阅读说明：本技术 一种石材转运装置及其安装方法 (Stone material transfer device and installation method thereof ) 是由 占全俊 于 2021-01-20 设计创作，主要内容包括：本发明涉及石材转运领域,特别是指一种石材转运装置,包括有底座、支撑架、移动架和承载架,本发明通过在承载架的一端与移动架转动连接,再由导轨、旋转滑动架和第二电动推杆配合的作用下,向上抬升承载架,能够使承载架绕着旋转块的一端抬起,使承载架卸出石材更加方便快捷,通过移动架与支撑架左右相对移动的作用下,由第一电动推杆可便捷的将移动架推出,以便于将承载架移动至运输车所需的位置再进行卸料工作,从而使石材卸料至运输车上的位置能够更加灵活,有效的提高了卸料的效率,使在将石材运至运输车上更加方便,同时通过上固定机构和侧向固定机构相互配合的作用下,能够将石材固定在承载架内,防止在移动承载架时造成石材掉落。(The invention relates to the field of stone material transfer, in particular to a stone material transfer device which comprises a base, a support frame, a moving frame and a bearing frame, wherein one end of the bearing frame is rotatably connected with the moving frame, the bearing frame is upwards lifted under the action of the matching of a guide rail, a rotating sliding frame and a second electric push rod, so that the bearing frame can be lifted around one end of a rotating block, the bearing frame can more conveniently and quickly unload stone materials, the moving frame can be conveniently pushed out by the first electric push rod under the action of the left-right relative movement of the moving frame and the support frame, the bearing frame is conveniently moved to a position required by a transport vehicle for unloading, the position of the stone materials on the transport vehicle can be more flexible, the unloading efficiency is effectively improved, the stone materials can be more conveniently conveyed to the transport vehicle, and simultaneously under the mutual matching action of an upper fixing mechanism and a lateral fixing mechanism, can fix the stone material in bearing the frame, prevent to cause the stone material to drop when removing and bear the frame.)

1. The utility model provides a stone material transfer device, including the base, its characterized in that: the stone vibration device is characterized in that hydraulic cylinders are arranged on the periphery of the base, a support frame is arranged at the end part of each hydraulic cylinder, a movable frame capable of moving left and right is arranged in each support frame, a bearing frame is arranged in each movable frame, the right side of each bearing frame is rotatably connected with the right side of each movable frame, a fixed cover is arranged above each bearing frame and moves left and right relative to each bearing frame, an upper fixing mechanism used for fixing stone materials to vibrate up and down is arranged on each fixed cover, and lateral fixing mechanisms used for fixing the stone materials are respectively arranged on the front side and the; a penetrating movable groove is formed in the bottom of the support frame, a first electric push rod is fixed on the left side of the support frame, and the output end of the first electric push rod is fixed on the movable frame; a rotating block protruding downwards is arranged below the right side of the bearing frame, a connecting block protruding upwards is arranged at the position, corresponding to the rotating block, of the moving frame, and the rotating block is connected with the connecting block through a rotating rod; a guide rail is fixed below the bearing frame, a rotating sliding frame is connected in the guide rail in a sliding manner, limiting grooves which are concave towards two sides are formed in the bottom of the guide rail, the rotating sliding frame comprises a moving block, a limiting block which protrudes outwards is arranged at a position, corresponding to the limiting grooves, of the moving block, the limiting block is embedded into the limiting grooves, one end, away from the guide rail, of the moving block is embedded into a rotating groove of the rotating block, the moving block is rotatably connected with the rotating block through a rotating shaft, the rotating block is fixed at the output end of a second electric push rod, the second electric push rod is fixed on a supporting frame, and the second electric push rod penetrates; the upper fixing mechanism comprises an upper fixing plate, the upper fixing plate is arranged on one side, facing the bearing frame, of the fixing cover, an upper threaded rod is arranged on the upper fixing plate and penetrates through a through hole of the fixing cover, the upper threaded rod is in threaded connection with an adjusting sleeve, the adjusting sleeve is nested in the fixing sleeve, the fixing sleeve is fixed on the fixing cover and is provided with an inwards concave clamping groove, a clamping block protruding outwards is arranged at the position, corresponding to the clamping groove, of the adjusting sleeve, the clamping block is embedded into the clamping groove, an upper guide rod is arranged on the upper surface of the upper fixing plate, the position, corresponding to the upper guide rod, of the fixing cover penetrates through the upper guide hole, and the upper guide rod penetrates; the side direction fixed establishment is including the side direction fixed plate, the inboard that bears the frame is located to the side direction fixed plate, be equipped with the connecting rod on the side direction fixed plate, the connecting rod nestification is in the external screw thread cover, the side all is equipped with and runs through threaded hole around bearing the frame, external screw thread cover and screw hole threaded connection, the end fixing of connecting rod has the holding ring, the side of holding ring is laminated with the one end of external screw thread cover mutually, the other end of external screw thread cover is laminated with the surface of side direction fixed plate mutually, the one side that the side direction fixed plate was equipped with the connecting rod is equipped with the side guide pole, the position that bears the frame and corresponds the side guide pole.

