CN216634822U - Composite sliding plate brick press - Google Patents

Abstract

A composite sliding plate brick press belongs to the technical field of sliding plate brick production equipment. Including press main part (19), distributing device and slide plate brick forming die, its characterized in that: the sliding plate brick forming die is installed on a press main body (19), the distributing device is provided with a plurality of devices arranged on the side portion of the press main body (19), a composite layer core barrel (10) is arranged between a conical die and a core shaft (11) of the sliding plate brick forming die, the composite layer core barrel (10) and the conical die and the composite layer core barrel (10) and the core shaft (11) are connected in a sliding mode, and the composite layer core barrel (10) is connected with a power device. This distributing device of compound slide plate brick press is provided with a plurality of, can carry out the cloth to slide plate brick forming die respectively, has realized the one shot forming of compound slide plate brick, has both guaranteed the production efficiency of compound slide plate brick, can guarantee again to combine closely between the different materials, and compound slide plate brick is difficult to damage.

Description

Composite sliding plate brick press

Technical Field

A composite sliding plate brick press belongs to the technical field of sliding plate brick production equipment.

Background

The sliding plate brick is used as a functional refractory material for steelmaking, and the use conditions are harsh, so the service life and the use safety of the sliding plate brick are important evaluation indexes. The forming process is a key process for producing and manufacturing the sliding plate brick, and the density and the uniformity of each part of the sliding plate brick in the forming process have important influence on the performance and the using effect of the sliding plate brick. The sliding plate brick is mainly pressed by a brick press matched mould, the sliding plate brick is generally high in utilization rate of a middle position in the using process, the whole sliding plate brick is made of corundum materials, the cost is high, in order to reduce the production cost of the sliding plate brick, the composite sliding plate brick made of two materials is generally adopted at present, the existing press can only produce the sliding plate brick made of a single material, the composite sliding plate brick cannot be directly pressed, and the popularization and the use of the composite sliding plate brick are influenced.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: overcomes the defects of the prior art and provides a composite sliding plate brick press which can complete the press forming of the composite sliding plate brick at one time.

The technical scheme adopted by the utility model for solving the technical problems is as follows: this compound slide plate brick press, including press main part, distributing device and slide plate brick forming die, its characterized in that: the sliding plate brick forming die is installed on the press main body, the distributing device is provided with a plurality of devices arranged on the side part of the press main body, a composite layer core cylinder is arranged between a conical die and a core shaft of the sliding plate brick forming die, the composite layer core cylinder and the conical die and the composite layer core cylinder and the core shaft are connected in a sliding mode, and the composite layer core cylinder is connected with a power device.

Preferably, the material distribution device comprises a primary material distribution device and a secondary material distribution device which are arranged on two adjacent sides of the press main body. Different materials are added to the sliding plate brick forming die by the primary material distribution device and the secondary material distribution device respectively so as to meet the requirement of one-time pressing forming of the composite sliding plate brick.

Preferably, the press main body comprises a driving beam, a base, a floating die frame, an auxiliary oil cylinder and a main oil cylinder, the driving beam is arranged on the upper side of the base, the floating die frame is arranged between the driving beam and the floating die frame, the main oil cylinder is connected with the driving beam, the auxiliary oil cylinder is connected with the floating die frame, an upper die of the sliding plate brick forming die is connected with the driving beam, an outer die of the sliding plate brick forming die is connected with the floating die frame, and a lower die of the sliding plate brick forming die is connected with the base.

Preferably, the slide brick forming die comprises an upper die, an outer die, a lower die, a conical die, a mandrel and a composite layer core barrel, wherein a die cavity is formed in the middle of the outer die, the lower die is slidably mounted in the die cavity, the upper die is arranged right above the lower die, the upper portion of the mandrel is arranged in the lower die, the upper portions of the conical die and the composite layer core barrel both extend into the lower die, the conical die and the lower die can slide relatively, and the conical die and the outer die are connected and can be lifted synchronously.

Preferably, the conical die comprises a conical die bottom plate and a conical die bottom plate support, the conical die bottom plate support is slidably sleeved outside the composite layer core cylinder, the conical die bottom plate is installed at the top of the conical die bottom plate support, and the top of the composite layer core cylinder and the conical die bottom plate surround to form a conical cavity.

