CN220446734U - High-efficiency machine head for vacuum brick extruding machine - Google Patents

Abstract

The utility model relates to the technical field of brick extruding machines, and particularly discloses a high-efficiency machine head for a vacuum brick extruding machine, which comprises a base, wherein a first motor drives an output shaft to rotate through a cutting assembly, a driving belt pulley is driven to rotate when the output shaft rotates, a driven belt pulley is driven to rotate through a belt when the driving belt pulley rotates, a driving shaft is driven to rotate when the driven belt pulley rotates, two eccentric wheels are driven to rotate by the driving shaft, corresponding first connecting rods are driven to rotate by the two eccentric wheels, second connecting rods are driven to rotate by the first connecting rods, third connecting rods are driven to rotate by the second connecting rods, connecting rods are driven to move when the connecting rods move, connecting shafts are driven to move when the connecting rods slide, the connecting shafts can be connected with the two sliding rods, the synchronism of the two sliding rods is improved, a cutting knife is driven to move when the connecting shafts, and the cutting knife divides mud bars to form independent brick blanks, so that the brick blanks are convenient and quick, labor is reduced, and production efficiency is improved.

Description

High-efficiency machine head for vacuum brick extruding machine

Technical Field

The utility model relates to the technical field of brick extruding machines, in particular to a high-efficiency machine head for a vacuum brick extruding machine.

Background

The brick extruding machine consists of motor, clutch, speed reducer, shaft coupling, main shaft, mud pressing plate, etc. The motor is started, the clutch is operated, the main shaft is driven by the speed reducer, and meanwhile, the main shaft is driven by the pair of gears. The mud pressing plate is driven to rotate, mud materials are pressed into the reamer and conveyed to the extrusion position to be extruded into mud strips through further extrusion and conveying to a machine opening.

Chinese patent CN218659697U discloses a vacuum brick extruding machine for hollow brick production, which is convenient for replacing the tap according to different specifications of production, has higher flexibility of use, comprises an extruding barrel and further comprises a discharging box; the discharge box is arranged at the top end of the extrusion barrel and is communicated with the extrusion barrel; the two locking mechanisms are arranged on the extrusion barrel and are used for locking and disassembling the tap openings with different specifications; the driving mechanism is arranged on the locking mechanism and used for driving the locking mechanism to open and close; the extrusion mechanism is arranged on the extrusion barrel and used for extruding raw materials for processing the hollow bricks; the stirring mechanism is arranged on the blanking box and is used for stirring raw materials for processing the hollow bricks; and the blanking mechanism is arranged on the extrusion barrel and is used for carrying out blanking operation on raw materials for processing the hollow bricks.

Because this patent can't cut off the adobe when the ejection of compact, in order to solve above-mentioned problem, a high-efficient aircraft nose for vacuum brick extruder is proposed.

The utility model comprises the following steps:

the utility model aims to solve the problems and provide a high-efficiency machine head for a vacuum brick extruding machine, which solves the problems in the prior art.

In order to solve the problems, the utility model provides a technical scheme that:

the high-efficiency machine head for the vacuum brick extruding machine comprises a base (1), wherein the top of the base is provided with an installation box, the top of the installation box is fixedly connected with a fixing seat, and the top of the fixing seat is provided with a cutting assembly; the cutting assembly comprises a first motor, the top fixedly connected with first motor of fixing base, the output fixedly connected with output shaft of first motor, the outside fixedly connected with driving pulley of output shaft, the inside rotation of install bin is connected with the transmission shaft, the both ends of transmission shaft all extend to the outside of install bin and symmetrical fixedly connected with eccentric wheel, the outside fixedly connected with driven pulley of transmission shaft and driving pulley homonymy, just driven pulley is located between install bin and the eccentric wheel, belt connection between driving pulley and the driven pulley, every the outside of eccentric wheel all rotates and is connected with first connecting rod, every the other end of first connecting rod all rotates and is connected with the second connecting rod, every the one end that first connecting rod was kept away from to the second connecting rod all rotates and is connected with the third connecting rod, one side fixedly connected with mount of install bin, the spout is seted up to the inside symmetry of mount, every the inside equal sliding connection of spout has the slide bar, two fixedly connected with connecting axle between the slide bar, every outside fixedly connected with connecting rod just every the connecting rod has the connecting rod, and every the equal rotation of connecting rod has the base of the top of connecting rod is connected with the base.