2. Stone transfer device according to claim 1, characterized in that: bear the inboard of two of frame top and all be equipped with the spout of indent, the both sides that the fixed lid corresponds the spout are equipped with outside convex slider, the slider imbeds in the spout.

3. Stone transfer device according to claim 1, characterized in that: bear the inside position fixation who is close to the bottom of frame and have a plurality of to be the rotatory roller of equidistance range, the both ends of rotatory roller are all nested there is the bearing frame, the bearing frame is all fixed on bearing the frame.

4. Stone transfer device according to claim 1, characterized in that: an inward concave nesting groove is formed below the fixed cover, and the upper fixed plate is embedded into the nesting groove.

5. A method for installing a stone material transfer device comprises the following steps:

firstly, fixing bearing seats through bolts respectively at fixing holes on one side of a bearing frame, penetrating a rotary roller into the bearing frame through the fixing holes on the other side of the bearing frame, and fixing other bearing seats on the other side of the bearing frame respectively to enable two ends of the rotary roller to be fixed on the bearing frame through the bearing seats;

secondly, the output end of the second electric push rod penetrates through the moving frame, the rotating block is fixed on the output end of the second electric push rod, the moving block is embedded into the rotating groove, and the moving block and the rotating block are rotatably connected together through the rotating shaft;

thirdly, one end, below the bearing frame, of the guide rail faces the moving frame, the bearing frame is pushed into the moving frame from the right side of the moving frame until the guide rail moves to the position of the moving block, the limiting block of the moving block is rotated to be aligned with the limiting groove of the guide rail, the bearing frame is pushed into the moving frame continuously to be embedded into the limiting groove until the bearing frame drives the rotating block to move into the connecting block, and then the rotating block and the connecting block are connected in a rotating mode after the rotating rod penetrates through the rotating block and the connecting block respectively;

fourthly, embedding the moving frame into the support frame, enabling the second electric push rod to penetrate through the movable groove, enabling the output end of the first electric push rod to penetrate through the left side of the support frame, fixing the first electric push rod on the support frame through a bolt, and fixing the output end of the first electric push rod on the moving frame;

fifthly, enabling one end, far away from the clamping block, of the adjusting sleeve to penetrate through one end of the clamping groove of the fixing sleeve, enabling the clamping block to be embedded into the clamping groove, fixing the fixing sleeve at a position, corresponding to the through hole, of the fixing cover in a threaded connection mode, enabling one end, far away from the upper fixing plate, of the upper threaded rod to penetrate through the through hole from the lower side of the fixing cover, enabling the upper guide rod to penetrate through an upper inverted hole of the upper fixing plate, enabling the upper threaded rod to be in threaded connection with the adjusting sleeve until the upper fixing plate is embedded into the embedding groove, aligning sliding blocks on two sides of the fixing cover to the sliding groove, and then pushing the;

sixthly, enabling one end, far away from the lateral fixing plate, of the connecting rod to penetrate through the threaded hole from the inside of the bearing frame, enabling the lateral guide rod to penetrate through the lateral guide hole in the lateral surface of the bearing frame, nesting the external thread sleeve on the connecting rod, screwing the external thread sleeve into the threaded hole, enabling one end of the external thread sleeve to be attached to the outer surface of the lateral fixing plate, fixing the positioning ring on the end portion of the connecting rod in a threaded connection mode, and enabling the other end of the external thread sleeve to be attached to the outer surface of the positioning;

and seventhly, fixing the periphery of the base with an upper hydraulic cylinder respectively, and fixing the end parts of piston rods of the hydraulic cylinders below the support frame respectively.

