction translation with the gypsum mould through the setting, and set up first carriage and second carriage that have raising and lowering functions, make the gypsum mould in following its length direction transportation process, can follow width direction and carry out the position switch, realize the station switch between different gypsum line rollgang, improve switching efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of a station switching device for a gypsum mold provided by the present invention;

FIG. 2 is a schematic structural view of a conveying end face of the station switching device of the gypsum mold in FIG. 1;

fig. 3 is a left side view schematic diagram of the station switching device of the gypsum mold in fig. 1.

Detailed Description

The utility model discloses a station switching device for a gypsum mould, which improves the efficiency of switching stations of the gypsum mould; the utility model also provides a gypsum line production line.

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. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-3, fig. 1 is a front view of a station switching device for a gypsum mold provided by the present invention; FIG. 2 is a schematic structural view of a conveying end face of the station switching device of the gypsum mold in FIG. 1; fig. 3 is a left side view schematic diagram of the station switching device of the gypsum mold in fig. 1.

The utility model provides a station switching device for a gypsum mould, which comprises a mould bracket 1 for supporting the gypsum mould and dragging the gypsum mould to translate along the width direction; a first lifting conveying frame 2 extending out of the supporting end face of the mould bracket 1 and guiding the gypsum mould into the mould bracket along the length direction of the mould bracket is arranged at the first end of the mould bracket 1 in the width direction; a second conveying frame 3 which can lift and stretch out of the supporting end face of the mould bracket 1 and lead out the gypsum mould along the length direction is arranged at the second end of the mould bracket 1 in the width direction; and a position monitoring device for controlling the second conveying frame to ascend when the plaster mold is translated to a preset position conveyed by the second conveying frame 3. The gypsum mould is sent into by the first end of mould bracket 1 width direction, and first carriage 2 rises and sends the gypsum mould into on the mould bracket 1, and the gypsum mould is supported by mould bracket 1 after the decline to drag along the width direction translation of gypsum mould. After the gypsum mould was translated to predetermined position by mould bracket 1, position monitoring device triggered, control second carriage 3 rises, hold up the gypsum mould and export mould bracket 1, can follow mould bracket 1 of its width direction translation with the gypsum mould through the setting, and set up first carriage 2 and second carriage 3 that have raising and lowering functions, make the gypsum mould at its length direction transportation process of following, can follow the width direction and carry out the position switch, realize the station switch between different gypsum line rollgang, improve switching efficiency.

In one embodiment of the present invention, the second carriage 3 comprises a main body 31 and a run-out table 32 mounted on the main body, and the run-out table 32 comprises a plurality of run-out roller shafts of gypsum molds mounted in parallel. On the gypsum mould was sent into mould bracket 1 by first carriage 2, dragged along width direction translation to 3 positions of second carriage by mould bracket 1, the rising of second carriage 3 made the gypsum mould fall to export roller 32 above that, and export roller 32 drives the gypsum mould output, to the gypsum line delivery track of arranging in parallel, mould bracket 1 played the purpose that carries out the track switching to the gypsum mould translation.

For the pouring environment of the gypsum line, the first conveying frame 2 corresponds to a pouring roller way of the gypsum line, a single gypsum line is usually poured on the first conveying frame, and the bearing capacity of the gypsum mold is limited. The plaster line needs a certain conveying and cooling period to be taken out from the plaster mold. Therefore, the casting roller ways are arranged in parallel to form cooling roller ways, and the cooling roller ways only need to bear and lay the gypsum line for a preset time, so that the gypsum line is cooled and shaped. The cooling roller way can carry many gypsum moulds simultaneously, correspondingly, with the exit roller axle of rollout table 32, set up many gypsum moulds of arranging in parallel of propping up simultaneously to can be simultaneously with many gypsum moulds export on the cooling roller way, satisfy the conveying requirement of many roller way gypsum moulds. The output roller shaft is axially provided with a plurality of clamping joints, each clamping joint is in transmission fit with the bottom of a single gypsum mold, and the distance between every two adjacent clamping joints corresponds to the distance between the gypsum molds, so that stable output of a plurality of gypsum molds is realized.

