CN114800874A - Novel double-door hopper mechanism of brick production line - Google Patents

Abstract

The invention relates to the technical field of brick making production and discloses a novel double-door hopper mechanism of a brick making production line, which comprises a double-opening hopper, wherein the inner wall of a fixed support is rotationally connected with a double-opening blanking assembly through a rotating shaft, the double-opening blanking assembly comprises a driving material door and a driven material door, the outer wall of the driving material door is fixedly connected with a driving gear, the outer wall of the driven material door is fixedly connected with a driven gear, the outer wall of the driving material door is rotationally connected with the telescopic tail end of a telescopic oil cylinder through the rotating shaft, the outer walls of the double-opening hopper, the driving material door and the driven material door are respectively provided with a limiting chute, and the inner wall of the limiting chute is slidably connected with a movable limiting block; the material door can be prevented from deviating in the opening and closing process by arranging the limiting sliding groove and the movable limiting block, the thickness and the material consumption of the material door can be reduced to some extent by arranging the double-opening blanking assembly, the production cost is reduced, and the angle required to be rotated for opening or closing the material door is reduced to some extent.

Description

Novel double-door hopper mechanism of brick making production line

Technical Field

Each embodiment of this application belongs to the technical field of brickmaking production, especially relates to a novel two hopper mechanisms that open door of brickmaking production line.

Background

The brick production line is production equipment capable of automatically completing functions of stirring, green brick forming and conveying, stacking and the like, mainly comprises a stirring system for ingredients, a forming system, an automatic conveying system, a stacking system and the like, the raw materials are added into the stirring system for stirring in the first step of brick production, and a hopper mechanism is required to be used when the raw materials are added into the stirring system for ingredients.

The existing hopper mechanism adopts a single-opening door type, and still has some defects in the actual use process, for example, a single-opening door type hopper needs to be provided with a large material door, and meanwhile, the material door is not provided with a limiting part when rotating, so that the material door is easy to deviate in the opening and closing process, the stability is poor, the thickness of the single material door needs to be increased due to the requirement of bearing large weight, in addition, the time for opening and closing the single material door needs to consume longer time, the blanking time is longer, and the blanking speed of the hopper is reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a novel double-door hopper mechanism of a brick production line, which can prevent a material door from deviating in the opening and closing processes by arranging a limiting chute and a movable limiting block as limiting parts, is favorable for improving the stability of the material door during rotation, can reduce the thickness and the material consumption of the material door by arranging a double-door blanking assembly, is favorable for reducing the production cost, reduces the rotating angle required by opening or closing the material door, and can effectively solve the problems in the background art.

In order to solve the technical problem, the embodiment of the application provides a novel two hopper mechanisms that open door of brick production line's technical scheme specifically as follows:

the embodiment of the application discloses a novel double-door hopper mechanism of a brick production line, which comprises a double-opening hopper, wherein the outer wall of the double-opening hopper is fixedly connected with a fixed support, the inner wall of the fixed support is rotatably connected with a double-opening blanking assembly through a rotating shaft, the double-opening blanking assembly comprises a driving material door and a driven material door, the outer wall of the driving material door is fixedly connected with a driving gear, the outer wall of the driven material door is fixedly connected with a driven gear, the outer wall of the driving material door is rotatably connected with the telescopic tail end of a telescopic oil cylinder through a rotating shaft, the outer walls of the double-opening hopper, the driving material door and the driven material door are respectively provided with a limiting chute, and the inner wall of the limiting chute is slidably connected with a movable limiting block; the activity stopper can follow spacing spout and remove, will take the initiative bin gate and two port hopper lug connection through the activity stopper, will follow bin gate and two port hopper lug connection through the activity stopper, can effectively avoid initiative bin gate, driven bin gate to take place the skew opening with closed in-process, through the activity stopper will follow bin gate and two port hopper lug connection, from the one end sliding connection of the activity stopper on the bin gate in the spacing spout on two port hopper outer walls, from the other end sliding connection of the activity stopper on the bin gate in the spacing spout on the driven bin gate outer wall.