As a preferable scheme of the utility model, the inside of the installation box is fixedly connected with a cutting seat, the cutting seat is positioned below the cutting knife, a cutting groove is formed in the cutting seat, and the cutting groove is positioned right below the cutting knife.

As a preferable scheme of the utility model, the top of the base is fixedly connected with a supporting seat, the top of the supporting seat is fixedly connected with a mixing bin, one side of the mixing bin, which is close to the mounting box, is fixedly connected with a machine head, the interior of the machine head is detachably connected with a discharge hole, and the discharge hole extends to the interior of the mounting box and is positioned above the cutting seat.

As a preferable scheme of the utility model, the top of the mixing bin is fixedly connected with a feed inlet, the feed inlet is communicated with the mixing bin, the stirring assembly comprises a fixed plate, the top of the feed inlet is fixedly connected with a fixed plate, the top of the fixed plate is fixedly connected with a second motor, the output end of the second motor is fixedly connected with a rotating shaft, the rotating shaft penetrates through the fixed plate and extends to the inside of the feed inlet, and a plurality of stirring rods are symmetrically and fixedly connected to the outside of the rotating shaft.

As a preferable scheme of the utility model, the stirring assembly comprises a third motor, the outside of the stirring bin is fixedly connected with the third motor, the output end of the third motor is fixedly connected with a first transmission rod, the outside of the first transmission rod is fixedly connected with a first gear, the inside of the stirring bin is rotationally connected with a stirring paddle, one end of the stirring paddle extends to the outside of the stirring bin and is fixedly connected with a second gear, and the first gear is connected with a second gear chain.

As a preferable scheme of the utility model, an arc-shaped groove is formed in the base, the cutting assembly is not contacted with the base when moving, the top of the base is symmetrically and fixedly connected with the supporting legs, and the supporting legs are fixedly connected with the bottoms of the mounting box and the fixing frame.

The beneficial effects of the utility model are as follows: through cutting assembly, start first motor, first motor drives the output shaft and rotates, drive the driving pulley and rotate when the output shaft rotates, drive driven pulley through the belt and rotate when driving pulley rotates, drive the transmission shaft and rotate when driven pulley rotates, drive two eccentric wheels and rotate when the transmission shaft, two eccentric wheels drive and correspond first connecting rod and rotate, drive the second connecting rod and rotate when the first connecting rod rotates, drive the third connecting rod and rotate when the second connecting rod, drive the connecting rod and remove when the third connecting rod moves, drive the slide bar and slide inside the spout, the slide bar drives the connecting axle and removes when sliding, the connecting axle can connect two slide bars, and then improve the synchronism of two slide bars, drive the cutting knife and remove when the connecting axle removes to the mud strip department of cutting seat top, the cutting knife cuts apart the mud strip, and then make it form independent adobe, convenient and fast, reduce the manpower, improve production efficiency.

Description of the drawings:

for ease of illustration, the utility model is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the front structure of the cutting assembly of the present utility model;

FIG. 3 is a schematic side view of a cutting assembly of the present utility model;

FIG. 4 is a schematic view of the internal structure of the stirring bin of the utility model.

In the figure: 1. a base; 2. a mounting box; 3. a fixing seat; 4. a cutting assembly; 41. a first motor; 42. a transmission shaft; 43. an eccentric wheel; 44. a first link; 45. a second link; 46. a third link; 47. a fixing frame; 48. a chute; 49. a slide bar; 410. a connecting shaft; 411. a connecting rod; 412. a cutting knife; 413. an output shaft; 414. a driving pulley; 415. a driven pulley; 5. a cutting seat; 6. cutting a groove; 7. a support base; 8. a mixing bin; 9. a machine head; 10. a discharge port; 11. a feed inlet; 12. a stirring assembly; 121. a fixing plate; 122. a second motor; 123. a rotating shaft; 124. a stirring rod; 13. a material mixing component; 131. a third motor; 132. a first transmission rod; 133. a first gear; 134. stirring paddles; 135. a second gear; 14. an arc-shaped groove; 15. and (5) supporting legs.

