CN213260049U - Full-automatic two-die-sinking grouting machine - Google Patents

Abstract

The utility model discloses a full-automatic two die sinking slip casting machines relates to slip casting machine technical field. The full-automatic two-die-opening grouting machine comprises a rack, a multi-layer die assembly, a multi-layer die fixing frame, a locking assembly and a blank taking assembly. The multi-layer die assembly, the multi-layer die fixing frame and the locking assembly are arranged on the rack, the multi-layer die assembly is arranged on the multi-layer die fixing frame, and the locking assembly is connected with the multi-layer die fixing frame to drive the multi-layer die fixing frame to move and be used for achieving die opening and die closing of the multi-layer die assembly. The blank taking assembly comprises a blank taking support, a moving block and a blank taking tray, the blank taking support is fixedly connected with the rack, the moving block is movably arranged on the blank taking support, and the moving block is connected with the blank taking tray and used for driving the blank taking tray to be far away from or close to the multilayer mold assembly so as to convey blanks in the multilayer mold assembly, so that the blanks can be automatically taken out and transferred, and the production efficiency is improved.

Description

Full-automatic two-die-sinking grouting machine

Technical Field

The utility model relates to a slip casting machine technical field particularly, relates to a full-automatic two die sinking slip casting machines.

Background

Most of the existing grouting equipment only has a grouting forming function, blanks in a mold need to be manually transferred after forming, the blanks are placed in a tray, the production efficiency is low, and the labor intensity of workers is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two full-automatic die sinking grouters, it can take out and shift to next station to the fashioned body is automatic after the slip casting, improves transfer efficiency, simplifies process flow.

The embodiment of the utility model is realized like this:

in a first aspect, an embodiment of the present invention provides a full-automatic two-mold-opening grouting machine, which includes a frame, a multi-layer mold assembly, a multi-layer mold fixing frame, a locking assembly, and a blank fetching assembly;

the multi-layer die assembly, the multi-layer die fixing frame and the locking assembly are arranged on the rack, the multi-layer die assembly is arranged on the multi-layer die fixing frame, and the locking assembly is connected with the multi-layer die fixing frame to drive the multi-layer die fixing frame to move and is used for realizing die opening and die closing of the multi-layer die assembly;

the blank taking assembly comprises a blank taking support, a moving block and a blank taking tray, the blank taking support is fixedly connected with the rack, the moving block is movably arranged on the blank taking support, and the moving block is connected with the blank taking tray and used for driving the blank taking tray to be far away from or close to the multilayer die assembly so as to convey blanks in the multilayer die assembly.

In an optional embodiment, a positioning assembly is arranged on the rack, and the positioning assembly is respectively arranged corresponding to the multilayer die assembly and the blank taking tray so as to fix the blank taking position of the blank taking tray.

In an optional embodiment, a positioning mark is arranged on the blank taking tray, and the positioning mark and the positioning component are correspondingly arranged.

In an alternative embodiment, the multi-layer die assembly at least comprises a first layer of dies and a second layer of dies which are arranged at intervals, the multi-layer die fixing frame at least comprises a first fixing frame and a second fixing frame which are arranged at intervals, the first layer of dies are arranged on the first fixing frame, and the second layer of dies are arranged on the second fixing frame;

the locking assembly is respectively connected with the first fixing frame and the second fixing frame, and the blank taking tray can be selectively moved between the first fixing frame and the first layer of dies and between the second fixing frame and the second layer of dies so as to take out blanks.

In an optional embodiment, the first layer of mold comprises a first upper mold and a first lower mold, the second layer of mold comprises a second upper mold and a second lower mold, and the multi-layer mold fixing frame further comprises an intermediate fixing frame arranged between the first fixing frame and the second fixing frame;

the first lower die is arranged on the upper surface of the first fixing frame, the first upper die is arranged on the lower surface of the middle fixing frame, the second lower die is arranged on the upper surface of the middle fixing frame, and the second upper die is arranged on the lower surface of the second fixing frame;

the locking assembly is sequentially connected to the first fixing frame, the middle fixing frame and the second fixing frame.

