CN216127430U - Medium-pressure resin model grouting line - Google Patents

Abstract

The utility model relates to the technical field of ceramic forming equipment, in particular to a medium-pressure resin model grouting line. A medium-pressure resin model grouting line comprises an outer frame, a grouting main line is arranged on the lower side of the outer frame, a medium-pressure resin mold with a porous structure is arranged in the grouting main line, the grouting pressure of the medium-pressure resin mold is 0.3-0.6MPa, and the medium-pressure resin mold is connected with a grouting system and a drainage and exhaust system. The medium-pressure resin molds are arranged on the grouting main line in a sliding mode, the medium-pressure resin molds are provided with parting surfaces perpendicular to the horizontal plane, a mold closing press is fixed to one end of the grouting main line and used for closing and pressing the medium-pressure resin molds. Adopt the medium-pressure resin mould as the forming die of slip casting line, compare gypsum mould ejection efficiency high, compare high-pressure resin mould manufacturing and use cost low, set up hydraulic pressure press in the slip casting line and can carry out automatic compaction to the medium-pressure resin mould.

Description

Medium-pressure resin model grouting line

Technical Field

The utility model relates to the technical field of ceramic forming equipment, in particular to a medium-pressure resin model grouting line.

Background

Ceramic products are typically formed by slip casting, the conventional process being: the prepared slurry is pumped into the gypsum mold through a pipeline by the injection plug pump, the slurry feeding height in the mold is controlled by the liquid level pipe, and after the slurry is formed in the gypsum mold, the redundant slurry in the mold is discharged into the slurry discharging barrel in a natural slurry discharging mode. However, the gypsum mould has long ejection period and low efficiency, and in order to reduce the ejection period, a high-pressure resin mould is adopted at present, but the mould has complex manufacturing process and high cost and cannot adapt to the market environment which is changeable instantly; the existing ceramic body grouting line has low automation degree and high labor intensity of workers, and is not beneficial to batch production of large-scale bodies.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems, and provides a medium-pressure resin model grouting line aiming at the technical defects, wherein a medium-pressure resin mould with a porous structure is adopted, so that continuous grouting can be realized, and the problems that the existing grouting line cannot perform continuous grouting and the blank ejection period is long are solved; meanwhile, a hydraulic pressure pressurizing machine is arranged in the grouting line, so that a medium-pressure resin mold can be automatically compressed, and the problems of low automation degree and high labor intensity of the existing grouting line are solved through a lifting mechanism, an upper mold opening and closing mechanism and a blank taking mechanism.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: the utility model provides a middling pressure resin model slip casting line, includes outer frame, the downside of outer frame is provided with the slip casting thread, be provided with the middling pressure resin mold that slip casting pressure is 0.3-0.6MPa in the slip casting thread, middling pressure resin mold is connected with slip casting system and drainage exhaust system, the slip casting system includes the elevated tank, the bottom in elevated tank is provided with the grout outlet, the grout outlet passes through pipe connection mud pressurizer, the pressurizer advances, the export both ends are provided with the check valve respectively, the exit end of pressurizer passes through the bottom intercommunication of slip casting pipeline with every set of middling pressure resin mold.

Further optimizing the technical scheme, the middle-pressure resin mold is provided with a plurality of groups of middle-pressure resin molds in a sliding manner on the grouting main line, the middle-pressure resin mold is provided with a parting surface vertical to a horizontal plane, and a mold closing press machine is fixed at one end of the grouting main line and is used for closing and pressing the plurality of groups of middle-pressure resin molds.

Further optimize this technical scheme, the outer frame includes portal and longeron, and is a plurality of the portal passes through the longeron links together, one side of slip casting thread is provided with fortune blank subline, the slip casting thread with it gets base mechanism to be provided with between the fortune blank subline, the slip casting thread with fortune blank subline sets up the outer frame is inboard.

Further optimize this technical scheme, the middling pressure resin mould is including last mould, the upside that the slip casting thread corresponds the position is provided with mould hoisting device, it includes the hoisting beam to go up mould hoisting device, the downside sliding connection of hoisting beam has a plurality of last moulds, the upside of hoisting beam is provided with hoist mechanism, hoist mechanism includes a plurality of hoist units, the hoist unit passes through flexible rope and hoisting beam flexonics.

