CN218289217U - Cement manufacture material loading structure - Google Patents

Abstract

The utility model belongs to the technical field of cement, especially, cement manufacture material loading structure, to current unable regulation transport angle, the problem of high fixed, the following scheme is proposed at present, it includes the cement manufacture conveyer, the surface of cement manufacture conveyer articulates there is the support, the bottom bolt joint of support has the carriage, the surface sliding connection of carriage has the underframe, the hole sliding connection at carriage top has the rack, the tooth meshing on rack right side has adjusting gear, adjusting gear is connected with rotate bracket, the bottom of adjusting gear axle center department articulates there is the regulation pole, it is articulated with the cement manufacture conveyer to adjust the pole, can adjust the inclination of cement manufacture conveyer through adjusting the pole, let the cement manufacture conveyer can be at the transported substance material under the tilt state, can adjust the height of cement manufacture conveyer through the lifter, conveniently adapt to the equipment of co-altitude, let the cement manufacture conveyer can be connected with the equipment of co-altitude not.

Description

Cement manufacture material loading structure

Technical Field

The utility model relates to a cement technology field especially relates to a cement manufacture material loading structure.

Background

During the cement production process, conveying equipment is required to be used for feeding, and the conveying equipment is a cement production feeding structure, for example, a cement production feeding device is disclosed in the patent with the application number of 202021711922.0.

But above-mentioned technical scheme also has some problems, for example, transport structure's angle is fixed, just also can't adjust its inclination, can only be the horizontal transport cement material, lacks the change, and the difference in height of different equipment moreover, material loading structure's high fixity can't carry out altitude mixture control, just also can't adapt to the equipment of co-altitude not, needs the user to erect the support frame and lifts material loading structure, and is very troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of the prior art that the conveying angle can not be adjusted and the height is fixed, and providing a feeding structure for cement production.

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

a cement production feeding structure comprises a cement production conveyor, wherein a support is hinged to the surface of the cement production conveyor, a supporting frame is bolted to the bottom of the support, the surface of the supporting frame is connected with a bottom frame in a sliding mode, a rack is connected to a hole in the top of the supporting frame in a sliding mode, teeth on the right side of the rack are meshed with an adjusting gear, the adjusting gear is connected with the support in a rotating mode, an adjusting rod is hinged to the bottom end of the axis of the adjusting gear, the adjusting rod is hinged to the cement production conveyor, transmission gears are meshed with teeth on two sides of the bottom of the rack and are connected with the supporting frame in a rotating mode, a projection on the surface of each transmission gear is connected with an L-shaped frame in a sliding mode, the L-shaped frame is connected with the supporting frame in a rotating mode, a lifting rod is hinged to one end, away from each transmission gear, the bottom end of the lifting rod is hinged to the inside of the bottom frame, a power mechanism is connected with the surface of the rack in a bolting mode, the adjusting gear can be driven to rotate through the rack, and the adjusting gear can drive the cement production conveyor to rotate through the adjusting rod; the rack can drive the L-shaped frame to rotate through the transmission gear, and the L-shaped frame can drive the supporting frame and the cement production conveyor to move up and down through the lifting rod; the inclination angle of the cement production conveyor can be adjusted by adjusting the rod, the cement production conveyor can convey materials in an inclined state, the height of the cement production conveyor can be adjusted by the lifting rod, the cement production conveyor can conveniently adapt to equipment with different heights, and the cement production conveyor can be connected with the equipment with different heights.

Preferably, the power mechanism comprises a telescopic cylinder, a sliding frame and a sliding strip, the top of the telescopic cylinder is bolted to the right side of the top end inside the supporting frame, the output end of the telescopic cylinder is hinged to the rear side of the sliding frame, the inside of the sliding frame is connected with the right end of the rear side of the sliding strip in a sliding mode, the right end of the sliding strip is hinged to the right side inside the supporting frame, and the power mechanism further comprises a transmission assembly.

Furthermore, the telescopic cylinder is driven by electricity and hydraulic pressure, a power supply or hydraulic power equipment is connected, the telescopic cylinder can drive the sliding frame to move downwards, the sliding frame can slide on the rear side of the sliding strip and drive the sliding strip to rotate downwards, and the sliding strip is rotatably arranged with the supporting frame through the bearing, so that the rotating stability of the sliding strip is guaranteed.

Preferably, the transmission assembly comprises a sliding block and a connecting frame, the left end of the sliding strip is hinged to the rear side of the sliding block, the rear side of the sliding block is connected with the inner portion of the connecting frame in a sliding mode, and the rear side of the connecting frame is bolted to the surface of the rack.

