CN110949959B

CN110949959B - Conveying belt for conveying high-viscosity liquid

Info

Publication number: CN110949959B
Application number: CN201911275495.8A
Authority: CN
Inventors: 王爱武; 李璐; 曹坤
Original assignee: Qingyuan Jingwang Environmental Equipment Co ltd; Qingyuan High Tech Jingwang New Energy Research Institute Co ltd
Current assignee: Qingyuan Jingwang Environmental Equipment Co ltd; Qingyuan High Tech Jingwang New Energy Research Institute Co ltd
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2021-03-19
Anticipated expiration: 2039-12-12
Also published as: CN110949959A

Abstract

The invention discloses a conveying belt for conveying high-viscosity liquid, which comprises a transmission mechanism and an auxiliary mechanism, wherein the transmission bottom plate improves the overall stability of the device, a motor in an inner cavity of a power shell drives a first power wheel and a second power wheel to move a conveying soft belt, thereby the whole device can stably run, when the conveying soft belt moves, the upper end of the supporting mechanism supports the bottom of the conveying soft belt, the supporting and guiding functions are carried out on the flexible conveying belt, so that the flexible conveying belt can stably convey at a constant speed, conveying objects at the upper end of the flexible conveying belt cannot fall off due to poor stability of the device, when high-viscosity liquid is conveyed, can enter the bottom end of the inner cavity of the transmission inner groove due to the liquidity of the liquid, thereby avoiding the loss caused by the leakage, in the transmission process, transmission auxiliary liquid is placed in the inner cavity of the auxiliary cylinder, so that the transmission work can be accelerated, and the high-viscosity liquid is prevented from being attached to the bottom end of the transmission inner groove.

Description

Conveying belt for conveying high-viscosity liquid

Technical Field

The invention relates to the technical field of conveyor belts, in particular to a conveyor belt for conveying high-viscosity liquid.

Background

In the 17 th century, the united states began using aerial cableways to transport bulk materials; in the middle of the 19 th century, various modern-structured belt conveyors have been developed in succession. In 1868, belt conveyor conveyors emerged in the uk; in 1887, screw conveyors appeared in the united states; in 1905, steel belt conveyors appeared in switzerland; in 1906, inertial conveyors appeared in uk and germany. After that, the conveyor belt is influenced by the technical progress of mechanical manufacturing, motors, chemical industry and metallurgical industry, is continuously perfect, gradually develops from the completion of the conveying inside a workshop to the completion of the material handling inside an enterprise, between enterprises and even between cities, and becomes an indispensable component part of the mechanization and automation of a material handling system.

Most of the conveyor belts in the current market have the problems of poor stability of the device, poor supporting effect of the device, poor guiding capability, unavoidable leakage of articles and unavoidable adhesion of high-viscosity liquid on the surface of the conveyor belt.

In order to solve the above problems, a conveyor belt for conveying a high viscosity liquid has been proposed to improve the stability of the conveyor belt, the supporting function and the guiding ability of the device, prevent the leakage of the objects, and prevent the high viscosity liquid from adhering to the surface of the conveyor belt.

Disclosure of Invention

The invention aims to provide a conveyor belt for conveying high-viscosity liquid, which comprises a transmission mechanism and an auxiliary mechanism, wherein the transmission bottom plate improves the overall stability of the device, a motor in an inner cavity of a power machine shell drives a first power wheel and a second power wheel to move a soft conveying belt, so that the overall device can stably run, when the soft conveying belt moves, the upper end of a supporting mechanism supports the bottom of the soft conveying belt to support and guide the soft conveying belt, so that the soft conveying belt can stably and uniformly convey the soft conveying belt, conveyed objects at the upper end of the soft conveying belt cannot fall off due to poor stability of the device, when the high-viscosity liquid is conveyed, the high-viscosity liquid enters the bottom end of an inner cavity of a transmission inner groove due to the liquidity of the liquid, so that the leakage and the loss of the high-viscosity liquid are avoided, when the transmission is carried out, the transmission auxiliary liquid is placed in the inner cavity of an auxiliary cylinder to accelerate the transmission work, the stability, the supporting function and the guiding capability of the device are improved, the leakage of the objects is avoided, high-viscosity liquid is prevented from being attached to the surface of the conveying belt, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a carry conveyer belt of high viscosity liquid, includes drive mechanism and complementary unit, and drive mechanism is installed to complementary unit's the inner, drive mechanism includes drive plate, power unit, supporting mechanism, the soft area of conveying and transmission inside groove, power unit is installed to drive plate's upper end, power unit's rear end is arranged and is installed supporting mechanism, supporting mechanism's top and the soft area swing joint of conveying, the last single division of the soft area of conveying is equipped with the transmission inside groove, complementary unit is installed to drive plate's both sides, complementary unit includes first support column, first transmission piece, an auxiliary cylinder and gathers material mechanism, first transmission piece is installed to the upper end of first support column, an auxiliary cylinder is installed to the inner of first transmission piece, gather material mechanism is installed to drive mechanism's rear end both sides.

