CN217288677U - Line structure is produced to abrasive material - Google Patents

Abstract

The utility model discloses an abrasive material production line structure, which comprises an abrasive material mechanism for carrying out abrasive material treatment on materials and loading the treated materials into a material frame and a material drying mechanism for carrying out spin-drying and/or drying on the materials along the conveying direction; the line mechanism is produced to abrasive material still includes the transport mechanism, and transport mechanism is including the structure of snatching that is used for snatching the material frame, snatchs the structure and can transport to the drier structure with the material frame of abrasive material mechanism department along direction of delivery motion. The utility model discloses it can realize that the abrasive material produces the automated processing of line, effectively practices thrift manpower resources, improves production efficiency.

Description

Line structure is produced to abrasive material

Technical Field

The utility model belongs to the technical field of abrasive material equipment and specifically relates to a line structure is produced to abrasive material.

Background

In actual production, the materials are not required to be subjected to abrasive treatment, and the method can be divided into a dry type abrasive mode and a wet type abrasive mode according to the abrasive mode; wet-type abrasive material carries liquid after the abrasive material mechanism is handled, needs the manual work again at this moment to carry the material and places the material in drying-machine or drier and dry the material, causes the waste of manpower resources, and wastes time and energy.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough that exists among the prior art, the utility model provides a line structure is produced to abrasive material, its automated processing that can realize the line is produced to the abrasive material effectively practices thrift manpower resources, improves production efficiency.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a line structure is produced to abrasive material, along direction of delivery, it includes

The grinding mechanism is used for grinding materials and loading the processed materials into the material frame;

the drying mechanism is used for drying and/or drying the materials;

the abrasive material production line mechanism further comprises a conveying mechanism, the conveying mechanism comprises a grabbing structure used for grabbing the material frame, and the grabbing structure can move along the conveying direction to convey the material frame at the abrasive material mechanism to the drying mechanism.

The material grinding mechanism adopts a wet type mode to grind materials, so that the materials processed by the material grinding mechanism need to be dried and/or dried by the dry material mechanism;

by adopting the structure, the grinding mechanism carries out grinding treatment on the material, the treated material is loaded into the material frame after the treatment is finished, the grabbing structure grabs the material frame and conveys the material frame to the dry material mechanism, and the dry material mechanism carries out spin-drying and/or drying on the material frame filled with the material; the automatic processing is realized to above-mentioned structure, can effectively promote efficiency and practice thrift the human cost.

Further, along the conveying direction, the abrasive production line structure further comprises a feeding conveyor belt arranged in front of the abrasive mechanism and a discharging conveyor belt arranged behind the drying mechanism; the grabbing structure grabs the material frame from the feeding conveyor belt and conveys the material frame to the grinding mechanism, sends the material in the material frame into the grinding mechanism, and conveys the material frame at the dry material mechanism to the discharging conveyor belt.

By adopting the structure, a user can place a plurality of material frames filled with materials along the length direction of the feeding conveyor belt, and the feeding conveyor belt runs intermittently to sequentially convey the material frames to the conveying mechanism; the material frames filled with the processed materials are placed on a discharging conveying belt by the grabbing structure, and the discharging conveying belt runs intermittently to send out the material frames in sequence; the structure further realizes the automatic processing of the abrasive material production line structure, further improves the efficiency and saves the labor cost.

Further, the conveying mechanism comprises a conveying structure capable of driving the grabbing structure to reciprocate along the conveying direction and a lifting structure capable of driving the grabbing structure to lift; the lifting direction of the grabbing structure is perpendicular to the conveying direction.

By adopting the structure, the grabbing structure can be switched among the feeding conveyer belt, the grinding material structure, the drying material mechanism and the feeding conveyer belt by the conveying structure; the lifting structure is convenient for the grabbing structure grabs the material frame on the feeding conveyer belt, is convenient for place the material frame on the feeding conveyer belt, is convenient for send the raw materials in the material frame into the abrasive material structure, is convenient for grab the material frame of the abrasive material structure, and is convenient for place the material frame into the dry material mechanism and take out the material frame from the dry material mechanism.