Technical Field

The invention relates to the field of stone material transfer, in particular to a stone material transfer device and an installation method thereof.

Background

The stone is widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction as a high-grade building decoration material, common stones in the market at present are mainly divided into natural stones, artificial stones and marbles, and the natural stones are divided into slates and granites according to the quality of physical and chemical characteristics; the stone needs to be transported to a designated position by a transporting device after being processed and molded;

but traditional transfer device's height and the angle of holding surface are all fixed unchangeable, through transfer device transport vechicle position, still need rethread portal frame transfer the stone material to the transport vechicle, when hanging the stone material to the transport vechicle from transfer device through the portal frame on, shift position is comparatively difficult on the transport vechicle through the portal frame, and this process is comparatively troublesome, and when transporting the stone material through transfer device, the stone material does not have the fixed easy drop.

Disclosure of Invention

The invention provides a stone transfer device and an installation method thereof, and aims to solve the problems that the height and the angle of a supporting surface of the transfer device in the prior art are fixed and unchanged, and the transfer device does not fix stones and is easy to fall off.

The invention adopts the following technical scheme: the utility model provides a stone material transfer device, including base 1, its characterized in that: the stone vibration plate is characterized in that hydraulic cylinders 2 are arranged on the periphery of the base 1, a support frame 3 is arranged at the end part of each hydraulic cylinder 2, a movable frame 4 capable of moving left and right is arranged in each support frame 3, a bearing frame 5 is arranged in each movable frame 4, the right side of each bearing frame 5 is rotatably connected with the right side of each movable frame 4, a fixed cover 6 is arranged above each bearing frame 5, each fixed cover 6 moves left and right relative to each bearing frame 5, an upper fixing mechanism 7 used for fixing stone materials to vibrate up and down is arranged on each fixed cover 6, and lateral fixing mechanisms 8 used for fixing the stone materials are respectively arranged on the front; a penetrating movable groove 31 is formed in the bottom of the support frame 3, a first electric push rod 32 is fixed on the left side of the support frame 3, and the output end of the first electric push rod 32 is fixed on the movable frame 4; a rotating block 51 protruding downwards is arranged below the right side of the bearing frame 5, a connecting block 41 protruding upwards is arranged at the position of the moving frame 4 corresponding to the rotating block 51, and the rotating block 51 is connected with the connecting block 41 through a rotating rod 42; a guide rail 52 is fixed below the bearing frame 5, a rotating sliding frame 53 is connected in the guide rail 52 in a sliding manner, a limiting groove 521 which is concave towards two sides is arranged at the bottom of the guide rail 52, the rotating sliding frame 53 comprises a moving block 531, a limiting block 532 which protrudes outwards is arranged at a position where the moving block 531 corresponds to the limiting groove 521, the limiting block 532 is embedded in the limiting groove 521, one end, away from the guide rail 52, of the moving block 531 is embedded in a rotating groove 534 of the rotating block 533, the moving block 531 is rotatably connected with the rotating block 533 through a rotating shaft 535, the rotating block 533 is fixed at the output end of a second electric push rod 56, the second electric push rod 56 is fixed on the support frame 3, and the second electric push rod 56 penetrates through the movable; the upper fixing mechanism 7 comprises an upper fixing plate 71, the upper fixing plate 71 is arranged on one side, facing the bearing frame 5, of the fixing cover 6, an upper threaded rod 72 is arranged on the upper fixing plate 71, the upper threaded rod 72 penetrates through the through hole 63 of the fixing cover 6, the upper threaded rod 72 is in threaded connection with an adjusting sleeve 73, the adjusting sleeve 73 is nested in the fixing sleeve 74, the fixing sleeve 74 is fixed on the fixing cover 6, the fixing sleeve 74 is provided with an inward concave clamping groove 75, a clamping block 76 which protrudes outwards is arranged at a position, corresponding to the clamping groove 75, of the adjusting sleeve 73, the clamping block 76 is embedded in the clamping groove 75, an upper guide rod 77 is arranged on the upper surface of the upper fixing plate 71, a position, corresponding to the upper guide rod 77, of the fixing cover 6 penetrates through an upper guide hole 711, and; lateral fixing mechanism 8 is including lateral fixing plate 81, lateral fixing plate 81 locates the inboard that bears frame 5, be equipped with connecting rod 82 on lateral fixing plate 81, connecting rod 82 nests in external thread cover 83, the front and back side that bears frame 5 all is equipped with and runs through threaded hole 84, external thread cover 83 and threaded hole 84 threaded connection, the end fixing of connecting rod 82 has holding ring 85, holding ring 85's side is laminated with the one end of external thread cover 83 mutually, the other end of external thread cover 83 is laminated with lateral fixing plate 81's surface mutually, one side that lateral fixing plate 81 was equipped with connecting rod 82 is equipped with side guide 86, bear the position that frame 5 corresponds side guide 86 and run through by side guide 57, side guide 86 passes side guide 57.