In a preferred embodiment of any of the above schemes, the fixed brackets are symmetrically arranged with the double-opening hopper as a center; the fixed support is convenient for connecting the double-opening blanking assembly with the double-opening hopper.

In a preferred embodiment of any one of the above schemes, the driving material gate and the driven material gate are respectively connected between the inner walls of the fixed brackets in a rotating manner through rotating shafts; the flexible drive of flexible hydro-cylinder is taken turns to the material door and is rotated, and the material door that takes the initiative passes through driving gear, driven gear and drives driven bin gate rotation, and the material door that takes the initiative, driven bin gate rotate simultaneously to make the angle that the material door that takes the initiative is opened or closed needs to be rotated reduces, is favorable to accelerating the material door and opens or the required time of closure.

In a preferred embodiment of any of the above schemes, the outer wall of the driving gear is in meshed connection with the outer wall of the driven gear; the driving gear is meshed with the driven gear when rotating, so that the driving material door and the driven material door can rotate simultaneously, and the feeding speed of the double-opening hopper is increased.

In a preferred embodiment of any one of the above schemes, a material cleaning port is formed in a side wall of the double-port hopper, and a limiting clamping block is fixedly connected to the side wall of the double-port hopper; the material cleaning opening is convenient for cleaning raw materials adhered to the inner wall of the double-opening hopper, and the limiting clamping block is convenient for clamping and fixing the clamping baffle.

In an embodiment preferred in any of the above schemes, the limiting fixture blocks are symmetrically arranged up and down with the material cleaning port as a center, and clamping baffles are clamped between the limiting fixture blocks and the outer walls of the double-port hopper; the clamping baffle is convenient for shelter from in the outside of clear material mouth, avoids the two-port hopper the condition of leaking the material.

In an embodiment preferred in any of the above schemes, the outer wall of the clamping baffle is fixedly connected with a U-shaped handle, and the clamping baffle is shielded outside the material cleaning port; the clamping baffle is conveniently clamped between the limiting clamping block and the double-opening hopper through the U-shaped handle, and the clamping baffle is conveniently removed from the outer side of the material cleaning opening.

In a preferred embodiment of any of the above schemes, the lower baffle of the driving material door and the lower baffle of the driven material door respectively shield the two feed openings at the lower end of the double-opening hopper; initiative bin gate, driven bin gate can bear the weight of part raw materials respectively, compares the hopper mechanism that adopts single bin gate, and the thickness and the material quantity of bin gate can both reduce to some extent, are favorable to reduction in production cost.

In a preferred embodiment of any one of the above schemes, the fixed end of the telescopic oil cylinder is rotatably connected with an oil cylinder connecting seat through a rotating shaft; hydro-cylinder connecting seat is convenient for with the stiff end of flexible hydro-cylinder and external braced frame fixed connection to be convenient for flexible hydro-cylinder drives the initiative bin gate in flexible in-process and rotates, flexible hydro-cylinder is flexible to drive the initiative bin gate and is rotated, spacing spout removal can be followed to the activity stopper, can make initiative bin gate, driven bin gate can only rotate certain angle, plays certain limiting displacement, can effectively avoid simultaneously that initiative bin gate, driven bin gate are opening and closed in-process emergence skew, have better stability.

In a preferred embodiment of any one of the above schemes, an L-shaped mounting plate is fixedly connected to a side wall at the upper end of the double-opening hopper, and a reinforcing rib plate is fixedly connected to an outer wall of the L-shaped mounting plate; the L-shaped mounting plates are symmetrically arranged by taking the double-opening hopper as the center, the double-opening hopper is fixedly connected with an external support frame conveniently by the L-shaped mounting plates, and the reinforcing rib plates are favorable for reinforcing the strength of the L-shaped mounting plates.