Further optimize this technical scheme, the lifting beam with be provided with between the outer frame and promote guider, it includes guide pulley group and guide post to promote guider, guide pulley group fixes one side at the lifting beam, the guide post penetrates in the guide pulley group.

Further optimizing the technical scheme, a vertical blank unloading section is arranged at the upper end of the guide post, a mold closing guide section is connected to the lower end of the blank unloading section, the length direction of the mold closing guide section is parallel to the mold opening direction of the upper mold, the mold closing guide section and the horizontal plane form a certain inclination angle, the guide wheel set comprises at least three guide wheels and limiting wheels, the guide wheels roll on the bending surface of the guide post, the limiting wheels roll on the planes on the two sides of the guide post, the guide wheels and the limiting wheels are respectively installed in guide connecting plates, and the guide wheel set is connected with the lifting beam through the guide connecting plates.

Further optimize this technical scheme, the lifting beam with it opens and shuts the mould mechanism to be provided with the mould between the last mould, it includes sliding connection board to go up mould mechanism that opens and shuts, sliding connection board with lifting beam sliding connection, install the telescoping device among the sliding connection board, sliding connection board's downside is provided with the die carrier, it links together through the telescoping device that sets up to go up the die carrier, the upside of going up the die carrier is provided with the guide bar, the guide bar with the direction of motion parallel arrangement of telescoping device, sliding connection board with the guide bar corresponds the rigidity of position and has the sliding sleeve, the guide bar penetrates in the sliding sleeve.

Further optimize this technical scheme, the base mechanism of getting includes the roof beam structure, the roof beam structure sets up in two horizontal longitudinal rails, the upside of roof beam structure is provided with scissors elevating system, scissors elevating system's top is provided with bears the dish, the upper portion that bears the dish is provided with sliding bracket, the upside that bears the dish is provided with the slide rail, sliding bracket sets up sliding connection in the slide rail.

Further optimize this technical scheme, cut and to connect through articulated portion between fork elevating system and the bearing dish, the both sides of articulated portion are provided with the angleRegulatingThe mechanism enables the bearing plate to adapt to different blank taking directions through the hinge part and the angle adjusting mechanism.

Further optimize this technical scheme, the bottom of elevated tank is recessed toper, the conical bottom is provided with the drain, the both sides of drain are provided with into thick liquid mouth respectively with go out the thick liquid mouth.

Compared with the prior art, the utility model has the following advantages: 1. the medium-pressure resin mold is adopted as a forming mold of the grouting line, so that the blank discharging efficiency is high compared with that of a plaster mold, and the manufacturing and using cost is low compared with that of a high-pressure resin mold; 2. the die opening and closing mechanism of the upper die can realize the flexible use of die opening or die closing of a single die; 3. the lifting beam and the lifting mechanism can realize the integral lifting or lowering of the upper die, so that a larger operation space is created for taking out the green body; 4. the lifting beam can drive the upper die to stably rise through the arranged lifting guide device, so that the blank body is prevented from being damaged when the upper die moves; 5. the sliding bracket of the blank taking mechanism is moved to the bottom of the bottom tray, the blank body is lifted by the scissor lifting mechanism, the blank body can be taken out by moving the sliding bracket, and labor force is saved. 6. The part with overlarge specific gravity in the mud can be precipitated and removed through the arranged sewage draining outlet.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a medium-pressure resin model grouting line.

FIG. 2 is a side view of one end of a medium pressure resin pattern slip casting line.

Fig. 3 is a schematic structural diagram of an upper mold lifting device of a medium-pressure resin mold grouting line.

Fig. 4 is a partially enlarged schematic view of a portion a of fig. 3.

Fig. 5 is a schematic structural diagram of a blank taking mechanism part of a medium-pressure resin mold grouting line.

Fig. 6 is a partially enlarged view of the portion B in fig. 5.

Fig. 7 is a side view of a medium pressure resin pattern slip casting line.

Fig. 8 is a schematic view showing the structure of the head tank and the press part in fig. 2.