The specific embodiment is as follows:

the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Examples:

as shown in fig. 1, 2 and 3, the present utility model provides a technical solution: the high-efficiency machine head for the vacuum brick extruding machine comprises a base 1, wherein the top of the base 1 is provided with a mounting box 2, the top of the mounting box 2 is fixedly connected with a fixing seat 3, and the top of the fixing seat 3 is provided with a cutting assembly 4;

the cutting assembly 4 comprises a first motor 41, the top fixedly connected with first motor 41 of fixing base 3, the output fixedly connected with output shaft 413 of first motor 41, the outside fixedly connected with driving pulley 414 of output shaft 413, the inside rotation of mounting box 2 is connected with transmission shaft 42, the both ends of transmission shaft 42 all extend to the outside of mounting box 2 and symmetrical fixedly connected with eccentric wheel 43, the outside fixedly connected with driven pulley 415 of transmission shaft 42 and driving pulley 414 homonymy, and driven pulley 415 is located between mounting box 2 and eccentric wheel 43, the belt between driving pulley 414 and the driven pulley 415 is connected, the outside of every eccentric wheel 43 all rotates and is connected with first connecting rod 44, the other end of every first connecting rod 44 all rotates and is connected with second connecting rod 45, the one end that first connecting rod 44 was kept away from to every second connecting rod 45 all rotates and is connected with third connecting rod 46, one side fixedly connected with mount 47 of mounting box 2, spout 48 has been seted up to the inside symmetry of mount 47, the inside all sliding connection has slide bar 49, fixedly connected with connecting shaft 410 between two slide bar 49, the outside fixedly connected with connecting rod 49, and every connecting rod's outside fixedly connected with connecting rod 46 and every third connecting rod 46, the bottom of base 1 is connected with the base of connecting rod 1 is dismantled to the top of the base of the connection assembly 411, the top of the material 1 is dismantled.

The working principle of the structure is as follows: through cutting assembly 4, start first motor 41, first motor 41 drives output shaft 413 rotation, drive driving pulley 414 rotation when output shaft 413 rotates, drive driven pulley 415 rotation through the belt when driving pulley 414 rotates, drive transmission shaft 42 rotation when driven pulley 415 rotates, drive two eccentric wheels 43 rotation when transmission shaft 42 rotates, two eccentric wheels 43 drive corresponding first connecting rod 44 rotation, drive second connecting rod 45 rotation when first connecting rod 44 rotates, drive third connecting rod 46 rotation when third connecting rod 46 rotates, drive connecting rod 411 and remove, drive slide bar 49 in the inside slip of spout 48 when connecting rod 411 moves, drive connecting axle 410 removes when slide bar 49 slides, connecting axle 410 can connect two slide bars 49, and then improve the synchronism of two slide bars 49, drive cutting knife 412 when connecting axle 410 removes, when connecting axle 410 removes to the mud strip department above cutting seat 5, cutting knife 412 cuts apart the mud strip, and then make it form independent adobe, convenient and fast, reduce the manpower, improve production efficiency.

As shown in fig. 1 and 4, further, the inside fixedly connected with cutting seat 5 of mounting box 2, and cutting seat 5 is located the below of cutting knife 412, cutting groove 6 has been seted up to the inside of cutting seat 5, and cutting groove 6 is located the bottom fixed connection of cutting knife 412, the top fixedly connected with supporting seat 7 of base 1, the top fixedly connected with stirring storehouse 8 of supporting seat 7, the one side fixedly connected with aircraft nose 9 that stirring storehouse 8 is close to mounting box 2, the inside of aircraft nose 9 can be dismantled and be connected with discharge gate 10, and discharge gate 10 extends to the inside of mounting box 2 and is located the top of cutting seat 5, arc wall 14 has been seted up to the inside of base 1, and cutting assembly 4 contact with base 1 when moving, the top symmetry fixedly connected with landing leg 15 of base 1, and the bottom fixedly connected with cutting knife 412 of landing leg 15 and mounting box 2 and mount 47, through the cooperation convenient to use of cutting seat 5 and cutting groove 6, the bearing capacity of stirring storehouse 8 can be increased through stirring storehouse 8, can store the raw materials through storehouse 8, can mould into the cutting mud of strip through the cooperation of aircraft nose 9 and discharge gate 10 and wait for the raw materials.