In a preferred embodiment of any of the above schemes, an image acquisition module is installed below the fixed support, and the image acquisition module is configured to acquire image information of an angle at which the active material door is opened in real time and transmit the acquired image information to a controller, where the controller stores preset image information of different angles after the active material door is opened, that is, reference images; comparing an opening and closing picture of a driving material door acquired in real time with a reference picture, if more materials are in the double-opening hopper and the opening angle of the driving material door is not at the maximum angle, issuing a continuous opening instruction to a telescopic oil cylinder by a controller, and issuing an opening stopping instruction to the telescopic oil cylinder when the opening angle of the double-opening hopper is compared to be the maximum angle, so that the driving material door and a driven material door are in the maximum opening state; if along with the inside material of two mouthfuls hopper reduces gradually, along with the change of time, the controller constantly controls flexible length of flexible hydro-cylinder is ceaselessly right initiative bin gate and driven bin gate adjust, realize avoiding opening great because of initiative bin gate and driven bin gate, cause the material to splash the problem far away.

Compared with the prior art, the novel two hopper mechanisms that open door of a brick production line of this application embodiment, through setting up spacing spout, the skew can be avoided the bin gate opening and closed in-process to take place for the activity stopper, through setting up two thicknesses and the material quantity that open the unloading subassembly and make the bin gate all also can reduce to some extent, be favorable to reduction in production cost, the angle that the bin gate was opened or closed required commentaries on classics also reduces to some extent in addition, have stronger suitability, be fit for using widely.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or components, it being understood by those skilled in the art that the drawings are not necessarily drawn to scale and wherein:

fig. 1 is the overall structure schematic diagram of the novel double-door hopper mechanism of the brick making production line in the embodiment of the present application.

Fig. 2 is a schematic view of the structure of the novel double-door hopper mechanism of the brick making production line in a bottom view.

Fig. 3 is a front view structural schematic diagram of the novel double-door hopper mechanism of the brick making production line according to the embodiment of the present application.

Fig. 4 is a structural schematic diagram of the novel two hopper mechanisms that open door of brickmaking production line's embodiment of this application right-hand side.

FIG. 5 is a schematic view showing a connection between a double-opening hopper and a movable limiting block in the novel double-door hopper mechanism of the brick making production line according to the embodiment of the present application;

fig. 6 is a schematic diagram of the connection between the driven material door and the movable limiting block in the novel double-door hopper mechanism of the brick making production line of the embodiment of the application.

Reference numerals:

1. a double-opening hopper; 2. a fixed bracket; 3. a double-opening blanking assembly; 31. a driving material door; 32. a driven material gate; 33. a driving gear; 34. a driven gear; 35. a telescopic oil cylinder; 36. an oil cylinder connecting seat; 4. a limiting chute; 5. a movable limiting block; 6. a limiting clamping block; 7. clamping a baffle; 8. a U-shaped handle; 9. an L-shaped mounting plate; 10. a reinforcing rib plate; 11. and an image acquisition module.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be apparent that the described embodiments are merely one example of a component of the present application and not an all component embodiment. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is solely for the purpose of facilitating the description and simplifying the description, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, is not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The following embodiments of the present application illustrate the solution of the present application in detail by taking as an example a novel double-door hopper mechanism of a brick making production line, but the present application is not limited by the scope of the present application.

Examples

As shown in fig. 1 to 6, the embodiment of the application provides a novel two hopper mechanisms that open door of brickmaking production line, including two mouthfuls of hoppers 1, two mouthfuls of hoppers 1's outer wall fixedly connected with fixed bolster 2, fixed bolster 2 uses two mouthfuls of hoppers 1 to be the symmetry setting as the center, fixed bolster 2's inner wall is rotated through the pivot and is connected with two unloading subassemblies 3 that open, spacing spout 4 has all been seted up to two mouthfuls of hoppers 1's outer wall, the outer wall of initiative bin gate 31 and the outer wall of driven bin gate 32, the inner wall sliding connection of spacing spout 4 has movable stopper 5.

