CN112405873A - Concrete production is with reinforced mechanism - Google Patents

Abstract

The invention discloses the field of concrete production, and particularly relates to a feeding mechanism for concrete production, which comprises a movable framework, a movable bin and an externally hung framework, wherein a matching groove is arranged in the externally hung framework, a top plate is arranged above the matching groove, a lower leakage hole is formed in the center of the bottom of the movable bin, a sealing cover is arranged above the lower leakage hole, a rotating shaft is arranged on the outer side of the upper end surface of the sealing cover, fixed blocks are arranged on the periphery of the outer side of the movable bin, rollers are arranged in the fixed blocks, a first magnet is arranged in the center of the movable framework, movable blocks are arranged on two sides of the movable framework, and; the beneficial effects are that: the invention provides a feeding mechanism for concrete production, which optimizes the structure of the traditional concrete production, and is more convenient for feeding in the aspect of concrete production.

Description

Concrete production is with reinforced mechanism

Technical Field

The invention relates to the field of concrete production, in particular to a feeding mechanism for concrete production.

Background

The production of concrete requires the following steps: 1. mixing in a trial way; 2. metering; 3. producing ingredients; 4. loading and unloading materials by a mixer truck; 5. inspecting or spot inspecting the delivery appearance quality of the concrete; 6. transporting concrete, wherein in the fourth step, what kind of ingredients need to be manually transported to feed into the mixer truck, and then the ingredients are manually poured into the mixer truck, wherein the ingredients contain a plurality of substances and even substances harmful to human bodies, which can cause great influence on the health of workers, and simultaneously, because a large amount of manpower is used, the operation is one and the resource waste behavior, which is not advocated, in the prior art, although a large amount of instruments can be operated, the feeding still needs to be realized by cooperation of a plurality of people; therefore, the invention provides a feeding mechanism for concrete production to solve the problems.

Disclosure of Invention

The invention aims to provide a feeding mechanism for concrete production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a feeding mechanism for concrete production comprises a moving framework, a moving bin and an externally hung framework, wherein a matching groove is arranged in the externally hung framework, a top plate is arranged above the matching groove, a lower leaking hole is formed in the center of the bottom of the moving bin, a sealing cover is arranged above the lower leaking hole, a rotating shaft is arranged on the outer side of the upper end face of the sealing cover, fixed blocks are arranged on the periphery of the outer side of the moving bin, rollers are arranged in the fixed blocks, a first magnet is arranged in the center of the moving framework, moving blocks are arranged on two sides in the moving framework, a second magnet is arranged at the top ends of the moving blocks, a left driven through hole is formed in the left end of the outer side of each moving block, a right driven through hole is formed in the outer side of each moving block in a section mode, a driving through hole is formed in the center of each right driven, first bottom fixed connection boss of spliced pole, spliced pole two is installed on first boss right side, spliced pole two passes boss two, boss three is installed to spliced pole two afterbody, boss one bottom is installed and is shown pillar one, pillar one below is equipped with slide rail one, pillar two is installed to boss two bottoms, pillar three is installed to boss three bottoms, pillar three below is equipped with slide rail two, boss three the place ahead is equipped with boss four, left connecting rod is installed to boss four tops, left connecting rod front end is equipped with rotor plate one, terminal surface fixed connection central connecting rod before rotor plate one, right connecting rod is installed to boss four right sides, right connecting rod front end is equipped with rotor plate two, terminal surface fixed connection central connecting rod before rotor plate two, rotor plate below fixed connection revolving stage below is equipped with pillar four, rotor plate two below fixed connection revolving stage below is.

Preferably, the matching groove is of a cuboid structure, the top plate is of a cuboid structure and is hinged to the edge of the externally-hung framework, the vertical section of the matching groove is the same as that of the moving block groove and is located on the same plane, and the lower leak hole is of a cylindrical structure.