In the figure: 1. an outer frame; 101. a gantry; 102. a stringer; 2. a lifting beam; 201. a slideway; 210. a limiting column; 3. an upper die; 30. a blank taking mechanism; 301. a horizontal longitudinal rail; 3011. a horizontal support portion; 3012. a transverse limiting part; 31. a beam frame; 311. a horizontal axis roller; 312. a vertical shaft roller; 32. a scissor fork lifting mechanism; 33. a carrier tray; 331. a slide rail; 34. a hinge portion; 341. an angle adjusting mechanism; 35. a sliding bracket; 351. a bottom tray; 4. a lifting mechanism; 401. a transmission head axis; 402. a drive mechanism; 403. a hoisting unit; 5. a lift guide; 501. a guide wheel group; 5011. a guide wheel; 5012. a limiting wheel; 5013. a guide connecting plate; 502. a guide post; 5021. unloading the billet; 5022. a die assembly guide section; 6. an upper die opening and closing mechanism; 601. a sliding connection plate; 6011. a sliding sleeve; 6012. a hoisting wheel; 602. a telescoping device; 603. feeding a mold frame; 604. a guide bar; 7. a grouting system; 701. a head tank; 7011. a pulp inlet; 7012. a pulp outlet; 7013. a sewage draining outlet; 702. a press; 703. a one-way valve; 8. a drainage and exhaust system; 9. a medium-pressure resin mold; 10. a main grouting line; 1001. a main line leg; 1002. a main line support row; 1003. a die closing press machine; 1004. a jacking plate; 1005. a support device; 20. and (5) carrying a secondary line of blanks.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings of the embodiments. It is to be understood that this description is intended for purposes of illustration only and is not intended to limit the scope of the present disclosure. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of the terms "a" and "an" or "the" and similar referents in the description and claims of the present invention also do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced item. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

The specific implementation mode is as follows: combine fig. 1 to show, a middling pressure resin model slip casting line, including outer frame 1, outer frame 1 includes portal 101 and longeron 102, and is a plurality of portal 101 passes through longeron 102 links together, the downside of outer frame 1 is provided with slip casting thread 10, one side of slip casting thread 10 is provided with fortune blank subline 20, and it is shown in combination fig. 5, slip casting thread 10 with be provided with between the fortune blank subline 20 and get blank mechanism 30, slip casting thread 10 with fortune blank subline 20 sets up outer frame 1 is inboard.

As shown in fig. 1 to 3 and 8, the main grouting line 10 includes a main line leg 1001, and a main line support row 1002 is connected to an upper portion of the main line leg 1001. The medium-pressure resin mold 9 is arranged on the main line support row 1002, and the inclination angle of the main line support row 1002 and the horizontal plane ranges from 11 degrees to 14 degrees. The grouting main line 10 is internally provided with a medium-pressure resin mold 9, a plurality of groups of medium-pressure resin molds 9 can slide on the grouting main line 10, the grouting pressure of the medium-pressure resin mold 9 is 0.3-0.6MPa, and the medium-pressure resin mold 9 is connected with a grouting system 7 and a drainage and exhaust system 8. The grouting system 7 comprises a high-level groove 701, the bottom of the high-level groove 701 is a concave cone, a sewage outlet 7013 is formed in the bottom of the cone, and a slurry inlet 7011 and a slurry outlet 7012 are formed in two sides of the sewage outlet 7013 respectively. The slurry outlet 7012 is connected to a slurry pressurizing machine 702 through a pipeline, and the slurry pressurizing machine 702 is used for ensuring slurry pressure during grouting. The bottom of the pressurizer 702 is provided with a tee joint, two ends of the tee joint are respectively provided with a slurry inlet and a slurry outlet, two ends of the inlet and the outlet are respectively provided with a one-way valve 703, and the outlet end of the pressurizer 702 is communicated with the bottom of each set of medium-pressure resin mold 9 through a grouting pipeline. The medium-pressure resin mold 9 is provided with a parting surface vertical to a horizontal plane, a mold closing press 1003 is fixed on the inner side of the limit column 210 at one end of the grouting main line 10, the mold closing press 1003 is used for closing and pressing a plurality of groups of medium-pressure resin molds 9, the mold closing press 1003 comprises a jacking plate 1004 at a telescopic movable end, the mold closing press 1003 is a hydraulic telescopic cylinder powered by hydraulic pressure, and a supporting device 1005 is arranged at the lower part of the hydraulic telescopic cylinder. When the mould closing press 1003 is used, the side face of the mould can be pressed tightly, and slurry leakage during grouting is avoided.