As shown in fig. 1 and 4, further, the top of the mixing bin 8 is fixedly connected with a feed inlet 11, the feed inlet 11 is communicated with the mixing bin 8, the stirring assembly 12 comprises a fixed plate 121, the top of the feed inlet 11 is fixedly connected with the fixed plate 121, the top of the fixed plate 121 is fixedly connected with a second motor 122, the output end of the second motor 122 is fixedly connected with a rotating shaft 123, the rotating shaft 123 penetrates through the fixed plate 121 and extends to the inside of the feed inlet 11, the outside of the rotating shaft 123 is symmetrically and fixedly connected with a plurality of stirring rods 124, the mixing assembly 13 comprises a third motor 131, the outside of the mixing bin 8 is fixedly connected with a third motor 131, the output end of the third motor 131 is fixedly connected with a first transmission rod 132, the outside of the first transmission rod 132 is fixedly connected with a first gear 133, the inside of the mixing bin 8 is rotationally connected with a stirring paddle 134, one end of the stirring paddle 134 extends to the outside of the bin 8 and is fixedly connected with a second gear 135, the first gear 133 is connected with the second gear 135 in a chain way, the second motor 122 is started through the stirring assembly 12, the second motor 122 drives the rotation shaft 123 to rotate, the stirring rod 124 is driven to rotate when the rotation shaft 123 rotates, the raw materials are fully stirred to uniformly fall into the interior of the stirring bin 8, blocking is prevented, when the raw materials enter the interior of the stirring bin 8, the stirring assembly 13 is started, the third motor 131 drives the first transmission rod 132 to rotate, the first transmission rod 132 drives the first gear 133 to rotate, the first gear 133 drives the second gear 135 to rotate through the chain when the first gear 133 rotates, the stirring paddle 134 is driven to rotate when the second gear 135 rotates, the stirring paddle 134 rotates to further stir and squeeze the raw materials in the stirring bin 8, and then the stirred raw materials are continuously squeezed into the machine head 9 through the stirring paddle 134, the raw materials pass through aircraft nose 9 and get into inside discharge gate 10 afterwards, and the mud strip that is moulded to be unanimous with discharge gate 10 specification when the raw materials pass through discharge gate 10 influences by the grinding apparatus specification is sent to cutting seat 5 top and waits to cut.

To sum up: when the brick extruding machine needs to be produced, raw materials are injected into the feed inlet 11, the second motor 122 is started through the stirring assembly 12, the second motor 122 drives the rotating shaft 123 to rotate, the stirring rod 124 is driven to rotate when the rotating shaft 123 rotates, the raw materials are fully stirred and uniformly fall into the stirring bin 8, when the raw materials enter the stirring bin 8, the third motor 131 is started through the stirring assembly 13, the third motor 131 drives the first transmission rod 132 to rotate, the first transmission rod 132 drives the first gear 133 to rotate when rotating, the first gear 133 drives the second gear 135 to rotate through a chain, the stirring paddle 134 is driven to rotate when the second gear 135 rotates, the raw materials in the stirring bin 8 can be further stirred and extruded by the rotation of the stirring paddle 134, and then the stirred raw materials are continuously extruded into the machine head 9 through the stirring paddle 134, then raw materials enter the discharge hole 10 through the machine head 9, when the raw materials are influenced by the specification of a grinding tool and are molded to be consistent with the specification of the discharge hole 10 when passing through the discharge hole 10, mud strips are sent out to the upper part of the cutting seat 5, at the moment, the first motor 41 is started through the cutting assembly 4, the first motor 41 drives the output shaft 413 to rotate, the driving pulley 414 is driven to rotate when the output shaft 413 rotates, the driving pulley 414 is driven to rotate through a belt, the driven pulley 415 drives the transmission shaft 42 to rotate when the driven pulley 415 rotates, the transmission shaft 42 drives the two eccentric wheels 43 to rotate when rotating, the two eccentric wheels 43 drive the corresponding first connecting rod 44 to rotate, the first connecting rod 44 drives the second connecting rod 45 to rotate, the second connecting rod 45 drives the third connecting rod 46 to rotate when the third connecting rod 46 rotates, the connecting rod 411 is driven to move, the sliding rod 49 is driven to slide in the sliding groove 48 when the connecting rod 411 moves, the slide bar 49 drives the connecting shaft 410 to move when sliding, and the connecting shaft 410 can connect two slide bars 49, and then improves the synchronism of two slide bars 49, drives the cutting knife 412 to move when the connecting shaft 410 moves, and when the connecting shaft 410 moves to the mud strip department above the cutting seat 5, the cutting knife 412 cuts apart the mud strip, and then makes it form independent adobe, convenient and fast reduces the manpower, improves production efficiency.