Preferably, the closing cap is of a cylindrical structure, the closing cap is connected with the movable bin and rotates around a point, the rotating shaft is of a cylindrical structure and is fixedly connected with the closing cap, the circle center of the rotating shaft is overlapped with the rotating circle center of the closing cap, and the fixing blocks are symmetrical up and down.

Preferably, the fixed block bottom is cuboid structure front end and is the triangular prism structure that the top is the fillet, fixed block and removal storehouse fixed connection, and the gyro wheel is connected with the fixed block and the gyro wheel can rotate on the fixed block, and magnet one is the cuboid structure, and magnet two is the cuboid structure, and magnet one is opposite with magnet two magnetic poles.

Preferably, the passive through-hole in a left side is the cuboid structure, and the passive through-hole in the right side is the cuboid structure, and the initiative through-hole is the cuboid structure, and fixed plate one articulates in the passive through-hole in a left side inboard, and fixed plate two is the cuboid structure.

Preferably, the second fixed plate is hinged to the inner side of the right driven through hole, the driving plate is of a cuboid structure, the front end face of the driving plate is higher than the plane of the moving block, the first connecting column is of a cylindrical structure, the first boss is of a cylindrical structure, and the second connecting column is of a cylindrical structure.

Preferably, the second connecting column is connected with the first boss and can rotate on the first boss, the second boss is of a cylindrical structure, the second connecting column is sleeved on the second boss, the third boss is of a cylindrical structure, the second connecting column is connected with the third boss and can rotate on the third boss, the first support is of a cylindrical structure and is fixedly connected with the first boss, and the first slide rail is of a U-shaped structure.

Preferably, the first support column is matched with the first sliding rail groove, the second support column is of a cylindrical structure, the second support column is connected with the second boss, the second boss can rotate on the second support column, the second support column is fixedly connected with the moving block, the third support column is of a cylindrical structure, and the third support column is fixedly connected with the third boss.

Preferably, the slide rail II is of a U-shaped structure, the pillar III is matched with the groove of the slide rail II, the boss IV is of a cuboid structure, the boss IV is fixedly connected with the boss IV, the right connecting rod is fixedly connected with the boss IV, the left connecting rod is fixedly connected with the boss IV, the first rotating plate is of a cuboid structure, the left connecting rod is hinged with the first rotating plate, and the boss IV is fixedly connected with the right connecting rod.

Preferably, the second rotating plate is of a cuboid structure, the right connecting rod is hinged to the second rotating plate, the central connecting rod is of a cylindrical structure, the central connecting rod is fixedly connected with the first fixed plate and the second fixed plate respectively, the rotating platform is of a cylindrical structure, a flat spiral spring is arranged in the rotating platform, the fourth supporting column is of a cylindrical structure, and the fourth supporting column is matched with the first sliding rail and the second sliding rail through grooves.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a feeding mechanism for concrete production, which is used for carrying out structural optimization on the traditional concrete production, wherein a movable bin is arranged, materials can be placed in the movable bin for storage, and when the feeding mechanism needs to be used, the movable bin moves to the center along a movable framework, then a sealing cover rotates by rotating a rotating shaft, the materials fall out from a lower leakage hole, and meanwhile, due to two magnets, the collision between the movable bin and the top end of the movable framework is not worried.

2. The invention provides a feeding mechanism for concrete production, which is used for carrying out structural optimization on the traditional concrete production, when a moving bin enters a moving block, the moving block fixes a roller by utilizing a first fixed plate and a second fixed plate, the front thrust of the roller cannot push the second fixed plate to be flat due to the fact that a flat spiral spring is arranged in a boss, the moving block can drive the moving bin to move on a moving framework until the moving bin returns, when the moving bin needs to withdraw from the moving block, a rear wheel rolls a second rear plate of the fixed plate, so that a rotating platform rotates, the front plate tilts to help the moving bin to withdraw, and finally all elements recover.

