CN112356251A

CN112356251A - Gypsum line machinery

Info

Publication number: CN112356251A
Application number: CN202011010412.5A
Authority: CN
Inventors: 周玉兴
Original assignee: Linyi Zhouxing Building Materials Co ltd
Current assignee: Linyi Zhouxing Building Materials Co ltd
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2021-02-12
Anticipated expiration: 2040-09-23
Also published as: CN112356251B

Abstract

The invention relates to the technical field of gypsum line processing, and discloses a gypsum line machine, which comprises two first supporting legs and two second supporting legs, wherein one sides of the first supporting legs, which are opposite to the second supporting legs, are rotatably connected with first rotating rods, gypsum conveying belts are rotatably sleeved on the first rotating rods, storage tanks are arranged at the right ends of the gypsum conveying belts, feed inlets are formed in the upper ends of the storage tanks, the feed inlets are positioned right below the right ends of the gypsum conveying belts, discharge outlets are formed in the front side surfaces of the storage tanks, and sliding plates are fixedly connected to the front side surfaces of the storage tanks. This gypsum lines machinery possesses transmission device and is carrying out the in-process of transmitting to the mould, and the centre gripping is carried out to the mould that can be fine, and then avoids the mould to take place the skew, and then guarantees the injection effect of gypsum thick liquid, and then guarantees the productivity effect and avoids the waste of raw and other materials.

Description

Gypsum line machinery

Technical Field

The invention relates to the technical field of gypsum line processing, in particular to a gypsum line machine.

Background

The plaster line is a house decoration material, and is mainly used for indoor decoration. Can be provided with various patterns, is practical and beautiful. Has the functions of fire prevention, moisture prevention, heat preservation, sound insulation and heat insulation, and can play a luxurious decorative effect. The gypsum is an airtight cementing material, and the gypsum relief decoration product has to have a corresponding thickness to ensure that the intermolecular affinity reaches the optimal degree. Thereby ensuring a certain service life and integrity and safety in the service life. If the gypsum relief decorating product is too thin, not only the service life is short, but also the safety is affected.

The gypsum line that has now is in the in-process of production, places the mould on the conveyer belt usually and pours into the gypsum thick liquid into, but the in-process of transporting the mould is being carried out to most current transmission device, and the centre gripping is carried out the mould that can not be fine usually, and then the mould skew appears easily in the in-process of transportation, and then it is inhomogeneous to lead to the gypsum thick liquid to pour into, and then the gypsum lines yield that leads to producing is uneven, and then reduces the production income to and raw and other materials are extravagant.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a gypsum line machine which has the advantages that a transmission mechanism can well clamp a mold in the process of transmitting the mold, so that the mold is prevented from shifting, the injection effect of gypsum slurry is ensured, the production benefit is ensured, the waste of raw materials is avoided, and the like, and the problems that the mold cannot be well clamped usually by most of conventional transmission devices in the process of transporting the mold, the mold shifting is easy to occur in the transporting process, the gypsum slurry is not uniformly injected, the yield of produced gypsum lines is uneven, the production yield is reduced, and the waste of raw materials is avoided are solved.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: gypsum line machinery, including first supporting leg and second supporting leg, the quantity of first supporting leg and second supporting leg is two, the first supporting leg all rotates with the relative one side of second supporting leg and is connected with first pivot pole, the last rotation of first pivot pole has cup jointed the gypsum transmission band, the right-hand member of gypsum transmission band is provided with the storage tank, the upper end of storage tank has seted up the feed inlet, the feed inlet is located under the right-hand member of gypsum transmission band, the front side surface of storage tank has seted up the discharge gate, the front side surface of storage tank is fixedly connected with slide, the upper surface of slide is provided with the arc recess, the rear end of slide is located under the discharge gate, the front end of slide is provided with the beating cylinder, the inside of beating cylinder is provided with the mechanism, the front side surface of beating cylinder is fixedly connected with the thick liquid conveyer pipe, the slurry conveying pipe is communicated with the pulping barrel, a slurry spraying head is fixedly connected to the lower surface of the slurry conveying pipe, and a mold conveying mechanism is arranged on the front side of the pulping barrel.