Preferably, the outer die comprises an outer die frame, outer die fastening inclined iron, an outer die plate and an outer die plate pressing plate, the outer die plate is arranged in the outer die frame, the die cavity is formed in the outer die plate, the outer die fastening inclined iron is arranged between the outer die plate and the outer die frame, the outer die plate pressing plate is arranged on the upper side of the outer die fastening inclined iron, and the outer die plate pressing plate is detachably connected with the outer die frame. The outer die fastening inclined iron can enable the outer die plate to be centered, and the outer die fastening inclined iron is fixed through the outer die plate pressing plate, so that the outer die plate is convenient to disassemble and assemble.

Preferably, the outer die further comprises an outer die plate backing plate, the outer die plate backing plate. The number of layers of the outer template base plate is adjusted, so that the outer template base plate can adapt to fastening of outer templates with different sizes, and the universality of the outer template frame is improved.

Preferably, the mould also comprises a demoulding device which is simultaneously connected with the composite layer core cylinder and the lower mould.

Preferably, the demolding device comprises a demolding oil cylinder, the demolding oil cylinder is arranged on the lower side of the lower mold, and the demolding oil cylinder is simultaneously connected with the lower mold and the composite layer core cylinder.

Preferably, the lower part of the composite layer core barrel is provided with a composite layer core barrel connecting plate, the lower part of the conical die is provided with a vertical long hole, and the composite layer core barrel connecting plate is connected with a power device after penetrating through the long hole in a sliding manner. The power device is connected with the composite layer core barrel through the composite layer core barrel connecting plate, so that the composite layer core barrel can be lifted independently.

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

this distributing device of compound slide plate brick press is provided with a plurality of, can carry out the cloth to slide plate brick forming die respectively, realized adding different materials for slide plate brick forming die through a lot of cloth, after cloth is accomplished once, slide plate brick forming die's external mold drives the dabber and rises, the compound bed core section of thick bamboo descends simultaneously, leave the space for the secondary cloth, the secondary cloth can be filled at the top and the through-hole inner wall of compound slide plate brick, thereby the one-shot forming of compound slide plate brick has been realized, the production efficiency of compound slide plate brick has both been guaranteed, can guarantee again to combine closely between the different materials, compound slide plate brick is difficult to damage.

Drawings

FIG. 1 is a schematic top view of a composite slide block press.

FIG. 2 is a schematic front view of a composite slide block press.

Fig. 3 is a schematic front view of the press body.

Fig. 4 is a schematic sectional front view of the slide brick molding die.

Fig. 5 is a partial enlarged view of a portion a in fig. 4.

Fig. 6 is a partially enlarged view of B in fig. 4.

In the figure: 1. the device comprises an upper die support 2, an upper die plate 3, an outer die frame 4, an outer die plate backing plate 5, outer die fastening inclined iron 6, an outer die plate pressing plate 7, a conical die bottom plate 8, an outer die plate 9, a conical die bottom plate support 10, a composite layer core barrel 1001, a composite layer core barrel connecting plate 11, a mandrel 12, a lower die plate 13, a lower die support 14, a lower die base 15, a demolding oil cylinder 16, a demolding top plate 17, a movable bottom plate 18, a demolding column 19, a press main body 20, a primary material distribution device 21, a secondary material distribution device 22, a hydraulic station 23, an oil cooler 24, a base 25, a guide column 26, a floating die frame 27, an auxiliary oil cylinder 28, a driving beam 29 and a main oil cylinder.

Detailed Description

The present invention is further described with reference to the following detailed description, however, it should be understood by those skilled in the art that the detailed description given herein with respect to the accompanying drawings is for better explanation and that the present invention is not necessarily limited to the specific embodiments, but rather, for equivalent alternatives or common approaches, may be omitted from the detailed description, while still remaining within the scope of the present application.

Fig. 1 to 6 are preferred embodiments of the present invention, and the present invention will be further described with reference to fig. 1 to 6.