Further, power unit includes that power places bottom block, power support column, power casing, first power wheel and second power wheel, the power support column is installed to the upper end that the bottom block was placed to power, the power casing is installed to the upper end of power support column, first power wheel is installed to the left end of power casing, and the second power wheel is installed to the other end of power casing.

Furthermore, the supporting mechanism comprises a supporting bottom column, a mounting column, a movable wheel shaft, movable wheels and an outer fixing block, the mounting column is mounted at the upper end of the supporting bottom column, the movable wheel shaft is mounted at the upper end of the mounting column, the movable wheels are mounted at two ends of the movable wheel shaft, the movable wheel shaft is fixedly connected with the outer fixing block, and the inner end of the outer fixing block is movably connected with the movable wheels.

Further, the auxiliary barrel comprises an external moving block, an internal connecting shell, a rotary fixing shell, a movable inner shell and a feed opening, wherein the internal connecting shell is installed at the inner end of the external moving block, the rotary fixing shell is installed at the inner end of the internal connecting shell, the movable inner shell is installed at the inner end of the rotary fixing shell, and the feed opening is formed in the lower end of the movable inner shell.

Further, gather feed mechanism and include second support column, second transmission piece, fixed spreader, gather the material shell and gather the material funnel, the second transmission piece is installed to the upper end of second support column, fixed spreader is installed to the inner of second transmission piece, the material shell is installed to the inner of fixed spreader, gather the lower extreme of expecting the shell and install and gather the material funnel.

Further, the soft conveying belt is a member made of a fluororubber material.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the conveying belt for conveying high-viscosity liquid, the whole stability of the conveying belt is improved by the transmission bottom plate, the motor in the inner cavity of the power shell drives the first power wheel and the second power wheel, so that the conveying soft belt moves, and the whole conveying belt can stably run.

2. According to the conveying belt for conveying the high-viscosity liquid, when the conveying soft belt moves, the upper end of the supporting mechanism supports the bottom of the conveying soft belt, and the conveying soft belt is supported and guided, so that the conveying soft belt can stably convey at a constant speed, and conveyed objects at the upper end of the conveying soft belt cannot fall off due to poor stability of the conveying soft belt.

3. According to the conveyor belt for conveying the high-viscosity liquid, when the high-viscosity liquid is conveyed, the high-viscosity liquid enters the bottom end of the inner cavity of the transmission inner groove due to the liquidity of the liquid, so that the loss caused by leakage of the high-viscosity liquid is avoided.

4. According to the conveying belt for conveying the high-viscosity liquid, disclosed by the invention, the high-viscosity liquid cannot leak due to high material gathering difficulty during material gathering through the material gathering effect of the material gathering mechanism, and in the transmission process, the transmission auxiliary liquid placed in the inner cavity of the auxiliary cylinder can accelerate the transmission work and prevent the high-viscosity liquid from being attached to the bottom end of the transmission inner groove.

Drawings

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

FIG. 2 is a schematic structural diagram of the gathering mechanism of the present invention;

FIG. 3 is a schematic view of an auxiliary cartridge according to the present invention;

FIG. 4 is a schematic structural view of the support mechanism of the present invention;

fig. 5 is a schematic structural diagram of the power mechanism according to the present invention.

