CN217221331U - Conveying system of calcium carbonate of synthetic stone material - Google Patents

Abstract

The utility model belongs to the field of calcium carbonate powder conveying, and discloses a conveying system for calcium carbonate of artificially synthesized stone, which comprises a feed hopper, a stirrer, a first conveying belt and a second conveying belt which forms a preset included angle with the first conveying belt, wherein the discharge end of the first conveying belt extends to the position right above the second conveying belt, and an inclined baffle plate used for guiding powder conveyed by the first conveying belt to the second conveying belt is arranged between the discharge end of the first conveying belt and the position right above the second conveying belt; this scheme can realize that the powder falls to the second conveyer belt from first conveyer belt accuracy, avoids causing the production extravagant.

Description

Conveying system of calcium carbonate of synthetic stone material

Technical Field

The utility model relates to a calcium carbonate powder carries the field, especially a conveying system of calcium carbonate of synthetic stone material.

Background

Calcium carbonate is an inorganic compound, is a main component of marble, limestone and the like, and is usually processed and produced in industrial production by powdery calcium carbonate.

Powdered calcium carbonate is processed among different stations, a conveying device is needed, and for the conveying device of the powdered calcium carbonate, reference can be made to the technical scheme with the patent application number of 201921721537.1, which discloses conveying equipment for conveying powder coating, and the conveying equipment comprises an equipment body, a left side transmission mechanism and a right side transmission mechanism which are respectively arranged at two sides of the equipment body, a conveying belt is sleeved between the left side transmission mechanism and the right side transmission mechanism, a conveying support assembly is arranged between the left side transmission mechanism and the right side transmission mechanism, and the conveying support assembly respectively comprises a left side support assembly, a middle support assembly and a right side support assembly; left side supporting component, middle part supporting component and right side supporting component are including setting up braced frame subaerial respectively, set up last transmission seat and lower transmission seat on braced frame, set up the last driving wheel subassembly on last transmission seat respectively, set up the lower transmission wheel subassembly on transmission seat down.

Above-mentioned this scheme, optimize and improve conveyer belt self, avoid the powder to spill over or fall from the both sides of conveyer belt, can use it between feeder hopper and agitator, carry out the transport of powder, nevertheless in the workshop, the feeder hopper is far away apart from with the agitator, there is the barrier between the two, can't use the list conveyer belt to carry out the straight line and carry, need use two at least conveyer belts to commutate the transmission and carry, the powder falls to the second conveyer belt from first conveyer belt on, the outside to the second conveyer belt floats easily, cause the production extravagant.

Therefore, the problem is solved by the technical scheme, and how to accurately drop the powder to the second conveying belt from the first conveying belt is realized, so that waste is avoided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a conveying system of calcium carbonate of synthetic stone material realizes that the powder from the accurate second conveyer belt that falls of first conveyer belt, avoids causing the production extravagant.

The utility model provides a technical scheme does: a conveying system for calcium carbonate of artificially synthesized stone comprises a feed hopper, a stirrer, a first conveying belt arranged on the lower side of the feed hopper, and a second conveying belt forming a preset included angle with the first conveying belt, wherein the discharge end of the first conveying belt extends to the position right above the second conveying belt, and an inclined baffle plate used for guiding powder conveyed by the first conveying belt to the second conveying belt is arranged between the discharge end of the first conveying belt and the position right above the second conveying belt; the discharge end of the second conveying belt is located on the upper side of the feed inlet of the stirrer.

In the above calcium carbonate conveying system for synthetic stone, the system further comprises a support, the inclined baffle is hinged to the support, the support is also hinged to a driving module, and the driving module is used for driving the inclined baffle to change an included angle between the inclined baffle and a vertical surface.

In the above conveying system for calcium carbonate of synthetic stone, the lower side of the inclined baffle is an arc-shaped slope surface which is bent towards the second conveying belt.

In the conveying system for calcium carbonate of synthetic stone, a plurality of feed hoppers are arranged; a plurality of the feeder hopper setting is in the feed end upside of first conveyer belt, and arranges in proper order along first conveyer belt length direction.

In the above calcium carbonate conveying system for synthetic stone, a partition plate is arranged in the feed hopper, and the longitudinal section of the partition plate is of a cross structure.

In the above conveying system for calcium carbonate of synthetic stone, the upper end surfaces of the partition boards are arranged at an acute angle.

In the above conveying system for calcium carbonate of synthetic stone, a dust-proof pipe is arranged on the upper side of the first conveying belt; the dustproof pipe downside is uncovered arranging, the dustproof pipe is located between feeder hopper and the baffle.