Preferably, the gypsum transmission band sets up for the slope, the slope mode of gypsum transmission band is left end right side height, fixed connection guard plate is advanced to both sides around the gypsum transmission band, fixedly connected with gypsum baffle on the gypsum transmission band, the gypsum baffle is semi-circular.

Preferably, rotate on the storage tank rear side inner wall and be connected with big auger and little auger, the quantity of little auger is two, two little auger sets up the left and right sides at big auger respectively.

Preferably, mould transport mechanism includes first backup pad and second backup pad, first backup pad and second backup pad setting in the front side of a pulping section of thick bamboo and not with the contact of a pulping section of thick bamboo, the equal fixedly connected with supporting leg in lower extreme surface of first backup pad and second backup pad, first backup pad is rotated with one side that the second backup pad is relative and is connected with the second dwang, the mould transmission band has been cup jointed in the rotation of second dwang.

Preferably, the equal fixedly connected with backup pad in both sides around the mould transmission band, the equal fixedly connected with spring in one side that the backup pad is relative, the spring not with the equal fixedly connected with grip block of one end of backup pad contact, fixedly connected with haulage rope on the grip block, haulage rope and grip block communicate each other, the one side that the grip block is relative is provided with the mould body, the lower surface of mould body and the upper surface of mould transmission band laminate each other.

Preferably, the upper end fixedly connected with bracing piece of first backup pad, the quantity of bracing piece is three, and is three the bracing piece is a style of calligraphy and arranges in the upper end of first backup pad, and is three the bracing piece is left branch vaulting pole, well bracing piece and right branch vaulting pole respectively.

Preferably, the front side surface of the left supporting rod is fixedly connected with a wire support, and the wire support is sleeved with a glass fiber roller body.

Preferably, the front side surface of the middle support rod is fixedly connected with a threading bracket, and a threading hole is formed in the threading bracket.

Preferably, the front side surface fixedly connected with silk screen frame of right branch vaulting pole, the silk screen frame is last to have cup jointed the silk screen roller body.

(III) advantageous effects

Compared with the prior art, the invention provides a gypsum line machine, which has the following beneficial effects:

1. the gypsum line machine can clamp the mould when the mould body is conveyed by the clamping disc arranged on the mould conveying belt, the clamping disc can clamp the moulds with different sizes by the contraction and expansion performance of the arranged spring, the mutual communication between the traction rope and the clamping disc is realized, the stress of the clamping disc is more uniform, the clamping effect is better, the phenomenon that the mould body moves randomly is avoided, the problem that the slurry spraying head is difficult to accurately inject the slurry into the mould body is avoided, the waste of raw materials is avoided, the injection effect of gypsum slurry is improved, and the conveying mechanism can well clamp the mould in the process of conveying the mould, and then avoid the mould to take place the skew, and then guarantee the injection effect of gypsum thick liquid, and then guarantee the productivity effect and avoid the waste of raw and other materials.

2. This gypsum lines machinery, through the guard plate that sets up, and then can effectually prevent that the gesso from when dropping into the gypsum transmission band on, the gesso flows from both sides around the gypsum transmission band, because the gypsum transmission band sets up for the slope, and then through setting up the gypsum baffle, and then when the gypsum transmission band transmits the gesso to the right-hand member of gypsum transmission band, and then avoids the phenomenon that the landing appears in the gypsum, and then improves the conveying efficiency of gypsum.

3. This gypsum lines machinery, big auger and little auger through setting up, and then when needing to use the gesso, and then drive big auger and little auger through outside slewing mechanism and rotate, and then the rotation of little auger pushes the inside gesso of storage tank to big auger, and then the rotation of big auger discharges the gesso from the discharge gate with the gesso, at big auger and little auger pivoted in-process, can carry out stirring and smashing once more to the gesso, and then the gesso that will solidify together disperses, and then avoid next environment to add man-hour to the gesso, the gesso that condenses into the piece appears, and then no longer need carry out retreatment to the gesso that condenses into the piece, and then improve work efficiency.