As a further improvement, the two inner sides above the bearing frame 5 are provided with inward-concave sliding grooves 54, the two sides of the fixed cover 6 corresponding to the sliding grooves 54 are provided with outward-convex sliding blocks 61, and the sliding blocks 61 are embedded into the sliding grooves 54.

As a further improvement, a plurality of rotating rollers 55 arranged at equal intervals are fixed at a position close to the bottom inside the bearing frame 5, bearing seats 551 are nested at both ends of the rotating rollers 55, and the bearing seats 551 are fixed on the bearing frame 5.

As a further improvement, a recessed nesting groove 62 is formed below the fixing cover 6, and the upper fixing plate 71 is embedded in the nesting groove 62.

A method for installing a stone material transfer device comprises the following steps:

firstly, fixing bearing seats 551 through bolts respectively for fixing holes 552 on one side of a bearing frame 5, penetrating a rotary roller 55 into the bearing frame 5 through the fixing holes 552 on the other side of the bearing frame 5, and fixing the other bearing seats 551 on the other side of the bearing frame 5 respectively, so that both ends of the rotary roller 55 are fixed on the bearing frame 5 through the bearing seats 551;

secondly, the output end of the second electric push rod 56 passes through the moving frame 4, the rotating block 533 is fixed on the output end of the second electric push rod 56, the moving block 531 is embedded in the rotating groove 534, and the moving block 531 and the rotating block 533 are rotatably connected together through the rotating shaft 535;

thirdly, one end, below the bearing frame 5, of the guide rail 52 faces the moving frame 4, then the bearing frame 5 is pushed into the moving frame 4 from the right side of the moving frame 4, until the guide rail 52 moves to the position of the moving block 531, the limiting block 532 of the moving block 531 is rotated to be aligned with the limiting groove 521 of the guide rail 52, then the bearing frame 5 is continuously pushed into the moving frame 4, the limiting block 532 is embedded into the limiting groove 521, until the bearing frame 5 drives the rotating block 51 to move into the connecting block 41, and then the rotating block 51 is rotatably connected with the connecting block 41 by respectively penetrating through the rotating block 51 and the connecting block 41 by the rotating rod 42;

fourthly, embedding the moving frame 4 into the support frame 3, enabling the second electric push rod 56 to pass through the movable slot 31, enabling the output end of the first electric push rod 32 to pass through the left side of the support frame 3, fixing the first electric push rod 32 on the support frame 3 through a bolt, and fixing the output end of the first electric push rod 32 on the moving frame 4;