In the above conveying system for calcium carbonate of synthetic stone, the dust-proof pipe is provided with reinforcing ribs arranged at intervals along the axial direction of the dust-proof pipe; the two ends of the reinforcing rib radially extend along the upper surface of the dustproof pipe.

In the above conveying system for calcium carbonate of synthetic stone, the excess material collecting modules are arranged below the discharge end of the first conveying belt and the discharge end of the second conveying belt.

In the above conveying system for calcium carbonate of synthetic stone, the excess material collecting module includes an excess material hopper disposed below the corresponding first and second conveying belts, and the excess material hopper extends along the length direction of the corresponding first and second conveying belts; and a dust recovery pipe is arranged at the bottom of the waste hopper and connected to a waste dust tank.

After the technical scheme is adopted in the utility model, its beneficial effect who has is:

this scheme is through setting up the feeder hopper, mutually supporting of agitator, carry out the process to calcium carbonate and handle, the powder falls to the feed end upside of first conveyer belt from the downside of feeder hopper, first conveyer belt promotes the powder and carries to the second conveyer belt directly over, the powder is along with the motion inertia of first conveyer belt, length extending direction departure along first conveyer belt, with the oblique baffle contact that is located directly over the second conveyer belt, be equipped with the interval between first conveyer belt and the oblique baffle, the powder falls along the terminal surface of baffle, and fall to the second conveyer belt on through the interval, in second conveyer belt gets into the agitator, realize that the powder accurately falls to the second conveyer belt from first conveyer belt, avoid causing the production waste.

Drawings

Fig. 1 is a schematic structural view of a conveying system for calcium carbonate of synthetic stone according to embodiment 1 of the present invention;

fig. 2 is an assembly schematic view of a baffle, a second conveyor belt, a stirrer and a waste material hopper in embodiment 1 of the present invention;

FIG. 3 is a schematic view of the internal structure of a feed hopper of example 1 of the present invention;

fig. 4 is a schematic structural view of a separator according to embodiment 1 of the present invention;

fig. 5 is a partially enlarged view of fig. 1A of the present invention;

fig. 6 is an end view of a dustproof pipe according to embodiment 1 of the present invention.

Reference numerals: 1. a feed hopper; 2. a first conveyor belt; 3. a dust-proof pipe; 4. an inclined baffle plate; 5. a drive module; 6. a support; 7. a second conveyor belt; 8. a surplus hopper; 9. a stirrer; 10. a dust recovery pipe; 11. a waste dust tank; 12. a partition plate; 13. And (5) reinforcing ribs.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the following detailed description, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1-6, a conveying system for calcium carbonate of synthetic stone comprises a feeding hopper 1, a stirrer 9, a first conveying belt 2 arranged at the lower side of the feeding hopper 1, and a second conveying belt 7 forming a preset included angle with the first conveying belt 2, wherein the discharge end of the first conveying belt 2 extends to the position right above the second conveying belt 7, and an inclined baffle 4 for guiding powder conveyed by the first conveying belt 2 to the second conveying belt 7 is arranged between the discharge end of the first conveying belt 2 and the position right above the second conveying belt 7; the discharge end of the second conveyer belt 7 is positioned at the upper side of the feed inlet of the stirrer 9.

Its implementation principle does, through setting up feeder hopper 1, agitator 9 mutually supports, carry out the process to calcium carbonate and handle, the powder falls to the feed end upside of first conveyer belt 2 from the downside of feeder hopper 1, first conveyer belt 2 promotes the powder and carries to second conveyer belt 7 directly over, the powder is along with the motion inertia of first conveyer belt 2, length extending direction departure along first conveyer belt 2, contact with the oblique baffle 4 that is located directly over second conveyer belt 7, be equipped with the interval between first conveyer belt 2 and the oblique baffle 4, the powder falls along the terminal surface whereabouts of baffle, and fall to second conveyer belt 7 through the interval on, in second conveyer belt 7 gets into agitator 9, realize that the powder is accurate from first conveyer belt and falls to second conveyer belt, avoid causing the production waste.

The stirrer 9 is a common production device, and the specific structure thereof can refer to the technical scheme with the patent application number of 201821900496.8.

The improved inclined baffle plate structure further comprises a support 6, the inclined baffle plate 4 is hinged to the support 6, a driving module 5 is hinged to the support 6, and the driving module 5 is used for driving the inclined baffle plate 4 to change an included angle between the inclined baffle plate and a vertical surface.

Above-mentioned drive module 5 is common telescopic cylinder, and support 6, drive module 5, oblique baffle 4 are articulated each other in proper order, change telescopic cylinder action end's elongation to change the inclination of oblique baffle 4, adjust the contained angle of oblique baffle 4 and second conveyer belt 7 according to actual conditions, make the powder fall to the middle part of second conveyer belt 7 as far as possible.