The utility model provides a compound slide plate brick press, including press main part 19, distributing device and slide plate brick forming die, slide plate brick forming die installs in press main part 19, distributing device has the setting a plurality of at 19 lateral parts of press main part, be provided with composite bed core section of thick bamboo 10 between slide plate brick forming die's awl mould and the dabber 11, equal slidable is connected between composite bed core section of thick bamboo 10 and the awl mould and between composite bed core section of thick bamboo 10 and the dabber 11, composite bed core section of thick bamboo 10 is connected with power device. This distributing device of compound slide plate brick press is provided with a plurality of, can carry out the cloth to slide plate brick forming die respectively, realized adding different materials for slide plate brick forming die through a lot of cloth, after cloth is accomplished once, slide plate brick forming die's external mold drives dabber 11 and rises, composite bed core section of thick bamboo 10 descends simultaneously, leave the space for secondary cloth, secondary cloth can fill at the top and the through-hole inner wall of compound slide plate brick, thereby the one-shot forming of compound slide plate brick has been realized, the production efficiency of compound slide plate brick has both been guaranteed, can guarantee again to combine closely between the different materials, compound slide plate brick is difficult to damage.

Specifically, the method comprises the following steps: as shown in FIGS. 1-2: the composite slide plate brick press also comprises a hydraulic station 22 and an oil cooler 23, wherein the hydraulic station 22 is connected with the press main body 19, and the oil cooler 23 is connected with the hydraulic station 22, so that the overhigh temperature of hydraulic oil is avoided. In the present embodiment, the material distribution device includes a primary material distribution device 20 and a secondary material distribution device 21, the primary material distribution device 20 is disposed on the left side of the press main body 19, and the secondary material distribution device 21 is disposed on the rear side of the press main body 19. The primary distributing device 20 and the secondary distributing device 21 may adopt volume distribution or weighing distribution, and in this embodiment, both the primary distributing device 20 and the secondary distributing device 21 adopt volume distribution. The material weighing and distributing device applied by the applicant at 2019, 6, 19 and No. 201920921705.5 can be adopted for the material weighing and distributing, and the structure of the material weighing and distributing device is not described herein again.

The volume material distribution comprises a feeding mechanism, a material homogenizing device and a material distributing trolley, wherein the material distributing trolley is not shown in the figure and is arranged between the feeding mechanism and the slide brick forming die in a transverse moving mode, the material distributing trolley is connected with a material trolley oil cylinder for pushing the material distributing trolley to move, and the material homogenizing device is fixed on the material distributing trolley. The material homogenizer is moved transversely by the material distributing trolley, after the material distribution is completed, the material homogenizer is quickly moved away from the upper side of the lower die, the working efficiency is improved, the material homogenizer can uniformly send the material into a die cavity of the lower die, the weight balance of each part of the sliding plate brick is ensured, and the service life of the sliding plate brick is prolonged. The skip car cylinder is connected to the hydraulic station 22.

As shown in fig. 3: the press main body 19 comprises a base 24, guide pillars 25, a top plate, a floating die frame 26, a driving beam 28, an auxiliary oil cylinder 27 and a main oil cylinder 29, wherein the top plate is arranged on the upper side of the base 24 at intervals, the guide pillars 25 are arranged between the top plate and the base 24, the lower ends of the guide pillars 25 are connected with the base 24, the top of the guide pillars is connected with the top plate, the guide pillars 25 are symmetrically arranged on two groups of two sides of the base 24, and each group of guide pillars 25 comprises two guide pillars which are arranged side by side and at intervals. The floating die frame 26 and the driving beam 28 are arranged between the base 25 and the top plate, the floating die frame 26 is arranged on the lower side of the driving beam 28, two sides of the floating top die frame 26 are slidably arranged on the guide pillars 25 on the corresponding sides respectively, two ends of the driving beam 28 are slidably arranged on the guide pillars 25 on the corresponding sides respectively, the main oil cylinder 29 is arranged on the top plate, the main oil cylinder 29 is vertically arranged, and a piston rod of the main oil cylinder 29 is connected with the driving beam 28 and drives the driving beam to lift. The two auxiliary oil cylinders 27 are symmetrically arranged on two sides of the floating die frame 26, the auxiliary oil cylinders 27 are vertically arranged, the tops of the auxiliary oil cylinders 27 are arranged on the top plate, and piston rods of the auxiliary oil cylinders 27 are respectively connected with corresponding sides of the floating die frame 26 and drive the floating die frame to lift. The master cylinder 29 and the slave cylinder 27 are connected to the hydraulic station 22.

