CN210525454U - Double-layer material distributing brick machine - Google Patents

Abstract

The utility model discloses a double-layer material brick machine, which comprises a frame, a controller, an outer shell, a feeding hopper, a first hydraulic cylinder, a second hydraulic cylinder, an inner shell, a motor, a baffle plate, a spiral conveying rod, a material guide plate, a forming frame, a bottom plate, a lower pressure head and an anti-blocking mechanism, wherein the anti-blocking mechanism is arranged inside the outer shell, a driving bevel gear is driven by a motor output shaft to rotate, the driving bevel gear is matched with a driven bevel gear to drive a connecting rod and a rotating circular plate to rotate, so that a fixed cylinder rotates in a reciprocating way, the fixed cylinder pulls a transmission rod to swing in a reciprocating way in a left-right way, the transmission rod drives a sliding block, a fixed rod and a reciprocating rod to move in a left-right way, thereby realizing that the reciprocating rod moves in a reciprocating way to loosen the raw materials at the bottom of the feeding hopper back and, the beneficial effect of improving work efficiency.

Description

Double-layer material distributing brick machine

Technical Field

The utility model relates to a brick machine technical field, concretely relates to double-deck cloth brick machine.

Background

The brick machine is a mechanical device for producing bricks as the name implies, generally uses stone powder, fly ash, slag, broken stone, sand, water and the like as raw materials to produce rotary blocks, and in order to meet the requirement of modernized aesthetics, the marble-imitated rotary blocks are more and more favored, and in order to improve the production efficiency, a special brick machine is born.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects in the prior art, a double-layer material distributing brick machine is provided, and the problem that the working efficiency is affected due to the fact that raw materials are easy to accumulate and block at the bottom of a hopper in the material distributing process because the hopper is wide at the top and narrow at the bottom when the brick machine in the prior art distributes materials is solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a double-layer material brick machine, which comprises a frame, a controller, an outer shell, a feeding hopper, a first hydraulic cylinder, a second hydraulic cylinder, an inner shell, a motor, a baffle plate, a spiral conveying rod, a material guide plate, a forming frame, a bottom plate, a lower press head and an anti-blocking mechanism, wherein the controller is arranged at the bottom end surface inside the frame, the outer shell is locked at the top end surface of the frame, the feeding hopper is fixedly inserted with two openings arranged at the inner sides of the left and right sides of the top end surface of the outer shell, the first hydraulic cylinder is arranged at the middle part of the top end surface of the outer shell, an output shaft of the first hydraulic cylinder penetrates through the top end surface of the outer shell, the second hydraulic cylinder is arranged at the middle part of the bottom end surface inside the frame, the inner shell is locked at the left and right ends of the inner side of the frame, the motor is, the anti-blocking mechanism is composed of a driving bevel gear, a driven bevel gear, a connecting rod, a support, a rotating circular plate, a shaft rod, a fixed cylinder and a reciprocating mechanism, wherein the inner ring of the driving bevel gear is fastened on the outer side of the output shaft of the motor, the driving bevel gear is located on the left side of the baffle, the left side of the bottom end face of the driven bevel gear is meshed with the top end face of the driving bevel gear, the connecting rod is fixedly inserted into the top end of the inner side of the driven bevel gear, the connecting rod penetrates through the top end face of the inner side of the inner shell and then is locked in the middle of the bottom end face of the rotating circular plate, the support is installed at the top of the left end face of the baffle, the inner side end face of the support is movably connected with.

Furthermore, the spiral conveying rod is fixedly connected to the right end face of the output shaft of the motor, the material guide plate is connected to a material discharge opening formed in the right side of the bottom end face of the inner shell, the forming frame is fastened on the inner side of a square opening formed in the middle of the bottom end face of the outer shell, the left end and the right end of the inner side of the forming frame are respectively connected to the bottoms of the left and the right opposite faces of the two baffles, the bottom plate slides up and down along the inner side of the forming frame and is locked on the output shaft of the top end face of the second hydraulic cylinder, the lower pressing head is installed on the output shaft of the bottom end face of the first hydraulic.