Further, the abrasive mechanism comprises an abrasive mounting main body, an abrasive main body rotatably mounted on the abrasive mounting main body, and an abrasive rotary driving member for driving the abrasive main body to rotate,

the abrasive rotating driving piece drives the abrasive main body to be in a first abrasive working position, the abrasive main body is in an optimal abrasive processing angle,

the abrasive material rotating driving piece drives the abrasive material main body to be in a second abrasive material working position, the first inlet and outlet of the abrasive material main body inclines to the conveying mechanism side, the first inlet and outlet is upward,

the abrasive material rotating driving piece drives the abrasive material main body to be in a third abrasive material working position, the first inlet and outlet of the abrasive material main body inclines to the conveying mechanism side, and the first inlet and outlet is downward;

the grabbing structure comprises a grabbing bracket, a grabbing piece which is rotatably arranged on the grabbing bracket and used for grabbing the material frame, and a grabbing rotary driving piece which is used for driving the grabbing piece to rotate,

the grabbing rotary driving piece drives the grabbing piece to be in a first grabbing working position, and the grabbing piece grabs the material frame and enables a second inlet and a second outlet of the material frame to be upward;

snatch the rotation driving piece drive it snatchs the piece it snatchs under the operating position's the state is grabbed to the second, it snatchs to grab the piece material frame and make the second of material frame import and export to the slope of abrasive material mechanism side and the second import and export downwards.

The main abrasive body is positioned on one side of the conveying mechanism; the abrasive body being at the optimum abrasive processing angle may be understood as the abrasive body being in a non-tilted state with the first inlet and outlet facing upwards.

The abrasive material rotating driving piece is arranged on the abrasive material mounting main body and adopts a right-angle motor; the grabbing rotary driving piece adopts a rotary cylinder.

By adopting the structure, after the grabbing structure moves to the abrasive material structure under the driving of the conveying structure, the lifting structure drives the grabbing structure to ascend to a certain height, at the moment, the abrasive material rotating driving piece drives the abrasive material main body to be at a second abrasive material working position, the grabbing rotating driving piece drives the grabbing piece to be at a second grabbing working position, the fact that the grabbing structure ascends to the certain height means that a second inlet and a second outlet of the material frame are located above a first inlet and a second outlet of the abrasive material main body in the above state, and in the above state, the material in the material frame is poured into the abrasive material main body;

the abrasive driving piece drives the abrasive main body to be at the first abrasive working position again so as to facilitate abrasive processing of materials, the grabbing rotary driving piece drives the grabbing piece to be at the first grabbing working position, and the lifting structure drives the grabbing structure to descend to a certain height;

when the abrasive processing of the abrasive main body is finished, the abrasive driving part drives the abrasive main body to be in a third abrasive working position, and the grabbing structure descends to a certain height, namely that the second inlet and outlet of the material frame is positioned below the first inlet and outlet of the abrasive main body in the above state, and the material in the abrasive main body is poured into the material frame in the above state; the grabbing structure conveys the material frame to the drying mechanism.

Of course, the above-mentioned lifting structure drive the grabbing structure to descend to a certain height also can be the lifting structure drive the grabbing structure to descend so as to place the material frame on the platform that is used for placing the material frame in the abrasive mechanism, after the material in the abrasive main part is dumped to in the material frame, the grabbing structure again grabs the material frame and transports to the dry material mechanism, and the action of dumping of the abrasive main part is convenient for to above-mentioned structure.

Further, the grinding mechanism comprises a grinding main body, and the grinding main body is a ball mill.

Specifically, the grinding material main body comprises a ball milling base, a ball milling main body rotatably mounted on the ball milling base, and a ball milling rotary driving member for driving the ball milling main body to rotate; the ball milling rotary driving piece adopts a right-angle motor.

Further, the dry material mechanism comprises a dry material box with a dry material cavity, a drying disc arranged in the dry material cavity, and a spin-drying driving piece used for driving the drying disc to rotate, wherein the dry material cavity forms a third inlet on the surface of the dry material box; the material frame is provided with a plurality of liquid leakage holes; the drying disc is provided with a first limiting part, and the material frame is provided with a second limiting part matched with the first limiting part; when the material frame is arranged on the spin-drying disc, the first limiting part and the second limiting part are matched with each other to limit the material frame and the spin-drying disc from rotating relatively; the drying box is provided with a water outlet.

By adopting the structure, the grabbing structure conveys the material frame to the position above the spin-drying disc of the drying mechanism under the driving of the conveying structure, and the lifting structure drives the grabbing structure to descend so as to place the material frame on the spin-drying disc; the lifting mechanism drives the grabbing structure to ascend again to leave the dry material cavity; the spin-drying driving piece drives the spin-drying disc to rotate, the material frame rotates along with the spin-drying disc due to the matching of the first limiting part and the second limiting part, and liquid in the material frame is spun out through the liquid leakage hole and is discharged out of the dry material cavity through the water discharge hole; the first limiting portion and the second limiting portion are in concave-convex limiting fit.