As shown in FIGS. 4-6: the forming die comprises an upper die, an outer die, a lower die, a conical die, a mandrel 11 and a composite layer core barrel 10, the middle part of the outer die is provided with a die cavity, the lower die can be slidably installed in the die cavity, the upper die is arranged right above the lower die, the upper part of the mandrel 11 is arranged in the lower die, the conical die and the composite layer core barrel 10 are sequentially arranged around the mandrel 11 from outside to inside, the upper parts of the conical die and the composite layer core barrel 10 extend into the lower die, the conical die and the lower die are arranged, the conical die and the composite layer core barrel 10 and the mandrel 11 can slide relatively, the conical die and the outer die are connected and can be synchronously lifted, and the composite layer core barrel 10 is connected with a power device for pushing the composite layer core barrel to lift.

Go up the mould setting directly over the lower mould, go up the mould and support 1 and cope match-plate pattern 2 including last mould, go up the mould and support 1 level setting, cope match-plate pattern 2 installs in the bottom that last mould supported 1, and cope match-plate pattern 2 supports 1 detachable with last mould and is connected. The upper die support 1 is arranged on the lower side of the driving beam 28 and synchronously ascends and descends along with the driving beam 28.

The outer mold comprises an outer mold frame 3, an outer mold plate backing plate 4, outer mold fastening wedge 5, an outer mold plate pressing plate 6 and an outer mold plate 8, the outer mold frame 3 is a cuboid horizontally arranged, a cuboid installation cavity is formed in the middle of the outer mold frame 3, and the outer mold plate 8 is slidably installed in the installation cavity. The outer formwork 8 is also a horizontally arranged cuboid, a cuboid die cavity is formed in the middle of the outer formwork 8, the outer formwork fastening inclined iron 5 and the outer formwork backing plate 4 are arranged between the outer formwork 8 and the outer formwork frame 3, the outer formwork backing plate 4 and the outer formwork fastening inclined iron 5 are arranged between each side of the outer formwork 8 and the outer formwork frame 3, and the outer formwork fastening inclined iron 5 is arranged on the inner side of the outer formwork backing plate 4. The outer template pressing plate 6 is arranged on the upper sides of the outer template fastening inclined iron 5 and the outer template backing plate 4, the outer template pressing plate 6 is detachably connected with the outer template frame 3 through bolts, the outer template backing plate 4 and the outer template fastening inclined iron 5 are pressed in the outer template frame 3, and the outer side of the top of the outer template 8 is also arranged on the lower side of the outer template pressing plate 6 and is pressed by the outer template pressing plate 6. The outer mold frame 3 is installed in the floating mold frame 26 and is lifted and lowered synchronously with the floating mold frame 26

The outer die fastening inclined iron 5 comprises outer inclined iron and inner inclined iron, the inner side of the outer inclined iron is inclined gradually inwards from top to bottom, the outer side of the inner inclined iron is inclined gradually inwards from top to bottom, and the inner inclined iron and the outer inclined iron are matched to fasten the outer die plate 8 and center the outer die plate 8.

The lower mould includes lower bolster 12, lower mould support 13 and die holder 14, and lower bolster 12 slidable installs in the cope match-plate pattern 8, installs in the die cavity promptly, and lower bolster 12 sets up under cope match-plate pattern 2 to just to setting up with cope match-plate pattern 2. The lower die support 13 is arranged on the lower side of the lower die plate 12, the lower die support 13 is detachably connected with the lower die plate 12, and the lower die support 13 can also extend into the die cavity. The lower die base 14 is arranged on the lower side of the lower die support 13, the top of the lower die base 14 is detachably connected with the lower die support 13, and the top of the lower die base 14 can also extend into the die cavity.

This compound slide plate brick integrated into one piece mould still includes the mount pad, and the mount pad both sides all are provided with vertical guide bar, guide bar and mount pad fixed connection, and outer mold frame 3 slidable links to each other with the guide bar that corresponds the side, and the mount pad is used for linking to each other with the press. The lower die holder 14 is mounted on the mounting block. The mounting is mounted on a base 24.