In the novel double-door hopper mechanism of the brick making production line, the driving material door 31 is directly connected with the double-opening hopper 1 through the movable limiting block 5, one end of the movable limiting block 5 on the driving material door 31 is slidably connected into the limiting chute 4 on the outer wall of the double-opening hopper 1, the other end of the movable limiting block 5 on the driving material door 31 is slidably connected into the limiting chute 4 on the outer wall of the driving material door 31, the driven material door 32 is directly connected with the double-opening hopper 1 through the movable limiting block 5, one end of the movable limiting block 5 on the driven material door 32 is slidably connected into the limiting chute 4 on the outer wall of the double-opening hopper 1, and the other end of the movable limiting block 5 on the driven material door 32 is slidably connected into the limiting chute 4 on the outer wall of the driven material door 32.

In the novel double-door hopper mechanism of the brick making production line, the telescopic oil cylinder 35 telescopically drives the driving material door 31 to rotate, the movable limiting block 5 can move along the limiting sliding groove 4, so that the driving material door 31 and the driven material door 32 can only rotate for a certain angle to play a certain limiting role, and meanwhile, the driving material door 31 and the driven material door 32 can be effectively prevented from deviating in the opening and closing processes, and the novel double-door hopper mechanism has better stability.

As shown in fig. 1 to 3, the material cleaning opening has been seted up to the lateral wall of two-port hopper 1, the spacing fixture block 6 of the lateral wall fixedly connected with of two-port hopper 1, spacing fixture block 6 uses the material cleaning opening to be the upper and lower symmetry setting as the center, the joint has joint baffle 7 between the outer wall of spacing fixture block 6 and two-port hopper 1, the outer wall fixedly connected with U type handle 8 of joint baffle 7, joint baffle 7 shelters from the outside at the material cleaning opening, the lateral wall fixedly connected with L type mounting panel 9 of two-port hopper 1 upper end, logical groove has been seted up at the top of L type mounting panel 9, with L type mounting panel 9 and external braced frame fixed connection through the bolt, the outer wall fixedly connected with reinforcing rib plate 10 of L type mounting panel 9.

In the novel double-door hopper mechanism of the brick making production line, the clamping baffle 7 is removed from the outer side of the material cleaning opening through the U-shaped handle 8, the raw materials adhered to the inner wall of the double-opening hopper 1 are washed and cleaned through the cleaning opening, and after the material cleaning is finished, the clamping baffle 7 is clamped between the limiting clamping block 6 and the double-opening hopper 1 through the U-shaped handle 8; clear material mouthful is convenient for clear away the raw materials of adhesion on two port hopper 1 inner walls, spacing fixture block 6 is convenient for the fixed joint baffle 7 of joint, joint baffle 7 is convenient for shelter from in the outside of clear material mouthful, is convenient for avoid two port hopper 1 the condition of leaking the material to appear, through U type handle 8 is convenient for with 7 joints of joint baffle are in between spacing fixture block 6 and two port hopper 1, also be convenient for remove joint baffle 7 from the clear material mouthful outside.

As shown in fig. 1 to 4, the double-open blanking assembly 3 includes a driving material door 31, a driven material door 32, a driving gear 33, a driven gear 34, a telescopic oil cylinder 35 and an oil cylinder connecting seat 36, wherein the driving material door 31 and the driven material door 32 are respectively rotatably connected between the inner walls of the fixed support 2 through rotating shafts, the outer wall of the driving material door 31 is fixedly connected with the driving gear 33, the outer wall of the driven material door 32 is fixedly connected with the driven gear 34, the outer wall of the driving gear 33 is meshed with the outer wall of the driven gear 34, the lower baffle of the driving material door 31 and the lower baffle of the driven material door 32 respectively shield two blanking ports at the lower end of the double-opening hopper 1, the outer wall of the driving material door 31 is rotatably connected with the telescopic end of the telescopic oil cylinder 35 through a rotating shaft, the fixed end of the telescopic oil cylinder 35 is rotatably connected with the oil cylinder connecting seat 36 through a rotating shaft, and a through hole is formed at the top of the oil cylinder connecting seat 36, the fixed end of the telescopic oil cylinder 35 is fixedly connected with an external support frame through a bolt.