4. This gypsum lines machinery, the line through setting up holds in the palm, and then can cup joint the glass silk roller body on the line holds in the palm, and then pass the through wires hole that sets up the glass silk thread on threading support, and then hang down the one end of glass silk thread, and then the one end that hangs down that the mould body after pouring into the thick liquid removed the glass silk thread makes, and then have certain viscidity through the thick liquid, and then adsorb the glass silk thread on the inside thick liquid of mould body, and then hardness and the pliability of the gypsum line after the increase shaping, and then no longer need the manual work to place the glass silk thread on the gypsum thick liquid, and then reduce the cost of labor.

5. This gypsum lines machinery, through setting up the silk screen frame, and then can cup joint the silk screen roller body on the silk screen frame, and then hang down the one end of silk screen on the silk screen roller body, and then with the position of mould body conveyer belt silk screen one end that hangs down, and then the silk screen contacts with the inside gypsum thick liquid of mould body, and then can adsorb the silk screen through the viscidity of thick liquid, and then the silk screen lid is on the inside thick liquid of mould body, and then increases the pliability and the hardness of the gypsum line after the shaping once more.

Drawings

FIG. 1 is a schematic view of the mechanical structure of the gypsum line of the present invention;

FIG. 2 is a schematic view of the internal structure of the storage tank of the present invention;

FIG. 3 is a schematic view of the structure of the beater tube according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 1 according to the present invention.

In the figure: 1 first supporting leg, 2 first rotating rod, 3 protective plates, 4 gypsum transmission belts, 5 gypsum baffle plates, 6 second supporting legs, 7 storage tanks, 8 feed inlets, 9 first supporting plates, 10 discharge outlets, 11 sliding plates, 12 pulping cylinders, 13 pulp conveying pipes, 14 mould transmission belts, 15 second rotating rods, 16 second supporting plates, 17 mould bodies, 18 supporting plates, 19 pulp spraying heads, 20 supporting rods, 21 glass fiber roll bodies, 22 wire supports, 23 threading supports, 24 wire roll bodies, 25 wire net frames, 26 large packing augers, 27 small packing augers, 28 pulping mechanisms, 29 springs, 30 clamping discs, 31 traction ropes and 32 threading holes.

