CN210735278U

CN210735278U - Conveying mechanism of stirring machine matched with environment-friendly building slag brick making machine

Info

Publication number: CN210735278U
Application number: CN201921729026.4U
Authority: CN
Inventors: 李军志; 李一清
Original assignee: Dazhou Tongzhan Building Material Co ltd
Current assignee: Dazhou Tongzhan Building Material Co ltd
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-06-12
Anticipated expiration: 2029-10-15

Abstract

The utility model relates to a build the transport technical field of sediment, specifically be a conveying mechanism of supporting mixer of sediment brickmaking machine is built in environmental protection, the utility model discloses a proportioning machine, mixer and conveyer, every all install the pivot along its width direction on the conveyer, the cover has the adapter sleeve in the pivot, install detection device and give birth to the device along its length direction in proper order on the adapter sleeve, install telescopic machanism on the conveyer, electrically conductive bearing is installed to the one end of pivot, install the conducting ring on the bearing, be connected with telescopic machanism through the wire on the conducting ring, telescopic machanism can dismantle through the plug-in strip of connecting rod and switch and be connected. The utility model discloses in when building the sediment on the conveyer and piling up certain height, can drive telescopic machanism and stretch out after the generating set produces electricity, and make the plug-in strip of switch close, the conveyer loses the power and stops the transportation to building the sediment to can prevent to build the further piling up of sediment.

Description

Conveying mechanism of stirring machine matched with environment-friendly building slag brick making machine

Technical Field

The utility model relates to a build the transport technical field of sediment, more specifically relate to a conveying mechanism of supporting mixer of sediment brickmaking machine is built in environmental protection.

Background

The brick has great use in our actual life, especially in the building field, the brick becomes the basic element of the building, and the brick has the advantages of convenient use, firmness and durability. The brick is manufactured by adding ingredients into a crusher, wherein the ingredients pass through the crusher and then sequentially enter a crusher, a vibrating screening machine, a powder warehouse, an ingredient machine and a stirrer, and finally reach a brick making machine, and a simple brick can be formed after passing through the brick making machine. Wherein, when the building sediment in the batching is carried in the agitator from the proportioning machine, need use corresponding conveying mechanism.

Conveying mechanism that the mixer was carried from the proportioning machine to the sediment of building among the prior art includes the transfer gantry, conveyer belt and conveying roller, conveying roller includes the axis, first panel and second panel, the centraxonial both ends pass first panel and the rotatable erections of second panel respectively on the transfer gantry, be equipped with radial complex root supporting beam between first panel and the second panel, supporting beam forms the recess to middle slope from both ends, be equipped with the conveyer belt on the supporting beam, the sediment of building that comes out in the proportioning machine can be carried the mixer through the conveyer belt and is made further stirring, so that carry out next process.

However, when the built slag reaching the conveyer belt from the batching machine is excessive, the built slag entering the stirrer increases, and when the stirring speed of the stirrer is lower than the speed of the conveyer belt for conveying the built slag, the built slag is accumulated on the conveyer belt, and the conveyer belt continues to transmit at the moment, so that the built slag accumulated on the conveyer belt is more. Therefore, an urgent need exists for a slag-building conveying mechanism which can stop the transmission of the conveying belt when the building slag on the conveying belt is stacked to a certain height, so that the building slag can be prevented from being further stacked on the conveying belt.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides a conveying mechanism of supporting mixer of sediment brickmaking machine is built in environmental protection for when building the sediment on the conveyer belt and piling up certain height among the solution prior art, can not make the conveyer belt stop, thereby can not prevent to build the further accumulational problem of sediment. The utility model discloses in when building the sediment on the conveyer and piling up certain height, it can drive the pick-up plate rotation along with conveyer's removal to build the sediment, and the pick-up plate rotation can drive the pivot rotation, and the pivot is rotatory to be driven the power generation device again and is produced the electricity, can drive telescopic machanism and stretch out after the power generation device produces the electricity, and makes the plug-in strip of switch close, and conveyer loses the power and stops the transportation to building the sediment to can prevent to build the further piling up of sediment.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a conveying mechanism of supporting mixer of sediment brickmaking machine is built in environmental protection, includes proportioning machine and mixer, be equipped with a plurality of conveyer between proportioning machine and mixer, every all install the pivot along its width direction on the conveyer, the cover has the adapter sleeve in the pivot, install detection device and generating device in proper order along its length direction on the adapter sleeve, detection device is including installing a plurality of pick-up plates that just extend to the conveyer top on the adapter sleeve, install telescopic machanism on the conveyer, electrically conductive bearing is installed to the one end of pivot, install the conducting ring on the bearing, be connected with telescopic machanism through the wire on the conducting ring, telescopic machanism can dismantle with the plug-in switch of switch through the connecting rod and be connected, the switch passes through the wire and is connected with the conveyer, the switch is connected with the power through the wire.