fifthly, one end of the adjusting sleeve 73, which is far away from the clamping block 76, penetrates through one end of the clamping groove 75 of the fixing sleeve 74, so that the clamping block 76 is embedded into the clamping groove 75, then the fixing sleeve 74 is fixed on the position, corresponding to the through hole 63, of the fixing cover 6 in a threaded connection mode, one end of the upper threaded rod 72, which is far away from the upper fixing plate 71, penetrates through the through hole 63 from the lower part of the fixing cover 6, the upper guide rod 77 penetrates through the upper inverted hole 711 of the upper fixing plate 71, then the upper threaded rod 72 is in threaded connection with the adjusting sleeve 73 until the upper fixing plate 71 is embedded into the embedding groove 62, then the sliding blocks 61 on two sides of the fixing cover 6 are aligned to the sliding grooves 54, and then the fixing cover 6;

sixthly, one end, far away from the lateral fixing plate 81, of the connecting rod 82 penetrates through a threaded hole 84 from the inside of the bearing frame 5, a lateral guide rod 86 penetrates through a lateral guide hole 57 on the lateral surface of the bearing frame 5, the external thread sleeve 8 is nested on the connecting rod 82, the external thread sleeve 8 is screwed into the threaded hole 84, one end of the external thread sleeve 8 is attached to the outer surface of the lateral fixing plate 81, the positioning ring 85 is fixed to the end of the connecting rod 82 in a threaded connection mode, and the other end of the external thread sleeve 8 is attached to the outer surface of the positioning ring 85;

and seventhly, fixing the upper hydraulic cylinders 2 on the periphery of the base 1 respectively, and fixing the end parts of the piston rods of the hydraulic cylinders 2 below the support frame 3 respectively.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the invention can lift the bearing frame 5 upwards under the mutual matching action of the guide rail 52, the rotating sliding frame 53 and the second electric push rod 56 through the rotating connection of one end of the bearing frame 5 and the moving frame 4, so that the bearing frame 5 can be lifted around one end of the rotating block 51, the stone can be more conveniently and quickly unloaded from the bearing frame 5, under the action of the left-right relative movement of the moving frame 4 and the supporting frame 3, the first electric push rod 32 can conveniently push out the moving frame 4, so that the bearing frame 5 is moved to the position required by the transport vehicle for unloading, thereby leading the position of unloading the stone material onto the transport vehicle to be more flexible, effectively improving the unloading efficiency, leading the stone material to be more convenient to be transported onto the transport vehicle, meanwhile, under the mutual matching action of the upper fixing mechanism 7 and the lateral fixing mechanism 8, the stone can be fixed in the bearing frame 5, and the stone is prevented from falling off when the bearing frame 5 is moved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front sectional structure schematic diagram of the supporting frame, the moving frame and the bearing frame of the invention.

Fig. 3 is a schematic side sectional view of the moving frame and the bearing frame of the present invention.

Fig. 4 is an enlarged structural diagram of a in fig. 3.

Fig. 5 is an enlarged structural diagram of B in fig. 3.

