CN218840743U - Carry fast and break up spiral delivery mechanism - Google Patents

Abstract

The utility model provides a carry fast and break up spiral delivery mechanism, it relates to a transmission equipment's improvement, especially a carry fast and break up spiral delivery mechanism's improvement. The motor comprises a motor main body, a motor support, a first shell, a second shell, a scattering cylinder and a bearing center, wherein the motor main body is connected to the first shell through the motor support; the motor main body comprises a motor and a speed reducer, and the motor speed reducer is arranged at the upper end of the motor; the bearing center contains axle core, axle sleeve, blade, and the axle core is pegged graft at the cover axle inboard, and the cover axle outside is fixed and is provided with the blade. The utility model has the characteristics of the function is broken up to high revolution, single cantilever, takeout material, has improved the efficiency of material transmission, and the design of single cantilever lets the utility model discloses the scope of application is wider.

Description

Carry fast and break up spiral delivery mechanism

Technical Field

The utility model relates to an improvement of transmission equipment, especially an improvement of spiral delivery mechanism is broken up in quick transport.

Background

The screw conveyer is a machine which utilizes a motor to drive a screw to rotate and push materials so as to realize the conveying purpose. The conveying device can convey horizontally, obliquely or vertically, and has the advantages of simple structure, small cross section area, good sealing property, convenience in operation, easiness in maintenance, convenience in closed transportation and the like. The spiral conveyor is divided into a shaft spiral conveyor and a shaftless spiral conveyor in the conveying form, and is divided into a U-shaped spiral conveyor and a tubular spiral conveyor in the appearance. The shaftless screw conveyor is suitable for dry powder materials and small particle materials without viscosity (such as cement, fly ash, lime, grains and the like), while the shaftless screw conveyor is suitable for materials with viscosity and easy winding. (e.g., sludge, biomass, garbage, etc.); at present, a large amount of granular, powdery or blocky materials need to be transported in the middle of various industries, the efficiency of the transportation process is higher, and the production of products is more efficient. Among the present this type of material equipment of transport to screw conveyer is most common, but current screw conveyer conveying efficiency is general, can't keep up with reinforced speed far away, and its leading cause is that current perpendicular screw conveyer rotational speed is slow, leads to the material that adds to in time to export to conveying speed has been reduced. The two-end bearing fixing cantilever is used for conveying materials by utilizing the middle part of the two shafts in a spiral mode, and the low-revolution two-end bearing fixing structure in real life has limitation in application; therefore, in actual production, in consideration of improving the production efficiency and combining the characteristics of materials, the spiral conveying equipment with the functions of high revolution, single cantilever and external material scattering is needed, and the production yield can be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a function spiral delivery mechanism is broken up to high revolution, single cantilever, takeout material, twine easily mud, living beings, rubbish etc. in pulling in that the volume is bigger, can break up it in the transportation, made things convenient for user's packing, the joining of adopting motor reducer lets whole bearing pivoted speed can be bigger, has improved material transmission's efficiency, and the design of single cantilever lets the utility model discloses the scope of application is wider.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the motor comprises a motor main body 1, a motor support 2, a first shell 3, a second shell 4, a breaking cylinder 5 and a bearing center 6, wherein the motor main body 1 is connected to the first shell 3 through the motor support 2, the right side of the first shell 3 is fixedly connected with the second shell 4, the breaking cylinder 5 is arranged on the right side of the second shell 4, and the bearing center 6 penetrates through the center of the first shell 3, the center of the second shell 4 and the center of the breaking cylinder 5 to be connected with the motor main body 1; the motor main body 1 comprises a motor 12 and a motor speed reducer 11, and the motor speed reducer 11 is arranged at the upper end of the motor 12; the bearing center 6 comprises a shaft core 61, a shaft sleeve 62 and a blade 63, wherein the shaft core 61 is inserted in the shaft sleeve 62, and the blade 63 is fixedly arranged on the outer side of the shaft sleeve 62.

Two mounting brackets 31 and two fixing rings 32 are arranged on the first shell 3, the two mounting brackets 31 are transversely fixed on the first shell 3 through screws, two ends of each fixing ring 32 are fixed on the mounting brackets 31 through bolts, and the shaft core 61 is inserted in the center of each fixing ring 32. Therefore, the whole bearing center can be firmly fixed on the first shell 3, one end of the whole bearing center 6 is fixed, and the other end can be freely and selectively supported or suspended, so that the use range of the whole equipment in the transportation process is enlarged.

