CN220115399U - Conveyor belt connecting device - Google Patents

Abstract

The utility model relates to the field of conveying equipment, and particularly discloses a conveyor belt connecting device which comprises connecting rollers arranged between two adjacent conveyor belts and a driving assembly for driving the connecting rollers to rotate. The utility model has the advantages of stable connection, smooth transmission, simple structure and easy implementation.

Description

Conveyor belt connecting device

Technical Field

The utility model relates to the field of conveying equipment, in particular to a conveyor belt connecting device.

Background

Cosmetics generally refer to a preparation for beautifying, retaining or changing the appearance of a person, and the development history of cosmetics can be estimated to the beginning of the existence of a human, and in modern society, cosmetics are already indispensable products for the life of a human society.

In the process of preparing a paste cosmetic, a container for holding the paste cosmetic is generally transferred by means of a conveyor belt to satisfy the automatic or semi-automatic production of the product. When the transmission distance is long, two conveyor belts are often spliced together for use, and after the product is transmitted from one conveyor belt, the product is moved to the other conveyor belt to finish long-distance transmission.

In the process of transferring a product from one conveyor belt to another conveyor belt, as the conveyor rollers arranged on the conveyor belts are cylindrical, when the conveyor belts are wound on the conveyor rollers, the joint parts of the two conveyor belts cannot be well connected, so that when a container containing pasty cosmetics passes between the two conveyor belts, shaking or even dumping is easy to occur, and further the final formed surface of the product in the container is inclined or uneven, and the forming quality of the product is affected.

Disclosure of Invention

In order to solve the problem that a container containing paste cosmetics is easy to shake or topple over through a gap between two driving belts, the utility model provides the conveyor belt connecting device which has the advantages of stable connection, smooth conveying, simple structure and easy implementation.

The utility model provides a conveyor belt connecting device which adopts the following technical scheme:

the utility model provides a conveyer belt linking device, includes a plurality of linking rollers and the drive linking roller pivoted drive assembly of setting in adjacent two conveyer belt clearance, linking roller is parallel with drive conveyer belt pivoted transfer roller, linking roller's one end is rotated and is installed on the conveyer belt support body, just linking roller's the other end stretches out from the conveyer belt support body and is connected with drive assembly, drive assembly installs on the conveyer belt support body.

Through adopting above-mentioned technical scheme, utilize the clearance shutoff between the linking roller with the conveyer belt for the cosmetics casing can not rock or empty because of the conveyer belt clearance, utilizes drive assembly drive linking roller to rotate simultaneously, when the cosmetics casing passes through the conveyer belt clearance, will steadily remove to next conveyer belt under the drive of pivoted linking roller, has effectively avoided the cosmetics casing to influence the quality wherein paste product because of rocking when passing the casing.

Optionally, the engagement roller is flush with the upper surface of the conveyor belt.

Through adopting above-mentioned technical scheme, keep linking roller and conveyer belt flush, ensure that cosmetic casing can not appear high fall when linking the roller, further ensure the stability when cosmetic casing removes.

Optionally, the drive assembly includes drive roller and driving belt, the coaxial setting of drive roller is in the one end of drive conveyer belt pivoted transfer roller, just the drive roller follows the transfer roller rotation, driving belt overlaps simultaneously and establishes on drive roller and linking roller.

By adopting the technical scheme, the driving roller is driven to rotate by the conveying roller, and a driving source is not required to be additionally arranged, so that energy sources are saved; utilize the frictional force on driving belt and drive roller and linking roller surface for pivoted drive roller drives and links up the roller rotation, and then cooperates and send the cosmetics casing on the conveyer belt to next conveyer belt, and transmission structure is simple and the installation is convenient.

Optionally, a plurality of driving belts are sleeved on the driving roller, and each driving belt is sleeved on one connecting roller at the same time.

By adopting the technical scheme, a plurality of transmission belts are sleeved on one driving roller, so that the driving roller can be used for driving a plurality of connecting rollers, the energy utilization efficiency is improved, and the cost is saved; simultaneously, make the same drive roller quantity can set up many and link up the roller to more closely with the clearance shutoff between the conveyer belt, further improved the stability that the cosmetics casing removed on linking up the roller.

Optionally, the lateral wall of drive roller has offered first belt groove along circumference, the lateral wall of linking roller has offered the second belt groove along circumference respectively, drive belt overlaps simultaneously and establishes in first belt groove and second belt groove.