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

Claims (6)

1. The efficient machine head for the vacuum brick extruding machine is characterized by comprising a base (1), wherein the top of the base (1) is provided with an installation box (2), the top of the installation box (2) is fixedly connected with a fixing seat (3), and the top of the fixing seat (3) is provided with a cutting assembly (4);

the cutting assembly (4) comprises a first motor (41), the top fixedly connected with first motor (41) of fixing base (3), the output fixedly connected with output shaft (413) of first motor (41), the outside fixedly connected with driving pulley (414) of output shaft (413), the inside of install bin (2) rotates and is connected with transmission shaft (42), the both ends of transmission shaft (42) all extend to the outside of install bin (2) and symmetrical fixedly connected with eccentric wheel (43), the outside fixedly connected with driven pulley (415) of transmission shaft (42) and driving pulley (414) homonymy, just driven pulley (415) are located between install bin (2) and eccentric wheel (43), belt connection between driving pulley (414) and driven pulley (415), the outside of every eccentric wheel (43) all rotates and is connected with first connecting rod (44), and the other end of every first connecting rod (44) all rotates and is connected with second connecting rod (45), and every second connecting rod (45) is kept away from the outside fixedly connected with driven pulley (47) of first connecting rod (44), the inside fixedly connected with fixed frame (47), every equal sliding connection in inside of spout (48) has slide bar (49), two fixedly connected with connecting axle (410) between slide bar (49), every the outside of slide bar (49) is equal fixedly connected with connecting rod (411), and every third connecting rod (46) all rotate with homonymy connecting rod (411) and be connected, the bottom of connecting axle (410) is dismantled and is connected with cutting knife (412), the top of base (1) is provided with stirring subassembly (12), the top of base (1) is provided with and mixes material subassembly (13).

2. The efficient machine head for the vacuum brick extruding machine according to claim 1, wherein a cutting seat (5) is fixedly connected to the inside of the installation box (2), the cutting seat (5) is located below the cutting knife (412), a cutting groove (6) is formed in the inside of the cutting seat (5), and the cutting groove (6) is located right below the cutting knife (412).

3. The efficient machine head for the vacuum brick extruding machine according to claim 1, wherein a supporting seat (7) is fixedly connected to the top of the base (1), a mixing bin (8) is fixedly connected to the top of the supporting seat (7), a machine head (9) is fixedly connected to one side, close to the mounting box (2), of the mixing bin (8), a discharge port (10) is detachably connected to the inside of the machine head (9), and the discharge port (10) extends to the inside of the mounting box (2) and is located above the cutting seat (5).

4. A vacuum brick extruding machine is with high-efficient aircraft nose according to claim 3, characterized in that, mix top fixedly connected with charge door (11) of feed bin (8), just charge door (11) and mix feed bin (8) intercommunication, stirring subassembly (12) are including fixed plate (121), the top fixedly connected with fixed plate (121) of charge door (11), the top fixedly connected with second motor (122) of fixed plate (121), the output fixedly connected with axis of rotation (123) of second motor (122), axis of rotation (123) run through the inside that fixed plate (121) extend to feed door (11), the outside symmetry fixedly connected with a plurality of puddlers (124) of axis of rotation (123).

5. The efficient machine head for the vacuum brick extruding machine according to claim 3, wherein the stirring assembly (13) comprises a third motor (131), the third motor (131) is fixedly connected to the outside of the stirring bin (8), a first transmission rod (132) is fixedly connected to the output end of the third motor (131), a first gear (133) is fixedly connected to the outside of the first transmission rod (132), a stirring paddle (134) is rotatably connected to the inside of the stirring bin (8), one end of the stirring paddle (134) extends to the outside of the stirring bin (8) and is fixedly connected with a second gear (135), and the first gear (133) is connected with a second gear (135) in a chain mode.

6. The efficient machine head for the vacuum brick extruding machine according to claim 1, wherein an arc-shaped groove (14) is formed in the base (1), the cutting assembly (4) is not contacted with the base (1) when moving, supporting legs (15) are symmetrically and fixedly connected to the top of the base (1), and the supporting legs (15) are fixedly connected with the bottoms of the installation box (2) and the fixing frame (47).