The medium-pressure resin mold 9 comprises an upper mold 3, an upper mold lifting device is arranged on the upper side of the corresponding position of the grouting main line 10 and comprises a lifting beam 2, a plurality of upper molds 3 are slidably connected to the lower side of the lifting beam 2, limiting columns 210 are arranged at two ends of the lifting beam 2 respectively, the limiting columns 210 are fixed to the head end and the tail end of the grouting main line 10, a lifting mechanism 4 is arranged on the upper side of the lifting beam 2, the lifting mechanism 4 comprises a transmission crown shaft 401 and a driving mechanism 402, the transmission crown shaft 401 is connected with the lifting mechanism 4 and comprises a plurality of winch units 403, the winch units 403 are flexibly connected with the lifting beam 2 through flexible ropes, and the winch units 403 are fixed in the outer frame 1.

Referring to fig. 3-4, a lifting guide device 5 is disposed between the lifting beam 2 and the outer frame 1 for preventing the swing of the moving beam, the lifting guide device 5 includes a guide wheel set 501 and a guide post 502, the guide wheel set 501 is fixed on one side of the lifting beam 2, and the guide post 502 penetrates into the guide wheel set 501.

The upper end of the guide post 502 is provided with a vertical billet unloading section 5021, the lower end of the billet unloading section 5021 is connected with a die assembly guide section 5022, the length direction of the die closing guide section 5022 is parallel to the die opening direction of the upper die 3, the die closing guide section 5022 and the horizontal plane are arranged at a certain inclination angle, the guide wheel set 501 comprises guide wheels 5011 and limit wheels 5012, the number of the guide wheels 5011 can be at least three, the guide wheels 5011 roll on the curved surface of the guide column 502, two guide wheels 5011 are arranged on one side of the matched die guide section 5022, which has an included angle of more than 180 degrees with the billet unloading section 5021, one guide wheel 5011 is arranged on one side of the matched die guide section 5022, which is less than 180 degrees, the limiting wheel 5012 rolls on the planes of both sides of the guide post 502, the guide wheel 5011 and the limiting wheel 5012 are installed in guide connection plates 5013 respectively, the guide wheel set 501 is connected with the lifting beam 2 through a guide connecting plate 5013.

An upper die opening and closing mechanism 6 is arranged between the lifting beam 2 and the upper die 3, the upper die opening and closing mechanism 6 comprises a sliding connecting plate 601, the sliding connection plate 601 is connected with the lifting beam 2 in a sliding manner, a hanging wheel 6012 is arranged on the upper side of the sliding connection plate 601, the lower side of the lifting beam 2 is provided with a hanger rail slideway 201 with an opening at the lower side, the hanging wheel 6012 is arranged inside the slideway 201, a telescopic device 602 is arranged in the sliding connection plate 601, an upper die carrier 603 is arranged at the lower side of the sliding connection plate 601, the upper die carrier 603 is connected together by a telescopic device 602, the upper side of the upper die carrier 603 is provided with a guide rod 604, the guide rod 604 and the telescopic device 602 are arranged in parallel, a sliding sleeve 6011 is fixed at a position of the sliding connection plate 601 corresponding to the guide rod 604, and the guide rod 604 penetrates into the sliding sleeve 6011.