Further, reciprocating mechanism comprises U type frame, slider, transfer line, opening, dead lever and reciprocating lever, U type frame closure is in inner shell top face left side, the slider is along the inboard horizontal slip of U type frame, transfer line activity nestification is in fixed cylinder outside bottom, and transfer line top face right side is connected through pivot and the inboard top face rotation of opening, slider left end face middle part is seted up perpendicularly to the opening, the dead lever is integrated structure and sets up in slider right-hand member face middle part, and the dead lever runs through in the inboard right-hand member face of U type frame and goes into hopper left end face bottom perpendicularly, reciprocating lever closure is in dead lever top face right side, and reciprocating lever is located into the inboard bottom of hopper.

Furthermore, a smooth ceramic layer is arranged on the end face of the inner side of the U-shaped frame.

Further, the length of the reciprocating rod is 15 cm.

Furthermore, a shaft groove corresponding to the shaft lever is formed in the left side of the top end face of the inner side of the shell.

Furthermore, two threaded holes are formed in the front side and the rear side of the right end face of the support, and the top of the left end face of the baffle is provided with a threaded hole corresponding to the baffle.

Furthermore, the top end face of the material guide plate and the bottom end face of the inner side of the shell form an included angle of 30 degrees.

Further, the motor model is YL-21 motor.

Furthermore, the driving bevel gear is made of carbon steel.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problem that when the brick machine in the prior art is used for distributing materials, the hopper is wide at the top and narrow at the bottom, so that raw materials are easy to accumulate and block at the bottom of the hopper in the material distributing process, the raw materials are difficult to quickly fall down for material pressing and forming, and the working efficiency is influenced, the anti-blocking mechanism is arranged at the inner side of the shell, the driving bevel gear is driven by the output shaft of the motor to rotate, the driving bevel gear is matched with the driven bevel gear to drive the connecting rod and the rotating circular plate to rotate, so that the fixed cylinder rotates in a reciprocating manner, the fixed cylinder pulls the transmission rod to swing in a reciprocating manner from side to side, and the transmission rod drives the sliding block, the fixed rod and the reciprocating rod to move left and right at the same time, so that the reciprocating rod can reciprocate to loosen the raw materials at, the beneficial effect of improving work efficiency.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 3 is a schematic structural view of the anti-blocking mechanism of the present invention;

fig. 4 is a schematic top view of the anti-blocking mechanism of the present invention;

fig. 5 is a schematic diagram of the explosion structure of the reciprocating mechanism of the present invention.

In the figure: the device comprises a rack-1, a controller-2, an outer shell-3, a feeding hopper-4, a first hydraulic cylinder-5, a second hydraulic cylinder-6, an inner shell-7, a motor-8, a baffle-10, a spiral conveying rod-11, a material guide plate-12, a forming frame-13, a bottom plate-14, a lower pressure head-15, an anti-blocking mechanism-9, a driving bevel gear-91, a driven bevel gear-92, a connecting rod-93, a bracket-94, a rotating circular plate-95, a shaft rod-96, a fixed cylinder-97, a reciprocating mechanism-98, a U-shaped frame-981, a sliding block-982, a transmission rod-983, an opening-984, a fixed rod-985 and a reciprocating rod-986.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the present invention provides a double-layer brick distributing machine: the automatic anti-blocking device comprises a rack 1, a controller 2, an outer shell 3, a feeding hopper 4, a first hydraulic cylinder 5, a second hydraulic cylinder 6, an inner shell 7, a motor 8, a baffle 10, a spiral conveying rod 11, a material guide plate 12, a forming frame 13, a bottom plate 14, a lower pressure head 15 and an anti-blocking mechanism 9, wherein the controller 2 is installed on the bottom end face of the inner side of the rack 1, the outer shell 3 is locked on the top end face of the rack 1, the feeding hopper 4 is fixedly inserted with two inner sides of through holes formed in the left side and the right side of the top end face of the outer shell 3, the first hydraulic cylinder 5 is installed in the middle of the top end face of the outer shell 3, an output shaft of the first hydraulic cylinder 5 penetrates through the top end face of the outer shell 3, the second hydraulic cylinder 6 is installed in the middle of the bottom end face of the inner side of the rack 1, the inner shell 7 is locked by two, the anti-blocking mechanism 9 is composed of a driving bevel gear 91, a driven bevel gear 92, a connecting rod 93, a bracket 94, a rotating circular plate 95, a shaft lever 96, a fixed cylinder 97 and a reciprocating mechanism 98, wherein the inner ring of the driving bevel gear 91 is fastened at the outer side of the output shaft of the motor 8, and the driving bevel gear 91 is positioned at the left side of the baffle 10, the left side of the bottom end surface of the driven bevel gear 92 is meshed with the top end surface of the driving bevel gear 91, the connecting rod 93 is fixedly inserted at the top end of the inner side of the driven bevel gear 92, and the connecting rod 93 passes through the top end surface of the inner side of the inner shell 7 and then is locked in the middle of the bottom end surface of the rotating circular plate 95, the bracket 94 is arranged at the top of the left end surface of the baffle plate 10, and the end surface of the inner side of the bracket 94 is movably connected with the side surface of the connecting rod 93, the rotating circular plate 95 is rotatably connected with the end surface of the inner side of the shell 3 through a shaft lever 96, the fixed cylinder 97 is an integrated structure and is arranged at the right side of the top end surface of the rotating circular plate 95, and the reciprocating mechanism 98 is arranged at the right side of the fixed cylinder 97.