In one embodiment of the present invention, the mold bracket 1 includes a bracket body 11, which is disposed on the top of the bracket body 11 and supports a first dragging belt 12 and a second dragging belt 13 at two ends of the gypsum mold in the length direction, respectively; the first dragging belt 12 and the second dragging belt 13 are respectively and continuously provided with a plurality of dragging teeth 14 which are matched with the bottom of the plaster mold in a clamping way. The gypsum mould has long structure, and for guaranteeing its dragging along width direction, mould bracket 11 props gypsum mould length direction's both ends simultaneously respectively, and mould bracket 11 provides the basis by bracket main part 11 and supports, and bracket main part 11's top sets up first dragging area 12 and second dragging area 13, and first dragging area 12 and second dragging area 13 move in step, drag the gypsum mould and carry out the translation.

Considering that the gypsum mold is made of metal materials, after the gypsum line is poured, the whole weight of the gypsum mold is large, the dragging end faces of the first dragging belt 12 and the second dragging belt 13 extend out of the dragging teeth 14, the dragging teeth 14 are clamped and matched with the gypsum mold in the width direction, and in the transmission process of the first dragging belt 12 and the second dragging belt 13, the dragging teeth 14 provide shifting power for the gypsum mold.

The gypsum mould is continuously conveyed to the mould bracket 1, the conveying beat of the gypsum mould in the width direction corresponds to the conveying beat of the gypsum mould on the first conveying frame 2, in order to ensure continuous conveying, the dragging teeth 14 on the first dragging belt 12 and the second dragging belt 13 are continuously arranged, and the distance between the adjacent dragging teeth 14 is matched with the dragging speed of the first dragging belt 12 and the second dragging belt 13 and the conveying speed of the first conveying frame 2.

Meanwhile, the first dragging belt 12 and the second dragging belt 13 are made of metal materials, so that the wear resistance between the first dragging belt and the gypsum mold is improved, and the shock resistance for dragging the gypsum mold to translate is ensured.

In an embodiment of the present invention, a driving shaft 15 and a driven shaft 16 for supporting the first dragging belt 12 and the second dragging belt 13 are further disposed on the top of the bracket body 1, and a dragging motor 17 for driving the driving shaft to move is disposed on the bracket body 1. The first dragging belt 12 and the second dragging belt 13 act synchronously, a driving dragging shaft 15 and a driven dragging shaft 16 are respectively arranged at two ends of the mould bracket 1 along the translation direction of the plaster mould, a dragging motor 17 is arranged on the mould bracket 1, the dragging motor 17 provides dragging power for the driving dragging shaft 15, and the driving dragging shaft 15 and the driven dragging shaft 16 act cooperatively to drag the first dragging belt 12 and the second dragging belt 13 to be conveyed.

In an embodiment of the present disclosure, the bracket body 1 is further provided with a first dragging belt supporting plate and a second dragging belt supporting plate respectively supporting the inner sides of the dragging belts of the first dragging belt 12 and the second dragging belt 13. After the gypsum mold is input to the mold bracket through the first conveying frame, the first dragging belt and the second dragging belt are used for carrying out translation supporting in the translation process, and particularly when the mold bracket is fully loaded, the first dragging belt and the second dragging belt are easy to bear and deform, and the accuracy of the dragging position of the gypsum mold is influenced.

The support frame is characterized in that a dragging belt support plate is arranged on the support frame main body, a first dragging belt support plate and a second dragging belt support plate are arranged on the dragging inner sides of the first dragging belt and the second dragging belt respectively, a gypsum mold is arranged on the first dragging belt and the second dragging belt, the first dragging belt and the second dragging belt are erected by the first dragging belt support plate and the second dragging belt support plate, the transmission inner side of the first dragging belt is supported by the surface of the first dragging belt support plate in a sliding mode in the translation process of the gypsum mold, the transmission inner side of the second dragging belt is supported by the surface of the second dragging belt support plate in a sliding mode, and the stability of a gypsum mold support structure and the translation interval is guaranteed.

In an embodiment of the present disclosure, the first carriage 2 includes an input carriage main body 21 and an input roller table 22 mounted on the input carriage main body 21, an input carriage support table 23 disposed in the bracket main body 1 and supporting the input carriage main body 21, and an input carriage driving cylinder 24 fixedly mounted at the bottom of the input carriage support table 23 and driving the input carriage main body 21 to ascend and descend. The input roller way 22 is erected on the first conveying frame 1 through the input frame main body 21, due to the lifting structure of the first conveying frame 2, the input roller way 22 is higher than the first dragging belt 12 and the second dragging belt 13, a gypsum mold on a pouring roller way can be input, and when the input roller way 22 is lower than the first dragging belt 12 and the second dragging belt 13, the transmission of the input roller way does not interfere with the translation of the gypsum mold. For the lift bearing structure stability that reduces first carriage 2, set up the input frame brace table 23 that props the input frame main part on bracket main part 1, the bottom of input frame brace table 23 sets up input frame and drives actuating cylinder 24, the end that stretches out that input frame drives actuating cylinder 24 stretches out and erects first carriage 2, can set up the input frame main part and fall on input frame brace table after the end that stretches out that input frame drives actuating cylinder 24 withdraws, reduces the lift degree of difficulty of first carriage.