Further, the dry material mechanism comprises a dry material box cover used for covering the third inlet and a box cover driving piece used for driving the dry material box cover to open and close the third inlet.

By adopting the structure, when the grabbing structure grabs the material frame and conveys the material frame to the dry material mechanism, the box cover driving piece drives the dry material box cover to open the third inlet of the dry material box, so that the grabbing structure can place the material frame on the drying disc conveniently; after the grabbing structure exits the dry material cavity, the box cover driving piece drives the dry material box cover to close the third inlet of the dry material box, so that liquid splashing is avoided when the material in the material frame is dried;

specifically, the drier case lid articulates on the drier case, the case lid driving piece is the cylinder and is provided with two and is located respectively the both sides of drier case, action bars are used for respectively the both sides of drier case lid.

Further, the dry material mechanism comprises an air heater, and the air heater is connected with the dry material box to convey hot air to the dry material cavity.

By adopting the structure, the hot air blower conveys hot air to the material drying cavity to dry the materials in the material frame, so that the drying efficiency of the materials is improved; and the drying box cover closes the third inlet, so that the efficiency of drying materials by the air heater is improved.

Further, the grabbing structure comprises a grabbing bracket and a grabbing piece for grabbing the material frame; the grabbing support comprises a support main body, a first mounting arm, a second mounting arm and a grabbing driving assembly, wherein the first mounting arm and the second mounting arm are respectively movably arranged on two sides of the support main body, and the grabbing driving assembly is used for driving the first mounting arm and the second mounting arm to approach and move away from each other; the grabbing part comprises a first grabbing part and a second grabbing part which is matched with the first grabbing part to realize grabbing; the first and second grabbers are respectively disposed on the first and second mounting arms.

By adopting the structure, when the grabbing driving assembly drives the first mounting arm and the second mounting arm to mutually approach, the first grabbing piece and the second grabbing piece which are respectively mounted on the first mounting arm and the second mounting arm also mutually approach and cooperate to grab the material frame; when the grabbing driving assembly drives the first mounting arm and the second mounting arm to be away from each other, the first grabbing piece and the second grabbing piece which are respectively mounted on the first mounting arm and the second mounting arm are also away from each other and matched with each other to release the material frame;

specifically, the first and second gripping members are disposed on opposite sides of the first and second mounting arms, respectively;

the grabbing driving assembly comprises a first driving group used for driving the first mounting arm to be close to and far away from the second mounting arm and a second driving group used for driving the second mounting arm to be close to and far away from the first mounting arm; the first driving group comprises two cylinders, and the second driving group comprises two cylinders.

Further, the conveying structure comprises a conveying guide rail, a conveying sliding block and a conveying driving piece, the conveying guide rail is arranged along the conveying direction, the conveying sliding block is matched with the conveying guide rail, and the conveying driving piece drives the conveying sliding block to move through the matching of a conveying chain wheel and a conveying chain; the grabbing structure is arranged on the conveying sliding block.

Specifically, carry the driving piece to be the motor, and set up the one end of carrying the guide rail, carry the sprocket setting in the drive shaft of carrying the driving piece and the other end of carrying the guide rail.

Furthermore, the lifting structure comprises a lifting guide rail, a lifting slider and a lifting driving piece, the lifting guide rail is arranged along the lifting direction, the lifting slider is matched with the lifting guide rail, and the lifting driving piece drives the lifting slider to move through the matching of a lifting chain wheel and a lifting chain; the grabbing structure is arranged on the lifting slide block.

Specifically, the lifting driving part is a motor and is arranged at one end of the lifting guide rail, and the conveying chain wheel is arranged on a driving shaft of the lifting driving part and at the other end of the lifting guide rail; the lifting guide rail is arranged on the conveying sliding block, and the grabbing structure is arranged on the lifting sliding block.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses a line structure is produced to the abrasive material, its automated processing that can realize the abrasive material and produce the line effectively practices thrift manpower resources, improves production efficiency.

(2) The utility model discloses a line structure is produced to abrasive material, its structural design is reasonable.