As a preferred mode, the conveyer is including installing the support between proportioning machine and mixer, driving shaft and driven shaft are installed respectively to the both ends of support, install drive roll and driven voller on driving shaft and the driven shaft respectively, connect the conveyer belt between drive roll and the driven voller, install the rotating electrical machines on the driving shaft, the rotating electrical machines passes through wire linked switch.

The working principle is as follows: when the mixer department will be carried to the sediment to building from proportioning machine department when needs, can close the plug-in strip of switch through the manual work, then link together connecting rod and plug-in strip, the rotating electrical machines circular telegram begins rotatoryly this moment, and the rotating electrical machines drives driving shaft and drive roll rotation in proper order again, and the drive roll drives conveyer belt and driven voller rotation again, and the conveyer belt can be transported building the sediment. If the stirring speed of mixer to building the sediment is less than when the conveyer belt is to the transfer rate of building the sediment, it may pile up on the conveyer belt to build the sediment, pile up certain height when building the sediment, for example, during 1 meter, it can contact the pick-up plate to build the sediment, because it can drive the pick-up plate rotation to build the removal of sediment on the conveyer belt, the pick-up plate rotation can drive the pivot rotation, the pivot rotation can make power generation device produce the electric current, can transmit to the conducting ring after power generation device produces the electric current on, transmit to telescopic machanism through the wire again on the conducting ring on, telescopic machanism begins to stretch out after getting the electricity, thereby drive the connecting rod and stretch out, the connecting rod drives the plug-type switch again and closes the switch on, conveyer device loses the power and stop work after the switch closes.

When the building slag on the conveyor belt is reduced and the detection plate does not rotate, the power generation device does not generate electricity any more, the telescopic mechanism retracts when losing current, and the connecting rod drives the knife switch to close the switch, so that the rotating motor can be electrified, and the conveyor belt can normally convey the building slag; after the conveying of building sediment is finished, dismantle the connecting rod from the plug-in strip, then the manual work closes the switch-in strip of switch can.

Through the technical scheme, when the built slag is stacked on the conveyor belt too high, the conveyor belt can stop conveying the built slag, so that the built slag can be prevented from being further stacked on the conveyor belt. It is worth noting that: the mounting of the conveyor belt on the drive roller and the driven roller is possible by the prior art and the electrical connection of the mechanism is also known to the person skilled in the art and will not be described in detail here.

As a preferred mode, the power generation device comprises an upper mounting plate and a lower mounting plate which are mounted on the support and respectively positioned above and below the rotating shaft, the upper mounting plate and the lower mounting plate are respectively provided with an upper magnet and a lower magnet, and the connecting sleeve is provided with a plurality of conductors positioned between the upper magnet and the lower magnet.

Preferably, the conductor is further wound with a coil.