Fig. 6 is an enlarged schematic view of C in fig. 3.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in the attached drawing 1, the stone material transfer device comprises a base 1, wherein wheels are fixed on the lower surface of the base 1, hydraulic cylinders 2 are arranged on the periphery of the upper surface of the base 1, supporting frames 3 are arranged at the end parts of the hydraulic cylinders 2, a moving frame 4 capable of moving left and right is arranged in the supporting frame 3, a bearing frame 5 is arranged in the moving frame 4, the supporting frame 3 can be lifted under the action of the hydraulic cylinders 2, and then the bearing frame 5 is driven by the supporting frame 3 to be lifted to a required height, so that the stone material can be conveniently transferred; bear the right side of frame 5 and the right side of removing frame 4 and rotate and be connected, the top of bearing frame 5 is equipped with fixed lid 6, fixed lid 6 moves about bearing frame 5 relatively, be equipped with the last fixed establishment 7 that is used for fixed stone material vibration from top to bottom on the fixed lid 6, both sides are equipped with the side direction fixed establishment 8 that is used for fixed stone material respectively around bearing frame 5. As shown in fig. 1 to 2, the bottom of support frame 3 is equipped with the movable groove 31 that runs through, the left side of support frame 3 is fixed with first electric putter 32, the output of first electric putter 32 is fixed on removing frame 4, and wherein first electric putter 32 is driven by first motor, promotes through first electric putter 32 and removes frame 4, drives by removing frame 4 again and bears frame 5 and remove, can make to bear frame 5 and remove to the transport vechicle on the position of inside to can conveniently transport the optional position of transport vechicle respectively with the stone material, so that the stone material piles up on the transport vechicle. As shown in fig. 2 to 4, a downwardly protruding rotating block 51 is arranged below the right side of the carrier 5, an upwardly protruding connecting block 41 is arranged at a position of the moving frame 4 corresponding to the rotating block 51, and the rotating block 51 is connected with the connecting block 41 through a rotating rod 42; a guide rail 52 is fixed below the bearing frame 5, a rotating sliding frame 53 is connected in the guide rail 52 in a sliding manner, a limiting groove 521 which is concave towards two sides is arranged at the bottom of the guide rail 52, the rotating sliding frame 53 comprises a moving block 531, a limiting block 532 which protrudes outwards is arranged at a position where the moving block 531 corresponds to the limiting groove 521, the limiting block 532 is embedded in the limiting groove 521, one end, away from the guide rail 52, of the moving block 531 is embedded in a rotating groove 534 of the rotating block 533, the moving block 531 is rotatably connected with the rotating block 533 through a rotating shaft 535, the rotating block 533 is fixed at the output end of a second electric push rod 56, the second electric push rod 56 is fixed on the support frame 3, and the second electric push rod 56 passes through the movable groove 31, wherein the second electric push rod 56 is driven by a second motor and is driven by the second motor under the action of rotatably connecting the, when the second electric push rod 56 pushes up the rotating sliding frame 53, the limiting blocks 532 on two sides of the moving block 531 can slide along the limiting grooves 521 of the guide rail 52, and meanwhile, the rotating sliding frame 53 can rotate, so that the limiting blocks 532 can smoothly slide in the limiting grooves 521, the moving block 531 can push up the bearing frame 5, and the bearing frame 5 can be lifted up upwards around one end of the rotating block 51, so that the stone in the bearing frame 5 can be conveniently poured out of the transport vehicle, and the trouble of using a portal frame is saved; the inside position that is close to the bottom of bearing frame 5 is fixed with a plurality of and is the rotatory roller 55 of equidistance range, the bearing frame 551 has all been nested at the both ends of rotatory roller 55, bearing frame 551 all fixes on bearing frame 5, just when lifting up bearing frame 5 round the one end of rotatory piece 51, through the effect of rotatory roller 55, can make the stone material in bearing frame 5 more easy remove to the transport vechicle.