By adopting the technical scheme, the two belt grooves are utilized to limit the transmission belt, so that the transmission belt is prevented from loosening, the rotation of the connecting roller is influenced, the moving stability of the cosmetic shell is further influenced, and the stability of the transmission structure is effectively improved; meanwhile, the belt groove design also increases the contact area between the driving belt and the driving roller as well as between the driving belt and the engagement roller, so that the friction force between the driving belt and the driving roller as well as between the driving belt and the engagement roller is increased, and the transmission efficiency is improved.

Optionally, the drive assembly includes driving motor, installs the drive gear on driving motor's output shaft and overlaps the driven gear of establishing on the linking roller, driving motor installs on the conveyer belt support body, drive gear meshes with driven gear mutually.

By adopting the technical scheme, the connecting roller is driven to rotate by utilizing the gear cooperation of the driving motor, the driving gear and the driven gear, the gear cooperation structure is stable, the transmission efficiency is high, the durability is high and the failure rate is low; meanwhile, the rotating speed of the connecting roller can be controlled by adjusting the output power of the driving motor, so that the linear speed of the surface is consistent with the rolling speed of the transmission belt when the connecting roller rotates, the speed difference can not be generated when the cosmetic shell passes through the connecting roller, and the moving stability of the cosmetic shell is further improved.

Optionally, the driving gear is meshed with a plurality of driven gears simultaneously.

By adopting the technical scheme, the plurality of driven gears are driven by one driving gear, so that energy sources can be saved, the energy utilization efficiency is improved, and the production cost is reduced.

Optionally, the driving assembly further comprises a motor mounting plate, the motor mounting plate comprises a connecting block and a mounting block, the connecting block and the mounting block form an L-shaped structure, the connecting block is mounted on the conveyor belt frame body, and the mounting block is used for mounting the driving motor

Through adopting above-mentioned technical scheme, utilize the motor mounting panel to install driving motor to the conveyer belt support body on, need not to link to each other driving motor directly with the conveyer belt support body, more do benefit to the installation and dismantle, simultaneously, utilize the motor mounting panel can realize bigger installation space and more nimble installation angle.

Optionally, an avoidance port is formed between the connecting block and the mounting block, and the driving gear extends into the avoidance port.

Through adopting above-mentioned technical scheme, dodge the mouth through forming for drive gear can use bigger size, and large-scale drive gear can improve driving motor's output, ensures that the torsion that drives driven gear is enough, simultaneously, and bigger size drive gear can drive more driven gear simultaneously, further improves transmission efficiency.

Optionally, a reinforcing plate is installed on the motor mounting plate, and the reinforcing plate and the motor mounting plate form a triangle structure.

Through adopting above-mentioned technical scheme, utilize the reinforcing plate to provide the support to the motor mounting panel, avoid the motor mounting panel to appear not hard up in driving motor working process, and influence the gear cooperation precision between drive gear and the driven gear, improved the stability of drive assembly overall structure.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the gap between the conveyor belts is blocked by the connecting roller, so that the cosmetic shell cannot shake or topple over when passing through the gap between the conveyor belts, the stability of the movement of the cosmetic shell between the conveyor belts is improved, the surface of a pasty product cannot be deformed, and the forming quality of the product is improved;

2. the transmission between the driving roller and the connecting roller is realized by using the transmission belt, the transmission structure is simple, the installation is convenient, a plurality of transmission belts can be sleeved on one driving roller at the same time, and then the plurality of connecting rollers are driven to rotate, so that the energy utilization efficiency is improved, and the cost is saved;

3. the connecting roller can be efficiently driven to rotate by utilizing the driving motor and the gear cooperation between the driving gear and the driven gear, the output power of the driving motor is adjustable, and the rotating speed of the connecting roller can be flexibly adjusted, so that the linear speed of the surface is consistent with the rolling speed of the conveyor belt when the connecting roller rotates, and the moving stability of the cosmetic shell on the connecting roller is further improved.

Drawings

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

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic overall structure of embodiment 2 of the present utility model;

fig. 4 is an enlarged view at B in fig. 3.