As a preferred mode, the telescopic mechanism comprises a barrel body arranged on a support, a sliding plate capable of moving along the axial direction of the barrel body is arranged in the barrel body, a telescopic shaft penetrating through the barrel body is arranged on the side face of the sliding plate, a connecting plate is arranged on the telescopic shaft, a connecting rod is arranged on the connecting plate, a right electromagnet and a left electromagnet are respectively arranged on the side face of the sliding plate and the side face in the barrel body, the opposite faces of the right electromagnet and the left electromagnet are different in magnetism after being electrified, a spring positioned between the right electromagnet and the left electromagnet is sleeved on the telescopic shaft, and the conducting ring is respectively connected with the left electromagnet and the right electromagnet through conducting wires.

Preferably, the spring is made of a non-magnetic material.

Preferably, the plurality of detection plates are uniformly arranged on the circumferential surface of the connecting sleeve, and the detection plates are positioned above the conveyor belt.

The utility model has the advantages as follows:

(1) the utility model discloses in when building the sediment on the conveyer and piling up certain height, it can drive the pick-up plate rotation along with conveyer's removal to build the sediment, and the pick-up plate rotation can drive the pivot rotation, and the pivot is rotatory to be driven the power generation device again and is produced the electricity, can drive telescopic machanism and stretch out after the power generation device produces the electricity, and makes the plug-in strip of switch close, and conveyer loses the power and stops the transportation to building the sediment to can prevent to build the further piling up of sediment.

(2) When the detecting plate drives the rotating shaft to rotate, the rotating shaft can drive the conductor to rotate, and the upper magnet and the lower magnet are respectively arranged above and below the conductor, so that the conductor can cut magnetic induction lines of the upper magnet and the lower magnet; when the slag can not drive the detecting plate to rotate, the rotating shaft and the conductor stop rotating, and the conductor does not cut the magnetic induction line, so that current does not exist on the conductor any longer, and current does not exist on the conducting ring any longer.

(3) The utility model discloses it has the coil still to twine on the well conductor, has twined the coil on the conductor, and the electric current that can make to produce on the conductor is bigger to it is more obvious to the control of plug-in strip.

(4) In the utility model, when the building slag reaches a certain height, the detection plate rotates, the current generated by the power generation device finally enables the left electromagnet and the right electromagnet to be electrified, and the magnetism of opposite surfaces is different after the right electromagnet and the left electromagnet are electrified, so that the left electromagnet and the right electromagnet attract each other, the right electromagnet drives the sliding plate to move towards the left electromagnet, meanwhile, the spring is compressed, the sliding plate drives the telescopic shaft to extend outwards, the telescopic shaft drives the connecting plate and the connecting rod to extend out, the connecting rod finally drives the switch to close the switch, and the transportation device loses the current and stops the transportation of the building slag; when the detection plate does not rotate, the left electromagnet and the right electromagnet lose current, the spring recovers, the right electromagnet drives the sliding plate to move towards the direction far away from the left electromagnet under the driving of the spring, finally, the connecting rod drives the knife switch to open the switch, and the transportation device normally transports the building slag.

Drawings

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

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the top view of the transportation device of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 3 according to the present invention;

FIG. 5 is a schematic front sectional view of the retractable mechanism of the present invention connected to the knife switch via the connecting rod and the knife switch being closed;

FIG. 6 is a schematic front sectional view of the telescopic mechanism of the present invention connected to the knife switch via the connecting rod and the knife switch disconnected;

fig. 7 is an enlarged schematic view of fig. 4 at C according to the present invention;

reference numerals: 1 proportioning machine, 2 conveyer, 21 drive roll, 22 conveyer belt, 23 supports, 24 driven rolls, 25 driving shafts, 26 rotating electrical machines, 27 driven shafts, 3 telescopic mechanisms, 31 connecting plates, 32 telescopic shafts, 33 left electromagnets, 34 springs, 35 right electromagnets, 36 sliding plates, 37 barrels, 4 generating electrical devices, 41 lower mounting plates, 42 conductors, 43 lower magnets, 44 upper magnets, 45 upper mounting plates, 5 detecting devices, 51 detecting plates, 6 mixers, 7 rotating shafts, 8 connecting sleeves, 9 switches, 10 knife switches, 11 connecting rods, 12 conducting rings and 13 bearings.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1:

as shown in fig. 1-7, a conveying mechanism of a blender matched with an environment-friendly slag building brick machine comprises a batching machine 1 and a blender 6, a plurality of conveying devices 2 are arranged between the batching machine 1 and the blender 6, a rotating shaft 7 is arranged on each conveying device 2 along the width direction of the conveying device, a connecting sleeve 8 is sleeved on the rotating shaft 7, a detection device 5 and a power generation device 4 are sequentially arranged on the connecting sleeve 8 along the length direction of the connecting sleeve 8, the detection device 5 comprises a plurality of detection plates 51 which are arranged on the connecting sleeve 8 and extend to the upper part of the conveying device 2, a telescopic mechanism 3 is arranged on the conveying device 2, a conductive bearing 13 is arranged at one end of the rotating shaft 7, a conductive ring 12 is arranged on the bearing 13, the conductive ring 12 is connected with the telescopic mechanism 3 through a lead, the telescopic mechanism 3 is detachably connected with a switch knife 10 of a switch 9 through a, the switch 9 is connected with a power supply through a lead.

Preferably, the transportation device 2 comprises a support 23 arranged between the batching machine 1 and the stirring machine 6, a driving shaft 25 and a driven shaft 27 are respectively arranged at two ends of the support 23, a driving roller 21 and a driven roller 24 are respectively arranged on the driving shaft 25 and the driven shaft 27, a conveying belt 22 is connected between the driving roller 21 and the driven roller 24, a rotating motor 26 is arranged on the driving shaft 25, and the rotating motor 26 is connected with the switch 9 through a conducting wire.

The working principle is as follows: when the building slag is required to be conveyed to the stirrer 6 from the batching machine 1, the switch blades 10 of the switch 9 can be manually closed, then the connecting rods 11 are connected with the switch blades 10, at the moment, the rotating motor 26 is electrified to start to rotate, the rotating motor 26 sequentially drives the driving shaft 25 and the driving roller 21 to rotate, the driving roller 21 drives the conveying belt 22 and the driven roller 24 to rotate, and the conveying belt 22 can convey the building slag. If the stirring speed of the stirrer 6 for the building slag is less than the conveying speed of the conveyor belt 22 for the building slag, the building slag may be accumulated on the conveyor belt 22, when the building slag is accumulated to a certain height, for example, 1 meter, the building slag may contact the detection plate 51, the detection plate 51 may be driven to rotate by the movement of the building slag on the conveyor belt 22, the detection plate 51 may drive the rotating shaft 7 to rotate, the rotating shaft 7 may rotate to enable the power generation device 4 to generate current, the current generated by the power generation device 4 may be transmitted to the conductive ring 12, and then transmitted to the telescopic mechanism 3 through a wire from the conductive ring 12, the telescopic mechanism 3 starts to extend after being powered on, thereby driving the connecting rod 11 to extend, the connecting rod 11 then drives the switch 10 to turn off the switch 9, the conveyor device 2 loses power to stop working after the switch 9 is turned off, and the conveyor belt 22 finally stops conveying the building slag.

When the slag on the conveyor belt 22 is reduced and the detection plate 51 does not rotate, the power generation device 4 does not generate power any more, the telescopic mechanism 3 retracts when losing current, the connecting rod 11 drives the knife switch 10 to close the switch 9, so that the rotating motor 26 can be electrified, and the conveyor belt 22 normally conveys the slag; after the conveying of the building slag is finished, the connecting rod 11 is detached from the knife switch 10, and then the knife switch 10 of the switch 9 is manually closed.

Through the technical scheme, when the building slag is excessively high accumulated on the conveyor belt 22, the conveyor belt 22 can stop conveying the building slag, so that the building slag can be prevented from being further accumulated on the conveyor belt 22. It is worth noting that: the mounting of the conveyor belt 22 on the drive roller 21 and the driven roller 24 is possible by the prior art and the electrical connection of the mechanism is also known to the person skilled in the art and will not be described in detail here. Where the rotary electric machine 26 is conventional and readily commercially available, the specific circuit connections are known to those skilled in the art, and the specific model may be selected from, but not limited to 6812ZY 150W.