As shown in fig. 2 to 3, the inner sides of the upper side of the carrier 5 are provided with inward-concave sliding grooves 54, and the two sides of the fixed cover 6 corresponding to the sliding grooves 54 are provided with outward-convex sliding blocks 61, and the sliding blocks 61 are embedded in the sliding grooves 54. As shown in fig. 3 to 5, the upper fixing mechanism 7 includes an upper fixing plate 71, the upper fixing plate 71 is disposed on a side of the fixing cover 6 facing the carrier 5, an upper threaded rod 72 is disposed on the upper fixing plate 71, the upper threaded rod 72 passes through the through hole 63 of the fixing cover 6, the upper threaded rod 72 is in threaded connection with an adjusting sleeve 73, the adjusting sleeve 73 is nested in the fixing sleeve 74, the fixing sleeve 74 is fixed on the fixing cover 6, the fixing sleeve 74 is provided with an inward concave slot 75, a position of the adjusting sleeve 73 corresponding to the slot 75 is provided with a latch 76 protruding outward, and the latch 76 is embedded in the slot 75; an inward concave nesting groove 62 is arranged below the fixed cover 6, and the upper fixed plate 71 is embedded into the nesting groove 62; the upper surface of the upper fixing plate 71 is provided with an upper guide rod 77, the position of the fixing cover 6 corresponding to the upper guide rod 77 penetrates through an upper inverted hole 711, the upper guide rod 77 penetrates through the upper inverted hole 711, and the rotation of the upper fixing plate 71 can be limited under the matching action of the upper guide rod 77 and the upper inverted hole 711, and the upper fixing plate 71 is guided to vertically move up and down; under the effect of going up threaded rod 72 and adjusting collar 73 threaded connection, rotate adjusting collar 73 and can drive threaded rod 72 and vertically reciprocate, drive upper fixed plate 71 by last threaded rod 72 again and reciprocate, when upper fixed plate 71 pressed down the stone material and compressed tightly to bear frame 5 in, can prevent when transporting the stone material again, the stone material takes place to vibrate from leading to the stone material to shake from bearing frame 5 in from top to bottom. As shown in fig. 3 to 6, the lateral fixing mechanism 8 includes a lateral fixing plate 81, the lateral fixing plate 81 is disposed on the inner side of the bearing frame 5, a connecting rod 82 is disposed on the lateral fixing plate 81, the connecting rod 82 is nested in an external thread sleeve 83, a threaded hole 84 is disposed through each of the front and rear sides of the bearing frame 5, the external thread sleeve 83 is in threaded connection with the threaded hole 84, a positioning ring 85 is fixed at the end of the connecting rod 82, the side surface of the positioning ring 85 is attached to one end of the external thread sleeve 83, and the other end of the external thread sleeve 83 is attached to the outer surface of the lateral fixing plate 81; a side guide rod 86 is arranged at one side of the lateral fixing plate 81, which is provided with the connecting rod 82, the position of the bearing frame 5 corresponding to the side guide rod 86 penetrates through the side guide hole 57, and under the matching action of the side guide rod 86 and the side guide hole 57, the rotation of the lateral fixing plate 81 can be limited, and the lateral fixing plate 81 is guided to horizontally move left and right; under the effect of threaded connection of the external thread sleeve 83 and the threaded hole 84, the external thread sleeve 83 can be rotated to move the external thread sleeve 83 left and right, the lateral fixing plates 81 are driven by the external thread sleeve 83 to move left and right, when the lateral fixing plates 81 on two sides in the bearing frame 5 clamp the stone in the bearing frame 5, the stone can be fixed in the bearing frame 5, and the stone is prevented from moving in the bearing frame 5 and being separated from the bearing frame 5 during stone transfer.

As shown in fig. 1 to 6, a method for installing a stone transfer device includes:

firstly, fixing bearing seats 551 through bolts respectively for fixing holes 552 on one side of a bearing frame 5, penetrating a rotary roller 55 into the bearing frame 5 through the fixing holes 552 on the other side of the bearing frame 5, and fixing the other bearing seats 551 on the other side of the bearing frame 5 respectively, so that both ends of the rotary roller 55 are fixed on the bearing frame 5 through the bearing seats 551;

secondly, the output end of the second electric push rod 56 passes through the moving frame 4, the rotating block 533 is fixed on the output end of the second electric push rod 56, the moving block 531 is embedded in the rotating groove 534, and the moving block 531 and the rotating block 533 are rotatably connected together through the rotating shaft 535;

thirdly, one end, below the bearing frame 5, of the guide rail 52 faces the moving frame 4, then the bearing frame 5 is pushed into the moving frame 4 from the right side of the moving frame 4, until the guide rail 52 moves to the position of the moving block 531, the limiting block 532 of the moving block 531 is rotated to be aligned with the limiting groove 521 of the guide rail 52, then the bearing frame 5 is continuously pushed into the moving frame 4, the limiting block 532 is embedded into the limiting groove 521, until the bearing frame 5 drives the rotating block 51 to move into the connecting block 41, and then the rotating block 51 is rotatably connected with the connecting block 41 by respectively penetrating through the rotating block 51 and the connecting block 41 by the rotating rod 42;

fourthly, embedding the moving frame 4 into the support frame 3, enabling the second electric push rod 56 to pass through the movable slot 31, enabling the output end of the first electric push rod 32 to pass through the left side of the support frame 3, fixing the first electric push rod 32 on the support frame 3 through a bolt, and fixing the output end of the first electric push rod 32 on the moving frame 4;

