CN217577344U - Fossil fragments are from inhaling loading attachment - Google Patents

Abstract

The utility model belongs to the technical field of building wall, concretely relates to fossil fragments are from inhaling loading attachment, which comprises a fixed rack, the mount is by the stand, crossbeam and back timber are constituteed, be equipped with rack and actuating mechanism on the back timber, actuating mechanism includes moving member one and moving member two, moving member one is by the carriage, the gear, worm gear speed reducer and motor are constituteed, the bottom of moving member one and moving member two is equipped with connecting seat one and connecting seat two respectively, the crane includes connecting rod one and connecting rod two, connecting rod one and connecting rod two rotate respectively and connect connecting seat one and connecting seat two, connecting rod one and connecting rod two pass through the round pin axle and rotate the connection, connecting rod one and connecting rod two bottoms are equipped with the axis of rotation respectively, the gyro wheel is installed in the rotation, bottom plate mechanism includes the lifter plate, vacuum chuck is installed to the lifter plate bottom surface, through control moving member one and the position of moving member two on the mount, make the crane drive fossil fragments that bottom plate mechanism snatched go up and down and horizontal migration, workman's amount of labour has effectively been reduced.

Description

Fossil fragments are from inhaling loading attachment

Technical Field

The utility model belongs to the technical field of building wall, concretely relates to fossil fragments are from inhaling loading attachment.

Background

With the development of economic society, people pay more and more attention to the aspects of residential applicability, safety performance, durability, environmental performance and the like. Therefore, the green modular construction process not only consumes a large amount of construction waste and is beneficial to environmental protection, but also the products required by the construction are processed and finished in the production line of a factory, the construction speed is high, and the popularization is more and more extensive.

Each wall body of modularization building comprises steel structure fossil fragments and heat preservation wallboard, and when producing the wall body, need carry the assigned position with the horizontal fossil fragments that the pre-installation was accomplished and assemble, and the clamp is got at present and is mostly artifical mode with the transport fossil fragments, and this kind of mode is not only intensity of labour big, and production efficiency is low moreover.

SUMMERY OF THE UTILITY MODEL

The utility model provides a fossil fragments are from inhaling loading attachment through controlling moving member one and moving member two position on the mount, makes the crane drive the fossil fragments that bottom plate mechanism snatched go up and down and horizontal migration, has effectively reduced workman's the amount of labour.

The utility model provides a following technical scheme: the utility model provides a fossil fragments are from inhaling loading attachment, includes the mount, the mount comprises stand, crossbeam and back timber, the top fixedly connected with crossbeam of stand, the bottom surface fixedly connected with back timber of crossbeam, the fixed rack that is equipped with on the back timber, actuating mechanism installs in the outside of back timber, actuating mechanism includes moving member one and moving member two that the structure size is the same, moving member one comprises carriage, gear, worm gear speed reducer and motor, gear revolve installs on the carriage, motor drive connects the worm gear speed reducer, the bottom of moving member one and moving member two is fixed respectively and is equipped with connecting seat one and connecting seat two, the crane includes connecting rod one and connecting rod two, the upper end of connecting rod one and connecting rod two is rotated respectively and is connected connecting seat one and connecting seat two, connecting rod one and connecting rod two are crossed the round pin hub rotation and are connected, the bottom of connecting rod one and connecting rod two is fixed respectively is equipped with the axis of rotation, rotates and installs the gyro wheel, bottom plate mechanism includes the lifter plate, the bottom surface fixed mounting of lifter plate has vacuum chuck.

The top beam is fixedly arranged at the middle line position of the bottom surface of the cross beam, and the number of the racks is two and the racks are respectively arranged on the inner top surfaces of the lower flanges at the two sides of the web plate of the top beam; the fixing frame plays a stable supporting role for the driving mechanism and the bottom plate mechanism.

The side wall of the lifting plate is rotatably connected with the rotating shaft, and the inner top surface of the lifting plate is in rolling connection with the roller; the distance between the second moving part and the first moving part is adjusted by controlling the second moving part and the first moving part to move, so that the lifting plate can be conveniently driven to lift and move in a horizontal posture.