In an optional implementation manner, the locking assembly includes a first oil cylinder, the first oil cylinder includes a first cylinder body and a first push rod disposed in the first cylinder body, the first cylinder body is connected to the second fixing frame, the first push rod is connected to the first fixing frame, and the first push rod is configured to drive the first fixing frame to move.

In an optional embodiment, the device further comprises a rotating assembly, wherein the rotating assembly comprises a rotating support, a rotating shaft and a second oil cylinder; the second oil cylinder comprises a second cylinder body and a second push rod arranged in the second cylinder body, the rotary support is fixed on the rack, the rotary shaft is connected with the rotary support, the second fixing frame is rotatably connected with the rotary shaft, the second cylinder body is hinged to the rack, and the second push rod is hinged to the second fixing frame.

In an optional embodiment, the blank taking assembly comprises a lifting module, and the lifting module is connected with the blank taking tray and used for driving the blank taking tray to ascend or descend.

In an optional embodiment, the lifting module is connected with a mounting plate, and the blank taking tray is arranged on the mounting plate;

the mounting plate is provided with a guide rod, the moving block is provided with a guide hole, and the guide rod is arranged in the guide hole and can ascend or descend in the guide hole.

In an optional embodiment, a guide chute is arranged on the blank taking support, a guide body is arranged on the moving block, and the guide body is mounted in the guide chute and can move along the guide chute.

The embodiment of the utility model provides a beneficial effect is:

the embodiment of the utility model provides a two full-automatic die sinking grouters, through setting up multilayer mould subassembly, multilayer mould mount and lock solid subassembly, multilayer mould mount is used for installing multilayer mould subassembly, and multilayer mould subassembly realizes die sinking and compound die under the effect of lock solid subassembly for the slip casting shaping body. And the blank taking assembly is arranged, and can automatically take out the blank in the die after grouting forming and transfer the blank to the next station, so that the transfer efficiency of the blank is improved, the process flow is simplified, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic overall structure diagram of an isometric view of a full-automatic two-mold-opening grouting machine according to an embodiment of the present invention;

fig. 2 is a schematic overall structure diagram of another view angle of the fully automatic two-mold-opening grouting machine according to the embodiment of the present invention;

FIG. 3 is a schematic view A-A of FIG. 2;

fig. 4 is a schematic diagram of a distribution structure of a multi-layer mold assembly of a full-automatic two-mold-opening grouting machine according to an embodiment of the present invention;

FIG. 5 is a schematic view of B-B in FIG. 2;

fig. 6 is a schematic diagram of a layout structure of the synchronous coordination components of the full-automatic two-mold-opening grouting machine according to the embodiment of the present invention.

Icon: 100-full-automatic two-die-opening grouting machine; 110-a rack; 120-a multilayer mold assembly; 121-a first lower die; 122-first upper die; 123-a second lower die; 124-a second upper die; 150-a locking assembly; 151-first cylinder; 153-a first push rod; 155-cylinder connection; 160-a synchronization coordination component; 161-rack; 170-multi-layer mold fixing frame; 171-a first mount; 172-a second mount; 173-middle fixed frame; 180-a rotating assembly; 181-second cylinder; 183-second push rod; 190-a positioning assembly; 200-a blank taking assembly; 201-blank taking tray; 203-a mounting plate; 205-a guide bar; 210-blank taking support; 211-upright post; 212-a cross beam; 220-moving block; 230-lifting module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 and 2, the present embodiment provides a full-automatic two-mold-opening grouting machine 100, which includes a frame 110, a multi-mold assembly 120, a multi-mold holder 170, a locking assembly 150, a blank-taking assembly 200, a rotating assembly 180, and a positioning assembly 190. The multi-layer mold assembly 120, the multi-layer mold fixing frame 170 and the locking assembly 150 are all arranged on the rack 110, the multi-layer mold assembly 120 is mounted on the multi-layer mold fixing frame 170, and the locking assembly 150 is connected with the multi-layer mold fixing frame 170 to drive the multi-layer mold fixing frame 170 to move up and down, so that mold opening and mold closing of the multi-layer mold assembly 120 are achieved. The blank taking assembly 200 comprises a blank taking support 210, a moving block 220 and a blank taking tray 201, the blank taking support 210 is fixedly connected with the rack 110, the moving block 220 is movably arranged on the blank taking support 210, and the moving block 220 is connected with the blank taking tray 201 and used for driving the blank taking tray 201 to be far away from or close to the multilayer die assembly 120 so as to convey blanks formed in the multilayer die assembly 120.