Drawings

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

FIG. 2 is a schematic view of the structure of the mobile cabin and the external hanging framework of the present invention;

FIG. 3 is a schematic diagram of a mobile skeleton structure according to the present invention;

fig. 4 is a schematic view of the internal structure of the moving block of the present invention.

In the figure: 1. moving the framework; 2. moving the bin; 3. externally hanging a framework; 4. a mating groove; 5. a top plate; 6. a closure cap; 7. a rotating shaft; 8. a lower leak hole; 9. a fixed block; 10. a roller; 11. a magnet I; 12. a second magnet; 13. a moving block; 14. a left passive via; 15. an active via; 16. a driving plate; 17. a first fixing plate; 18. a second fixing plate; 19. a right passive via; 20. a central connecting rod; 21. rotating a first plate; 22. connecting a column I; 23. a first slide rail; 24. a fourth pillar; 25. a rotating table; 27. a first boss; 26. a first support column; 28. connecting a second column; 29. a second support column; 30. a second boss; 31. a second slide rail; 32. a third pillar; 33. a boss III; 34. fourthly, a boss; 35. a left connecting rod; 36. a right connecting rod; 37. and a second rotating plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: a feeding mechanism for concrete production comprises a moving framework 1, a moving bin 2 and an external hanging framework 3, wherein a matching groove 4 is arranged in the external hanging framework 3, a top plate 5 is arranged above the matching groove 4, a lower leak hole 8 is drilled in the center of the bottom of the moving bin 2, a sealing cover 6 is arranged above the lower leak hole 8, a rotating shaft 7 is arranged on the outer side of the upper end face of the sealing cover 6, a fixing block 9 is arranged on the periphery of the outer side of the moving bin 2, rollers 10 are arranged in the fixing block 9, a magnet I11 is arranged in the center of the moving framework 1, moving blocks 13 are arranged on two sides of the moving framework 1, a magnet II 12 is arranged at the top ends of the moving blocks 13, a left driven through hole 14 is drilled at the left end of the outer side of each moving block 13, a right driven through hole 19 is drilled at the outer side of each moving block 13, a driving through, the driving plate 16 is arranged in the driving through hole 15, the rear end face of the driving plate 16 is fixedly connected with the first connecting column 22, the bottom end of the first connecting column 22 is fixedly connected with the first boss 27, the right side of the first boss 27 is provided with the second connecting column 28, the second connecting column 28 penetrates through the second boss 30, the tail part of the second connecting column 28 is provided with the third boss 33, the bottom of the first boss 27 is provided with the first support column 26, the lower part of the first support column 26 is provided with the first slide rail 23, the bottom of the second boss 30 is provided with the second support column 29, the bottom of the third boss 33 is provided with the third support column 32, the lower part of the third support column 32 is provided with the second slide rail 31, the front part of the third boss 33 is provided with the fourth boss 34, the upper part of the fourth boss 34 is provided with the left connecting rod 35, the front end of the left, the rotating platform 25 is fixedly connected below the first rotating plate 21, the support column four 24 is arranged below the rotating platform 25, and the rotating platform 25 is fixedly connected below the second rotating plate 37, and the support column four 24 is arranged below the rotating platform 25.

9 bottoms of fixed block are cuboid structure front end and are the triangular prism structure that the top is the fillet, fixed block 9 with remove 2 fixed connection in storehouse, gyro wheel 10 is connected and gyro wheel 10 can rotate on fixed block 9 with fixed block 9, magnet 11 is the cuboid structure, magnet two 12 is the cuboid structure, magnet 11 is opposite with two 12 magnetic poles of magnet to this plays the effect of buffering.

The closing cap 6 is the cylinder structure, and closing cap 6 is connected and rotates around a little with removing storehouse 2, and rotation axis 7 is the cylinder structure, rotation axis 7 and closing cap 6 fixed connection, and the centre of a circle of rotation axis 7 and the coincidence of the rotatory centre of a circle of closing cap 6 can guarantee like this that rotation axis 7 rotates on the spot, and fixed block 9 is upper and lower symmetry.