The vertical setting of dabber 11 is in the bed die, and slidable is connected between dabber 11 and the bed die, and dabber 11 bottom and mount pad fixed connection make dabber 11 go up and down along with 8 synchronous lifts of exterior sheathing, and the top of dabber 11 is parallel and level with 8 tops of exterior sheathing. The composite layer core barrel 10 is slidably sleeved outside the core shaft 11, and the top of the composite layer core barrel 10 is flush with the bottom of the conical die bottom plate 7 and forms a conical cavity together with the conical die bottom plate 7.

The conical die comprises a conical die bottom plate 7 and a conical die bottom plate support 9, the inner diameter of the conical die bottom plate 7 is tapered from top to bottom, the conical die bottom plate support 9 can be slidably sleeved outside the composite layer core cylinder 10, the bottom of the conical die bottom plate support 9 is fixedly connected with the mounting seat, and the conical die bottom plate support 9 is slidably connected with the lower die.

The both sides that the awl mould bottom plate supported 9 all are provided with vertical slot hole, and the bilateral symmetry of composite bed core section of thick bamboo 10 is provided with radial composite bed core section of thick bamboo connecting plate 1001, and the one end and the composite bed core section of thick bamboo 10 fixed connection of composite bed core section of thick bamboo connecting plate 1001, the other end link to each other with power device, and in this embodiment, power device is the pneumatic cylinder, and the piston rod of pneumatic cylinder links to each other with the composite bed core section of thick bamboo connecting plate 1001 of both sides simultaneously. The hydraulic cylinders are connected to a hydraulic station 22.

The both sides of composite bed core section of thick bamboo 10 are also provided with the slot hole symmetrically, and the slot hole on the composite bed core section of thick bamboo 10 just sets up with the slot hole that corresponds the side on the awl mould bottom plate supports 9, and the bilateral symmetry of dabber 11 is provided with radial dabber connecting plate, the one end and the dabber 11 fixed connection of dabber connecting plate, and the other end passes behind the slot hole of composite bed core section of thick bamboo 10 and the slot hole that awl mould bottom plate supported 9 in proper order and external mold frame 3 fixed connection.

The composite sliding plate brick integral forming die also comprises a demoulding device, the demoulding device comprises a demoulding oil cylinder 15, a demoulding top plate 16 and a movable bottom plate 17, the movable bottom plate 17 is arranged on the upper side of the mounting seat, the lower die seat 14 is arranged on the movable bottom plate 17, the demoulding top plate 16 is slidably arranged in the mounting seat, the demoulding oil cylinder 15 is also arranged on the mounting seat, the demoulding oil cylinder 15 is arranged on the lower side of the demoulding top plate 16, a piston rod of the demoulding oil cylinder 15 is connected with the demoulding top plate 16 and pushes the demoulding top plate to lift, the top of the demoulding top plate 16 is provided with a demoulding part which can slidably extend into the conical die bottom plate support 9 and is jointed with the composite layer core cylinder 10 but not connected, a demoulding column 18 is arranged between the demoulding top plate 16 and the movable bottom plate 17, the demoulding column 18 is slidably arranged on the mounting seat, the bottom of the demoulding column 18 is connected with the demoulding top plate 16, and the top is connected with the movable bottom plate 17, the movable bottom plate 17 and the knockout top plate 16 are synchronously operated. The stripper cylinder 15 is connected to a hydraulic station.

The working process of the composite sliding plate brick integrated forming die is as follows: the auxiliary oil cylinder 27 pushes the outer mold frame 3 to move upwards, the outer mold plate 8 and the mandrel 11 synchronously ascend, and at the moment, the primary material distribution device 20 performs primary material distribution in the mold cavity. After the primary material distribution is completed, the outer template 8 and the mandrel 11 ascend again, meanwhile, the hydraulic cylinder drives the composite layer mandrel 10 to move downwards, a space for secondary material distribution is reserved, and then the secondary material distribution device 21 performs secondary material distribution in the mold cavity.

After the material distribution is completed, the main oil cylinder 29 drives the upper template 2 to move downwards through the main cross beam 28, the upper template 2 is matched with the lower template 12 to press the material in the mold cavity, meanwhile, the hydraulic cylinder pushes the composite layer core cylinder 10 to move upwards and presses the material at the bottom plate 7 of the conical mold, and the one-step press forming of the composite sliding plate brick is realized.