Reference numerals: 1. a conveyor belt; 2. a conveyor belt frame; 3. a joining roller; 4. a drive assembly; 11. a driving roller; 12. a drive belt; 13. a first belt slot; 14. a second belt slot; 21. a driving motor; 22. a drive gear; 23. a driven gear; 24. a motor mounting plate; 241. a connecting block; 242. a mounting block; 243. an avoidance port; 25. reinforcing plate.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

Example 1:

the utility model provides a conveyer belt linking device, referring to fig. 1, including accepting the joining roller 3 of cosmetics casing and drive joining roller 3 pivoted drive assembly 4, joining roller 3 rotates and installs on the conveyer belt support body 2 at conveyer belt 1 place to be located the gap between two conveyer belts 1, drive assembly 4 drive joining roller 3 rotates, and joining roller 3 is parallel with drive conveyer belt 1 pivoted conveying roller. When the cosmetic case moves from one conveyor belt 1 to the other conveyor belt 1, the rotating engaging roller 3 drives the cosmetic case to move while passing the position of the engaging roller 3, so that the cosmetic case smoothly moves onto the other conveyor belt 1.

Specifically, referring to fig. 2, the driving assembly 4 includes a driving roller 11 and a transmission belt 12, the driving roller 11 being disposed coaxially with and rotating in synchronization with a conveying roller that drives the conveying belt 1; in this embodiment, the conveying roller that drives the conveying belt 1 to rotate may be protruded from the outside of the frame by a portion, and the portion may be provided as the driving roller 11, that is, the driving roller 11 is formed at the end of the conveying roller that drives the conveying belt 1 to rotate, and the driving belt 12 is wound around the driving roller 11 and the engaging roller 3, respectively. When the conveyor belt 1 works normally, the conveyor roller driving the conveyor belt 1 to rotate can be used as a power source of the engagement roller 3 to drive the engagement roller 3 to rotate, so that the cosmetic shell can be stably moved onto the other conveyor belt 1.

Further, a plurality of first belt grooves 13 are formed in the side wall of the driving roller 11 along the circumferential direction, the transmission belt 12 is sleeved in the first belt grooves 13 and is sleeved on the connecting roller 3, and when the driving roller 11 rotates, the transmission belt 12 in the first belt grooves 13 is driven to rotate, so that the connecting roller 3 is driven to rotate.

Further, the engaging rollers 3 are multiple and uniformly distributed in gaps between the two conveyor belts 1, the engaging rollers 3 are arranged on the conveyor belt frame body 2 in a penetrating and rotating mode, and one end, close to the driving roller 11, of each engaging roller 3 extends out of the conveyor belt frame body 2 so as to facilitate the installation of the conveyor belt 12; meanwhile, the connecting roller 3 is flush with the conveying belt 1 in height, namely, the height drop cannot occur when the cosmetic shell passes through the connecting roller 3, and further stability of the cosmetic shell during moving is ensured.

In addition, the second belt groove 14 is circumferentially formed on the engagement roller 3, and the driving belt 12 sleeved in the first belt groove 13 of the driving roller 11 is sleeved in the second belt groove 14 of the engagement roller 3 at the same time, so that the cosmetic shell on the engagement roller 3 is driven to move.

In this embodiment, four joining rollers 3 are provided, two driving rollers 11 are provided, two first belt grooves 13 are provided for each driving roller 11 corresponding to the second belt grooves 14 on each joining roller 3. In other embodiments, the engagement rollers 3 of different sizes may be provided according to the size of the cosmetic case and the requirement for stability, while increasing or decreasing the number of engagement rollers 3 and changing the installation interval between the engagement rollers 3.

The implementation principle of the embodiment of the utility model is as follows: the driving roller rotates and drives the conveyor belt 1 to roll, at the moment, the driving roller 11 rotates under the driving of the conveyor roller, meanwhile, the connecting roller 3 is driven by the driving roller 11 to rotate, the cosmetic shell passes through the connecting roller 3, and the connecting roller 3 drives the next conveyor belt to move.

Example 2:

referring to fig. 3 and 4, this embodiment differs from embodiment 1 in that:

the present embodiment provides another drive assembly 4.

The driving assembly 4 comprises a driving motor 21, a driving gear 22 and a driven gear 23, wherein the driving motor 21 is arranged on the conveyor belt frame body 2, the driving gear 22 and an output shaft of the driving motor 21 are coaxially arranged and are in key connection, the driven gear 23 is in key connection with the connecting roller 3, and the driving gear 22 is meshed with the driven gear 23. In this embodiment, the driving motor 21 is a servo motor.

The driving motor 21 is opened to drive the driven gear 23 to rotate through the driving gear 22, then the engaging roller 3 is driven to rotate, the movement of the cosmetic shell between the conveyor belts 1 is matched, and the rotating speed of the engaging roller 3 can be adjusted by controlling the output power of the driving motor 21, so that the linear speed of the surface of the engaging roller 3 is consistent with the rolling speed of the conveyor belts 1, and the cosmetic shell is ensured not to shake or topple due to the speed difference between the engaging roller 3 and the conveyor belts 1 when passing through the engaging roller 3.