In the novel double-door hopper mechanism of the brick making production line, when the telescopic oil cylinder 35 is shortened, the telescopic tail end of the telescopic oil cylinder 35 drives the driving material door 31 to rotate, the driving gear 33 on the driving material door 31 rotates along with the driving material door 31, the driving gear 33 is meshed with the driven gear 34 so as to drive the driven material door 32 to rotate, the driving material door 31 rotates clockwise for a certain angle, the driven material door 32 rotates anticlockwise for a certain angle, raw materials can be discharged through the two discharging openings at the lower end of the double-opening hopper 1, when the telescopic oil cylinder 35 is extended, the telescopic tail end of the telescopic oil cylinder 35 drives the driving material door 31 to rotate, the driving gear 33 on the driving material door 31 rotates along with the driving material door 31, the driving gear 33 is meshed with the driven gear 34 so as to drive the driven material door 32 to rotate, and the driving material door 31 rotates anticlockwise for a certain angle, the driven material door 32 rotates clockwise for a certain angle, and the lower baffle of the driving material door 31 and the lower baffle of the driven material door 32 respectively shield two feed openings at the lower end of the double-opening hopper 1, so that the discharge opening of the double-opening hopper 1 is closed.

In the novel double-door hopper mechanism of the brick making production line, the telescopic oil cylinder 35 telescopically drives the driving material door 31 to rotate, the driving material door 31 drives the driven material door 32 to rotate through the driving gear 33 and the driven gear 34, and the driving material door 31 and the driven material door 32 simultaneously rotate, so that the rotating angle required by opening or closing the driving material door 31 and the driven material door 32 is reduced, the time required by opening or closing the material doors is accelerated, and the blanking speed of the double-opening hopper 1 is accelerated.

When the novel double-door hopper mechanism of the brick making production line needs to open the hopper door for unloading, the telescopic oil cylinder 35 is shortened, the telescopic tail end of the telescopic oil cylinder 35 drives the driving hopper door 31 to rotate clockwise, the driving gear 33 is meshed with the driven gear 34, so that the driven hopper door 32 is driven to rotate anticlockwise, the driving hopper door 31 and the driven hopper door 32 do not shield two feed openings at the lower end of the double-opening hopper 1 any more, and raw materials can be unloaded through the two feed openings at the lower end of the double-opening hopper 1;

when the novel double-door hopper mechanism of the brick making production line needs to close the material door, the telescopic oil cylinder 35 extends, the telescopic tail end of the telescopic oil cylinder 35 drives the driving material door 31 to rotate anticlockwise, the driving gear 33 is meshed with the driving driven gear 34 to drive the driven material door 32 to rotate clockwise, and the driving material door 31 and the driven material door 32 shield two feed openings at the lower end of the double-opening hopper 1 again, so that the material door can be closed.