In the figure: 1. a transmission mechanism; 11. a drive floor; 12. a power mechanism; 121. dynamically placing a bottom block; 122. a power support column; 123. a power housing; 124. a first power wheel; 125. a second power wheel; 13. a support mechanism; 131. supporting the bottom pillar; 132. mounting a column; 133. a movable wheel shaft; 134. a movable runner; 135. an outer fixed block; 14. conveying a soft belt; 15. a transmission inner groove; 2. an auxiliary mechanism; 21. a first support column; 22. a first transmission block; 23. an auxiliary cylinder; 231. a moving block is externally connected; 232. an inner connecting shell; 233. rotating the stationary housing; 234. a movable inner shell; 235. a feeding port; 24. a material gathering mechanism; 241. a second support column; 242. a second transmission block; 243. fixing the transverse column; 244. gathering a material shell; 245. gathering material funnel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a conveyor belt for conveying high viscosity liquid includes a transmission mechanism 1 and an auxiliary mechanism 2, the transmission mechanism 1 is installed at the inner end of the auxiliary mechanism 2, the transmission mechanism 1 includes a transmission bottom plate 11, a power mechanism 12, a supporting mechanism 13, a conveying soft belt 14 and a transmission inner groove 15, the power mechanism 12 is installed at the upper end of the transmission bottom plate 11, the power mechanism 12 includes a power placement bottom block 121, a power supporting column 122, a power casing 123, a first power wheel 124 and a second power wheel 125, the power supporting column 122 is installed at the upper end of the power placement bottom block 121, the power casing 123 is installed at the upper end of the power supporting column 122, the first power wheel 124 is installed at the left end of the power casing 123, the second power wheel 125 is installed at the other end of the power casing 123, the supporting mechanism 13 is installed at the rear end of the power mechanism 12, the supporting mechanism, The device comprises mounting columns 132, movable wheel shafts 133, movable rotating wheels 134 and an outer fixed block 135, the mounting columns 132 are mounted at the upper ends of supporting bottom columns 131, movable wheel shafts 133 are mounted at the upper ends of the mounting columns 132, the movable rotating wheels 134 are mounted at the two ends of the movable wheel shafts 133, the movable wheel shafts 133 are fixedly connected with the outer fixed block 135, the inner ends of the outer fixed block 135 are movably connected with the movable rotating wheels 134, the top end of a supporting mechanism 13 is movably connected with a soft conveying belt 14, the soft conveying belt 14 is a component made of fluororubber, the transmission bottom plate 11 improves the overall stability of the device, a motor in an inner cavity of a power machine shell 123 drives a first power wheel 124 and a second power wheel 125 to move the soft conveying belt 14, so that the overall device can stably run, when the soft conveying belt 14 moves, the upper end of the supporting mechanism 13 supports and guides the bottom of the soft conveying belt 14, so that the soft conveying belt 14 can stably convey at a constant speed, the conveying object at the upper end of the conveying soft belt 14 cannot fall off due to poor stability of the device, the upper single part of the conveying soft belt 14 is provided with the transmission inner groove 15, the two sides of the transmission bottom plate 11 are provided with the auxiliary mechanisms 2, each auxiliary mechanism 2 comprises a first supporting column 21, a first transmission block 22, an auxiliary cylinder 23 and a material gathering mechanism 24, the upper end of each first supporting column 21 is provided with the first transmission block 22, the inner end of each first transmission block 22 is provided with the auxiliary cylinder 23, each auxiliary cylinder 23 comprises an external movable block 231, an internal connecting shell 232, a rotary fixed shell 233, a movable inner shell 232, a movable inner shell 234 and a feed opening 235, the inner end of each rotary fixed shell 233 is provided with the movable inner shell 234, the lower end of the movable inner shell 234 is provided with the feed opening 235, the two sides of the rear end of the conveying mechanism 1 are provided with the material gathering mechanism 24, and each material gathering mechanism 24 comprises a second supporting column 241, the, The device comprises a second transmission block 242, a fixed cross post 243, a material gathering shell 244 and a material gathering funnel 245, wherein the second transmission block 242 is installed at the upper end of a second support column 241, the fixed cross post 243 is installed at the inner end of the second transmission block 242, the material gathering shell 244 is installed at the inner end of the fixed cross post 243, the material gathering funnel 245 is installed at the lower end of the material gathering shell 244, high-viscosity liquid can enter the bottom end of an inner cavity of the transmission inner groove 15 due to the liquidity of the liquid when being transmitted, and therefore leakage of the high-viscosity liquid and loss of the transmission inner groove are avoided, the device can gather the material through the material gathering function of the material gathering mechanism 24, the phenomenon that the high-viscosity liquid leaks due to high material gathering difficulty when gathering the high-viscosity liquid is avoided, and in the transmission process, the transmission auxiliary liquid can be placed in the inner cavity of the auxiliary cylinder 23 to accelerate the.