The gear is meshed with the rack, the worm and gear speed reducer and the motor are fixedly mounted on the side face of the sliding frame, an output shaft of the motor is fixedly connected with an output shaft of the worm and gear speed reducer, and a gear is fixedly mounted on the output shaft of the worm and gear speed reducer; the motor can drive the gear to rotate in a speed reduction mode through the worm gear and worm reducer, and then the gear is meshed with the rack to enable the moving piece I and the moving piece II to move integrally.

The left side and the right side of the sliding frame are oppositely arranged; the worm and gear speed reducer and the motor arranged on the two sides can enable the moving piece I and the moving piece II to stably move back and forth.

The vacuum chucks are two in number, and the left vacuum chucks and the right vacuum chucks are arranged on the bottom surface of the lifting plate in a pair, and the vacuum chucks are arranged in a front-back adjacent manner; the vacuum chuck that double set up can be firm adsorbs fossil fragments.

A second supporting plate is fixedly arranged at one end, far away from the rotating shaft, of the lifting plate, and a second proximity switch is fixedly arranged on the second supporting plate; the second proximity switch can play a limiting role, and the overlarge distance between the first moving part and the second moving part is avoided.

A first support plate is fixedly mounted on the side face of the sliding frame in the second moving member, and a first proximity switch is fixedly mounted on the end face, facing the first moving member, of the first support plate; the first proximity switch can play a limiting role, and the situation that the distance between the first moving part and the second moving part is too small is avoided.

The utility model has the advantages that: the fixing frame plays a stable supporting role for the driving mechanism and the bottom plate mechanism; the distance between the moving member II and the moving member I is adjusted by controlling the moving member II and the moving member I to move, so that the lifting plate can be conveniently driven to move up and down in a horizontal posture; the motor can drive the gear to rotate in a speed reduction manner through the worm gear speed reducer, and then the gear rack is meshed to enable the moving piece I and the moving piece II to move integrally; the worm and gear speed reducer and the motor arranged on the two sides can make the moving part I and the moving part II move back and forth stably; the vacuum chucks arranged in two rows can stably adsorb the keels; the proximity switch II can play a limiting role, and the phenomenon that the distance between the moving part I and the moving part II is too large is avoided; the first proximity switch can play a limiting role, and the phenomenon that the distance between the first moving part and the second moving part is too small is avoided.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a first schematic structural view of the present invention with the fixing frame removed;

FIG. 4 is a schematic structural view of the present invention with the fixing frame removed;

in the figure: 1. a fixed mount; 11. a column; 12. a cross beam; 13. a top beam; 14. a rack; 2. a drive mechanism; 21. a first moving part; 211. a carriage; 212. a gear; 213. a worm gear reducer; 214. a motor; 22. a second moving part; 23. a first connecting seat; 24. a second connecting seat; 25. a first support plate; 26. a first proximity switch; 3. a lifting frame; 31. a first connecting rod; 32. a second connecting rod; 33. a pin shaft; 34. a rotating shaft; 35. a roller; 4. a bottom plate mechanism; 41. a lifting plate; 42. a vacuum chuck; 43. a second support plate; 44. and a second proximity switch.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a fossil fragments are from inhaling loading attachment, includes mount 1, mount 1 comprises stand 11, crossbeam 12 and back timber 13, the top fixedly connected with crossbeam 12 of stand 11, the bottom surface fixedly connected with back timber 13 of crossbeam 12, the fixed rack 14 that is equipped with on the back timber 13, actuating mechanism 2 installs in the outside of back timber 13, actuating mechanism 2 includes the same moving member 21 of structure size and moving member two 22, moving member 21 comprises carriage 211, gear 212, worm gear speed reducer 213 and motor 214, gear 212 rotates and installs on carriage 211, motor 214 drives and connects worm gear speed reducer 213, the bottom of moving member 21 and moving member two 22 is fixed respectively and is equipped with connecting seat 23 and connecting seat two 24, crane 3 includes connecting rod 31 and connecting rod two 32, connecting rod 31 and connecting rod two 32's upper end rotates respectively and connects connecting seat 23 and connecting seat two 24, connecting rod 31 and connecting rod two 32 rotate through round pin axle 33 and connect, connecting rod 31 and connecting rod two 32's bottom is fixed respectively and is equipped with axis of rotation 34, rotates installs gyro wheel 35, bottom plate 41, bottom plate 4 includes lifting mechanism 41, the bottom surface fixed suction cup 42 that lifting plate installed.

