CN208177834U - A kind of multistage bolter - Google Patents

Abstract

The utility model discloses a kind of multistage bolter, the chassis including being equipped with support frame and walking mechanism, support frame is equipped with the final stage discharging conveyor belts of the first power device driving；Chassis and support frame are equipped with more support columns, and all support columns are equipped with the feeding conveying belt of the second power device driving, and feeding conveying belt and final stage discharging conveyor belts are arranged in parallel and the conveying direction of the two is identical；Support column above feeding conveying belt is equipped with feeding warehouse, and feeding warehouse is arranged close to the starting point of feeding conveying belt；Support column between final stage discharging conveyor belts and feeding conveying belt is equipped with the multi-stage screening assembly being obliquely installed, and multiple vibration driving mechanisms and multiple groups damper are equipped between the two sides and support column of multi-stage screening assembly.Movement facilitates, and can be adjusted operating position as the case may be, improve ease of use；And once screening work can complete the multi-stage screening to building stones, and work efficiency is high, and the labor intensity of staff is low.

Description

A kind of multistage bolter

Technical field

The utility model relates to building stones screening plant technical field more particularly to a kind of multistage bolters.

Background technique

At this stage, the bulk stone come is exploited from mountain to need to apply after crushing plant is broken into fritter building stones (such as: being applied to building trade), since broken fritter building stones size is also inconsistent, so to need by screener Sequence is classified, currently, to the screening mode of building stones after broken are as follows: sieved by vibrating screen, when due to vibrating screen Single layer, to realize Accurate Classification (classification of different sizes), need to sieve the building stones progress after screening again or repeatedly (sieve of different size is needed replacing before screening).

Using aforesaid way, have the following deficiencies:

1, the large labor intensity of staff；

2, the mobile convenience of screening plant is poor；

3, repeatedly screening, needs repeatedly identical work, time-consuming and laborious, working efficiency is low；

4, the working environment for being crushed region is poor (Dust Capacity is big).

Utility model content

The purpose of this utility model is to provide a kind of multistage bolters, improve working efficiency, reduction labour by force to reach Degree and the purpose for improving mobile convenience.

In order to solve the above technical problems, the technical solution of the utility model is: a kind of multistage bolter, including chassis, institute Chassis is stated equipped with support frame, support frame as described above is equipped with the final stage discharging conveyor belts of the first power device driving；

The chassis and support frame as described above are equipped with more support columns, and all support columns are equipped with the second power device The feeding conveying belt of driving, the feeding conveying belt and final stage discharging conveyor belts are arranged in parallel and the conveying direction of the two It is identical；The support column above the feeding conveying belt is equipped with feeding warehouse, and the feeding warehouse is defeated close to the feeding The starting point of band is sent to be arranged；

The support column between the final stage discharging conveyor belts and the feeding conveying belt, which is equipped with, to be obliquely installed Multi-stage screening assembly, be equipped between the two sides and the support column of the multi-stage screening assembly multiple vibratory drive mechanisms and Multiple groups damper；

Walking mechanism is additionally provided on the chassis.

As an improvement the multi-stage screening assembly includes the vibrating bin being set on the support column, the vibration Four layers of sieve plate that is parallel and being obliquely installed are equipped in case, the sieve plate is equipped with several sieve pores, the institute on four layers of sieve plate Sieve diameter is stated to be sequentially reduced from top to down；

Close to the feeding warehouse, the low side of sieve plate described in first layer to third layer corresponding one is set the low side of the vibrating bin The first discharging conveyor belts being placed on the support column are equipped with inclination between first discharging conveyor belts and the sieve plate and set The material guiding hopper set；The lower section of the 4th layer of sieve plate is equipped with discharge bucket, low side of the discharge bucket close to the 4th layer of sieve plate The lower section of setting, the discharge bucket is equipped with and first discharging conveyor belts the second discharging conveyor belts disposed in parallel；

The setting direction of first discharging conveyor belts and second discharging conveyor belts discharges with the final stage and conveys The setting direction of band is vertically arranged.

As a further improvement, the fin of the more protrusion sieve plate upper surfaces is additionally provided on the sieve plate, it is described convex The cross sectional shape of rib is arc；The more fins are arranged in parallel and arrange along the width direction of the sieve plate.

As a further improvement, the vibratory drive mechanism include the driving motor that is set on the support column and It is rotatablely installed in the shaft on the vibrating bin, the output shaft centre line of the driving motor and the center line of the shaft are staggered It is arranged and is equipped with drive disk between the two.

As further improvement, the feeding conveying belt and the final stage discharging conveyor belts are obliquely installed, described The starting point of feeding conveying belt and the final stage discharging conveyor belts is below the other end.

It is improved as further, the walking mechanism is crawler type walking mechanism.

It is improved as further, is located at the feeding conveying belt, first discharging conveyor belts, second discharging It is all provided with above conveyer belt and the final stage discharging conveyor belts equipped with dust cover.