Detailed Description

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

Referring to fig. 1-5, the present invention provides a technical solution: a gypsum line machine comprises a first supporting leg 1 and a second supporting leg 6, wherein the second supporting leg 6 is higher than the first supporting leg 1, the number of the first supporting leg 1 and the second supporting leg 6 is two, one side of the first supporting leg 1 opposite to the second supporting leg 6 is rotatably connected with a first rotating rod 2, a gypsum transmission belt 4 is rotatably sleeved on the first rotating rod 2, the gypsum transmission belt 4 is obliquely arranged, the first rotating rod 2 is driven by an external rotating mechanism, a protection plate 3 is fixedly connected to the front side and the rear side of the gypsum transmission belt 4, a gypsum baffle 5 is fixedly connected to the gypsum transmission belt 4, the gypsum baffle 5 is semicircular, the gypsum powder can be prevented from sliding off in the transportation process by the gypsum baffle 5, and is further rotatably sleeved on the first rotating rod 2 by the set gypsum transmission belt 4, when the first rotating rod 2 is driven by an external rotating mechanism, the first rotating rod 2 rotates to drive the gypsum conveying belt 4 to rotate, gypsum powder is put into the left end of the gypsum conveying belt 4 and then is conveyed to the next processing link through the rotation of the gypsum conveying belt 4, the gypsum powder can be effectively prevented from flowing out from the front side and the back side of the gypsum conveying belt 4 when being put on the gypsum conveying belt 4 through the arranged protection plate 3, the gypsum powder is conveyed to the right end of the gypsum conveying belt through the gypsum baffle 5 due to the inclined arrangement of the gypsum conveying belt 4, the gypsum powder is further prevented from sliding down when the gypsum conveying belt 4 conveys the gypsum powder to the right end of the gypsum conveying belt, the conveying efficiency of the gypsum is improved, and the right end of the gypsum conveying belt 4 is provided with a storage tank 7, the upper end of the storage tank 7 is provided with a feeding hole 8, the feeding hole 8 is positioned right below the right end of the gypsum transmission belt 4, the inner wall of the rear side of the storage tank 7 is rotatably connected with a large auger 26 and a small auger 27, the number of the small augers 27 is two, the two small augers 27 are respectively arranged at the left side and the right side of the large auger 26, the front side surface of the storage tank 7 is provided with a discharging hole 10, the gypsum powder in the storage tank 7 is pushed to the large auger 26 by the rotation of the small auger 27 through the arranged large auger 26 and the small auger 27, the gypsum powder is discharged from the discharging hole 10 by the rotation of the large auger 26 when the gypsum powder is required to be used, the gypsum powder can be stirred and crushed again in the rotating process of the large auger 26 and the small auger 27, further dispersing the gypsum powder solidified together, thereby avoiding the gypsum powder from being coagulated into blocks when the gypsum powder is processed in the next environment, further avoiding the need of retreating the gypsum powder coagulated into blocks, further improving the working efficiency, the front side surface of the storage tank 7 is fixedly connected with a sliding plate 11, the upper surface of the sliding plate 11 is provided with an arc-shaped groove, the rear end of the sliding plate 11 is positioned under the discharge port 10, the front end of the sliding plate 11 is provided with a pulping cylinder 12, the inside of the pulping cylinder 12 is provided with a pulping mechanism 28, the pulping mechanism 28 is the existing structure and is not described herein in detail, the front side surface of the pulping cylinder 12 is fixedly connected with a pulp conveying pipe 13, the pulp conveying pipe 13 is communicated with the pulping cylinder 12, the lower surface of the pulp conveying pipe 13 is fixedly connected with a pulp spraying head 19, the pulp spraying head 19 is communicated with the pulp conveying pipe 13, and further after the gypsum powder flows into the sliding plate 11 from the discharge port 10, then the gypsum powder flows into the interior of the pulping barrel 12, and then the water is injected into the interior of the pulping barrel 12, and then the gypsum powder is mixed into a certain proportion of slurry by the pulping mechanism 28, and then the pulping is finished, and then the slurry in the interior of the pulping barrel 12 flows into the slurry conveying pipe 13, and then is sprayed out from the slurry spraying head 19, the front side of the pulping barrel 12 is provided with a mold conveying mechanism, the mold conveying mechanism comprises a first supporting plate 9 and a second supporting plate 16, the lower end surfaces of the first supporting plate 9 and the second supporting plate 16 are fixedly connected with supporting legs, one side of the first supporting plate 9 opposite to the second supporting plate 16 is rotatably connected with a second rotating rod 15, the second rotating rod 15 is also rotated by an external rotating mechanism, the number of the second rotating rods 15 is multiple, the multiple second rotating rods 15 are respectively rotatably connected to one side of the first supporting plate 9 opposite to the second supporting plate 16, the second rotating rod 15 is rotatably sleeved with a, the front side and the rear side of the mold conveying belt 14 are fixedly connected with the supporting plates 18, one side opposite to the supporting plates 18 is fixedly connected with springs 29, the number of the springs 29 is multiple, one ends, not in contact with the supporting plates 18, of the multi-lattice springs 29 are fixedly connected with clamping discs 30, the traction ropes 31 are fixedly connected to the clamping discs 30 and are communicated with the clamping discs 30, one side opposite to the clamping discs 30 is provided with a mold body 17, the lower surface of the mold body 17 is attached to the upper surface of the mold conveying belt 14, the mold body 17 is clamped through the arranged clamping discs 30, the phenomenon that the mold body 17 moves randomly is avoided when the mold body 17 is conveyed again, the slurry spraying heads 19 are difficult to accurately inject slurry into the interior of the mold body 17, the supporting rods 20 are fixedly connected to the upper end of the first supporting plate 9, and the number of the supporting rods 20 is three, the three support rods 20 are arranged at the upper end of the first support plate 9 in a straight line shape, the three support rods 20 are respectively a left support rod, a middle support rod and a right support rod, the front side surface of the left support rod 20 is fixedly connected with a wire support 22, a glass fiber roller body 21 is sleeved on the wire support 22, the front side surface of the middle support rod is fixedly connected with a threading support 23, a threading hole 32 is formed in the threading support 23, the front side surface of the right support rod 20 is fixedly connected with a wire net rack 25, a wire net roller body 24 is sleeved on the wire net rack 25, the glass fiber roller body 21 can be sleeved on the wire support 22 through the arranged wire support 22, the glass fiber wire is arranged in the threading hole 32 in the threading support 23 to pass through, one end of the glass fiber wire is hung downwards, the wire net roller body 24 can be sleeved on the wire net rack 25 through the arranged wire net rack 25, and one end of a wire net on the wire net roller, and then the mould body 17 after pouring into the thick liquid moves the one end messenger that hangs down of glass silk thread, and then have certain viscidity through the thick liquid, and then adsorb the glass silk thread on the inside thick liquid of mould body 17, and then increase the hardness and the pliability of the gypsum line after the shaping, and then along with the continuation rotation of mould transmission band 14, and then take the position of the one end that hangs down of silk screen with mould body 17 transportation, and then the silk screen contacts with the inside gypsum thick liquid of mould body 17, and then can adsorb the silk screen through the viscidity of thick liquid, and then the silk screen covers on the inside thick liquid of mould body 17, and then increase the pliability and the hardness of the gypsum line after the shaping once more, and then along with the rotation of mould transmission band 14, and then will cover the mould body 17 of silk screen and glass silk thread and transport next processing.