The matching groove 4 is of a cuboid structure, the top plate 5 is hinged to the edge of the external hanging framework 3, the matching groove 4 is the same as the vertical section of the groove of the moving block 13 and is located on the same plane, the top plate 5 can be turned over to place the moving bin 2 in the matching groove 4, the top plate 5 can be finally fixed through bolts, and the lower leaking hole 8 is of a cylindrical structure.

The first support 26 is matched with the first slide rail 23 in a groove mode, the second support 29 is of a cylindrical structure, the second support 29 is connected with the second boss 30, the second boss 30 can rotate on the second support 29, the second support 29 is fixedly connected with the moving block 13, the third support 32 is of a cylindrical structure, and the third support 32 is fixedly connected with the third boss 33.

The second fixing plate 18 is hinged to the inner side of the right driven through hole 19, a U-shaped groove is formed when the second fixing plate 18 is stressed to fix the roller 10, the driving plate 16 is of a cuboid structure, the front end face of the driving plate 16 is higher than the plane of the moving block 13, the driving plate 16 can move backwards when the roller 10 rolls, the first connecting column 22 is of a cylindrical structure, the first boss 27 is of a cylindrical structure, and the second connecting column 28 is of a cylindrical structure.

The second connecting column 28 is connected with the first boss 27, the second connecting column 28 can rotate on the first boss 27, the second boss 30 is of a cylindrical structure, the second connecting column 28 is sleeved on the second boss 30, the third boss 33 is of a cylindrical structure, the second connecting column 28 is connected with the third boss 33, the second connecting column 28 can rotate on the third boss 33, the first support 26 is of a cylindrical structure, the first support 26 is fixedly connected with the first boss 27, and the first slide rail 23 is of a U-shaped structure.

The driven through-hole 14 in a left side is the cuboid structure, and the driven through-hole 19 in the right side is the cuboid structure, and initiative through-hole 15 is the cuboid structure, and fixed plate 17 articulates in driven through-hole 14 inboardly in a left side, and fixed plate two 18 are the cuboid structure.

The second rotating plate 37 is of a cuboid structure, the right connecting rod 36 is hinged to the second rotating plate 37, the central connecting rod 20 is of a cylindrical structure, the central connecting rod 20 is respectively fixedly connected with the first fixing plate 17 and the second fixing plate 18, the rotating platform 25 is of a cylindrical structure, a plane scroll spring is arranged in the rotating platform 25, the fourth supporting column 24 is of a cylindrical structure, the rotating platform 25 can rotate clockwise on the fourth supporting column 24, when the moving cabin 2 needs to withdraw from the moving block 13, the rear wheel rolls the rear plate of the second fixing plate 18 to enable the rotating platform 25 to rotate and meanwhile the front plate to tilt to help the moving cabin 2 to withdraw, when the roller 10 leaves the driving plate 16, the second fixing plate 18 and the first fixing plate 17 return to the original position, the fourth supporting column 24.

The second sliding rail 31 is of a U-shaped structure, the third supporting column 32 is matched with the second sliding rail 31 in a groove mode, the fourth boss 34 is of a cuboid structure, the fourth boss 34 is fixedly connected with the third boss 33, the right connecting rod 36 is fixedly connected with the fourth boss 34, the left connecting rod 35 is fixedly connected with the fourth boss 34, the first rotating plate 21 is of a cuboid structure, the left connecting rod 35 is hinged to the first rotating plate 21, and the fourth boss 34 is fixedly connected with the right connecting rod 36.