After the composite sliding brick is formed, the upper template 2 rises, the demoulding oil cylinder 15 acts to push the demoulding top plate 16 to move upwards, and the demoulding top plate 16 pushes the composite layer core cylinder 10 to move upwards through the demoulding part; the demoulding top plate 16 also pushes the movable bottom plate 17 to move upwards through the demoulding column 18, and the lower template 12 moves upwards, so that automatic demoulding is realized.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the utility model may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a compound slide plate brick press, includes press main part (19), distributing device and slide plate brick forming die, its characterized in that: the sliding plate brick forming die is installed on a press main body (19), the distributing device is provided with a plurality of devices arranged on the side portion of the press main body (19), a composite layer core barrel (10) is arranged between a conical die and a core shaft (11) of the sliding plate brick forming die, the composite layer core barrel (10) and the conical die and the composite layer core barrel (10) and the core shaft (11) are connected in a sliding mode, and the composite layer core barrel (10) is connected with a power device.

2. The composite slide block press of claim 1, wherein: the material distribution device comprises a primary material distribution device (20) and a secondary material distribution device (21) which are arranged on two adjacent sides of a press main body (19).

3. The composite slide brick press of claim 1 or 2 wherein: press main part (19) including drive beam (28), base (24), unsteady framed (26), vice hydro-cylinder (27) and master cylinder (29), drive beam (28) set up the upside at base (24), unsteady framed (26) set up between drive beam (28) and unsteady framed (26), master cylinder (29) link to each other with drive beam (28), vice hydro-cylinder (27) link to each other with unsteady framed (26), slide block forming die's last mould links to each other with drive beam (28), slide block forming die's external mold links to each other with unsteady framed (26), slide block forming die's lower mould links to each other with base (24).

4. The composite slide block press of claim 1, wherein: the sliding plate brick forming die comprises an upper die, an outer die, a lower die, a conical die, a mandrel (11) and a composite layer core barrel (10), wherein a die cavity is formed in the middle of the outer die, the lower die is slidably mounted in the die cavity, the upper die is arranged right above the lower die, the upper portion of the mandrel (11) is arranged in the lower die, the upper portions of the conical die and the composite layer core barrel (10) extend into the lower die, the conical die and the lower die can slide relatively, and the conical die and the outer die are connected and can keep synchronous lifting.

5. The composite slide block press of claim 4, wherein: the conical die comprises a conical die bottom plate (7) and a conical die bottom plate support (9), the conical die bottom plate support (9) is slidably sleeved outside the composite layer core cylinder (10), the conical die bottom plate (7) is installed at the top of the conical die bottom plate support (9), and the top of the composite layer core cylinder (10) and the conical die bottom plate (7) enclose a conical cavity.

6. The composite slide block press of claim 4, wherein: the outer die comprises an outer die frame (3), outer die fastening inclined iron (5), an outer die plate (8) and an outer die plate pressing plate (6), the outer die plate (8) is arranged in the outer die frame (3), the die cavity is formed in the outer die plate (8), the outer die fastening inclined iron (5) is arranged between the outer die plate (8) and the outer die frame (3), the outer die plate pressing plate (6) is arranged on the upper side of the outer die fastening inclined iron (5), and the outer die plate pressing plate (6) is detachably connected with the outer die frame (3).

7. The composite slide brick press of claim 6 wherein: the outer die further comprises an outer die plate backing plate (4), the outer die plate backing plate (4) is arranged between the outer die fastening wedge (5) and the outer die frame (3), and the outer die plate backing plate (4) is arranged on the lower side of the outer die pressing plate (6).

8. The composite slide block press of claim 4, wherein: the composite layer core barrel is characterized by further comprising a demolding device, and the demolding device is connected with the composite layer core barrel (10) and the lower die at the same time.

9. The composite slide brick press of claim 8 wherein: the demolding device comprises a demolding oil cylinder (15), wherein the demolding oil cylinder (15) is arranged on the lower side of the lower mold, and the demolding oil cylinder (15) is connected with the lower mold and the composite layer core cylinder (10) simultaneously.

10. The composite slide brick press of claim 1 wherein: the composite layer core barrel is characterized in that a composite layer core barrel connecting plate (1001) is installed on the lower portion of the composite layer core barrel (10), a vertical long hole is formed in the lower portion of the conical die, and the composite layer core barrel connecting plate (1001) can slidably penetrate through the long hole and then is connected with a power device.

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