The screw conveying rod 11 is fixedly connected to the right end face of the output shaft of the motor 8, the material guide plate 12 is connected to a material discharge opening formed in the right side of the bottom end face of the inner shell 7, the forming frame 13 is fastened on the inner side of a square opening formed in the middle of the bottom end face of the outer shell 3, the left end and the right end of the inner side of the forming frame 13 are respectively connected to the bottoms of the left and the right opposite faces of the two baffles 10, the bottom plate 14 slides up and down along the inner side of the forming frame 13, the bottom plate 14 is locked on the output shaft of the top end face of the second hydraulic cylinder 6, the lower pressing head 15 is mounted on the output shaft of the bottom end face of the first hydraulic cylinder 5, the lower pressing head 15 movably extends into the inner side of.

Wherein the reciprocating mechanism 98 consists of a U-shaped frame 981, a sliding block 982, a transmission rod 983, an opening 984, a fixed rod 985 and a reciprocating rod 986, the U-shaped frame 981 is locked at the left side of the top end surface of the inner shell 7, the sliding block 982 slides left and right along the inner side of the U-shaped frame 981, the transmission rod 983 is movably nested at the bottom end of the outer side of the fixed cylinder 97, and the right side of the top end surface of the transmission rod 983 is rotationally connected with the top end surface of the inner side of the opening 984 through a rotating shaft, the opening 984 is vertically arranged in the middle of the left end face of the sliding block 982, the fixed rod 985 is arranged in the middle of the right end face of the sliding block 982 in an integrated structure, the fixed rod 985 vertically penetrates through the right end face of the inner side of the U-shaped frame 981 and the bottom of the left end face of the feeding hopper 4, the reciprocating rod 986 is locked at the right side of the top end face of the fixed rod 985, and the reciprocating rod 986 is positioned at the bottom end of the inner side of the feeding hopper 4, so that the reciprocating rod 986 can reciprocate to loosen the bottom end of the inner side of the feeding hopper 4.

A smooth ceramic layer is arranged on the end face of the inner side of the U-shaped frame 981, and therefore the sliding block 982 can slide in the U-shaped frame 981 quickly.

Wherein, the length of reciprocating rod 986 is 15cm, and the loosening effect is better.

The left side of the top end surface of the inner side of the housing 3 is provided with a shaft groove corresponding to the shaft lever 96, so that the shaft lever 96 can rotate stably.

Two threaded holes are formed in the front side and the rear side of the right end face of the support 94, and threaded holes corresponding to the threaded holes are formed in the top of the left end face of the baffle 10, so that the support 94 can be mounted quickly.