Preferably, the lower side of the inclined baffle 4 is an arc-shaped slope surface bending towards the second conveying belt 7.

In order to improve the feeding effect, a plurality of feeding hoppers 1 are arranged; a plurality of feeder hopper 1 sets up the feed end upside at first conveyer belt 2, and arranges in proper order along 2 length direction of first conveyer belt.

The internal structure of feeder hopper 1 does, be equipped with baffle 12 in the feeder hopper 1, the longitudinal section of baffle 12 is the cruciform structure.

The arrangement of the partition plate 12 avoids blockage of powder poured into the feed hopper 1 due to friction accumulation among particles.

Preferably, the upper end surface of the partition 12 is arranged at an acute angle.

In a further improvement, a dustproof pipe 3 is arranged on the upper side of the first conveying belt 2; the 3 downside of dustproof pipe is uncovered arranging, dustproof pipe 3 is located between feeder hopper 1 and the baffle.

The dustproof pipe 3 has two functions, which can prevent the dust and foreign matters from falling to the first conveyer belt 2, avoid pollution and prevent the powder on the first conveyer belt 2 from floating upwards.

In order to strengthen the strength of the dustproof pipe 3, the dustproof pipe 3 is provided with reinforcing ribs 13 which are arranged at intervals along the axial direction of the dustproof pipe 3; both ends of the reinforcing rib 13 extend radially along the upper surface of the dust tube 3.

As a further improvement of this embodiment, a residue collecting module is disposed below the discharge end of the first conveyor belt 2 and the discharge end of the second conveyor belt 7.

The excess material collecting module has the specific structure that the excess material collecting module comprises an excess material hopper 8 arranged below the corresponding first conveying belt 2 and the corresponding second conveying belt 7, and the excess material hopper 8 extends along the length direction of the corresponding first conveying belt 2 and the corresponding second conveying belt 7; the bottom of the surplus hopper 8 is provided with a dust recycling pipe 10, and the dust recycling pipe 10 is connected to a waste dust tank 11.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A conveying system for calcium carbonate of artificially synthesized stone comprises a feed hopper, a stirrer, a first conveying belt arranged on the lower side of the feed hopper, and is characterized by further comprising a second conveying belt forming a preset included angle with the first conveying belt, wherein the discharge end of the first conveying belt extends to the position right above the second conveying belt, and an inclined baffle plate used for guiding powder conveyed by the first conveying belt to the second conveying belt is arranged between the discharge end of the first conveying belt and the position right above the second conveying belt; the discharge end of the second conveying belt is located on the upper side of the feed inlet of the stirrer.

2. The system for conveying calcium carbonate as claimed in claim 1, wherein the inclined baffle is hinged to the support, the support is hinged to a driving module, and the driving module is used for driving the inclined baffle to change an included angle between the inclined baffle and a vertical plane.

3. The system for conveying calcium carbonate as claimed in claim 1, wherein the lower side of the inclined baffle is an arc-shaped slope surface curved toward the second conveyor belt.

4. The conveying system for calcium carbonate of synthetic stone according to claim 1, wherein the feed hoppers are provided in plurality; a plurality of the feeder hopper setting is at the feed end upside of first conveyer belt, and arranges in proper order along first conveyer belt length direction.

5. The conveying system for calcium carbonate made of synthetic stone according to claim 4, wherein a partition board is provided in the feeding hopper, and the longitudinal section of the partition board has a cross-shaped structure.

6. The system for conveying calcium carbonate as recited in claim 5, wherein the partition boards are arranged at an acute angle at the upper end thereof.

7. The system for conveying calcium carbonate as claimed in claim 1, wherein the first conveyor belt has a dust-proof pipe on its upper side; the dustproof pipe downside is uncovered arranging, the dustproof pipe is located between feeder hopper and the baffle.

8. The system for conveying calcium carbonate as recited in claim 7, wherein the dust-proof tube is provided with reinforcing ribs arranged at intervals along an axial direction of the dust-proof tube; the two ends of the reinforcing rib radially extend along the upper surface of the dustproof pipe.

9. The conveying system for calcium carbonate made of synthetic stones according to claim 1, wherein a surplus material collecting module is disposed below both the discharge end of said first conveyor belt and the discharge end of said second conveyor belt.

10. The system for conveying calcium carbonate for synthetic stone according to claim 9, wherein the surplus material collecting module includes surplus material hoppers disposed below the corresponding first and second conveyor belts, the surplus material hoppers extending in a length direction of the corresponding first and second conveyor belts; and a dust recovery pipe is arranged at the bottom of the waste hopper and connected to a waste dust tank.

Images