Drawings

Fig. 1 is a schematic perspective view of the abrasive production line structure of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

FIG. 5 is a schematic structural view of a grabbing structure in the abrasive production line structure of the present invention;

FIG. 6 is a schematic structural view of an abrasive mechanism in the structure of the abrasive production line of the present invention;

FIG. 7 is a schematic structural view of a material drying mechanism in the structure of the abrasive production line of the present invention;

fig. 8 is a schematic structural view of the material drying mechanism in the structure of the abrasive material production line of the present invention at another angle;

fig. 9 is a schematic structural view of a material frame in the structure of the abrasive production line of the present invention;

fig. 10 is a schematic structural view of the material frame in the structure of the abrasive production line of the present invention at another angle;

reference numerals: 1 an abrasive mechanism; 101 an abrasive mounting body; 102 an abrasive body; 1021 ball milling base; 1022 a ball milling body; 1023 ball milling rotary drive; 1024 a first inlet/outlet; 103 an abrasive rotary drive member; 2, a material drying mechanism; 201 a dry box; 2011 a dry material chamber; 2012 a third inlet; 2013 a water outlet; 202 drying the disc; 2021 a first restriction portion; 203 spin-drying the driving piece; 204 a dry bin cover; 205 a case lid driver; 206 air heater; 3 a conveying mechanism; 301 grasping the structure; 3011 grasping the stent; 3011a stent body; 3011b a first mounting arm; 3011c a second mounting arm; 3011d grasping a drive assembly; 3011d1 first drive group; 3011d2 second drive group; 3012 grasping the part; 3012a first grasping element; 3012b a second grasping element; 3013 grasping the rotary drive; 302 a conveying structure; 3021 conveying rails; 3022 conveying the slide block; 3023 delivering a driver; 3024 a delivery sprocket; 303, a lifting structure; 3031 lifting the guide rail; 3032 lifting the slider; 3033 lifting drive member; 3034 lifting chain wheels; 4, feeding a conveyor belt; 5, discharging and conveying the materials; 6, material frame; 601 a liquid leakage hole; 602 a second restriction; 603 second port.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in FIGS. 1-10, an abrasive line configuration, along a transport direction, includes

The grinding mechanism 1 is used for grinding materials and loading the processed materials into the material frame 6;

the drying mechanism 2 is used for drying and/or drying the materials;

the line mechanism is produced to abrasive still includes transport mechanism 3, transport mechanism 3 is including being used for snatching the structure 301 that snatchs of material frame 6, it can move along direction of delivery to snatch the structure 301 and transport the material frame 6 of abrasive mechanism 1 department to dry material mechanism 2.

The material grinding mechanism 1 adopts a wet type mode to grind materials, so that the materials processed by the material grinding mechanism 1 need to be dried and/or dried by the dry material mechanism 2;

by adopting the structure, the grinding mechanism 1 carries out grinding treatment on the material, the treated material is loaded into the material frame 6 after the treatment is finished, the grabbing structure 301 grabs the material frame 6 and conveys the material frame to the dry material mechanism 2, and the dry material mechanism 2 carries out spin-drying and/or drying on the material frame 6 loaded with the material; the automatic processing is realized to above-mentioned structure, can effectively promote efficiency and practice thrift the human cost.

Preferably, along the conveying direction, the abrasive production line structure further comprises a feeding conveyor belt 4 arranged in front of the abrasive mechanism 1 and a discharging conveyor belt 5 arranged behind the dry material mechanism 2; the grabbing structure 301 grabs the material frame 6 from the feeding conveyor belt 4 and conveys the material in the material frame 6 to the abrasive mechanism 1, and conveys the material frame 6 in the dry material mechanism 2 to the discharging conveyor belt 5.

By adopting the structure, a user can place a plurality of material frames 6 filled with materials along the length direction of the feeding conveyor belt 4, and the feeding conveyor belt 4 intermittently runs to sequentially convey the material frames 6 to the conveying mechanism 3; the material frames 6 filled with the processed materials are placed on a discharging conveying belt by the grabbing structure 301, and the discharging conveying belt runs intermittently to sequentially send out the material frames 6; the structure further realizes the automatic processing of the abrasive material production line structure, further improves the efficiency and saves the labor cost.

Preferably, the conveying mechanism 3 includes a conveying structure 302 capable of driving the grabbing structure 301 to reciprocate along the conveying direction, and a lifting structure 303 capable of driving the grabbing structure 301 to lift; the lifting direction of the grabbing structure 301 is perpendicular to the conveying direction.