The top end surface of the material guide plate 12 and the bottom end surface of the inner side of the shell 3 form an included angle of 30 degrees, so that the material on the material guide plate 12 can quickly enter the forming frame 13.

Wherein, the motor 8 is a YL-21 motor with larger horsepower.

The driving bevel gear 91 is made of carbon steel.

The utility model discloses a carbon steel material that drive bevel gear 91 adopted has the stronger advantage of wearability.

The patent states: the first hydraulic cylinder 5 is a hydraulic actuating element which converts hydraulic energy into mechanical energy and does linear reciprocating motion (or swinging motion), has simple structure and reliable work, can omit a speed reducer when realizing reciprocating motion, has no transmission clearance and moves stably, thereby being widely applied to hydraulic systems of various machines, and the output force of the hydraulic cylinder is in direct proportion to the effective area of a piston and the pressure difference between the two sides of the piston; the hydraulic cylinder basically comprises a cylinder barrel and a cylinder cover, a piston and a piston rod, a sealing device, a buffering device and an exhaust device, wherein the buffering device and the exhaust device are determined according to specific application occasions, and other devices are indispensable.

The working principle is as follows: firstly, raw materials for manufacturing bricks are placed in a feeding hopper 4, so that the raw materials slide downwards through the feeding hopper 4, then a motor 8 is started through a controller 2, the motor 8 is driven to rotate by an electric output shaft, the output shaft of the motor 8 rotates and simultaneously drives a driving bevel gear 91 to rotate, the driving bevel gear 91 drives a connecting rod 93 and a rotating circular plate 95 to rotate by matching with a driven bevel gear 92, a fixed cylinder 97 on the rotating circular plate 95 rotates in a reciprocating manner, the fixed cylinder 97 pulls a transmission rod 983 to swing in a reciprocating manner from side to side, meanwhile, the transmission rod 983 drives a sliding block 982, a fixed rod 985 and a reciprocating rod 986 to move left and right, so that the reciprocating rod 986 reciprocates to loosen the raw materials at the bottom of the feeding hopper 4 back and forth, the loosened raw materials enter an inner shell 7 through the feeding hopper 4, and simultaneously drive a spiral conveying rod 11 to rotate through the output, make the raw materials carry out the transmission right under the effect of spiral loose pole 11, then discharge through the discharge gate that inner shell 7 bottom end face right side set up and enter into the shaping frame 13 in, then make the output shaft downstream of first pneumatic cylinder 5 through the outside liquid supply device that is connected with first pneumatic cylinder 5, and the output shaft of first pneumatic cylinder 5 drives down pressure head 15 downstream and with the raw materials extrusion in the shaping frame 13, after placing a period of time when the shaping, make the output shaft downstream of second pneumatic cylinder 6 through the outside liquid supply device that control is connected with second pneumatic cylinder 6, and the output shaft of second pneumatic cylinder 6 drives bottom plate 14 downstream and takes out the fashioned fragment of brick, then press from both sides the fashioned fragment of brick through the outside material device that presss from both sides, and transport through the conveyer.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A double-layer material distributing brick machine comprises a rack (1), a controller (2), an outer shell (3), a feeding hopper (4), a first hydraulic cylinder (5), a second hydraulic cylinder (6), an inner shell (7), a motor (8), a baffle (10), a spiral conveying rod (11), a material guide plate (12), a forming frame (13), a bottom plate (14) and a lower pressing head (15), wherein the controller (2) is installed on the bottom end face of the inner side of the rack (1), the outer shell (3) is locked on the top end face of the rack (1), the feeding hopper (4) is fixedly inserted with two inner sides of through holes formed in the left side and the right side of the top end face of the outer shell (3), the first hydraulic cylinder (5) is installed in the middle of the top end face of the outer shell (3), an output shaft of the first hydraulic cylinder (5) penetrates through the top end face of the outer shell (3), the second hydraulic cylinder (6), the inner shell (7) is locked by two left and right ends on the inner side of the frame (1), the motor (8) is fixedly arranged on the left end surface on the inner side of the inner shell (7), and an output shaft of the motor (8) vertically penetrates through the middle part of the left end surface of the baffle plate (10);