Further, an output frame support table 33 for supporting the output frame main body 31 and an output frame driving cylinder 34 fixedly mounted at the bottom of the output frame support table 33 and driving the output frame main body 31 to ascend and descend are arranged in the bracket main body 1. The lifting height of the second conveying frame 3 only needs to meet the requirement of avoiding interference between the run-out table 34 and the first dragging belt 12 and the second dragging belt 13, the run-out frame supporting table 33 is arranged to provide stable support for the run-out frame main body 31, and the run-out frame driving cylinder is arranged at the bottom of the run-out frame supporting table 31.

Through the input frame support platform 21 and the output frame support platform 31, the bottom of the input frame drive cylinder 24 and the output frame drive cylinder 34 can be reserved with installation space, the ascending amplitude of the input frame main body 21 and the output frame main body 31 can be adjusted to be smaller, the type selection requirements of the input frame drive cylinder 24 and the output frame drive cylinder 34 are reduced, and the structural optimization is achieved.

In one embodiment of the present disclosure, the position monitoring device is a first photo-electric sensor switch 41 that is fixed on the output frame support table and is triggered when the gypsum mold is translated to the end of the output roller table in the conveying direction of the mold bracket.

The input frame support table 21 is further provided with a second photoelectric sensing switch which is used for monitoring the position of the dragging teeth and triggering when the dragging teeth move horizontally for a dragging distance to control the first conveying frame to move.

Gypsum mould on the gypsum line pouring roller way conveys to the gypsum mould station auto-change over device of this embodiment, first carriage 2 is driven by the input frame and drives actuating cylinder 24 drive and rise, the gypsum mould is carried to the top of first drive belt 12 and second drive belt 13 by first carriage 2, first carriage 2 falls back the gypsum mould and falls to the tooth position that drags that first drive belt 12 and second drive belt 13 correspond, drag the motor action, drag first drive belt and second and drag a gypsum mould width of area translation, continue to move down the input of gypsum mould.

For the second conveying frame 3, because it outputs a plurality of gypsum molds out of the cooling roller way at the same time, in the normal conveying process, after the positions of the gypsum molds on the first dragging belt 12 and the second dragging belt 13 correspond to the positions of the conveying rails on the second conveying frame 3, the second conveying frame 3 is lifted to output the gypsum molds. After the plurality of gypsum molds are output, the subsequent gypsum molds on the first dragging belt 12 and the second dragging belt 13 are continuously input to the upper part of the second conveying frame 3. The mold bracket is provided with a dragging allowance between the first conveying frame and the second conveying frame, and the length of the dragging allowance corresponds to the distance between the pouring roller way and the cooling roller way.

Whether the position of gypsum mould corresponds with the position of rollgang 32 on second carriage 3, detect through first photoelectric sensing switch 41, first photoelectric sensing switch 41 is located the output frame main part 43, the end that its induction position corresponds first drive belt 12 and second drive belt 13 and drags the direction, after the gypsum mould reachs this position, first photoelectric sensing switch 41 triggers, control output frame drives actuating cylinder action and rises the drive of second carriage, export the gypsum mould to the cooling roller way on.

Whether first carriage 2 moves and monitors through first photoelectric sensing switch, and the response position of first photoelectric sensing switch corresponds the first tooth that drags on dragging belt 12 or second dragging belt 13, drags a gypsum mould interval of tooth translation, and first photoelectric sensing switch triggers the first carriage of control and rises and descend a beat for will pour gypsum mould input on the roll table. First carriage 2 can set up simultaneously and carry out spacing stop device to the input position of gypsum mould, guarantees that the accurate predetermined position of dragging on first dragging area and the second dragging area of falling on after the gypsum mould input.