In summary, the following steps: according to the conveyor belt for conveying high-viscosity liquid, the transmission bottom plate 11 improves the overall stability of the conveyor belt, the motor in the inner cavity of the power machine shell 123 drives the first power wheel 124 and the second power wheel 125 to move the soft conveyor belt 14, so that the overall device can stably run, when the soft conveyor belt 14 moves, the upper end of the supporting mechanism 13 supports the bottom of the soft conveyor belt 14 to support and guide the bottom, so that the soft conveyor belt 14 can stably and uniformly convey, conveyed objects at the upper end of the soft conveyor belt 14 cannot fall off due to poor stability of the conveyor belt, when the high-viscosity liquid is conveyed, the high-viscosity liquid enters the bottom end of the inner cavity of the transmission inner groove 15 due to the liquidity of the liquid, so that leakage and loss caused by the leakage of the high-viscosity liquid can be avoided, and the conveyor belt can be prevented from leaking due to the material gathering effect of the material gathering mechanism 24, in the transmission process, transmission auxiliary liquid is placed in the inner cavity of the auxiliary cylinder 23 to accelerate the transmission work, so that high-viscosity liquid is prevented from being attached to the bottom end of the transmission inner groove 15.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. The utility model provides a carry conveyer belt of high viscosity liquid, includes drive mechanism (1) and complementary unit (2), drive mechanism (1), its characterized in that are installed to the inner of complementary unit (2): the transmission mechanism (1) comprises a transmission bottom plate (11), a power mechanism (12), a supporting mechanism (13), a soft transmission belt (14) and transmission inner grooves (15), the power mechanism (12) is installed at the upper end of the transmission bottom plate (11), the supporting mechanism (13) is installed at the rear end of the power mechanism (12) in an arrayed mode, the top end of the supporting mechanism (13) is movably connected with the soft transmission belt (14), the transmission inner grooves (15) are formed in the upper surface of the soft transmission belt (14), auxiliary mechanisms (2) are installed on two sides of the transmission bottom plate (11), each auxiliary mechanism (2) comprises a first supporting column (21), a first transmission block (22), an auxiliary cylinder (23) and a material gathering mechanism (24), the first transmission block (22) is installed at the upper end of the first supporting column (21), and the auxiliary cylinder (23) is installed at the inner end of the first transmission block (22), the two sides of the rear end of the transmission mechanism (1) are provided with material gathering mechanisms (24);

the power mechanism (12) comprises a power placing bottom block (121), a power supporting column (122), a power machine shell (123), a first power wheel (124) and a second power wheel (125), wherein the power supporting column (122) is installed at the upper end of the power placing bottom block (121), the power machine shell (123) is installed at the upper end of the power supporting column (122), the first power wheel (124) is installed at the left end of the power machine shell (123), and the second power wheel (125) is installed at the other end of the power machine shell (123);

the supporting mechanism (13) comprises a supporting bottom column (131), a mounting column (132), a movable wheel shaft (133), a movable rotating wheel (134) and an outer fixing block (135), the mounting column (132) is mounted at the upper end of the supporting bottom column (131), the movable wheel shaft (133) is mounted at the upper end of the mounting column (132), the movable rotating wheel (134) is mounted at two ends of the movable wheel shaft (133), the movable wheel shaft (133) is fixedly connected with the outer fixing block (135), and the inner end of the outer fixing block (135) is movably connected with the movable rotating wheel (134);

the auxiliary barrel (23) comprises an external moving block (231), an internal connecting shell (232), a rotary fixed shell (233), a movable internal shell (234) and a feed opening (235), wherein the internal connecting shell (232) is installed at the inner end of the external moving block (231), the rotary fixed shell (233) is installed at the inner end of the internal connecting shell (232), the movable internal shell (234) is installed at the inner end of the rotary fixed shell (233), and the feed opening (235) is formed in the lower end of the movable internal shell (234);

gather material mechanism (24) and include second support column (241), second transmission piece (242), fixed spreader (243), gather material shell (244) and gather material funnel (245), second transmission piece (242) are installed to the upper end of second support column (241), fixed spreader (243) are installed to the inner of second transmission piece (242), gather material shell (244) are installed to the inner of fixed spreader (243), gather the lower extreme of material shell (244) and install and gather material funnel (245).

2. A conveyor belt for conveying a highly viscous liquid according to claim 1, characterized in that: the soft conveying belt (14) is a component made of fluororubber.