The number of the upright columns 11 and the number of the cross beams 12 are multiple, every two upright columns 11 are in a group and are oppositely arranged on the left side and the right side of the bottom surface of the cross beam 12, the top beam 13 is fixedly arranged at the central line position of the bottom surface of the cross beam 12, and the number of the racks 14 is two and is respectively arranged on the inner top surfaces of the lower flanges on the two sides of the web plate of the top beam 13; the fixing frame 1 plays a stable supporting role for the driving mechanism 2 and the bottom plate mechanism 4.

The pin shaft 33 is rotatably installed at the middle ends of the first connecting rod 31 and the second connecting rod 32, the first connecting rod 31 and the second connecting rod 32 are identical in structure size, the side wall of the lifting plate 41 is rotatably connected with the rotating shaft 34, and the inner top surface of the lifting plate 41 is in rolling connection with the roller 35; the distance between the second moving piece 22 and the first moving piece 21 is adjusted by controlling the second moving piece 22 and the first moving piece 21, so that the lifting plate 41 can be conveniently driven to lift and move in a horizontal posture.

The gear 212 is engaged with the rack 14, the worm and gear speed reducer 213 and the motor 214 are fixedly mounted on the side surface of the sliding frame 211, the output shaft of the motor 214 is fixedly connected with the output shaft of the worm and gear speed reducer 213, and the gear 212 is fixedly mounted on the output shaft of the worm and gear speed reducer 213; the motor 214 can drive the gear 212 to rotate at a reduced speed through the worm gear reducer 213, and further engage with the rack 14 to integrally move the first moving member 21 and the second moving member 22.

The number of the worm and gear speed reducers 213 and the number of the motors 214 are two, and the two are oppositely arranged at the left side and the right side of the sliding frame 211; the worm gear speed reducer 213 and the motor 214 arranged on the two sides can make the first moving piece 21 and the second moving piece 22 move back and forth stably.

The number of the vacuum suction cups 42 is two, and the two vacuum suction cups are arranged on the bottom surface of the lifting plate 41 in a front-back adjacent manner in a pair of left and right opposite manner; the vacuum suction cups 42 arranged in two rows can stably adsorb the keels.

A second supporting plate 43 is fixedly arranged at one end, away from the rotating shaft 34, of the lifting plate 41, and a second proximity switch 44 is fixedly arranged on the second supporting plate 43; the second proximity switch 44 can play a limiting role, and the excessive distance between the first moving part 21 and the second moving part 22 is avoided.

A first support plate 25 is fixedly mounted on the side surface of the sliding frame 211 in the second moving member 22, and a first proximity switch 26 is fixedly mounted on the end surface, facing the first moving member 21, of the first support plate 25; the first proximity switch 26 can play a limiting role, and the distance between the first moving part 21 and the second moving part 22 is prevented from being too small.

The utility model discloses a theory of operation and use flow: firstly, starting a motor 214 in a second moving member 22, enabling the motor 214 to drive a gear 212 to rotate at a reduced speed through a worm and gear reducer 213, engaging a driving rack 14 after the gear 212 rotates, so that the second moving member 22 moves on a top beam 13, at the moment, the second moving member 22 moves towards a direction close to a first moving member 21, under the driving of the second moving member 22, a roller 35 rolls in a lifting plate 41, a rotating shaft 34 and the lifting plate 41 rotate relatively, and along with the change of an included angle between a first connecting rod 31 and a second connecting rod 32, the lifting plate 41 drives a vacuum sucker 42 to move downwards in a horizontal posture, so as to adsorb a keel below; after the keel is adsorbed, the motor 214 in the second moving member 22 rotates reversely, so as to drive the keel adsorbed by the vacuum chuck 42 to move upwards to a proper height for horizontal conveying; after the keel is grabbed to a proper height, the motors 214 in the first moving part 21 and the second moving part 22 synchronously run, so that the distance between the first moving part 21 and the second moving part 22 is kept unchanged, and meanwhile, the first moving part 21 and the second moving part 22 jointly drive the keel to horizontally move back and forth under the support of the fixing frame 1, and the keel is sent to a feeding position.