In the novel double-door hopper mechanism of the brick making production line, in order to conveniently adjust the opening and closing sizes of the driving material door 31 and the driven material door 32, an image acquisition module 11 may be installed below the fixed support and used for acquiring image information of an opening angle of the driving material door 31 in real time and transmitting the acquired image information to a controller, wherein the controller stores preset image information (hereinafter referred to as reference images) of different angles after the driving material door 31 is opened, so that the controller compares the opening and closing images of the driving material door 31 acquired in real time with the reference images, if more materials are in the double-opening hopper and the opening angle of the driving material door 31 is not at the maximum angle, the controller sends a continuous opening instruction to the telescopic cylinder 35, and when the opening angle of the double-opening hopper 1 is compared as the maximum angle, then to send out under the telescopic cylinder 35 and stop opening the instruction, then initiative bin gate 31 and driven bin gate 32 are in the biggest open mode, if along with the material of two mouthful hopper 1 inside reduces gradually, in order to avoid when unloading, initiative bin gate 31 and driven bin gate 32 open the range great, cause the material to splash far away, consequently, through gather in real time the image and the reference picture of initiative bin gate 31 contrast, then along with the change of time, the controller constantly controls telescopic length of telescopic cylinder 35 to ceaselessly to adjust initiative bin gate 31 and driven bin gate 32, can realize avoiding opening greatly because of initiative bin gate 31 and driven bin gate 32, cause the material to splash far away problem.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments can be modified, or technical features of components or all components thereof can be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. A novel double-door hopper mechanism of a brick production line comprises a double-opening hopper (1) and is characterized in that the outer wall of the double-opening hopper (1) is fixedly connected with a fixed support (2), and the inner wall of the fixed support (2) is rotatably connected with a double-opening blanking assembly (3) through a rotating shaft;

two divisions of unloading subassembly (3) are including initiative bin gate (31), driven bin gate (32), the outer wall fixedly connected with driving gear (33) of initiative bin gate (31), the outer wall fixedly connected with driven gear (34) of driven bin gate (32), the outer wall of initiative bin gate (31) is connected through the flexible end rotation of pivot with flexible hydro-cylinder (35), spacing spout (4) have all been seted up to the outer wall of two mouthfuls of hoppers (1), the outer wall of initiative bin gate (31) and the outer wall of driven bin gate (32), the inner wall sliding connection of spacing spout (4) has movable stopper (5).

2. The novel double-door hopper mechanism of the brick making production line as claimed in claim 1, wherein: the fixed support (2) is symmetrically arranged by taking the double-opening hopper (1) as the center.

3. The novel double-door hopper mechanism of the brick making production line as claimed in claim 2, wherein: the driving material door (31) and the driven material door (32) are respectively and rotatably connected between the inner walls of the fixed supports (2) through rotating shafts.

4. The novel double-door hopper mechanism of the brick making production line as claimed in claim 3, wherein: the outer wall of the driving gear (33) is meshed with the outer wall of the driven gear (34).

5. The novel double-door hopper mechanism of the brick making production line as claimed in claim 4, wherein: the side wall of the double-opening hopper (1) is provided with a material cleaning opening, and the side wall of the double-opening hopper (1) is fixedly connected with a limiting clamping block (6).

6. The novel double-door hopper mechanism of the brick making production line as claimed in claim 5, wherein: the limiting fixture block (6) is arranged symmetrically up and down by taking the material cleaning opening as the center, and a clamping baffle (7) is clamped between the limiting fixture block (6) and the outer wall of the double-opening hopper (1).

7. The novel double-door hopper mechanism of the brick making production line as claimed in claim 6, wherein: the outer wall fixedly connected with U type handle (8) of joint baffle (7), joint baffle (7) shelter from in the outside of clear material mouthful.

8. The novel double-door hopper mechanism of the brick making production line as claimed in claim 7, wherein: the lower baffle of the driving material door (31) and the lower baffle of the driven material door (32) respectively shield two feed openings at the lower end of the double-opening hopper (1).

9. The novel double-door hopper mechanism of the brick making production line as claimed in claim 8, wherein: the fixed end of the telescopic oil cylinder (35) is rotatably connected with an oil cylinder connecting seat (36) through a rotating shaft.

10. The novel double-door hopper mechanism of the brick making production line as claimed in claim 9, wherein: the side wall of the upper end of the double-opening hopper (1) is fixedly connected with an L-shaped mounting plate (9), and the outer wall of the L-shaped mounting plate (9) is fixedly connected with a reinforcing rib plate (10).

Images