The fixing ring 32 comprises a ball 321 and a cover ring main body 322, the ball 321 is embedded inside the cover ring main body 322, the whole bearing center 6 can be attached to the ball 321, and the fixing ring can rotate freely along with the driving of the motor. Thus, the bearing center 6 can be ensured to rotate freely in the process of being firmly fixed.

The shaft core 61 is arranged in the first housing 3 and is located at the center of the first housing 3, the rotation of the whole bearing center 6 is more convenient due to the arrangement of the center, and the shaft core 61 is only arranged to facilitate the fixation of the shaft core 61.

The left side of the shaft sleeve 62 is arranged in the second shell 4, the center part of the shaft sleeve 62 is arranged at the inner side of the scattering cylinder 5, and the outer side of the whole shaft sleeve 62 is fixedly connected with a spiral blade. Therefore, the shaft sleeve 62 is fixed from the second shell 4, so that the stirring and the transmission of materials are convenient, and the shaft core 61 can be protected.

4 upside of second casing sets up feed inlet 41, and feed inlet 41 sets up the screw hole all around, and the setting up of screw hole makes things convenient for auxiliary feeding equipment's installation on the feed inlet 41, for example the funnel, makes things convenient for the feeding after the installation, makes things convenient for the transmission of whole equipment.

The motor body 1 comprises a motor speed reducer 11 and a motor 12, the motor speed reducer 11 is fixedly connected with the motor 12, the motor speed reducer 11 is connected to the first shell 3 through a motor support 2, and meanwhile the motor speed reducer 11 controls a connecting shaft core 61. The motor reducer 11 can effectively control the rotating speed of the shaft core 61, can drive heavier materials to be transmitted, can control the motor, and is more convenient to use.

The utility model discloses a theory of operation: the user is using the utility model discloses the in-process of transmission material, because the one end of bearing center 6 is fixed on first casing 3, consequently only need aim at the transmission destination with the non-fixed one end of bearing center 6, put into the transmission material in the feed inlet, the material will be by intensive mixing in second casing 4, transmit when breaking up a section of thick bamboo 5, the material is broken up fully, and then begin to transmit towards the destination along the transmission shaft, the in-process of transmission, can go the rotational speed at control whole bearing center through control motor reducer 11, and the work efficiency is improved.

After the technical scheme is adopted, the utility model discloses beneficial effect does: the utility model relates to a function spiral delivery mechanism is broken up to high revolution, single cantilever, takeout material, winding easily such as mud, living beings, rubbish, the bigger pulling-in of volume carries out the transmission in-process, can break up it in the transportation, has made things convenient for the user to pack, adopts motor reducer's joining to let whole bearing pivoted speed can be bigger, has improved the efficiency of material transmission, and the design of single cantilever lets the utility model discloses the scope of application is more extensive.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a perspective view of a rapid delivery break-up screw conveyor;

FIG. 2 is a first side view of a rapid transport break-up screw conveyor apparatus;

FIG. 3 is a top view of a rapid transport break-up auger delivery apparatus;

FIG. 4 is a front view of a rapid transport break-up screw conveyor;

FIG. 5 is a second side view of a rapid transport break-up screw conveyor apparatus;

FIG. 6 is an enlarged view of portion A of FIG. 3;

description of reference numerals: the motor comprises a motor main body 1, a motor reducer 11, a motor 12, a motor support 2, a first shell 3, a mounting support 31, a fixing ring 32, a ball 321, a cover ring main body 322, a second shell 4, a feed inlet 41, a scattering cylinder 5, a bearing center 6, a shaft core 61, a shaft sleeve 62 and blades 63.

Detailed Description

Referring to fig. 1 to 6, the technical solution adopted by the present embodiment is: it contains motor main part 1, motor support 2, first casing 3, second casing 4, breaks up a section of thick bamboo 5, bearing center 6, and motor main part 1 is connected to first casing 3 through motor support 2, set up two installing supports 31 and two solid fixed rings 32 on the first casing 3, two installing supports 31 pass through the screw and transversely fix on first casing 3, and the bolt fastening is passed through on installing support 31 at solid fixed ring 32's both ends, and axle core 61 pegs graft at solid fixed ring 32's center. Therefore, the whole bearing center can be firmly fixed on the first shell 3, one end of the whole bearing center 6 is fixed, and the other end of the whole bearing center can be freely and selectively supported or hung, so that the use range of the whole equipment in the transportation process is enlarged. The fixing ring 32 comprises a ball 321 and a cover ring main body 322, the ball 321 is embedded inside the cover ring main body 322, the whole bearing center 6 can be attached to the ball 321, and the fixing ring can rotate freely along with the driving of the motor. Thus, the bearing center 6 can be ensured to rotate freely in the process of being firmly fixed.

