Background
The porous brick has the characteristics of low production energy consumption, soil conservation, waste utilization, convenient construction, light weight, high strength, good heat preservation effect, durability, small shrinkage deformation, regular appearance and the like. A stirrer is mostly adopted as a material mixing and stirring device in the production of the perforated bricks.
In the related technology, for example, the chinese utility model patent with patent publication No. CN204295863U proposes a shale brick preparation system, which comprises a blanking machine, a stirrer, a large pair roller crusher, a brick machine, a dicer, and a setting machine, wherein the blanking machine is connected with the feeding port of the stirrer through an auger, the discharging port of the stirrer is connected with the feeding port of the large pair roller crusher through a conveyor belt, the discharging port of the large pair roller crusher is connected with the feeding port of the brick machine through a conveyor belt, the discharging port of the brick machine is connected with the cutting machine through a conveyor belt, the cutting machine is connected with the setting machine brick base through a conveyor belt, the conveyor belt in front of the feeding port of the brick machine is an upper conveyor belt and a lower conveyor belt, a strong magnet block in the vertical direction is arranged between the broken belt ends of the upper conveyor belt and the lower conveyor belt, the lower conveyor belt is designed to be inclined so that the position gradually rises towards the feeding port of the brick machine, the side of the green brick base is provided with a receiving hopper, the lower end of the receiving hopper is connected with a waste conveying belt, the other end of the waste conveying belt is connected with a feeding port of a brick making machine, materials enter a stirrer through a blanking machine, are stirred and mixed and then enter a large-pair roller type crusher to be crushed, and finally the crushed materials enter the brick making machine to be molded.
With respect to the related art in the above, the inventors consider that there are the following drawbacks: when adopting above-mentioned preparation system production perforated brick, because there is the bending and the transfer route is longer in the transfer route in the factory more, consequently generally adopt the conveyer belt to transport the material to mixer department in the factory, but when the material dropped from the conveyer belt, the condition of scattering outside the mixer easily produced to lead to the waste of material.
SUMMERY OF THE UTILITY MODEL
In order to reduce the waste of material, this application provides a mixing stirring device's stock stop.
The application provides a pair of mix agitating unit's stock stop adopts following technical scheme:
the utility model provides a mix agitating unit's stock stop, includes the stock guide, and the stock guide is connected with the mixer, and the stock guide is by being close to the direction slope setting of keeping away from the pan feeding mouth along vertical ascending direction to accept the material.
Through adopting above-mentioned technical scheme, the setting up of stock guide makes the material part on the conveyer belt fall into the pan feeding mouth, and remaining part drops to on the stock guide to in the pan feeding mouth is slided into along the stock guide, thereby realize reducing the extravagant purpose of material.
Optionally, the material guide plate is rotatably connected with the stirring machine so that the free end of the material guide plate rotates towards a direction close to or far away from the ground, and the stirring machine is provided with a locking assembly for locking the rotation angle of the material guide plate.
By adopting the technical scheme, the material guide plate is rotationally connected with the stirrer, so that a worker can conveniently adjust the rotation angle of the material guide plate according to the distance between the conveyor belt and the stirrer, and the application range of the material stop mechanism is enlarged; due to the arrangement of the locking assembly, after the staff adjusts the rotating angle of the material guide plate, the position of the material guide plate is locked, so that the material guide plate is not easy to continue to rotate.
Optionally, the locking assembly comprises a locking rod and a connecting block, one end of the locking rod is hinged to the material guide plate, the other end of the locking rod is hinged to the connecting block, the connecting block is connected with the stirring machine in a sliding mode along the direction close to or far away from the material guide plate, and a locking piece used for locking the sliding distance of the connecting block is arranged on the stirring machine.
Through adopting above-mentioned technical scheme, adjust the connecting block position to make the locking lever take place to rotate, so that the turned angle of stock guide changes.
Optionally, the stirrer is fixedly connected with a slide rail close to or far away from the direction of the material guide plate, and the connecting block is connected with the slide rail in a sliding manner.
Through adopting above-mentioned technical scheme, the setting of slide rail has realized the connection that slides of connecting block and mixer.
Optionally, the locking piece is a locking bolt, and the locking bolt is in threaded connection with the connecting block and abuts against the sliding rail.
Through adopting above-mentioned technical scheme, the staff rotates the locking bolt for contradict with the slide rail behind locking bolt and the connecting block threaded connection, thereby make the connecting block be difficult for continuing to take place to slide.
Optionally, baffles are arranged on two sides of the material guide plate and fixedly connected with the stirrer, and the baffles are obliquely arranged along the vertical upward direction from the direction close to the material inlet of the stirrer to the direction far away from the material inlet of the stirrer.
Through adopting above-mentioned technical scheme, the setting of baffle further makes the baffle be difficult for scattering outside the mixer.
Optionally, the stock guide includes first striker rod, second striker rod, backup pad and bracing piece, first striker rod, second striker rod all rotate with the bracing piece to be connected, and first striker rod and second striker rod are located the bracing piece both sides respectively, the backup pad is the rubber slab, and the backup pad is located between first striker rod, second striker rod and the bracing piece, backup pad and bracing piece fixed connection, all set up the constant head tank that supplies the backup pad to pass on first striker rod, the second striker rod, be provided with the locking piece that is used for locking first striker rod, second striker rod turned angle on the bracing piece.