It is improved as further, the bottom of the feeding warehouse is equipped with the rubber guide abutted against with the feeding conveying belt Set.

It is improved as further, the chassis close to described feeding warehouse one end is equipped with hook.

By adopting the above-described technical solution, a kind of beneficial effect of multistage bolter provided by the utility model is such as Under:

Since the multistage bolter includes chassis, chassis is equipped with support frame, and support frame drives equipped with the first power device Dynamic final stage discharging conveyor belts；Chassis and support frame are equipped with more support columns, and all support columns are equipped with the second power device The feeding conveying belt of driving, feeding conveying belt and final stage discharging conveyor belts are arranged in parallel and the conveying direction of the two is identical；It is located at Support column above feeding conveying belt is equipped with feeding warehouse, and feeding warehouse is arranged close to the starting point of feeding conveying belt；Positioned at final stage Support column between discharging conveyor belts and feeding conveying belt is equipped with the multi-stage screening assembly being obliquely installed, multi-stage screening assembly Multiple vibratory drive mechanisms and multiple groups damper are equipped between two sides and support column；It is additionally provided with walking mechanism on chassis, is based on At work, broken building stones (not being classified) are sent by feeding warehouse to feeding conveying belt for above structure, the multistage bolter, Later, the building stones (not being classified) that crushing plant is crushed are delivered in multi-stage screening assembly by feeding conveying belt, later vibratory drive Mechanism drives multi-stage screening assembly to vibrate and complete the multi-stage screening to building stones, and the building stones of final stage can fall into final stage discharging conveyor belts It is conveyed, during the vibration of multi-stage screening assembly, damping is carried out by damper and inertial oscillation power is provided, not only Screening efficiency is helped to improve, and multi-stage screening assembly will not be damaged.

In conclusion movement facilitates using the multistage bolter, it can be adjusted operating position as the case may be, Substantially increase ease of use；Moreover, once sieving work using the bolter, the multi-stage screening to building stones can be completed, It is time saving and energy saving, it greatly improves work efficiency, effectively reduces the labor intensity of staff.

Since multi-stage screening assembly includes the vibrating bin being set on support column, four layers are equipped in parallel in vibrating bin and is inclined The sieve plate being tiltedly arranged, sieve plate are equipped with several sieve pores, and the sieve diameter on four layers of sieve plate is sequentially reduced from top to down；Vibrating bin Low side close to feeding warehouse, the low side of first layer to third layer sieve plate corresponding one is set to the first discharging conveying on support column Band is equipped with the material guiding hopper being obliquely installed between the first discharging conveyor belts and sieve plate；The lower section of 4th layer of sieve plate is equipped with discharge bucket, Close to the low side setting of the 4th layer of sieve plate, the lower section of discharge bucket is equipped with and the first discharging conveyor belts disposed in parallel second discharge bucket Discharging conveyor belts；Setting side of the setting direction of first discharging conveyor belts and the second discharging conveyor belts with final stage discharging conveyor belts To being vertically arranged, thus at work, the top that feeding conveying belt will not be classified building stones and be delivered to vibrating bin, later, vibration is driven Motivation structure drives vibrating bin and its movement of the sieve plate of inside, and in this process, the building stones less than sieve diameter pass through every layer of sieve plate It falls, the building stones stayed on every layer of sieve plate drop down onto be conveyed on the first discharging conveyor belts or the second discharging conveyor belts, lowest level The building stones of sieve plate screening drop down onto be conveyed on final stage discharging conveyor belts, and structure is simple, and primary screening work can complete five kinds The screening of grade building stones, screening accuracy is high, meanwhile, it provides a favorable guarantee to the efficiency for improving screening work；Pass through first Setting direction of the setting direction of discharging conveyor belts and the second discharging conveyor belts with final stage discharging conveyor belts is vertically arranged this Structure, to be convenient for the arrangement and installation of a plurality of discharging conveyor belts.

Due to being additionally provided with the fin of more protrusion sieve plate upper surfaces on sieve plate, the cross sectional shape of fin is arc；More convex Rib is arranged in parallel and arranges along the width direction of sieve plate, to play barrier effect to building stones by fin, prevents building stones edge from inclining The sieve plate being tiltedly arranged voluntarily flows, and helps to improve screening precision.

Since vibratory drive mechanism includes the driving motor being set on support column and rotational installation in turn on vibrating bin Axis, the output shaft centre line of driving motor and the center line of shaft are arranged in a staggered manner and are equipped with drive disk between the two, thus in work In work, drive disk and shaft is driven to rotate by driving motor, due to the output shaft and shaft eccentric setting of driving motor, in turn It realizes that driving motor drives vibrating bin and its interior multiple sieve plate up and down reciprocatingly to be vibrated, in above process, passes through damping Device compensates displacement and carries out damping, and structure is simple, easy to assembly, to carry out oscillatory type screening to building stones, improving screening efficiency It lays a good foundation with screening effect.

