CN219566488U - Multidirectional conveyer belt of compound admixture production - Google Patents

Abstract

The utility model provides a multi-directional conveyor belt produced by a composite admixture, which comprises four supporting legs, wherein the middle parts of the inner sides among the supporting legs on the front side and the middle parts of the inner sides among the supporting legs on the rear side are connected with connecting frames through bolts; the double-motor-driven multidirectional conveying belt structure comprises mounting frames, wherein the front side and the rear side of the middle part of the inner side between the mounting frames are respectively connected with conveying rollers through transverse bearings, and the left ends of the conveying rollers respectively penetrate through the inside of the mounting frames on the left side; and a conveyor belt is arranged on the inner side between the mounting frames. The utility model is provided with the mounting frame, the conveying roller, the conveying belt, the auxiliary supporting roller, the U-shaped mounting seat, the driving motor and the clutch connecting block, which is beneficial to realizing the direct transmission function of the motor and effectively improving the running stability of the equipment.

Description

Multidirectional conveyer belt of compound admixture production

Technical Field

The utility model belongs to the technical field of multi-directional conveyor belts, and particularly relates to a multi-directional conveyor belt produced by a composite admixture.

Background

The utility model provides a compound admixture production multidirectional conveyer belt is a equipment that is used for carrying compound admixture, and its theory of operation is mainly through motor drive sprocket rotates, then drives the axis of rotation through chain and driven sprocket and rotates, and the axis of rotation then can pass through the connecting rod, outer go-between and rubber pad drive conveyer belt remove to can reach the purpose of carrying compound admixture, a compound admixture production is with multidirectional conveyer belt of publication number CN216888477U, including driven mechanism and passive mechanism, passive mechanism includes the axis of rotation, the axis of rotation is close to a plurality of connecting rods of lateral wall evenly fixedly connected with of both ends face, the axis of rotation side fixedly connected with outer go-between is kept away from to the connecting rod, the axis of rotation side has been kept away from to the outer go-between and has been cup jointed the rubber pad, and this multidirectional conveyer belt still has some problems in the in-process of in-service use, for example: the contact area of the driving sprocket and the chain is smaller, so that the phenomenon of chain disengagement or tooth jump is very easy to occur to the driving sprocket and the chain in the running process of the equipment, and the intermittent movement of the conveyor belt is possibly caused, and the running of the equipment is unstable.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a multi-directional conveyor belt produced by using a composite admixture, which can realize the effect of direct transmission of a motor and can effectively improve the running stability of equipment.

The technical scheme is as follows: the utility model provides a compound admixture production multidirectional conveyor belt, includes the supporting leg, and the supporting leg is provided with four, wherein the inboard intermediate part between the supporting leg of front side and the inboard intermediate part between the supporting leg of rear side all bolted connection have the link, its characterized in that, supporting leg upper end is connected with the multidirectional conveyor belt structure of bi-motor drive; the double-motor-driven multidirectional conveying belt structure comprises mounting frames, wherein the front side and the rear side of the middle part of the inner side between the mounting frames are respectively connected with conveying rollers through transverse bearings, and the left ends of the conveying rollers respectively penetrate through the inside of the mounting frames on the left side; a conveyor belt is arranged on the inner side between the mounting frames; the conveying roller on the front side is in transmission connection with the conveying roller on the rear side through a conveying belt; the upper middle parts of the inner sides of the mounting frames are respectively connected with auxiliary supporting rollers through bearings in sequence from front to back, and the upper sides of the auxiliary supporting rollers are respectively in rolling contact with the upper parts of the inner sides of the conveyor belts; the front side and the rear side of the left part of the mounting frame on the left side are respectively connected with a U-shaped mounting seat through bolts, and an opening in the middle of the left part of the U-shaped mounting seat is respectively connected with a driving motor through bolts; the inner sides of the U-shaped installation seats are respectively provided with a clutch connecting block structure.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the utility model, the mounting frame, the conveying roller, the conveying belt, the auxiliary supporting roller, the U-shaped mounting seat, the driving motor and the clutch connecting block are arranged in a structure which is beneficial to realizing the direct transmission function of the motor and can effectively improve the running stability of equipment.

2. According to the utility model, the clutch connecting block structure is beneficial to realizing the function of conveniently connecting or separating the driving motor and the conveying roller, and the problem that the driving motor which does not work rotates along with the conveying roller can be effectively avoided, so that the driving motor can be effectively protected from being damaged.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of a dual motor driven multi-directional conveyor belt structure of the present utility model.

Fig. 3 is a schematic view of the structure of the present utility model when the clutched connecting block structure is combined.

Fig. 4 is a schematic structural view of the present utility model with the clutchable connecting block structure disengaged.