Furthermore, the slide bar can drive the slider to move downwards, the slider can slide in the inside of connecting frame and drive the connecting frame to move downwards, the connecting frame is located the inside of carriage, and the carriage can drive the rack to move downwards.

Preferably, the surface of the bracket is bolted with a stabilizing frame, and the inside of the stabilizing frame is connected with the rear side of the rack in a sliding manner.

Furthermore, the rack is arranged in a sliding mode through the sliding rail and the stabilizing frame, the rack is guided, and the rack can stably move up and down.

Preferably, the bottom end of the rear side of the rack is connected with a limiting frame in a sliding mode, and the rear side of the limiting frame is bolted to the inside of the supporting frame.

Furthermore, the rack is arranged in a sliding mode through the sliding rail and the limiting frame, the rack is guided to stably move up and down, the rack is arranged in a sliding mode through the sliding rail and the supporting frame, the top of the rack is located at the top of the supporting frame, and the bottom of the rack is located inside the supporting frame.

Preferably, the transmission gear is located on the rear side of the L-shaped frame, and a long hole-shaped sliding hole is formed in the surface of the L-shaped frame.

Furthermore, the position between the transmission gear and the L-shaped frame can avoid the generation of structural conflict, the transmission between the transmission gear and the L-shaped frame is convenient, and the sliding hole of the L-shaped frame is convenient for the connection between the sliding hole of the L-shaped frame and the lug of the transmission gear.

Has the advantages that:

1. the power mechanism can drive the adjusting gear to rotate through the rack, and the adjusting gear can drive the cement production conveyor to rotate through the adjusting rod;

2. the rack can drive the L-shaped frame to rotate through the transmission gear, and the L-shaped frame can drive the supporting frame and the cement production conveyor to move up and down through the lifting rod;

the utility model discloses in: the inclination angle of the cement production conveyor can be adjusted by adjusting the rod, the cement production conveyor can convey materials in an inclined state, the height of the cement production conveyor can be adjusted by the lifting rod, the cement production conveyor can conveniently adapt to equipment with different heights, and the cement production conveyor can be connected with the equipment with different heights.

Drawings

FIG. 1 is a schematic front view of a feeding structure for cement production according to the present invention;

fig. 2 is a schematic structural view of a power mechanism of a feeding structure for cement production according to the present invention;

FIG. 3 is a schematic view of a rear view structure of a feeding structure for cement production according to the present invention;

fig. 4 is a schematic perspective view of a slide bar of a feeding structure in cement production.

In the figure: 1. a cement production conveyor; 2. a power mechanism; 21. a telescopic cylinder; 22. a sliding frame; 23. a slide bar; 24. a slider; 25. a connecting frame; 3. a support; 4. a support frame; 5. a bottom frame; 6. an adjusting gear; 7. adjusting a rod; 8. a transmission gear; 9. an L-shaped frame; 10. a lifting rod; 11. a rack.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-4, a cement production feeding structure comprises a cement production conveyor 1, a support 3 is hinged on the surface of the cement production conveyor 1, a support frame 4 is bolted on the bottom of the support 3, a bottom frame 5 is slidably connected on the surface of the support frame 4, a rack 11 is slidably connected with a hole on the top of the support frame 4, a regulating gear 6 is meshed with teeth on the right side of the rack 11, the regulating gear 6 is positioned on the top of the support frame 4, the axis of the regulating gear 6 is rotatably connected with the right side of the surface of the support 3, a regulating rod 7 is hinged at the bottom end of the axis of the regulating gear 6, the top end of the regulating rod 7 is hinged with the surface of the cement production conveyor 1, transmission gears 8 are meshed with teeth on both sides of the bottom of the rack 11, the axis of the transmission gear 8 is rotatably connected with the inside of the support frame 4, a bump on the surface of the transmission gear 8 is slidably connected with an L-shaped frame 9, a hole on the rear side of the L-shaped frame 9 is rotatably connected with the inside of the support frame 4, a lifting rod 10 is hinged to one end, away from a transmission gear 8, of an L-shaped frame 9, the bottom end of the lifting rod 10 is hinged to the inside of a bottom frame 5, a power mechanism 2 is bolted to the surface of a rack 11, a cement production conveyor 1 is moved to the position close to equipment needing to be fed with cement materials, the power mechanism 2 can drive the rack 11 to move, the rack 11 can drive an adjusting gear 6 to rotate, the adjusting gear 6 is rotatably arranged with a support 3 through a bearing to ensure the rotating stability of the adjusting gear 6, an eccentric structure is formed between the adjusting gear 6 and the adjusting rod 7, the adjusting rod 7 can be driven to move in the rotating process of the adjusting gear 6, the adjusting rod 7 can drive the cement production conveyor 1 to rotate, the cement production conveyor 1 rotates at the top of the support 3, the rack 11 can drive the transmission gear 8 to rotate, and the transmission gear 8 is rotatably arranged with a support frame 4 through a bearing, guarantee drive gear 8 pivoted stationarity, the lug on its surface of drive gear 8 is eccentric structure rather than, drive gear 8's lug can slide and drive L type frame 9 and rotate in L type frame 9's slide opening, L type frame 9 can drive lifter 10 and remove, and the bottom of lifter 10 is articulated spacing with underframe 5, thereby can upwards jack-up carriage 4, carriage 4 passes through the slide rail and underframe 5 slides the setting, carriage 4 can drive support 3 and upwards remove, support 3 can drive cement production conveyer 1 and upwards remove, can adjust the inclination of cement production conveyer 1 through adjusting pole 7, let cement production conveyer 1 can be at the transported substance under the tilt state, can adjust the height of cement production conveyer 1 through lifter 10, conveniently adapt to the equipment of co-altitude, let cement production conveyer 1 can be connected with the equipment of co-altitude not.