Through adopting above-mentioned technical scheme, first fender material pole, second fender material pole are connected with the rotation of bracing piece for take place to slide between backup pad and first fender material pole, the second fender material pole, thereby when making the turned angle of stock guide change, be difficult for appearing the clearance between baffle and the stock guide.
Optionally, the first material blocking rod and the second material blocking rod are rotatably connected with the supporting rod through rotating shafts, external threads are formed in the rotating shafts, the locking piece is a locking nut, and the locking nut is in threaded connection with the rotating shafts.
Through adopting above-mentioned technical scheme, rotate lock nut for lock nut contradicts with first fender material pole and second fender material pole that corresponds, thereby makes first fender material pole and the difficult continuation of second fender material pole take place to rotate.
Optionally, the two sides of the material guide plate are fixedly connected with connecting plates, one ends of the connecting plates, far away from the material guide plate, are lapped on the baffle, and the connecting plates are elastic plates.
Through adopting above-mentioned technical scheme, after the staff adjusted the turned angle of stock guide, leave the space between stock guide and the baffle, the setting of linking up the fishplate bar for the material is difficult for flowing out from the clearance between stock guide and the baffle.
Optionally, the locking assembly is provided with a plurality of sets.
Through adopting above-mentioned technical scheme, stability when the guide of stock guide has been improved to the setting of multiunit locking Assembly.
In summary, the present application includes at least one of the following beneficial technical effects:
1. due to the arrangement of the material guide plate, materials which do not directly fall into the material inlet on the conveying belt fall onto the material guide plate, so that the materials move into the stirrer under the guiding action of the material guide plate, and the purpose of reducing material waste is achieved;
2. due to the arrangement of the connecting plates, materials are not easy to flow out of a gap between the material guide plate and the baffle plate.
Detailed Description
The present application is described in further detail below with reference to figures 1-2.
The embodiment of the application discloses a material stop mechanism of a mixing and stirring device. Referring to fig. 1, the material blocking mechanism includes a material guiding plate 100, the material guiding plate 100 is connected to the stirring machine 400, and the material guiding plate 100 is disposed in an inclined manner along a vertical upward direction from a direction close to the direction far from the ground, so that one end of the material guiding plate 100 extends to a position of a material inlet 420 of the stirring machine 400, and a free end of the material guiding plate 100 extends to a position below the conveyor belt, so that the material guiding plate 100 receives the material dropped from the conveyor belt. In addition, two baffles 300 are welded on the stirrer 400, and the two baffles 300 are respectively positioned at two sides of the material guide plate 100, so that when the material on the material guide plate 100 is too much, the material is not easy to fall off from two sides of the material guide plate 100.
Because the distances between the blender 400 and the conveyor belt at different positions are different, in order to improve the application range of the material stop mechanism, the material guide plate 100 is rotatably connected with the side wall of the blender 400 far away from the ground through the rotating shaft.
The mixer 400 is provided with a locking assembly 200 for locking an angle between the guide plate 100 and a sidewall of the mixer 400. In order to improve the stability of the material guiding plate 100 when receiving the material, two sets of locking assemblies 200 are provided in this embodiment. The locking assembly 200 includes a locking bar 210 and a connecting block 220, and one end of the locking bar 210 is hinged to the guide plate 100, and the other end is hinged to the connecting block 220. The side wall of the stirring machine 400 far from the ground is welded with an extension plate 420, the extension plate 420 is welded with a slide rail 410 vertical to the axial direction of the rotating shaft, the slide rail 410 is T-shaped, and the connecting block 220 is provided with a connecting hole 222 matched with the slide rail 410 in shape, so that the connecting block 220 is connected with the slide rail 410 in a sliding manner. The connecting blocks 220 of the two sets of locking assemblies 200 are connected by the connecting rod 223, so that the worker can push the two connecting blocks 220 at the same time, the two locking rods 210 provide the same supporting force for the material guide plate 100, and the material guide plate 100 is not prone to tilting.
Referring to fig. 2, the blender 400 is provided with a locking member for locking the sliding distance of the connection block 220. The locking piece is locking bolt 221, and the threaded hole that communicates with connecting hole 222 is seted up on connecting block 220, and locking bolt 221 contradicts with slide rail 410 after the threaded connection with the threaded hole of connecting block 220 to make connecting block 220 difficult continue to slide along slide rail 410.
Referring back to fig. 1, after the material guide plate 100 rotates, a gap is easily formed between the material guide plate 100 and the baffle 300, and when there are too many materials on the material guide plate 100, the materials are easily dropped from the gap between the material guide plate 100 and the baffle 300, so that in order to reduce the dropping of the materials, the connection plates 110 are welded to both sides of the material guide plate 100, and the connection plates 110 are elastic plates. The end of the connecting plate 110 on the same side of the guide plate 100, which is far from the guide plate 100, is overlapped on the corresponding baffle 300.
The implementation principle of the stock stop of the mixing stirring device in the embodiment of the application is as follows: the conveyer belt operation drives the material to pan feeding mouth 420 of mixer 400 to pour the material into mixer 400, the material that does not fall into mixer 400 drops on stock guide 100, and in going into mixer 400 through pan feeding mouth 420 along stock guide 100, thereby realize the purpose of material saving.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.