The right side fixedly connected with second casing 4 of first casing 3, the right side setting of second casing 4 is broken up a section of thick bamboo 5, 4 upsides of second casing set up feed inlet 41, and feed inlet 41 sets up the screw hole all around, and the setting up of screw hole makes things convenient for the installation of auxiliary feed equipment on the feed inlet 41, for example the funnel, makes things convenient for the feeding after the installation, makes things convenient for the transmission of whole equipment.

The bearing center 6 passes through the center of the first shell 3, the center of the second shell 4 and the center of the scattering cylinder 5 and is connected with the motor main body 1; the motor main body 1 comprises a motor 12 and a motor speed reducer 11, and the motor speed reducer 11 is arranged at the upper end of the motor 12; the motor reducer 11 is fixedly connected with the motor 12, the motor reducer 11 is connected to the first shell 3 through the motor support 2, and meanwhile the motor reducer 11 controls the connecting shaft core 61. The motor reducer 11 can effectively control the rotating speed of the shaft core 61, can drive heavier materials to be transmitted, can control the motor, and is more convenient to use.

The bearing center 6 comprises a shaft core 61, a shaft sleeve 62 and blades 63, the shaft core 61 is inserted into the shaft sleeve 62, and the blades 63 are fixedly arranged on the outer side of the shaft sleeve 62. The shaft core 61 is arranged in the first housing 3 and is located at the center of the first housing 3, the rotation of the whole bearing center 6 is more convenient due to the arrangement of the center, and the shaft core 61 is only arranged to facilitate the fixation of the shaft core 61. The left side of the shaft sleeve 62 is arranged in the second shell 4, the center part of the shaft sleeve 62 is arranged at the inner side of the scattering cylinder 5, and the outer side of the whole shaft sleeve 62 is fixedly connected with a spiral blade. Therefore, the shaft sleeve 62 is fixed from the second housing 4, so that the materials can be stirred and conveyed conveniently, and the shaft core 61 can be protected.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. The utility model provides a carry fast and break up spiral delivery mechanism which characterized in that: the motor comprises a motor main body (1), a motor support (2), a first shell (3), a second shell (4), a scattering cylinder (5) and a bearing center (6), wherein the motor main body (1) is connected to the first shell (3) through the motor support (2), the right side of the first shell (3) is fixedly connected with the second shell (4), the scattering cylinder (5) is arranged on the right side of the second shell (4), and the bearing center (6) penetrates through the center of the first shell (3), the center of the second shell (4) and the center of the scattering cylinder (5) to be connected with the motor main body (1); the motor main body (1) comprises a motor (12) and a motor speed reducer (11), wherein the motor speed reducer (11) is arranged at the upper end of the motor (12); the bearing center (6) comprises a shaft core (61), a shaft sleeve (62) and blades (63), the shaft core (61) is inserted into the inner side of the shaft sleeve (62), and the blades (63) are fixedly arranged on the outer side of the shaft sleeve (62).

2. The rapid transport break-up auger delivery apparatus of claim 1, wherein: set up two installing support (31) and two solid fixed ring (32) on first casing (3), installing support (31) pass through the screw fixation on first casing (3), and the bolt fastening is passed through on installing support (31) at the both ends of solid fixed ring (32), and solid fixed ring (32) cup joints on axle core (61).

3. The rapid transport break-up screw conveyor apparatus according to claim 2, wherein: the fixing ring (32) comprises a ball (321) and a cover ring main body (322), the ball (321) is arranged on the inner side of the cover ring main body (322), and the bearing center (6) is attached to the ball (321) to rotate.

4. The rapid transport break-up screw conveyor apparatus according to claim 1, wherein: the shaft core (61) is arranged on the inner side of the first shell (3).

5. The rapid transport break-up screw conveyor apparatus according to claim 1, wherein: the left side of the shaft sleeve (62) is arranged in the second shell (4), and the center part of the shaft sleeve (62) is arranged on the inner side of the scattering cylinder (5).

6. The rapid transport break-up auger delivery apparatus of claim 1, wherein: the feed inlet (41) is arranged on the upper side of the second shell (4), and screw holes are formed in the periphery of the feed inlet (41).

7. The rapid transport break-up screw conveyor apparatus according to claim 1, wherein: the motor main body (1) comprises a motor speed reducer (11) and a motor (12), the motor speed reducer (11) is fixedly connected with the motor (12), and the motor speed reducer (11) controls a connecting shaft core (61).

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