It should be noted that the blank taking bracket 210 may be a part of the frame 110, may be connected to the frame 110, or may be provided separately from the frame 110, and is not limited herein. In this embodiment, the blank taking bracket 210 is connected to the frame 110, and the moving block 220 moves along the blank taking bracket 210 to drive the blank taking tray 201 to move, so that the blank taking tray 201 can take out the blank from the multi-layer die assembly 120.

Further, referring to fig. 3, an installation plate 203 is disposed below the moving block 220, and the blank-taking tray 201 is disposed on the installation plate 203. Optionally, the blank taking tray 201 is fixedly connected with the mounting plate 203, so that the strength, stability and reliability of the blank taking tray 201 are improved. Of course, the blank taking tray 201 may also be movably arranged on the mounting plate 203 so as to adjust the position of the blank taking tray 201. The blank taking bracket 210 is of a frame structure and comprises a vertical column 211 and a cross beam 212, the vertical column 211 is fixed through a foundation bolt, the cross beam 212 is fixedly connected with the vertical column 211, the cross beam 212 is approximately perpendicular to the vertical column 211, and a moving space for the blank taking tray 201 to move is formed between the cross beam 212 and the vertical column 211. The moving block 220 is arranged on the cross beam 212 and can move along the cross beam 212, the mounting plate 203 is arranged below the moving block 220, sufficient space below the cross beam 212 is fully utilized, the structure is more compact, the occupied area is small, and meanwhile, the blank taking tray 201 can be conveniently moved into the multi-layer mold assembly 120.

Alternatively, the moving block 220 includes a translation substrate mounted on the beam 212 and capable of moving linearly along the beam 212. The beam 212 is provided with a guide chute, which includes but is not limited to a linear guide rail or a chute; be equipped with the guide body on the translation base plate, the guide body includes but not limited to slider or gyro wheel, and slider or gyro wheel are installed in the direction spout of crossbeam 212, realize sharp translation along the direction spout, and the direction spout plays the guide effect to the removal of translation base plate, and slider or gyro wheel can reduce the resistance of removing the in-process, remove more steadily, smoothly. The moving block 220 may be driven by a motor or driven by a cylinder, and is not limited in this respect. In this embodiment, the moving block 220 is driven by a motor and drives the translation substrate to move in a chain transmission manner, so as to realize movement at a longer distance, thereby ensuring a wider application range of blank receiving.

The blank taking assembly 200 further comprises a lifting module 230, the lifting module 230 is connected with the blank taking tray 201, specifically, the lifting module 230 is installed on the moving block 220, and the lifting module 230 is connected with the mounting plate 203 and used for driving the mounting plate 203 to lift, so as to drive the blank taking tray 201 to lift or descend. Optionally, a guide rod 205 is disposed between the moving block 220 and the mounting plate 203, one end of the guide rod 205 is fixedly connected to the mounting plate 203, the other end of the guide rod 205 is connected to the lifting module 230, a guide hole is further formed in the moving block 220, and the guide rod 205 is disposed in the guide hole and can move in the guide hole, so that the blank taking tray 201 can move along a straight line in the ascending or descending process, and the moving precision is improved. It is easy to understand that the lifting module 230 may be a lifting cylinder, or a mechanism driven by a motor and capable of moving linearly by using a chain transmission method, a belt transmission method, a gear transmission method, or a crank block method, and is not limited in this respect.