Example 2:

as shown in fig. 1 to 7, the present embodiment provides a preferred mechanism of the power generation device based on embodiment 1, that is, the power generation device 4 includes an upper mounting plate 45 and a lower mounting plate 41 mounted on the bracket 23 and respectively located above and below the rotating shaft 7, an upper magnet 44 and a lower magnet 43 are respectively mounted on the upper mounting plate 45 and the lower mounting plate 41, and a plurality of conductors 42 located between the upper magnet and the lower magnet are mounted on the connecting sleeve 8. When the detecting plate 51 drives the rotating shaft 7 to rotate, the rotating shaft 7 drives the conductor 42 to rotate, and the upper magnet 44 and the lower magnet 43 are respectively arranged above and below the conductor 42, so that the conductor 42 cuts magnetic induction lines of the upper magnet 44 and the lower magnet 43, when the conductor 42 cuts the magnetic induction lines, current is generated on the conductor 42, and the current generated on the conductor 42 is transmitted to the conducting ring 12; when the slag cannot drive the detecting plate 51 to rotate, the rotating shaft 7 and the conductor 42 stop rotating, and the conductor 42 does not cut the magnetic induction line any more, so that no current flows on the conductor 42 and no current flows on the conductive ring 12.

Preferably, the conductor 42 is also wound with a coil, and the winding of the coil on the conductor 42 can cause a greater current to be generated on the conductor 42, thereby providing more control over the blade 10.

The other parts of this embodiment are the same as embodiment 1, and are not described herein again.

Example 3:

as shown in fig. 1-7, a preferred mechanism of the telescopic mechanism is provided in this embodiment on the basis of

embodiments

1 and 2, that is, the telescopic mechanism 3 includes a cylinder 37 mounted on the bracket 23, a sliding plate 36 axially movable along the cylinder 37 is disposed in the cylinder 37, a telescopic shaft 32 penetrating through the cylinder 37 is mounted on a side surface of the sliding plate 36, a connecting plate 31 is mounted on the telescopic shaft 32, the connecting rod 11 is mounted on the connecting plate 31, a right electromagnet 35 and a left electromagnet 33 are respectively mounted on a side surface of the sliding plate 36 and a side surface in the cylinder 37, the opposite surfaces of the right electromagnet 35 and the left electromagnet 33 are different in magnetism after the right electromagnet 35 and the left electromagnet 33 are energized, a spring 34 located between the right electromagnet 35 and the left electromagnet 33 is sleeved on the telescopic shaft 32, and the conductive ring 12 is connected to the left electromagnet 33. When the slag reaches a certain height, the detection plate 51 rotates, and the left electromagnet 33 and the right electromagnet 35 are finally electrified by the current generated by the power generation device 4. Because the opposite surfaces of the right electromagnet 35 and the left electromagnet 33 are different in magnetism after being electrified, the left electromagnet 33 and the right electromagnet 35 are mutually attracted, the right electromagnet 35 drives the sliding plate 36 to move towards the left electromagnet 33, meanwhile, the spring 34 is compressed, the sliding plate 36 drives the telescopic shaft 32 to extend outwards, the telescopic shaft 32 drives the connecting plate 31 and the connecting rod 11 to extend out, the connecting rod 11 finally drives the knife switch 10 to close the switch 9, and the transportation device 2 loses current to stop transporting the building slag; when the detection plate 51 does not rotate, and the left electromagnet 33 and the right electromagnet 35 lose current, the spring 34 is restored, under the driving of the spring 34, the right electromagnet 35 drives the sliding plate 36 to move towards the direction away from the left electromagnet 33, finally, the connecting rod 11 drives the knife switch 10 to open the switch 9, and the transportation device 2 transports the constructed slag normally.

Preferably, the spring 34 is a non-magnetic material to avoid magnetization of the spring 34.