The working principle is as follows: the materials can be placed in the moving bin 2 for storage, when the materials are needed to be used, the top plate 5 is hinged to enable the top plate 5 to be turned over to place the moving bin 2 on the matching groove 4, then the top plate 5 is restored and fixed through bolts, the matching groove 4 and the moving block 13 in the moving framework 1 are used for enabling the moving bin 2 to smoothly move to the moving block 13, when the front idler wheel moves to the fixing block 9, the fixing block 9 sinks, the connecting column 28 rotates through the fact that the connecting column second 28 is sleeved on the boss second 30, meanwhile, the support column first 26 slides downwards on the sliding rail first 23, the support column third 32 slides upwards through the sliding rail second 31, the left connecting rod 35 and the right connecting rod 36 push the rotating plate second 37 and the rotating plate first 21 to move forwards, and finally the purpose that the fixing plate first 17 and the fixing plate second 18 are lifted to form a U-shaped structure to the fixing idler wheel is achieved through the planar thrust spring arranged in the boss fourth 34 in the forward pushing process Will not push away flat with two fixed plates 18, thereby the movable block 13 can be taken and remove the storehouse and move on removing the skeleton, utilize magnet 11 and two 12 realization to the cushioning effect of movable block 13, make closing cap 6 rotatory through rotatory rotation axis 7, the material drops and goes out from lower weeping hole 8, it returns to remove storehouse 2, when removing storehouse 2 needs withdraw from movable block 13, the back wheel rolls two 18 back plates of fixed plate and makes revolving stage 25 rotatory while the front bezel perk help remove storehouse 2 and withdraw from, finally all components recover, add the material one by one with this realization, this device can only need with the framework multilayer with first layer stack fixed can.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a concrete production is with reinforced mechanism, is including removing skeleton (1), removing storehouse (2) and external skeleton (3), its characterized in that: a matching groove (4) is arranged in the external hanging framework (3), a top plate (5) is arranged above the matching groove (4), a lower through hole (8) is formed in the center of the bottom of the moving bin (2), a sealing cover (6) is arranged above the lower through hole (8), a rotating shaft (7) is arranged on the outer side of the upper end face of the sealing cover (6), fixed blocks (9) are arranged on the periphery of the outer side of the moving bin (2), rollers (10) are arranged in the fixed blocks (9), a magnet I (11) is arranged in the center of the moving framework (1), moving blocks (13) are arranged on two sides of the moving framework (1), a magnet II (12) is arranged at the top ends of the moving blocks (13), a left driven through hole (14) is formed in the left end of the outer side of the moving block (13), a right driven through hole (19) is formed in the outer side of the moving block (13), an active through hole, a second fixed plate (18) is installed in the right passive through hole (19), a driving plate (16) is installed in the driving through hole (15), a first connecting column (22) is fixedly connected to the rear end face of the driving plate (16), a first boss (27) is fixedly connected to the bottom end of the first connecting column (22), a second connecting column (28) is installed on the right side of the first boss (27), the second connecting column (28) penetrates through the second boss (30), a third boss (33) is installed at the tail of the second connecting column (28), a first support column (26) is installed at the bottom of the first boss (27), a first sliding rail (23) is installed below the first support column (26), a second support column (29) is installed at the bottom of the second boss (30), a third support column (32) is installed at the bottom of the third boss (33), a second sliding rail (31) is installed below the third support column (, the front end of the left connecting rod (35) is provided with a first rotating plate (21), the front end face of the first rotating plate (21) is fixedly connected with a central connecting rod (20), the right connecting rod (36) is installed on the right side of the fourth boss (34), the front end of the right connecting rod (36) is provided with a second rotating plate (37), the front end face of the second rotating plate (37) is fixedly connected with the central connecting rod (20), the lower portion of the first rotating plate (21) is fixedly connected with the rotating platform (25), the lower portion of the rotating platform (25) is provided with a fourth support column (24), and the lower portion of the second rotating plate (37) is fixedly.

2. The feeding mechanism for concrete production according to claim 1, characterized in that: the matching groove (4) is of a cuboid structure, the top plate (5) is hinged to the edge of the externally-hung framework (3), the vertical sections of the matching groove (4) and the groove of the moving block (13) are the same and are located on the same plane, and the lower leakage hole (8) is of a cylindrical structure.