In this embodiment, four engagement rollers 3, two driving motors 21 and two driving gears 22 are provided in total, and one driving gear 22 drives a driven gear 23 on the two engagement rollers 3.

In addition, still be provided with motor mounting panel 24 on the conveyer belt support body 2, motor mounting panel 24 includes connecting block 241 and installation piece 242, and connecting block 241 one end links to each other with installation piece 242 one end, and wholly is L type structure, and connecting block 241 passes through the bolt fastening on conveyer belt support body 2, and installation piece 242 is used for installing driving motor 21, and simultaneously, the junction of connecting block 241 and installation piece 242 is formed with dodges the mouth 243, and driving gear 22 partly stretches into dodges the mouth 243 in.

Further, the motor mounting plate 24 is provided with the reinforcing plate 25, one end of the reinforcing plate 25 is welded with the side wall of the connecting block 241, and the other end is welded with the bottom of the mounting block 242, so that the reinforcing plate 25 and the motor mounting plate 24 form a triangular structure, and the overall stability of the motor mounting plate 24 is improved.

The implementation principle of the embodiment of the utility model is as follows: when the conveyor belt 1 is driven to roll, the driving motor 21 is turned on to drive the engagement roller 3 to rotate, and the linear speed of the surface of the engagement roller 3 is regulated to be consistent with the rolling speed of the conveyor belt 1, so that the cosmetic shell can be placed on the conveyor belt 1 and moved to the next conveyor belt 1 through the engagement roller 3.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (10)

1. A conveyor belt splicing device, characterized in that: including setting up a plurality of joining roller (3) and drive joining roller (3) pivoted drive assembly (4) in adjacent two conveyer belt (1) clearance, joining roller (3) are parallel with drive conveyer belt (1) pivoted conveying roller, the one end rotation of joining roller (3) is installed on conveyer belt support body (2), just the other end of joining roller (3) stretches out from conveyer belt support body (2) and is connected with drive assembly (4), drive assembly (4) are installed on conveyer belt support body (2).

2. A conveyor belt splicing apparatus as in claim 1 wherein: the engagement roller (3) is flush with the upper surface of the conveyor belt (1).

3. A conveyor belt splicing apparatus as in claim 1 wherein: the driving assembly (4) comprises a driving roller (11) and a transmission belt (12), the driving roller (11) is coaxially arranged at one end of the transmission roller for driving the transmission belt (1) to rotate, the driving roller (11) rotates along with the transmission roller, and the transmission belt (12) is sleeved on the driving roller (11) and the connecting roller (3) at the same time.

4. A conveyor belt splicing apparatus as in claim 3 wherein: the driving roller (11) is sleeved with a plurality of driving belts (12), and each driving belt (12) is sleeved on one connecting roller (3) at the same time.

5. A conveyor belt splicing apparatus as in claim 3 wherein: the side wall of the driving roller (11) is provided with a first belt groove (13) along the circumferential direction, the side wall of the connecting roller (3) is provided with a second belt groove (14) along the circumferential direction, and the driving belt (12) is sleeved in the first belt groove (13) and the second belt groove (14) at the same time.

6. A conveyor belt splicing apparatus as in claim 1 wherein: the driving assembly (4) comprises a driving motor (21), a driving gear (22) arranged on an output shaft of the driving motor (21) and a driven gear (23) sleeved on the connecting roller (3), the driving motor (21) is arranged on the conveyor belt frame body (2), and the driving gear (22) is meshed with the driven gear (23).

7. A conveyor belt splicing apparatus as in claim 6 wherein: the drive gear (22) is simultaneously engaged with a plurality of driven gears (23).

8. A conveyor belt splicing apparatus as in claim 6 wherein: the driving assembly (4) further comprises a motor mounting plate (24), the motor mounting plate (24) comprises a connecting block (241) and a mounting block (242), the connecting block (241) and the mounting block (242) form an L-shaped structure, the connecting block (241) is mounted on the conveyor belt frame body (2), and the mounting block (242) is used for mounting the driving motor (21).

9. A conveyor belt splicing apparatus as in claim 8 wherein: an avoidance port (243) is formed between the connecting block (241) and the mounting block (242), and the driving gear (22) extends into the avoidance port (243).

10. A conveyor belt splicing apparatus as in claim 8 wherein: the motor mounting plate (24) is provided with a reinforcing plate (25), and the reinforcing plate (25) and the motor mounting plate (24) form a triangular structure.