Further, referring to fig. 4 and 5, a positioning assembly 190 is disposed on the frame 110, and the positioning assembly 190 is disposed corresponding to the multi-layer mold assembly 120 and the blank taking tray 201, respectively, so as to fix a blank taking position of the blank taking tray 201. Correspondingly, the blank taking tray 201 is provided with a positioning mark, and the positioning mark is arranged corresponding to the positioning component 190. It is understood that the positioning assembly 190 on the frame 110 may be a positioning rod, a positioning hole, a laser positioning beam, or the like, the positioning mark on the blank taking tray 201 may be a positioning hole corresponding to the positioning rod, or a positioning rod corresponding to the positioning hole, or a positioning label recognizable by the laser positioning beam, or a proximity sensor may be used to realize positioning of the blank taking tray 201, which is not specifically limited herein. The setting of locating component 190 can accurately determine the blank taking longitudinal height position of blank taking tray 201, improve the blank taking precision, improve the precision for the subsequent processing technology of the blank, and further improve the production quality. Of course, the positioning assembly 190 may also be disposed on the multi-layer mold assembly 120, as long as the positioning with the blank-taking tray 201 can be achieved, and is not limited specifically herein.

In this embodiment, the fully-automatic two-mold-opening grouting machine 100 can be used in a toilet bowl production line for molding a seat ring blank of a toilet bowl, and the blank fetching assembly 200 is used for realizing automatic blank fetching and blank transferring of the seat ring blank. Alternatively, the multi-layer mold assembly 120 includes at least a first layer mold and a second layer mold which are arranged at intervals, the multi-layer mold holder 170 includes at least a first holder 171 and a second holder 172 which are arranged at intervals, the first layer mold is mounted on the first holder 171, and the second layer mold is mounted on the second holder 172. The locking assembly 150 is respectively connected to the first fixing frame 171 and the second fixing frame 172, and is used for opening and closing the multi-layer mold assembly 120, so as to form a green body. Because two layers of moulds are arranged at intervals, two seat ring blanks can be formed simultaneously through one-time grouting in the mould forming process, and the production efficiency of the seat ring blanks is greatly improved. The die has the advantages of compact structure, reasonable spatial layout, small occupied area and high forming efficiency. The blank-removing tray 201 can be selectively moved between the first holder 171 and the first-layer mold, and selectively moved between the second holder 172 and the second-layer mold to remove the blank.

Further, the first layer mold includes a first upper mold 122 and a first lower mold 121, the second layer mold includes a second upper mold 124 and a second lower mold 123, and the multi-layer mold holder 170 further includes an intermediate holder 173 disposed between the first holder 171 and the second holder 172. The first lower mold 121 is disposed on the upper surface of the first fixing frame 171, the first upper mold 122 is disposed on the lower surface of the middle fixing frame 173, the second lower mold 123 is disposed on the upper surface of the middle fixing frame 173, and the second upper mold 124 is disposed on the lower surface of the second fixing frame 172. The locking assembly 150 is sequentially connected to the first fixing frame 171, the middle fixing frame 173 and the second fixing frame 172. Optionally, the locking assembly 150 includes a first oil cylinder, the first oil cylinder includes a first cylinder body 151 and a first push rod 153 disposed in the first cylinder body 151, the first cylinder body 151 is connected to the second fixing frame 172, the first push rod 153 is connected to the first fixing frame 171 through an oil cylinder connecting member 155, and the first push rod 153 can move in the first cylinder body 151 to drive the first fixing frame 171 to move. It is easy to understand that the first fixing frame 171 can be relatively far away from or close to the second fixing frame 172 by being driven by the first oil cylinder.

Referring to fig. 6, alternatively, the number of the first cylinders may be two, and the two first cylinders are respectively disposed at the left and right sides of the multi-layer die assembly 120, and the two first cylinders are synchronized by the synchronization and coordination assembly 160. Alternatively, the synchronization coordinating assembly 160 includes a gear shaft and a rack 161 disposed at both ends of the gear shaft, the gear on the gear shaft is engaged with the rack 161, and the gear shaft is connected to the first fixing frame 171 to ensure the synchronous movement of the two first cylinders at both sides. Optionally, a guide assembly is also provided during the movement of the first fixing frame 171 to ensure the linear movement during the mold closing and opening processes.