In the figure:

1. support legs; 2. a connecting frame; 3. a dual motor driven multi-directional conveyor belt structure; 31. a mounting frame; 32. a conveying roller; 33. a conveyor belt; 34. an auxiliary support roller; 35. a U-shaped mounting seat; 36. a driving motor; 37. a clutchable connecting block structure; 371. a connecting block; 372. a first hollow connecting shaft; 373. an annular spline shaft; 374. and a second hollow connecting shaft.

Detailed Description

The utility model is specifically described below with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a multi-directional conveyor belt produced by the composite admixture comprises four supporting legs 1, wherein the four supporting legs 1 are respectively connected with a connecting frame 2 through bolts at the middle part of the inner side between the supporting legs 1 on the front side and the middle part of the inner side between the supporting legs 1 on the rear side.

The multi-directional conveyer belt produced by the composite admixture further comprises a double-motor-driven multi-directional conveyer belt structure 3, and the double-motor-driven multi-directional conveyer belt structure 3 is connected with the supporting legs 1, so that the direct transmission function of the motor is realized.

The double-motor-driven multidirectional conveying belt structure 3 comprises a mounting frame 31, conveying rollers 32 are respectively connected to the front side and the rear side of the middle part of the inner side of the mounting frame 31 through transverse bearings, and the left ends of the conveying rollers 32 respectively penetrate through the inside of the mounting frame 31 on the left side; a conveyor belt 33 is arranged on the inner side between the mounting frames 31; the front conveying roller 32 is in transmission connection with the rear conveying roller 32 through a conveying belt 33; the middle upper part of the inner side between the mounting frames 31 is respectively connected with auxiliary supporting rollers 34 from front to back in a bearing way, and the upper sides of the auxiliary supporting rollers 34 are respectively in rolling contact with the upper part of the inner side of the conveyor belt 33; the front side and the rear side of the left part of the mounting frame 31 on the left side are respectively connected with a U-shaped mounting seat 35 by bolts, and the opening of the middle part of the left part of the U-shaped mounting seat 35 is respectively connected with a driving motor 36 by bolts; when the composite admixture is conveyed, firstly, the moving direction of the conveying belt 33 needs to be determined, when the conveying belt 33 needs to move forwards, an operator can combine the front-side-arranged clutch connecting block structure 37 and separate the rear-side-arranged clutch connecting block structure 37, then an external control panel can control the front-side-arranged driving motor 36 to start, so that the driving motor 36 drives the conveying roller 32 to rotate forwards through the clutch connecting block structure 37, at the moment, the conveying roller 32 can drive the conveying belt 33 to move forwards and convey the composite admixture, when the conveying belt 33 needs to move backwards, the operator needs to separate the front-side-arranged clutch connecting block structure 37, combine the rear-side-arranged clutch connecting block structure 37 and start the rear-side driving motor 36, and compared with the prior art, the utility model can directly transmit power to the conveying roller 32 through the motor, thereby the intermittent rotation problem of the conveying roller 32 can not occur, the intermittent movement problem can not occur to the conveying belt 33, and the running stability of equipment can be effectively improved; the utility model also adopts a double-motor driving mode, and no matter the conveyor belt 33 moves forwards or backwards, the tight edge of the conveyor belt 33 always faces upwards, so that the friction force between the conveyor belt 33 and the auxiliary supporting roller 34 can be effectively reduced, the service life of the conveyor belt 33 can be further effectively prolonged, and the working power of the driving motor 36 can be effectively reduced.

In this embodiment, as shown in fig. 3, two clutchable connecting block structures 37 are provided, each of which includes a connecting block 371, and a spline groove is formed in the right side of the inside of the connecting block 371; the middle part of the left part of the connecting block 371 is integrally connected with a first hollow connecting shaft 372; the annular spline shaft 373 is connected with the inside meshing of spline groove, and the inboard integration of annular spline shaft 373 is connected with second hollow connecting shaft 374, and wherein annular spline shaft 373 is located the left side of second hollow connecting shaft 374 outer wall.

In this embodiment, specifically, the front and rear sides of the lower portion of the mounting frame 31 are respectively connected with the upper ends of the supporting legs 1 through bolts.

In this embodiment, specifically, the first hollow connecting shafts 372 are respectively located inside the U-shaped mounting seats 35, and the left ends of the first hollow connecting shafts 372 are respectively connected to the outer wall of the output shaft of the driving motor 36 in a key manner.

In this embodiment, specifically, the second hollow connecting shafts 374 are respectively sleeved at the left ends of the conveying rollers 32, and the second hollow connecting shafts 374 are connected with the conveying rollers 32 by keys, and it should be noted that the keys for connecting the second hollow connecting shafts 374 with the conveying rollers 32 adopt guiding flat keys, so that the second hollow connecting shafts 374 slide on the outer walls of the conveying rollers 32.