With the above structure, the conveying structure 302 enables the grabbing structure 301 to be switched among the feeding and conveying belt, the grinding structure, the drying mechanism 2 and the feeding and conveying belt; the lifting structure 303 is convenient for the grabbing structure 301 to grab the material frame 6 on the feeding and conveying belt, place the material frame 6 on the feeding and conveying belt, send the raw materials in the material frame 6 into the grinding material structure, grab the material frame 6 at the grinding material structure, and place the material frame 6 into the dry material mechanism 2 and take out the material frame from the dry material mechanism 2.

Preferably, the abrasive mechanism 1 comprises an abrasive mounting main body 101, an abrasive main body 102 rotatably mounted on the abrasive mounting main body 101, and an abrasive rotary driving member 103 for driving the abrasive main body 102 to rotate,

the abrasive rotary driving member 103 drives the abrasive main body 102 to be at the first abrasive working position, the abrasive main body 102 is at the optimal abrasive processing angle,

when the abrasive rotary drive member 103 drives the abrasive main body 102 to the second abrasive working position, the first entrance/exit 1024 of the abrasive main body 102 is inclined toward the conveying mechanism 3 and the first entrance/exit 1024 is upward,

when the abrasive rotary driving member 103 drives the abrasive main body 102 to be at the third abrasive working position, the first inlet/outlet 1024 of the abrasive main body 102 is inclined toward the conveying mechanism 3, and the first inlet/outlet 1024 is downward;

the grabbing structure 301 comprises a grabbing bracket 3011, grabbing pieces 3012 rotatably mounted on the grabbing bracket 3011 for grabbing the material frame 6, and a grabbing rotary driving piece 3013 for driving the grabbing pieces 3012 to rotate,

the grabbing rotary driving piece 3013 drives the grabbing piece 3012 and the grabbing piece 3012 is in a first grabbing working position, the grabbing piece 3012 grabs the material frame 6 and enables the second inlet and outlet 603 of the material frame 6 to face upwards;

the grabbing rotary driving component 3013 drives the grabbing component 3012, and when the grabbing component 3012 is in the second grabbing working position, the grabbing component 3012 grabs the material frame 6 and makes the second inlet/outlet 603 of the material frame 6 incline to the side of the abrasive mechanism 1, and the second inlet/outlet 603 faces downward.

The abrasive main body 102 is located on one side of the carrying mechanism 3; the abrasive body 102 being at the optimal abrasive handling angle is understood to mean that the abrasive body 102 is in a non-tilted state with the first access opening 1024 facing upward.

Wherein, the abrasive rotary driving member 103 is mounted on the abrasive mounting main body 101 and adopts a right-angle motor; the grabbing rotary driving piece 3013 adopts a rotary air cylinder.

With the above structure, after the grabbing structure 301 moves to the abrasive structure under the driving of the conveying structure 302, the lifting structure 303 drives the grabbing structure 301 to ascend to a certain height, at this time, the abrasive rotary driving member 103 drives the abrasive main body 102 to be at the second abrasive working position, the grabbing rotary driving member 3013 drives the grabbing member 3012 to be at the second grabbing working position, and when the grabbing structure 301 ascends to a certain height, it is understood that the second inlet/outlet 603 of the material frame 6 is located above the first inlet/outlet 1024 of the abrasive main body 102 in the above state, and in the above state, the material located in the material frame 6 is dumped into the abrasive main body 102;

the abrasive driving component drives the abrasive main body 102 to be at the first abrasive working position again so as to facilitate abrasive processing of the material, the grabbing rotary driving component 3013 drives the grabbing component 3012 to be at the first grabbing working position, and the lifting structure 303 drives the grabbing structure 301 to descend to a certain height;

when the abrasive body 102 is finished with the abrasive processing, the abrasive driving member drives the abrasive body 102 to be in a third abrasive working position, and the grabbing structure 301 is lowered to a certain height, which is understood that the second inlet/outlet 603 of the material frame 6 is located below the first inlet/outlet 1024 of the abrasive body 102 in the above state, and the material in the abrasive body 102 is dumped into the material frame 6 in the above state; the grabbing structure 301 conveys the material frame 6 to the drying mechanism 2.

Of course, the lifting structure 303 may drive the grabbing structure 301 to descend to a certain height, or the lifting structure 303 may drive the grabbing structure 301 to descend so as to place the material frame 6 on the platform of the abrasive mechanism 1 for placing the material frame 6, when the material in the abrasive main body 102 is dumped into the material frame 6, the grabbing structure 301 grabs the material frame 6 again and transports the material frame 6 to the dry material mechanism 2, which facilitates the dumping operation of the abrasive main body 102.

Preferably, the abrasive mechanism 1 includes an abrasive main body 102, and the abrasive main body 102 is a ball mill.