Further, the full-automatic two-mold-opening grouting machine 100 further includes a rotating assembly 180, the rotating assembly 180 is used for inclining the multi-layer mold assembly 120, and grouting is performed after the mold is inclined, so as to realize a function that the mold requires grouting at a specific angle during grouting. Optionally, the rotating assembly 180 includes a rotating support, a rotating shaft, and a second cylinder; the second oil cylinder comprises a second cylinder body 181 and a second push rod 183 arranged in the second cylinder body 181, the rotary support is fixed on the rack 110, the rotary shaft is connected with the rotary support, the second fixing frame 172 is rotatably connected with the rotary shaft, the second cylinder body 181 is hinged to the rack 110, the second push rod 183 is hinged to the second fixing frame 172, the second push rod 183 can move in the second oil cylinder to push the second fixing frame 172 to rotate, so that the mold is driven to incline, and the function that the mold requires grouting at a specific angle during grouting is realized.

The embodiment of the utility model provides a two full-automatic die sinking grouters 100, specific theory of operation as follows:

the full-automatic two-mold-opening grouting machine 100 has the functions of grouting and automatic blank taking. During the injection molding, the two first oil cylinders pull up the first fixing frame 171, so that the first upper die 122, the first lower die 121, the second upper die 124 and the second lower die 123 are closed and locked. And the second oil cylinder is started to drive the second fixing frame 172 to rotate so as to enable the multilayer mold to incline by a preset angle, a high-pressure grouting system is adopted to perform grouting on the inclined mold, and after the grouting is finished, the second oil cylinder restores the initial position so as to enable the mold to restore the level. The first oil cylinder continues to compress, and the molding of a multilayer blank body is respectively completed; after molding, the first oil cylinder moves the first fixing frame 171 downward to open the mold, the blank taking assembly 200 moves to a position between the blank body and the first lower mold 121, the blank taking tray 201 is aligned with the first upper mold 122 or the positioning assembly 190 on the frame 110, the molded blank body is lowered onto the blank taking tray 201, and the blank body is taken out by the blank taking tray 201. And (5) dehydrating the mold, and entering the next grouting circulation flow. It will be appreciated that because the multi-layer die assembly 120 can form two seat ring blanks at a time, the blank taking assembly 200 can perform two blank taking operations, respectively, to move the blanks to the next station.

In this embodiment, only two layers of dies are stacked at intervals, and the description is given, but in other alternative embodiments, a plurality of layers of die assemblies may be arranged in three layers or four layers, etc., so as to achieve more efficient green body forming, and this is not particularly limited herein. The fully automatic two-mold opening grouting machine 100 is not limited to be used for producing toilet seat rings, but also can be used for grouting and molding other parts or other fields, and is not limited in detail here.

To sum up, the embodiment of the present invention provides a full-automatic two-mold opening grouting machine 100, which has the following beneficial effects:

the embodiment of the utility model provides a two full-automatic die sinking grouters 100 is used for the slip casting body through setting up multilayer mould subassembly 120, can realize single slip casting pressurization, forms a plurality of seat circle bodies, and production efficiency is higher. Through getting base subassembly 200 and setting up in frame 110, get base tray 201 and can move to the mould below to get base subassembly 200's moving direction and the work piece flow direction unanimous of whole production line, be convenient for remove the body of taking out to next station, the migration distance is short, and transfer efficiency is high, and the transfer process is stable safe, prevents the body damage. The blank taking assembly 200 can automatically take out a blank in a mold after grouting forming, and when the blank taking tray 201 receives a blank, accurate alignment can be performed, the blank taking assembly is located right below the center of the blank, so that the blank taking stability is improved, the blank is transferred to the next station, the transfer efficiency of the blank is improved, the process flow is simplified, and the production efficiency is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A full-automatic two-die-opening grouting machine is characterized by comprising a rack, a multi-layer die assembly, a multi-layer die fixing frame, a locking assembly and a blank taking assembly;