the method is characterized in that: the anti-blocking mechanism (9) is arranged at the left end of the inner side of the shell (3), the anti-blocking mechanism (9) is composed of a driving bevel gear (91), a driven bevel gear (92), a connecting rod (93), a support (94), a rotating circular plate (95), a shaft lever (96), a fixed cylinder (97) and a reciprocating mechanism (98), the inner ring of the driving bevel gear (91) is fastened at the outer side of an output shaft of the motor (8), the driving bevel gear (91) is positioned at the left side of the baffle (10), the left side of the bottom end face of the driven bevel gear (92) is meshed with the top end face of the driving bevel gear (91), the connecting rod (93) is fixedly inserted at the top end of the inner side of the driven bevel gear (92), the connecting rod (93) penetrates through the top end face of the inner side of the inner shell (7) and then is locked in the middle of the bottom end face of the rotating, and the end surface of the inner side of the support (94) is movably connected with the side surface of the connecting rod (93), the rotating circular plate (95) is rotatably connected with the end surface of the inner side of the shell (3) through a shaft lever (96), the fixed cylinder (97) is of an integrated structure and is arranged on the right side of the end surface of the rotating circular plate (95), and the reciprocating mechanism (98) is arranged on the right side of the fixed cylinder (97).

2. A double-deck brick machine for distributing materials as claimed in claim 1, wherein: the spiral conveying rod (11) is fixedly connected to the right end face of an output shaft of the motor (8), the material guide plate (12) is connected to a material discharge opening formed in the right side of the bottom end face of the inner shell (7), the forming frame (13) is fastened to the inner side of a square opening formed in the middle of the bottom end face of the outer shell (3), the left end and the right end of the inner side of the forming frame (13) are respectively connected to the bottoms of the left and the right opposite faces of the two baffles (10), the bottom plate (14) slides up and down along the inner side of the forming frame (13), the bottom plate (14) is locked to an output shaft of the top end face of the second hydraulic cylinder (6), the lower pressing head (15) is installed on an output shaft of the bottom end face of the first hydraulic cylinder (5), the lower pressing head (15) movably extends into the inner side of.

3. A double-deck brick machine for distributing materials as claimed in claim 1, wherein: the reciprocating mechanism (98) consists of a U-shaped frame (981), a sliding block (982), a transmission rod (983), an opening (984), a fixed rod (985) and a reciprocating rod (986), the U-shaped frame (981) is locked on the left side of the top end face of the inner shell (7), the sliding block (982) slides left and right along the inner side of the U-shaped frame (981), the transmission rod (983) is movably nested at the bottom end of the outer side of the fixed cylinder (97), the right side of the top end face of the transmission rod (983) is rotatably connected with the top end face of the inner side of the opening (984) through a rotating shaft, the opening (984) is vertically arranged in the middle of the left end face of the sliding block (982), the fixed rod (985) is an integrated structure and is arranged in the middle of the right end face of the sliding block (982), the fixed rod (985) vertically penetrates through the right end face of the inner side of the U-shaped frame (981) and the bottom of the left, and the reciprocating rod (986) is positioned at the bottom end of the inner side of the feeding hopper (4).

4. A double-deck brick machine of material distribution as defined in claim 3, wherein: and a smooth ceramic layer is arranged on the end surface of the inner side of the U-shaped frame (981).

5. A double-deck brick machine of material distribution as defined in claim 3, wherein: the length of the reciprocating rod (986) is 15 cm.

6. A double-deck brick machine for distributing materials as claimed in claim 1, wherein: and a shaft groove corresponding to the shaft rod (96) is formed in the left side of the top end face of the inner side of the shell (3).

7. A double-deck brick machine for distributing materials as claimed in claim 1, wherein: two threaded holes are formed in the front side and the rear side of the right end face of the support (94), and threaded holes corresponding to the threaded holes are formed in the top of the left end face of the baffle (10).

8. A double-deck brick machine for distributing materials as claimed in claim 1, wherein: the top end surface of the material guide plate (12) and the bottom end surface of the inner side of the shell (3) form an included angle of 30 degrees.

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