The working principle is as follows: when the plaster line machine is used;

the first step is as follows: the first rotating rod 2 is sleeved with the gypsum transmission belt 4 in a rotating way, and when the first rotating rod 2 is driven by an external rotating mechanism, the first rotating rod 2 rotates, and the rotation of the first rotating rod 2 drives the gypsum conveying belt 4 to rotate, then the gypsum powder is put into the left end of the gypsum transmission belt 4, and then through the rotation of the gypsum transmission belt 4, further conveying the gypsum powder to the next processing link, and further effectively preventing the gypsum powder from flowing out from the front side and the rear side of the gypsum conveying belt 4 when the gypsum powder is thrown onto the gypsum conveying belt 4 through the arranged protection plates 3, because the gypsum transmission belt 4 is obliquely arranged, the gypsum baffle 5 is arranged, and when the gypsum transmission belt 4 transmits gypsum powder to the right end of the gypsum transmission belt, the gypsum is prevented from sliding off, and the gypsum transmission efficiency is improved;

the second step is that: when the gypsum powder is needed, the large packing auger 26 and the small packing auger 27 are driven to rotate through the external rotating mechanism, the gypsum powder in the storage tank 7 is pushed to the large packing auger 26 through the rotation of the small packing auger 27, the gypsum powder is discharged from the discharge port 10 through the rotation of the large packing auger 26, the gypsum powder can be stirred and crushed again in the rotating process of the large packing auger 26 and the small packing auger 27, the solidified gypsum powder is dispersed, the gypsum powder is prevented from being coagulated into blocks in next environment processing, the gypsum powder coagulated into blocks does not need to be processed again, and the working efficiency is improved;

the third step: further, after the gypsum powder flows into the sliding plate 11 from the discharge port 10, the gypsum powder flows into the pulping cylinder 12, water is injected into the pulping cylinder 12, the gypsum powder is mixed into a certain proportion of pulp by the pulping mechanism 28, pulping is finished, and the pulp in the pulping cylinder 12 flows into the pulp conveying pipe 13 and is ejected from the pulp ejection head 19;

the fourth step: the clamping disc 30 is arranged to clamp the mould body 17, so that when the mould body 17 is conveyed again, the phenomenon that the mould body 17 moves randomly is avoided, and the slurry is difficult to accurately inject the slurry into the mould body 17 by the slurry ejection head 19;