the multi-layer die assembly, the multi-layer die fixing frame and the locking assembly are arranged on the rack, the multi-layer die assembly is arranged on the multi-layer die fixing frame, and the locking assembly is connected with the multi-layer die fixing frame to drive the multi-layer die fixing frame to move up and down and is used for realizing die opening and die closing of the multi-layer die assembly;

the blank taking assembly comprises a blank taking support, a moving block and a blank taking tray, the blank taking support is fixedly connected with the rack, the moving block is movably arranged on the blank taking support, and the moving block is connected with the blank taking tray and used for driving the blank taking tray to be far away from or close to the multilayer die assembly so as to convey blanks in the multilayer die assembly.

2. The full-automatic two-mold opening grouting machine according to claim 1, wherein a positioning assembly is arranged on the rack, and the positioning assembly is respectively arranged corresponding to the multilayer mold assembly and the blank taking tray so as to fix the blank taking position of the blank taking tray.

3. The full-automatic two-opening mold grouting machine according to claim 2, wherein a positioning mark is arranged on the blank taking tray, and the positioning mark is arranged corresponding to the positioning assembly.

4. The fully automatic two-opening grouting machine according to claim 1, wherein the multi-layer mold assembly at least comprises a first layer of molds and a second layer of molds which are arranged at intervals, the multi-layer mold fixing frame at least comprises a first fixing frame and a second fixing frame which are arranged at intervals, the first layer of molds are mounted on the first fixing frame, and the second layer of molds are mounted on the second fixing frame;

the locking assembly is respectively connected with the first fixing frame and the second fixing frame, and the blank taking tray can be selectively moved between the first fixing frame and the first layer of dies and between the second fixing frame and the second layer of dies so as to take out blanks.

5. The full-automatic two-opening-die grouting machine according to claim 4, wherein the first-layer die comprises a first upper die and a first lower die, the second-layer die comprises a second upper die and a second lower die, and the multi-layer die holder further comprises an intermediate holder arranged between the first holder and the second holder;

the first lower die is arranged on the upper surface of the first fixing frame, the first upper die is arranged on the lower surface of the middle fixing frame, the second lower die is arranged on the upper surface of the middle fixing frame, and the second upper die is arranged on the lower surface of the second fixing frame;

the locking assembly is sequentially connected to the first fixing frame, the middle fixing frame and the second fixing frame.

6. The full-automatic two-opening mold grouting machine according to claim 4, wherein the locking assembly comprises a first oil cylinder, the first oil cylinder comprises a first cylinder body and a first push rod arranged in the first cylinder body, the first cylinder body is connected with the second fixing frame, the first push rod is connected with the first fixing frame through an oil cylinder connecting piece, and the first push rod is used for driving the first fixing frame to move.

7. The fully automatic two-opening mould grouting machine according to claim 4, further comprising a rotating assembly, wherein the rotating assembly comprises a rotating support, a rotating shaft and a second oil cylinder; the second oil cylinder comprises a second cylinder body and a second push rod arranged in the second cylinder body, the rotary support is fixed on the rack, the rotary shaft is connected with the rotary support, the second fixing frame is rotatably connected with the rotary shaft, the second cylinder body is hinged to the rack, and the second push rod is hinged to the second fixing frame.

8. The fully automatic two-opening-die grouting machine according to claim 1, wherein the blank taking assembly comprises a lifting module, and the lifting module is connected with the blank taking tray and used for driving the blank taking tray to ascend or descend.

9. The full-automatic two-opening-die grouting machine according to claim 8, wherein the lifting module is connected with a mounting plate, and the blank taking tray is arranged on the mounting plate;

the mounting plate is provided with a guide rod, the moving block is provided with a guide hole, and the guide rod is arranged in the guide hole and can ascend or descend in the guide hole.

10. The full-automatic two-opening die grouting machine according to any one of claims 1 to 9, wherein a guide chute is formed on the blank taking bracket, and a guide body is formed on the moving block, and the guide body is mounted in the guide chute and can move along the guide chute.

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