fifthly, one end of the adjusting sleeve 73, which is far away from the clamping block 76, penetrates through one end of the clamping groove 75 of the fixing sleeve 74, so that the clamping block 76 is embedded into the clamping groove 75, then the fixing sleeve 74 is fixed on the position, corresponding to the through hole 63, of the fixing cover 6 in a threaded connection mode, one end of the upper threaded rod 72, which is far away from the upper fixing plate 71, penetrates through the through hole 63 from the lower part of the fixing cover 6, the upper guide rod 77 penetrates through the upper inverted hole 711 of the upper fixing plate 71, then the upper threaded rod 72 is in threaded connection with the adjusting sleeve 73 until the upper fixing plate 71 is embedded into the embedding groove 62, then the sliding blocks 61 on two sides of the fixing cover 6 are aligned to the sliding grooves 54, and then the fixing cover 6;

sixthly, one end, far away from the lateral fixing plate 81, of the connecting rod 82 penetrates through a threaded hole 84 from the inside of the bearing frame 5, a lateral guide rod 86 penetrates through a lateral guide hole 57 on the lateral surface of the bearing frame 5, the external thread sleeve 8 is nested on the connecting rod 82, the external thread sleeve 8 is screwed into the threaded hole 84, one end of the external thread sleeve 8 is attached to the outer surface of the lateral fixing plate 81, the positioning ring 85 is fixed to the end of the connecting rod 82 in a threaded connection mode, and the other end of the external thread sleeve 8 is attached to the outer surface of the positioning ring 85;

and seventhly, fixing the upper hydraulic cylinders 2 on the periphery of the base 1 respectively, and fixing the end parts of the piston rods of the hydraulic cylinders 2 below the support frame 3 respectively.

As shown in fig. 1 to 6, when in use, the stone is firstly hung into the bearing frame 5 through the portal frame, the sliding blocks 61 at the two sides of the fixing cover 6 are then embedded into the sliding grooves 54 of the bearing frame 5, the fixing cover 6 is pushed into the bearing frame 5, then the upper threaded rod 72 is moved downwards through the rotation of the adjusting sleeve 73 under the action of the threaded connection between the adjusting sleeve 73 and the upper threaded rod 72, the upper fixing plate 71 is driven by the upper threaded rod 72 to move towards the stone, the stone is pressed downwards, then the outer threaded sleeves 83 at the two sides of the bearing frame 5 are rotated, under the action of the threaded connection between the outer threaded sleeves 83 and the threaded holes 84, the outer threaded sleeves 83 at the two sides of the bearing frame 5 drive the lateral fixing plates 81 to move towards the stone, the two sides of the stone are clamped and fixed, the supporting frame 3 can be pushed, after the supporting frame 3 is stressed, the base 1 is moved by the wheels at the bottom of the base 1 until the supporting, the cylinder 2 can be driven upwards or downwards, the cylinder 2 drives the support frame 3 to lift, until the support frame is lifted to the same height as the bottom of the container of the transport vehicle, the upper fixing plate 71 and the lateral fixing plate 81 can be moved to the original position to loosen the stone, then the first electric push rod 32 is driven, the first electric push rod 32 pushes the moving frame 4 to move towards the inside of the container of the transport vehicle, until the moving frame 4 drives the bearing frame 5 to move to the required position, then the second electric push rod 56 is driven, the rotating carriage 53 is pushed upwards by the second electric push rod 56, the limiting blocks 532 at the two sides of the moving block 531 can slide along the limiting grooves 521 of the guide rail 52, the rotating carriage 53 can rotate, the limiting blocks 532 can smoothly slide in the limiting grooves 521, the moving block 531 can push the bearing frame 5 upwards, the bearing frame 5 can be lifted upwards around one end of the lifting block 51, the stone is under the action of the, from sliding to the packing box of transport vechicle on rotatory roller 55, until a part of stone material is on the transport vechicle, another part when bearing frame 5, reverse drive first electric putter 32 again, move to the original position by first electric putter 32 drive removal frame 4, because under the effect of rotatory roller 55 and the effect of the friction force on stone material partly and transport vechicle packing box surface this moment, make the packing box of stone material re-transport vechicle motionless in situ, and move frame 4 and move to the original position, and then make the stone material put into the packing box of transport vechicle completely, reverse drive second electric putter 56 again, make and bear frame 5 and descend to the original position, so that continue to transport the stone material.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.