Specifically, the abrasive main body 102 comprises a ball milling base 1021, a ball milling main body 1022 rotatably mounted on the ball milling base 1021, and a ball milling rotary driving member 1023 for driving the ball milling main body 1022 to rotate; wherein the ball milling rotary driving member 1023 adopts a right angle motor.

Preferably, the dry material mechanism 2 includes a dry material tank 201 having a dry material cavity 2011, a spin-drying tray 202 disposed in the dry material cavity 2011, and a spin-drying driving member 203 for driving the spin-drying tray 202 to rotate, wherein the dry material cavity 2011 forms a third inlet 2012 on the surface of the dry material tank 201; a plurality of liquid leakage holes 601 are formed in the material frame 6; a first limiting part 2021 is arranged on the drying disc 202, and a second limiting part 602 matched with the first limiting part 2021 is arranged on the material frame 6; in a state that the material frame 6 is mounted on the spin-drying tray 202, the first limiting portion 2021 and the second limiting portion 602 cooperate with each other to limit the material frame 6 and the spin-drying tray 202 from rotating relatively; a water outlet 2013 is formed in the drying box 201.

With the above structure, the grabbing structure 301 is driven by the conveying structure 302 to convey the material frame 6 to the position above the spin-drying tray 202 of the drying mechanism 2, and the lifting structure 303 drives the grabbing structure 301 to descend to place the material frame 6 on the spin-drying tray 202; the lifting mechanism drives the grabbing structure 301 to ascend again to leave the dry material cavity 2011; the spin-drying driving member 203 drives the spin-drying disk 202 to rotate, the material frame 6 rotates along with the spin-drying disk 202 due to the cooperation of the first limiting portion 2021 and the second limiting portion 602, and the liquid in the material frame 6 is spun out through the liquid leakage hole 601 and is discharged out of the dry material cavity 2011 through the water discharge port 2013; the first limiting portion 2021 and the second limiting portion 602 are engaged by a concave-convex limitation.

Preferably, the dry material mechanism 2 includes a dry material box cover 204 for covering the third inlet 2012, and a box cover driving member 205 for driving the dry material box cover 204 to open and close the third inlet 2012.

With the above structure, when the grabbing structure 301 grabs the material frame 6 and conveys the material frame to the dry material mechanism 2, the box cover driving part 205 drives the dry material box cover 204 to open the third inlet 2012 of the dry material box 201, so that the grabbing structure 301 places the material frame 6 on the spin-drying tray 202; after the grabbing structure 301 exits the dry material cavity 2011, the box cover driving piece 205 drives the dry material box cover 204 to close the third inlet 2012 of the dry material box 201, so that liquid splashing is avoided when the material in the material frame 6 is dried;

specifically, the dry box cover 204 is hinged to the dry box 201, and the box cover driving member 205 is an air cylinder and is provided with two sides which are respectively located on the dry box 201, and two action rods respectively act on two sides of the dry box cover 204.

Preferably, the dry material mechanism 2 includes a hot air blower 206, and the hot air blower 206 is connected to the dry material box 201 to deliver hot air into the dry material cavity 2011.

With the structure, the hot air blower 206 delivers hot air into the dry material cavity 2011 to dry the materials in the material frame 6, so that the drying efficiency of the materials is improved; and the dry box cover 204 closes the third inlet 2012, which is beneficial to improving the efficiency of the hot air blower 206 for drying the materials.

Preferably, the grabbing structure 301 comprises a grabbing bracket 3011 and grabbing pieces 3012 for grabbing the material frame 6; the grabbing bracket 3011 comprises a bracket main body 3011a, a first installation arm 3011b, a second installation arm 3011c and a grabbing driving component 3011d, the first installation arm 3011b and the second installation arm 3011c are respectively and movably arranged on two sides of the bracket main body 3011a, and the grabbing driving component 3011d is used for driving the first installation arm 3011b and the second installation arm 3011c to approach to and move away from each other; the grabbing pieces 3012 comprise a first grabbing piece 3012a and a second grabbing piece 3012b matched with the first grabbing piece 3012a to realize grabbing; the first and second grabbers 3012a and 3012b are disposed on the first and second mounting arms 3011b and 3011c, respectively.