In this embodiment, specifically, the right opening in the front side of the second hollow connecting shaft 374 is screwed with an inner hexagon bolt, and the rear end of the inner hexagon bolt abuts against the outer wall of the conveying roller 32.

In this embodiment, the conveying roller 32 and the auxiliary supporting roller 34 are stainless steel rollers.

In this embodiment, specifically, the connection block 371 is an alloy steel block with a circular longitudinal section.

In this embodiment, specifically, the first hollow connecting shaft 372 and the second hollow connecting shaft 374 are hollow alloy steel shafts.

In this embodiment, as shown in fig. 4, the annular spline shaft 373 is an annular alloy steel spline shaft, when the annular spline shaft 373 is required to be separated from the connecting block 371, an operator can loose the inner hexagonal bolt through an external hexagonal wrench, at this time, the second hollow connecting shaft 374 can slide on the outer wall of the conveying roller 32, then the operator can move the second hollow connecting shaft 374 to the right side, at this time, the second hollow connecting shaft 374 can drive the annular spline shaft 373 to move to the right side, and the annular spline shaft 373 moves out from the inner side of the spline groove, thereby completing the separation.

In this embodiment, specifically, the driving motor 36 is an AKM2G series servomotor, and the driving motor 36 is electrically connected to an external control panel.

Principle of operation

In the utility model, when the conveying belt 33 is required to move forward, an operator can combine the front-side arranged clutchable connecting block structure 37 and the rear-side arranged clutchable connecting block structure 37, then the external control panel controls the front-side arranged driving motor 36 to start, so that the driving motor 36 drives the conveying roller 32 to rotate forward through the clutchable connecting block structure 37, at the moment, the conveying roller 32 drives the conveying belt 33 to move forward and convey the composite admixture, when the conveying belt 33 is required to move backward, the operator needs to combine the front-side clutchable connecting block structure 37 and start the rear-side driving motor 36, so that the driving motor 36 rotates backward.

By using the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the utility model.

Claims (5)

1. The utility model provides a compound admixture production multidirectional conveyor belt, includes supporting leg (1), supporting leg (1) are provided with four, wherein the front side between supporting leg (1) inboard intermediate position and rear side between supporting leg (1) inboard intermediate position all bolted connection have link (2), characterized in that, supporting leg (1) upper end is connected with bi-motor drive multidirectional conveyor belt structure (3); the double-motor-driven multidirectional conveying belt structure (3) comprises a mounting frame (31), wherein the front side and the rear side of the middle part of the inner side between the mounting frames (31) are respectively connected with a conveying roller (32) through transverse bearings, and the left ends of the conveying rollers (32) respectively penetrate through the inner part of the mounting frame (31) on the left side; a conveyor belt (33) is arranged on the inner side between the mounting frames (31); the front conveying roller (32) is in transmission connection with the rear conveying roller (32) through a conveying belt (33); the upper parts in the inner sides of the mounting frames (31) are respectively connected with auxiliary supporting rollers (34) from front to back in sequence in a bearing way, and the upper sides of the auxiliary supporting rollers (34) are respectively in rolling contact with the upper parts in the inner sides of the conveyor belts (33); the front side and the rear side of the left part of the mounting frame (31) on the left side are respectively connected with a U-shaped mounting seat (35) through bolts, and the opening in the middle part of the left part of the U-shaped mounting seat (35) is respectively connected with a driving motor (36) through bolts; the inner sides of the U-shaped mounting seats (35) are respectively provided with a clutch connecting block structure (37).

2. The multi-directional conveyor belt produced by the composite admixture according to claim 1, wherein two connecting block structures (37) capable of being engaged and disengaged are arranged, each connecting block structure comprises a connecting block (371), and a spline groove is formed in the middle right side inside the connecting block (371); a first hollow connecting shaft (372) is integrally connected to the middle part of the left part of the connecting block (371); the annular spline shaft (373) is connected to the inside meshing of spline groove, and annular spline shaft (373) inboard is connected with second hollow connecting shaft (374) in an integrated manner, and wherein annular spline shaft (373) is located second hollow connecting shaft (374) outer wall left side.

3. The multi-directional conveyor belt produced by the composite admixture according to claim 1, wherein the front side and the rear side of the lower part of the mounting frame (31) are respectively connected with the upper ends of the supporting legs (1) through bolts.

4. The multi-directional conveyor belt according to claim 2, wherein the first hollow connecting shafts (372) are respectively located at the inner sides of the U-shaped mounting seats (35), and the left ends of the first hollow connecting shafts (372) are respectively connected with the outer walls of the output shafts of the driving motors (36) in a key manner.

5. The multi-directional conveyor belt produced by the composite admixture according to claim 2, wherein the second hollow connecting shafts (374) are respectively sleeved at the left ends of the conveying rollers (32), and the second hollow connecting shafts (374) are connected with the conveying rollers (32) in a key way.