As shown in fig. 5 to 7, the blank taking mechanism 30 includes a beam frame 31, the beam frame 31 is disposed in a horizontal longitudinal rail 301, a scissor lifting mechanism 32 is disposed on an upper side of the beam frame 31, a bearing disc 33 is disposed on a top of the scissor lifting mechanism 32, a sliding bracket 35 is disposed on an upper portion of the bearing disc 33, a sliding rail 331 is disposed on an upper side of the bearing disc 33, the sliding bracket 35 is disposed in the sliding rail 331, the horizontal longitudinal rail 301 is provided with two parallel horizontal longitudinal rails 301, two horizontal longitudinal rails 301 are provided with horizontal support portions 3011, horizontal axis rollers 311 are disposed on left and right sides of the beam frame 31, and the horizontal axis rollers 311 are in rolling connection with the horizontal support portions 3011. One of the horizontal longitudinal rails 301 is provided with a transverse limiting portion 3012, the beam frame 31 is provided with vertical shaft rollers 312 at positions corresponding to the transverse limiting portion 3012, and the vertical shaft rollers 312 are arranged on two sides of the transverse limiting portion 3012 in pairs and clamped. The scissor lifting mechanism 32 is connected with the bearing disc 33 through a hinge part 34, angle adjusting mechanisms 341 are arranged on two sides of the hinge part 34, and the bearing disc 33 is adapted to different blank taking directions through the hinge part 34 and the angle adjusting mechanisms 341.

When the mould opening and closing mechanism is used, as shown in the figures 1-4, before grouting, the lifting mechanism 4 drives the upper mould 3 of the whole line to descend to the limit position, the upper mould opening and closing mechanism 6 is operated to enable the upper mould 3 to descend to the limit position from the upper mould 3 at the tail of the main grouting line 10, the upper mould 3 and the lower mould are pushed to be respectively matched with the right mould, and then the left mould is pushed to be matched. The mold closing of the medium-pressure resin mold 9 of the whole line is completed in sequence according to the sequence. The mold closing press 1003 using the head of the grouting line is used for tightly pushing the medium-pressure resin mold 9 on the grouting main line 10, the lifting beam 2 which is arranged can be used for integrally lifting or lowering the upper mold 3, the mold on the grouting main line 10 can be locked by matching with the mold closing press 1003, and the automatic grouting can be performed through the grouting system 7 after the mold is tightly pushed.

The order is opposite to the compound die when opening the die, combine as shown in fig. 7, loosen the puller at first, start to open the left side mould of first set of model from slip casting line head department, move mould 3, lower mould and right side mould stripping left, make mould 3 rise to the spacing through controlling the mould mechanism 6 that opens and shuts of last mould, then start the die sinking of follow-up model in proper order, after the last mould 3 of whole line model rises to the spacing, wholly promote lifting beam 2 to the spacing, provide sufficient knockout space for getting base mechanism 30. The blanks taken out in sequence are placed on the blank conveying secondary line 20 through the blank taking mechanism 30, and then the next mold closing and grouting are started.

As shown in fig. 5-7, when the blank taking mechanism 30 takes the blank, the sliding bracket 35 moves along the sliding rail 331 to the bottom of the bottom tray 351, the scissor lift mechanism 32 is driven to lift the blank, and the sliding bracket 35 is moved to be close to the blank trimming line, so that the blank can be easily moved to the blank trimming line.

The control mode of the utility model is automatically controlled by the controller, and the control circuit of the controller can be realized by simple programming of a person skilled in the art, which belongs to the common knowledge in the field, so the control mode and the circuit connection are not explained in detail in the utility model.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. The utility model provides a middling pressure resin model slip casting line, includes outer frame (1), the downside of outer frame (1) is provided with slip casting thread (10), its characterized in that: be provided with middling pressure resin mould (9) that grouting pressure is 0.3-0.6MPa in slip casting thread (10), middling pressure resin mould (9) are connected with slip casting system (7) and drainage exhaust system (8), slip casting system (7) include elevated tank (701), the bottom of elevated tank (701) is provided with grout outlet (7012), grout outlet (7012) are through pipe connection mud pressurizer (702), pressurizer (702) advance, export both ends are provided with check valve (703) respectively, the exit end of pressurizer (702) is through the bottom intercommunication of slip casting pipeline with every set of middling pressure resin mould (9).

2. A medium pressure resin mold grouting line according to claim 1, characterized in that: the medium-pressure resin mold is characterized in that multiple groups of medium-pressure resin molds (9) are arranged on the grouting main line (10) in a sliding mode, a parting surface perpendicular to the horizontal plane is arranged on each medium-pressure resin mold (9), a mold closing press (1003) is fixed to one end of the grouting main line (10), and the mold closing presses (1003) are used for closing and pressing the multiple groups of medium-pressure resin molds (9).