By adopting the structure, when the grabbing driving component 3011d drives the first mounting arm 3011b and the second mounting arm 3011c to approach each other, the first grabbing piece 3012a and the second grabbing piece 3012b respectively mounted on the first mounting arm 3011b and the second mounting arm 3011c also approach each other and cooperate to grab the material frame 6; when the grabbing driving assembly 3011d drives the first mounting arm 3011b and the second mounting arm 3011c to move away from each other, the first grabbing piece 3012a and the second grabbing piece 3012b respectively mounted on the first mounting arm 3011b and the second mounting arm 3011c also move away from each other and cooperate with each other to release the material frame 6;

specifically, the first and second grabbers 3012a and 3012b are respectively disposed on opposite sides of the first and second mounting arms 3011b and 3011 c;

the grasping drive assembly 3011d includes a first drive group 3011d1 for driving the first mounting arm 3011b closer to and away from the second mounting arm 3011c, and a second drive group 3011d2 for driving the second mounting arm 3011c closer to and away from the first mounting arm 3011 b; the first drive group 3011d1 includes two cylinders and the second drive group 3011d2 includes two cylinders.

Preferably, the conveying structure 302 comprises a conveying guide rail 3021, a conveying slider 3022, and a conveying driver 3023, the conveying guide rail 3021 is disposed along the conveying direction, the conveying slider 3022 is matched with the conveying guide rail 3021, and the conveying driver 3023 drives the conveying slider 3022 to move through the cooperation of a conveying sprocket 3024 and a conveying chain; the gripping structure 301 is arranged on the delivery slide 3022.

Specifically, the conveying driver 3023 is a motor and is disposed at one end of the conveying guide rail 3021, and the conveying sprocket 3024 is disposed on a driving shaft of the conveying driver 3023 and at the other end of the conveying guide rail 3021.

Preferably, the lifting structure 303 includes a lifting guide rail 3031, a lifting slider 3032, and a lifting driving member 3033, the lifting guide rail 3031 is disposed along a lifting direction, the lifting slider 3032 is matched with the lifting guide rail 3031, and the lifting driving member 3033 drives the lifting slider 3032 to move through the cooperation of a lifting chain wheel 3034 and a lifting chain; the grabbing structure 301 is arranged on the lifting slide 3032.

Specifically, the lifting driver 3033 is a motor and is arranged at one end of the lifting guide rail 3031, and the conveying chain wheel 3024 is arranged on the driving shaft of the lifting driver 3033 and at the other end of the lifting guide rail 3031; the lifting guide rail 3031 is arranged on the conveying slide block 3022, and the grabbing structure 301 is arranged on the lifting slide block 3032.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A line structure is produced to abrasive which characterized in that: along the conveying direction, it comprises

The grinding mechanism (1) is used for grinding materials and loading the processed materials into the material frame (6);

the drying mechanism (2) is used for drying and/or drying the materials;

the abrasive production line mechanism further comprises a conveying mechanism (3), the conveying mechanism (3) comprises a grabbing structure (301) for grabbing the material frame (6), and the grabbing structure (301) can move along the conveying direction to convey the material frame (6) at the abrasive mechanism (1) to the drying mechanism (2).

2. The abrasive production line structure according to claim 1, wherein: along the conveying direction, the abrasive production line structure further comprises a feeding conveyor belt (4) arranged in front of the abrasive mechanism (1) and a discharging conveyor belt (5) arranged behind the dry material mechanism (2); the grabbing structure (301) grabs the material frame (6) from the feeding conveyor belt (4) and conveys the material frame (6) to the grinding material mechanism (1), sends the material in the material frame (6) to the grinding material mechanism (1), and conveys the material frame (6) at the dry material mechanism (2) to the discharging conveyor belt (5).

3. The abrasive production line structure according to claim 1, wherein: the conveying mechanism (3) comprises a conveying structure (302) capable of driving the grabbing structure (301) to reciprocate along the conveying direction and a lifting structure (303) capable of driving the grabbing structure (301) to lift.

4. The abrasive production line structure according to claim 3, wherein: the abrasive mechanism (1) comprises an abrasive mounting main body (101), an abrasive main body (102) rotatably mounted on the abrasive mounting main body (101), and an abrasive rotary driving piece (103) for driving the abrasive main body (102) to rotate,

the abrasive material rotary driving part (103) drives the abrasive material main body (102) to be in a first abrasive material working position, the abrasive material main body (102) is in an optimal abrasive material processing angle,

the abrasive rotating driving piece (103) drives the abrasive main body (102) to be in a second abrasive working position, the first inlet and outlet (1024) of the abrasive main body (102) inclines to the conveying mechanism (3) side, and the first inlet and outlet (1024) is upward,