Preferably, a plurality of sensing plates 51 are uniformly installed on the circumferential surface of the connecting sleeve 8, and the sensing plates 51 are positioned above the conveyor belt 22. Thus, the detecting plate 51 is easily rotated by the slag.

The other parts of this embodiment are the same as those of

embodiments

1 and 2, and are not described herein again.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly showing the verification process of the present invention, and are not used to limit the protection scope of the present invention, which is still subject to the claims, and all the equivalent structural changes made by using the contents of the specification and drawings of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a conveying mechanism of supporting mixer of sediment brickmaking machine is built in environmental protection, includes proportioning machine (1) and mixer (6), be equipped with a plurality of conveyer (2), its characterized in that between proportioning machine (1) and mixer (6): every transport unit (2) is provided with a rotating shaft (7) along the width direction thereof, the rotating shaft (7) is sleeved with a connecting sleeve (8), the connecting sleeve (8) is sequentially provided with a detection device (5) and a power generation device (4) along the length direction thereof, the detection device (5) comprises a plurality of detection plates (51) which are arranged on the connecting sleeve (8) and extend to the upper part of the transport unit (2), the transport unit (2) is provided with a telescopic mechanism (3), one end of the rotating shaft (7) is provided with a conductive bearing (13), the bearing (13) is provided with a conductive ring (12), the conductive ring (12) is connected with the telescopic mechanism (3) through a wire, the telescopic mechanism (3) is detachably connected with a switch (10) of a switch (9) through a connecting rod (11), and the switch (9) is connected with the transport unit (2) through a wire, the switch (9) is connected with a power supply through a lead.

2. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine, as claimed in claim 1, is characterized in that: conveyer (2) are including installing support (23) between proportioning machine (1) and mixer (6), driving shaft (25) and driven shaft (27) are installed respectively to the both ends of support (23), install drive roll (21) and driven voller (24) on driving shaft (25) and driven shaft (27) respectively, be connected with conveyer belt (22) between drive roll (21) and driven voller (24), install rotating electrical machines (26) on driving shaft (25), rotating electrical machines (26) are through wire linked switch (9).

3. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine, as claimed in claim 2, is characterized in that: generate electric installation (4) including installing last mounting panel (45) and lower mounting panel (41) on support (23) and be located pivot (7) top and below respectively, go up mounting panel (45) and install respectively on mounting panel (41) down magnet (44) and lower magnet (43), install conductor (42) between a plurality of last magnet and lower electromagnet that are located on adapter sleeve (8).

4. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine, as claimed in claim 3, is characterized in that: the conductor (42) is also wound with a coil.

5. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine, as claimed in claim 2, is characterized in that: the telescopic mechanism (3) comprises a cylinder body (37) arranged on the bracket (23), a sliding plate (36) which can move along the axial direction of the cylinder body (37) is arranged in the cylinder body (37), the side surface of the sliding plate (36) is provided with a telescopic shaft (32) which passes through the cylinder body (37), the telescopic shaft (32) is provided with a connecting plate (31), the connecting rod (11) is arranged on the connecting plate (31), the side surface of the sliding plate (36) and the side surface in the cylinder body (37) are respectively provided with a right electromagnet (35) and a left electromagnet (33), the right electromagnet (35) and the left electromagnet (33) have different magnetism after being electrified, a spring (34) positioned between the right electromagnet (35) and the left electromagnet (33) is sleeved on the telescopic shaft (32), the conducting ring (12) is respectively connected with the left electromagnet (33) and the right electromagnet (35) through conducting wires.

6. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine, as claimed in claim 5, is characterized in that: the spring (34) is a non-magnetic material.

7. The conveying mechanism of the stirring machine matched with the environment-friendly building slag brick making machine according to any one of claims 2 to 6, is characterized in that: the detection plates (51) are uniformly arranged on the circumferential surface of the connecting sleeve (8), and the detection plates (51) are positioned above the conveying belt (22).