The utility model discloses in, power unit 2 includes telescoping cylinder 21, sliding frame 22 and draw runner 23, the top of telescoping cylinder 21 and the right side bolt on the inside top of carriage 4, the output of telescoping cylinder 21 is articulated with the rear side of sliding frame 22, the inside of sliding frame 22 and the right-hand member sliding connection of the 23 rear side of draw runner, the right-hand member of draw runner 23 is articulated with the inside right side of carriage 4, power unit 2 still includes drive assembly, telescoping cylinder 21 adopts electric drive and hydraulic drive, switch-on or hydraulic power equipment, telescoping cylinder 21 can drive sliding frame 22 and remove, sliding frame 22 can slide and drive the draw runner 23 and rotate at the rear side of draw runner 23, draw runner 23 passes through bearing and carriage 4 rotation settings, guarantee draw runner 23 pivoted stationarity.

The utility model discloses in, drive assembly includes slider 24 and linking frame 25, the left end of draw runner 23 is articulated with slider 24's rear side, slider 24's rear side and linking frame 25's inside sliding connection, linking frame 25's rear side and rack 11's surface bolt joint, draw runner 23 can drive slider 24 and remove, slider 24 can slide and drive linking frame 25 and remove in linking frame 25's inside, linking frame 25 is located the inside of carriage 4, carriage 25 can drive rack 11 and remove, make things convenient for the transmission of structure.

The utility model discloses in, the surperficial bolt of support 3 has stablized the frame, stabilizes the inside of frame and the rear side sliding connection of rack 11, and rack 11 slides through slide rail and stable frame and sets up, guides rack 11, lets reciprocating that rack 11 can be steady.

The utility model discloses in, the bottom sliding connection of rack 11 rear side has spacing frame, the rear side of spacing frame and the inside bolt of carriage 4, and rack 11 passes through the slide rail and slides with spacing frame and set up, guides rack 11, lets reciprocating that rack 11 can be steady, and rack 11 passes through the slide rail and slides with carriage 4 and set up, and the top of rack 11 is located carriage 4's top, and the bottom of rack 11 is located carriage 4's inside.

The utility model discloses in, drive gear 8 is located the rear side of L type frame 9, and the long poroid slide opening is seted up on the surface of L type frame 9, and the position between drive gear 8 and the L type frame 9 can be avoided producing the structure conflict, makes things convenient for the transmission of drive gear 8 and L type frame 9, and the slide opening of L type frame 9 makes things convenient for its lug to be connected with drive gear 8.

Example two

This example differs from example 1 in that: the sliding frame 22 is replaced by a sliding sleeve, the sliding sleeve can slide with the sliding strip 23, and the sliding sleeve 23 can be driven to rotate, but the sliding strip can wrap the sliding strip 23, and the friction between the sliding strip 23 and the sliding strip is large, so that the sliding frame 22 is preferably selected in the application.