Claims (8)

1. The utility model provides a fossil fragments are from inhaling loading attachment which characterized in that: including mount (1), actuating mechanism (2), crane (3) and bottom plate mechanism (4), mount (1) comprises stand (11), crossbeam (12) and back timber (13), the top fixedly connected with crossbeam (12) of stand (11), the bottom surface fixedly connected with back timber (13) of crossbeam (12), fixedly on back timber (13) be equipped with rack (14), actuating mechanism (2) are installed in the outside of back timber (13), actuating mechanism (2) are including the same moving member one (21) of structure size and moving member two (22), moving member one (21) comprises carriage (211), gear (212), worm gear speed reducer (213) and motor (214), gear (212) rotate and install on carriage (211), motor (214) drive connection worm gear speed reducer (213), the bottom of moving member one (21) and moving member two (22) is fixed respectively and is equipped with connecting seat one (23) and connecting seat two (24), crane (3) includes connecting rod one (31) and connecting rod two (32), connecting seat one connecting rod (31) and connecting seat two (24) upper ends of connecting seat (23) rotate respectively and connecting seat (24), connecting rod (31) and connecting rod two (32) rotate through round pin axle (33) and connect, the bottom of connecting rod (31) and connecting rod two (32) is fixed respectively and is equipped with axis of rotation (34), rotates and installs gyro wheel (35), bottom plate mechanism (4) include lifter plate (41), the bottom surface fixed mounting of lifter plate (41) has vacuum chuck (42).

2. The keel self-suction feeding device according to claim 1, wherein: the quantity of stand (11), crossbeam (12) is a plurality of, two liang of stand (11) are the left and right sides that set up in crossbeam (12) bottom surface for a set of relative, back timber (13) fixed mounting is in the central line position of crossbeam (12) bottom surface, the quantity of rack (14) is two, sets up respectively on the interior top surface of the bottom flange of back timber (13) web both sides.

3. The keel self-suction feeding device according to claim 1, wherein: the hinge pin (33) is rotatably installed at the middle ends of the first connecting rod (31) and the second connecting rod (32), the first connecting rod (31) and the second connecting rod (32) are identical in structure size, and the side wall of the lifting plate (41) is rotatably connected with the rotating shaft (34) and the roller (35) in rolling connection with the inner top surface of the lifting plate (41).

4. The keel self-absorption feeding device according to claim 1, wherein: the gear (212) is meshed with the rack (14), the worm gear speed reducer (213) and the motor (214) are fixedly mounted on the side face of the sliding frame (211), the output shaft of the motor (214) is fixedly connected with the output shaft of the worm gear speed reducer (213), and the gear (212) is fixedly mounted on the output shaft of the worm gear speed reducer (213).

5. The keel self-absorption feeding device according to claim 1, wherein: the number of the worm and gear speed reducers (213) and the number of the motors (214) are two, and the two motors are oppositely arranged on the left side and the right side of the sliding frame (211).

6. The keel self-suction feeding device according to claim 1, wherein: the number of the vacuum suction cups (42) is two, and the two vacuum suction cups are arranged on the bottom surface of the lifting plate (41) in a way that the left vacuum suction cups and the right vacuum suction cups are opposite to each other to form a group, and the front vacuum suction cups and the back vacuum suction cups are adjacent to each other.

7. The keel self-suction feeding device according to claim 1, wherein: and a second supporting plate (43) is fixedly arranged at one end, far away from the rotating shaft (34), of the lifting plate (41), and a second proximity switch (44) is fixedly arranged on the second supporting plate (43).

8. The keel self-suction feeding device according to claim 1, wherein: and a first support plate (25) is fixedly mounted on the side surface of the sliding frame (211) in the second moving member (22), and a first proximity switch (26) is fixedly mounted on the end surface, facing the first moving member (21), of the first support plate (25).

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