when the abrasive rotating driving piece (103) drives the abrasive main body (102) to be in a third abrasive working position, the first inlet/outlet (1024) of the abrasive main body (102) inclines to the conveying mechanism (3) side, and the first inlet/outlet (1024) is downward;

the grabbing structure (301) comprises a grabbing bracket (3011), a grabbing piece (3012) which is rotatably arranged on the grabbing bracket (3011) and used for grabbing the material frame (6), and a grabbing rotary driving piece (3013) which is used for driving the grabbing piece (3012) to rotate,

the grabbing rotary driving piece (3013) drives the grabbing piece (3012) to be in a first grabbing working position, and the grabbing piece (3012) grabs the material frame (6) and enables a second inlet and outlet (603) of the material frame (6) to face upwards;

the grabbing rotary driving piece (3013) drives the grabbing piece (3012) and the grabbing piece (3012) is in a state of a second grabbing working position, the grabbing piece (3012) grabs the material frame (6) and enables a second inlet and outlet (603) of the material frame (6) to incline towards the grinding mechanism (1) side and the second inlet and outlet (603) to face downwards.

5. The abrasive production line structure according to claim 1, wherein: the abrasive mechanism (1) comprises an abrasive main body (102), and the abrasive main body (102) is a ball mill.

6. The abrasive production line structure according to claim 3, wherein: the dry material mechanism (2) comprises a dry material box (201) with a dry material cavity (2011), a drying disc (202) arranged in the dry material cavity (2011), and a drying driving piece (203) used for driving the drying disc (202) to rotate, wherein the dry material cavity (2011) forms a third inlet (2012) on the surface of the dry material box (201); a plurality of liquid leakage holes (601) are formed in the material frame (6); a first limiting part (2021) is arranged on the drying disc (202), and a second limiting part (602) matched with the first limiting part (2021) is arranged on the material frame (6); the first limiting part (2021) and the second limiting part (602) are matched with each other to limit the relative rotation of the material frame (6) and the spin-drying disc (202) under the state that the material frame (6) is installed on the spin-drying disc (202); a water outlet (2013) is formed in the drying box (201).

7. The abrasive production line structure according to claim 6, wherein: the dry material mechanism (2) comprises a dry material box cover (204) used for covering the third inlet (2012) and a box cover driving piece (205) used for driving the dry material box cover (204) to open and close the third inlet (2012);

the dry material mechanism (2) comprises a hot air blower (206), and the hot air blower (206) is connected with the dry material box (201) to convey hot air into the dry material cavity (2011).

8. The abrasive production line structure according to claim 1, wherein: the grabbing structure (301) comprises a grabbing bracket (3011) and a grabbing piece (3012) used for grabbing the material frame (6); the grabbing bracket (3011) comprises a bracket main body (3011a), a first mounting arm (3011b), a second mounting arm (3011c) and a grabbing driving component (3011d), wherein the first mounting arm (3011b) and the second mounting arm (3011c) are respectively and movably arranged on two sides of the bracket main body (3011a), and the grabbing driving component (3011d) is used for driving the first mounting arm (3011b) and the second mounting arm (3011c) to approach and move away from each other; the grabbing piece (3012) comprises a first grabbing piece (3012a) and a second grabbing piece (3012b) which is matched with the first grabbing piece (3012a) to realize grabbing; the first gripping member (3012a) and the second gripping member (3012b) are respectively disposed on the first mounting arm (3011b) and the second mounting arm (3011 c).

9. The abrasive production line structure according to claim 3, wherein: the conveying structure (302) comprises a conveying guide rail (3021), a conveying slide block (3022) and a conveying driving piece (3023), wherein the conveying guide rail (3021) is arranged along the conveying direction, the conveying slide block (3022) is matched with the conveying guide rail (3021), and the conveying driving piece (3023) drives the conveying slide block (3022) to move through the cooperation of a conveying chain wheel (3024) and a conveying chain; the grabbing structure (301) is arranged on the conveying sliding block (3022).

10. The abrasive production line structure according to claim 3, wherein: the lifting structure (303) comprises a lifting guide rail (3031), a lifting slider (3032) and a lifting driving part (3033), the lifting guide rail (3031) is arranged along the lifting direction, the lifting slider (3032) is matched with the lifting guide rail (3031), and the lifting driving part (3033) drives the lifting slider (3032) to move through the matching of a lifting chain wheel (3034) and a lifting chain; the grabbing structure (301) is arranged on the lifting slide block (3032).

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