the fifth step: and then the mould body 17 after pouring into the thick liquid moves the one end messenger that hangs down of glass silk thread, and then have certain viscidity through the thick liquid, and then adsorb the glass silk thread on the inside thick liquid of mould body 17, and then increase the hardness and the pliability of the gypsum line after the shaping, and then along with the continuation rotation of mould transmission band 14, and then transport the position of the one end that hangs down of silk screen with mould body 17, and then the silk screen contacts with the inside gypsum thick liquid of mould body 17, and then can adsorb the silk screen through the viscidity of thick liquid, and then the silk screen covers on the inside thick liquid of mould body 17, and then increase the pliability and the hardness of the gypsum line after the shaping once more, and then along with the rotation of mould transmission band 14, and then will cover the mould body 17 of silk screen and glass silk thread and transport next processing link.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Gypsum lines machinery, including first supporting leg (1) and second supporting leg (6), its characterized in that: the number of the first supporting legs (1) and the second supporting legs (6) is two, one side of each first supporting leg (1) opposite to the corresponding second supporting leg (6) is connected with a first rotating rod (2) in a rotating mode, a gypsum conveying belt (4) is sleeved on each first rotating rod (2), the right end of each gypsum conveying belt (4) is provided with a storage tank (7), a feed inlet (8) is formed in the upper end of each storage tank (7), the feed inlet (8) is located under the right end of each gypsum conveying belt (4), a discharge outlet (10) is formed in the front side surface of each storage tank (7), a sliding plate (11) is fixedly connected to the front side surface of each storage tank (7), an arc-shaped groove is formed in the upper surface of each sliding plate (11), the rear end of each sliding plate (11) is located under the discharge outlet (10), and a pulping barrel (12) is arranged at the front end of each sliding plate (11), the pulping device is characterized in that a pulping mechanism (28) is arranged inside the pulping barrel (12), a pulp conveying pipe (13) is fixedly connected to the front side surface of the pulping barrel (12), the pulp conveying pipe (13) is communicated with the pulping barrel (12), a pulp spraying head (19) is fixedly connected to the lower surface of the pulp conveying pipe (13), and a mold conveying mechanism is arranged on the front side of the pulping barrel (12).

2. The gypsum line machine of claim 1, wherein: gypsum transmission band (4) set up for the slope, the slope mode of gypsum transmission band (4) is left end right side height, fixed connection guard plate (3) are advanced to both sides around gypsum transmission band (4), fixedly connected with gypsum baffle (5) on gypsum transmission band (4), gypsum baffle (5) are semi-circular.

3. The gypsum line machine of claim 1, wherein: the rotary material storage tank is characterized in that a large packing auger (26) and a small packing auger (27) are rotatably connected to the inner wall of the rear side of the material storage tank (7), the number of the small packing augers (27) is two, and the small packing augers (27) are respectively arranged at the left side and the right side of the large packing auger (26).

4. The gypsum line machine of claim 1, wherein: mould transport mechanism includes first backup pad (9) and second backup pad (16), first backup pad (9) and second backup pad (16) set up in the front side of a beating section of thick bamboo (12) and not with a beating section of thick bamboo (12) contact, the equal fixedly connected with supporting leg in lower extreme surface of first backup pad (9) and second backup pad (16), first backup pad (9) is rotated with one side that second backup pad (16) is relative and is connected with second dwang (15), second dwang (15) are rotated and have been cup jointed mould transmission band (14).

5. The gypsum line machine of claim 4, wherein: the equal fixedly connected with backup pad (18) in both sides around mould transmission band (14), the equal fixedly connected with spring (29) in one side that backup pad (18) is relative, spring (29) do not with one end fixedly connected with grip block (30) of backup pad (18) contact, fixedly connected with haulage rope (31) on grip block (30), haulage rope (31) and grip block (30) communicate each other, one side that grip block (30) is relative is provided with mould body (17), the lower surface of mould body (17) and the upper surface of mould transmission band (14) laminate each other.

6. The gypsum line machine of claim 4, wherein: the upper end fixedly connected with bracing piece (20) of first backup pad (9), the quantity of bracing piece (20) is three, and is three bracing piece (20) are the style of calligraphy and arrange in the upper end of first backup pad (9), and are three bracing piece (20) are left branch vaulting pole, well bracing piece and right branch vaulting pole respectively.

7. The gypsum line machine of claim 6, wherein: the front side surface of the left supporting rod (20) is fixedly connected with a wire support (22), and a glass fiber roller body (21) is sleeved on the wire support (22).

8. The gypsum line machine of claim 6, wherein: the front side surface of the middle supporting rod is fixedly connected with a threading support (23), and a threading hole (32) is formed in the threading support (23).

9. The gypsum line machine of claim 6, wherein: the front side surface fixedly connected with silk screen frame (25) of right branch vaulting pole (20), silk screen roller body (24) have been cup jointed on silk screen frame (25).