The first conveying frame 2 and the second conveying frame 3 which float up and down move to input and output the gypsum mould along the length direction of the gypsum mould, and the gypsum mould is horizontally translated by matching the first dragging belt 12 and the second dragging belt 13, so that the gypsum mould is switched from a single track to a plurality of tracks or between conveying tracks which are arranged in parallel. The preferred gypsum mould input of this embodiment and output position lie in the same one side of mould bracket to can arrange pouring roller way and cooling roller way in parallel, make full use of gypsum workshop, optimize the transport structure of gypsum mould.

Based on the gypsum mould station auto-change over device that provides in the above-mentioned embodiment, the utility model also provides a gypsum line production line, include that the roller way is pour to the gypsum line that the gypsum line was pour, and the gypsum line after pouring with parallel conveying carries out conveying refrigerated gypsum line cooling roller way to it, and the switching end frame that roller way and gypsum line cooling roller way were pour to this gypsum line is equipped with like the gypsum mould station auto-change over device that provides in the above-mentioned embodiment.

Because the gypsum mold station switching device of the embodiment is adopted in the gypsum line production line, please refer to the embodiment for the beneficial effects brought by the gypsum mold station switching device in the gypsum line production line.

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 invention. 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. A gypsum mould station switching device is characterized by comprising a mould bracket for supporting a gypsum mould and dragging the gypsum mould to translate along the width direction of the gypsum mould;

a first lifting conveying frame extending out of the supporting end face of the mould bracket and guiding the gypsum mould into the mould bracket along the length direction of the mould bracket is arranged at the first end of the mould bracket in the width direction;

a second conveying frame which can lift and stretch out of the supporting end face of the mould bracket and lead out the gypsum mould along the length direction of the mould bracket is arranged at the second end of the mould bracket in the width direction;

the plaster mold lifting device further comprises a position monitoring device for controlling the second conveying frame to lift when the plaster mold is translated to the preset position conveyed by the second conveying frame.

2. The gypsum mold station switching device of claim 1, wherein the second conveying frame comprises an output frame body and an output roller table mounted on the output frame body, and the output roller table comprises a plurality of output roller shafts of the gypsum molds which are mounted in parallel.

3. The gypsum mold station switching device according to claim 2, wherein the mold bracket comprises a bracket main body which is arranged on the top of the bracket main body and respectively supports a first dragging belt and a second dragging belt at two ends of the gypsum mold in the length direction;

and a plurality of dragging teeth matched with the bottom of the gypsum mold in a clamping manner are continuously arranged on the first dragging belt and the second dragging belt respectively.

4. The gypsum mold station switching device of claim 3, wherein the top of the bracket main body is further provided with a driving dragging shaft and a driven dragging shaft for supporting the first dragging belt and the second dragging belt, and the bracket main body is provided with a dragging motor for driving the driving dragging shaft to move.

5. The station switching device for gypsum molds according to claim 4, wherein the bracket body is further provided with a first dragging belt support plate and a second dragging belt support plate which respectively support the inner sides of the dragging belts of the first dragging belt and the second dragging belt.

6. The gypsum mold station switching device of claim 3, wherein the first conveying frame comprises an input frame main body and an input roller way arranged on the input frame main body, and the bracket main body is internally provided with an input frame supporting table for supporting the input frame main body and an input frame driving cylinder which is fixedly arranged at the bottom of the input frame supporting table and drives the input frame main body to lift.

7. The station switching device for the gypsum mold as claimed in claim 6, wherein the bracket body is provided therein with an output frame support platform for supporting the output frame body, and an output frame driving cylinder which is fixedly mounted at the bottom of the output frame support platform and drives the output frame body to ascend and descend.

8. The gypsum mold station switching device of claim 7, wherein the position monitoring device is a first photoelectric sensing switch fixedly mounted on the output frame support table and activated when the gypsum mold translates to the end of the run-out table in the conveying direction of the mold carriage.

9. The gypsum mold station switching device of claim 8, wherein the input frame support platform is further provided with a second photoelectric sensing switch for monitoring the position of the dragging tooth and triggering the dragging tooth to control the first conveying frame to move when the dragging tooth moves horizontally for a dragging distance.

10. A gypsum line production line comprises a gypsum line casting roller way for casting a gypsum line and a gypsum line cooling roller way for conveying and cooling the cast gypsum line in parallel, and is characterized in that the switching ends of the gypsum line casting roller way and the gypsum line cooling roller way are provided with the gypsum mold station switching device as claimed in any one of claims 1 to 9.

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