3. A medium pressure resin mold grouting line according to claim 1 or 2, characterized in that: outer frame (1) is including portal (101) and longeron (102), and is a plurality of portal (101) pass through longeron (102) link together, one side of slip casting thread (10) is provided with fortune blank auxiliary line (20), slip casting thread (10) with be provided with between fortune blank auxiliary line (20) and get blank mechanism (30), slip casting thread (10) with fortune blank auxiliary line (20) set up outer frame (1) is inboard.

4. A medium pressure resin mold grouting line according to claim 1 or 2, characterized in that: the medium-pressure resin mould (9) comprises an upper mould (3), an upper mould lifting device is arranged on the upper side of the corresponding position of the grouting main line (10), the upper mould lifting device comprises a lifting beam (2), a plurality of upper moulds (3) are connected to the lower side of the lifting beam (2) in a sliding mode, a lifting mechanism (4) is arranged on the upper side of the lifting beam (2), the lifting mechanism (4) comprises a plurality of hoisting units (403), and the hoisting units (403) are flexibly connected with the lifting beam (2) through flexible ropes.

5. A medium pressure resin mold grouting line according to claim 4, characterized in that: lifting beam (2) with be provided with between outer frame (1) and promote guider (5), promote guider (5) including guide pulley group (501) and guide post (502), one side at lifting beam (2) is fixed in guide pulley group (501), guide post (502) penetrate in guide pulley group (501).

6. A medium pressure resin mold grouting line according to claim 5, characterized in that: the upper end of guide post (502) is provided with the vertically and unloads base section (5021), the lower extreme that unloads base section (5021) is connected with compound die guide section (5022), the length direction of compound die guide section (5022) is parallel with the die sinking direction of last mould (3), certain inclination setting is personally submitted with the level in compound die guide section (5022), guide pulley group (501) include leading wheel (5011) and spacing wheel (5012), leading wheel (5011) are three at least, leading wheel (5011) is in roll on the curved surface of guide post (502), spacing wheel (5012) are in roll on the plane of guide post (502) both sides, leading wheel (5011) and spacing wheel (5012) are installed respectively in direction connecting plate (5013), guide pulley group (501) through direction connecting plate (5013) that set up with lift beam (2) are connected.

7. A medium pressure resin mold grouting line according to claim 4, characterized in that: lifting beam (2) with it opens and shuts mould mechanism (6) to be provided with the mould between last mould (3), it includes sliding connection board (601) to go up mould mechanism (6) that opens and shuts, sliding connection board (601) with lifting beam (2) sliding connection, install telescoping device (602) in sliding connection board (601), the downside of sliding connection board (601) is provided with die carrier (603), go up die carrier (603) and link together through telescoping device (602) that sets up, the upside of going up die carrier (603) is provided with guide bar (604), guide bar (604) with the direction of motion parallel arrangement of telescoping device (602), sliding connection board (601) with guide bar (604) correspond the position and are fixed with sliding sleeve (6011), guide bar (604) penetrate in sliding sleeve (6011).

8. A medium pressure resin mold grouting line according to claim 3, characterized in that: get base mechanism (30) including roof beam structure (31), roof beam structure (31) sets up in two horizontal longitudinal rails (301), the upside of roof beam structure (31) is provided with scissors elevating system (32), the top of scissors elevating system (32) is provided with bears dish (33), the upper portion that bears dish (33) is provided with sliding bracket (35), the upside that bears dish (33) is provided with slide rail (331), sliding bracket (35) set up sliding connection in slide rail (331).

9. A medium pressure resin mold grouting line according to claim 8, characterized in that: the scissor lifting mechanism (32) is connected with the bearing disc (33) through a hinge part (34), angle adjusting mechanisms (341) are arranged on two sides of the hinge part (34), and the bearing disc (33) is adapted to different blank taking directions through the hinge part (34) and the angle adjusting mechanisms (341).

10. A medium pressure resin mold grouting line according to claim 1, characterized in that: the bottom of the elevated tank (701) is a downward-concave cone, the bottom of the cone is provided with a sewage outlet (7013), and the two sides of the sewage outlet (7013) are respectively provided with a slurry inlet (7011) and a slurry outlet (7012).

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