The working principle is as follows: the cement production conveyor 1 is moved to the vicinity of equipment needing to feed cement materials, the telescopic cylinder 21 is driven by electricity and hydraulic pressure, a power supply or hydraulic power equipment is switched on, the telescopic cylinder 21 can drive the sliding frame 22 to move downwards, the sliding frame 22 can slide on the rear side of the sliding strip 23 and drive the sliding strip 23 to rotate downwards, the sliding strip 23 is rotatably arranged with the supporting frame 4 through a bearing, the rotating stability of the sliding strip 23 is ensured, the sliding strip 23 can drive the sliding block 24 to move downwards, the sliding block 24 can slide in the connecting frame 25 and drive the connecting frame 25 to move downwards, the connecting frame 25 is positioned in the supporting frame 4, the supporting frame 25 can drive the rack 11 to move downwards, the rack 11 can drive the adjusting gear 6 to rotate anticlockwise, the adjusting gear 6 is rotatably arranged with the support 3 through the bearing, the rotating stability of the adjusting gear 6 is ensured, an eccentric structure is formed between the adjusting gear 6 and the adjusting rod 7, the adjusting gear 6 can drive the adjusting rod 7 to move upwards in the rotating process, the adjusting rod 7 can drive the cement production conveyor 1 to rotate anticlockwise, the cement production conveyor 1 rotates on the top of the support 3, meanwhile, the rack 11 can drive the left transmission gear 8 to rotate clockwise, the transmission gear 8 is rotatably arranged with the support frame 4 through a bearing, the rotating stability of the transmission gear 8 is guaranteed, a convex block on the surface of the left transmission gear 8 and the convex block are in an eccentric structure, the convex block of the left transmission gear 8 can slide in a sliding hole of the left L-shaped frame 9 and drive the left L-shaped frame 9 to rotate anticlockwise, the left L-shaped frame 9 can drive the left lifting rod 10 to move downwards, meanwhile, the rack 11 can drive the right transmission gear 8 to rotate anticlockwise, and the right lifting rod 10 can be driven to move downwards according to the transmission steps, the bottom end of the lifting rod 10 is hinged and limited with the bottom frame 5, so that the supporting frame 4 can be jacked upwards, the supporting frame 4 is arranged with the bottom frame 5 in a sliding mode through a sliding rail, the supporting frame 4 can drive the support 3 to move upwards, and the support 3 can drive the cement production conveyor 1 to move upwards.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a cement manufacture material loading structure, including cement manufacture conveyer (1), a serial communication port, the surface of cement manufacture conveyer (1) articulates there is support (3), the bottom of support (3) is bolted and is had carriage (4), the surface sliding connection of carriage (4) has underframe (5), the hole sliding connection at carriage (4) top has rack (11), the tooth meshing on rack (11) right side has adjusting gear (6), adjusting gear (6) rotate with support (3) and are connected, the bottom of adjusting gear (6) axle center department articulates there is regulation pole (7), it is articulated with cement manufacture conveyer (1) to adjust pole (7), the tooth of rack (11) bottom both sides all meshes has drive gear (8), drive gear (8) rotate with carriage (4) and are connected, the lug sliding connection on drive gear (8) surface has L type frame (9), L type frame (9) rotate with carriage (4) and are connected, the one end that drive gear (8) were kept away from to L type frame (9) articulates there is lifter (10), the bottom and the inside of lifter (5) and underframe (11) articulated power mechanism, rack (2) surface.

2. The cement production feeding structure according to claim 1, wherein the power mechanism (2) comprises a telescopic cylinder (21), a sliding frame (22) and a sliding strip (23), the top of the telescopic cylinder (21) is bolted to the right side of the top end inside the supporting frame (4), the output end of the telescopic cylinder (21) is hinged to the rear side of the sliding frame (22), the inside of the sliding frame (22) is connected to the right end of the rear side of the sliding strip (23) in a sliding manner, the right end of the sliding strip (23) is hinged to the right side inside the supporting frame (4), and the power mechanism (2) further comprises a transmission assembly.

3. A cement production feeding structure according to claim 2, characterized in that the transmission assembly comprises a sliding block (24) and a connecting frame (25), the left end of the sliding bar (23) is hinged with the rear side of the sliding block (24), the rear side of the sliding block (24) is connected with the inside of the connecting frame (25) in a sliding way, and the rear side of the connecting frame (25) is bolted with the surface of the rack (11).

4. A cement production charging structure according to claim 1, characterized in that the surface of said bracket (3) is bolted with a stabilizing frame, the inside of which is slidingly connected to the rear side of the rack (11).

5. A cement production feeding structure according to claim 1, characterized in that the bottom end of the rear side of the rack (11) is slidably connected with a limiting frame, and the rear side of the limiting frame is bolted to the inside of the supporting frame (4).

6. A cement production charging structure according to claim 1, characterized in that the transmission gear (8) is located at the rear side of the L-shaped frame (9), and the surface of the L-shaped frame (9) is provided with a long hole-shaped sliding hole.

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