3. The feeding mechanism for concrete production according to claim 1, characterized in that: the sealing cover (6) is of a cylindrical structure, the sealing cover (6) is connected with the moving bin (2) and rotates around one point, the rotating shaft (7) is of a cylindrical structure, the rotating shaft (7) is fixedly connected with the sealing cover (6), the circle center of the rotating shaft (7) is coincided with the rotating circle center of the sealing cover (6), and the fixing blocks (9) are symmetrical up and down.

4. The feeding mechanism for concrete production according to claim 1, characterized in that: fixed block (9) bottom is cuboid structure front end and is the triangular prism structure that the top is the fillet, fixed block (9) and removal storehouse (2) fixed connection, and gyro wheel (10) are connected and gyro wheel (10) can rotate on fixed block (9) with fixed block (9), and magnet (11) are the cuboid structure, and magnet (12) are the cuboid structure, and magnet (11) are opposite with magnet (12) magnetic pole.

5. The feeding mechanism for concrete production according to claim 1, characterized in that: the left passive through hole (14) is of a cuboid structure, the right passive through hole (19) is of a cuboid structure, the active through hole (15) is of a cuboid structure, the first fixing plate (17) is hinged to the inner side of the left passive through hole (14), and the second fixing plate (18) is of a cuboid structure.

6. The feeding mechanism for concrete production according to claim 1, characterized in that: the second fixed plate (18) is hinged to the inner side of the right driven through hole (19), the driving plate (16) is of a cuboid structure, the front end face of the driving plate (16) is higher than the plane of the moving block (13), the first connecting column (22) is of a cylindrical structure, the first boss (27) is of a cylindrical structure, and the second connecting column (28) is of a cylindrical structure.

7. The feeding mechanism for concrete production according to claim 1, characterized in that: the connecting column II (28) is connected with the boss I (27) and the connecting column II (28) can rotate on the boss I (27), the boss II (30) is of a cylindrical structure, the connecting column II (28) is sleeved on the boss II (30), the boss III (33) is of a cylindrical structure, the connecting column II (28) is connected with the boss III (33) and the connecting column II (28) can rotate on the boss III (33), the support column I (26) is of a cylindrical structure, the support column I (26) is fixedly connected with the boss I (27), and the sliding rail I (23) is of a U-shaped structure.

8. The feeding mechanism for concrete production according to claim 1, characterized in that: the first support column (26) is matched with the first sliding rail (23) in a groove mode, the second support column (29) is of a cylindrical structure, the second support column (29) is connected with the second boss (30), the second boss (30) can rotate on the second support column (29), the second support column (29) is fixedly connected with the moving block (13), the third support column (32) is of a cylindrical structure, and the third support column (32) is fixedly connected with the third boss (33).

9. The feeding mechanism for concrete production according to claim 1, characterized in that: the utility model discloses a rotary table, including slide rail two (31), pillar three (32) and slide rail two (31) groove cooperation, boss four (34) are the cuboid structure, boss four (34) and boss three (33) fixed connection, right connecting rod (36) and boss four (34) fixed connection, left connecting rod (35) and boss four (34) fixed connection, rotor plate one (21) are the cuboid structure, left connecting rod (35) are articulated with rotor plate one (21), boss four (34) and right connecting rod (36) fixed connection.

10. The feeding mechanism for concrete production according to claim 1, characterized in that: the second rotating plate (37) is of a cuboid structure, the right connecting rod (36) is hinged to the second rotating plate (37), the central connecting rod (20) is of a cylindrical structure, the central connecting rod (20) is fixedly connected with the first fixed plate (17) and the second fixed plate (18) respectively, the rotating platform (25) is of a cylindrical structure, a flat spiral spring is arranged in the rotating platform (25), the fourth strut (24) is of a cylindrical structure, and the fourth strut (24) is matched with the first sliding rail (23) and the second sliding rail (31) in a groove mode.

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