Since feeding conveying belt and final stage discharging conveyor belts are obliquely installed, feeding conveying belt and final stage discharging conveyor belts Starting point is below the other end, to be convenient for and upstream equipment (crushing plant) by the feeding conveying belt (low side) being obliquely installed It is connected, is fed directly in transport vehicle by (high-end) building stones convenient for conveying of the final stage discharging conveyor belts being obliquely installed, Structure is simple, does not influence normal transport not only, but also good with the connecting of other equipment, substantially increase practicability and Convenience.

Since walking mechanism is crawler type walking mechanism, to meet harsh environments by crawler type walking mechanism Demand (it is well known that rubble and screening building stones working environment be very severe).

Due to being located at the upper of feeding conveying belt, the first discharging conveyor belts, the second discharging conveyor belts and final stage discharging conveyor belts Fang Junshe is equipped with dust cover, so that it is unrestrained to prevent dust from flying by dust cover, is conducive to the working environment for improving screening building stones.

Since the bottom of feeding warehouse is equipped with the rubber feed set that abuts against with feeding conveying belt, thus by rubber feed set with Feeding conveying belt abuts against, and realizes that the sealing between feeding warehouse and feeding conveying belt is connected, prevents the stone come out out of feeding warehouse Head is tumbled from inclined feeding conveying belt.

Since the chassis close to feeding warehouse one end is equipped with hook, to be connected by hook with fixation member, to guarantee The stationarity of multistage bolter position at work.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of vibratory drive mechanism；

Fig. 3 is the enlarged drawing of A in Fig. 1；

Fig. 4 is the structural schematic diagram of sieve plate；

In figure, the chassis 1-；101- support frame；The first power device of 102-；103- final stage discharging conveyor belts；104- hook； 2- support column；The second power device of 201-；202- feeding conveying belt；203- feeding warehouse；204- rubber feed set；3- multi-stage screening Assembly；301- vibrating bin；302- sieve plate；303- sieve pore；The first discharging conveyor belts of 304-；305- material guiding hopper；306- discharge bucket； The second discharging conveyor belts of 307-；308- fin；4- vibratory drive mechanism；401- driving motor；402- shaft；403- drive disk； 5- damper；501- compressed spring；502- attachment base；6- walking mechanism.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

As shown in Figure 1, a kind of multistage bolter, including chassis 1, the chassis 1 are equipped with support frame 101, the support frame 101 It is equipped with the final stage discharging conveyor belts 103 of the first power device 102 driving；The chassis 1 and support frame 101 are equipped with more supports Column 2, all support columns 2 are equipped with the feeding conveying belt 202 of the second power device 201 driving, the feeding conveying belt 202 and final stage Discharging conveyor belts 103 are arranged in parallel and the conveying direction of the two is identical, in the present solution, first power device 102 and second Power device 201 is common transfer drive at this stage, therefore does not add to repeat herein；In feeding conveying belt 202 The support column 2 of side is equipped with feeding warehouse 203, which is arranged close to the starting point of feeding conveying belt 202；Positioned at final stage Support column 2 between discharging conveyor belts 103 and feeding conveying belt 202 is equipped with the multi-stage screening assembly 3 being obliquely installed, the multistage It sieves and is equipped with multiple vibratory drive mechanisms 4 and multiple groups damper 5 between the two sides and support column 2 of assembly 3；On the chassis 1 also Equipped with walking mechanism 6, preferably, the walking mechanism 6 is crawler type walking mechanism.

The multi-stage screening assembly 3 includes the vibrating bin 301 being set on support column 2, is equipped with four layers in the vibrating bin 301 and puts down Row and the sieve plate 302 being obliquely installed, the sieve plate 302 for defining top layer is first layer sieve plate；The sieve plate 302 is equipped with several Sieve pore 303 (referring to fig. 4), 303 diameter of sieve pore on four layers of sieve plate 302 are sequentially reduced from top to down；The low side of the vibrating bin 303 Close to feeding warehouse 203, it is defeated that the low side of first layer to third layer sieve plate 302 corresponding one is set to the first discharging on support column 2 Band 304 is sent, the material guiding hopper 305 being obliquely installed is equipped between first discharging conveyor belts 304 and sieve plate 302；4th layer of sieve plate 302 lower section is equipped with discharge bucket 306, which is arranged close to the low side of the 4th layer of sieve plate 302, under the discharge bucket 306 Side is equipped with and second discharging conveyor belts 307 disposed in parallel of the first discharging conveyor belts 304；First discharging conveyor belts 304 and Setting direction of the setting direction of two discharging conveyor belts 307 with final stage discharging conveyor belts 103 is vertically arranged.

The fin 308 of more protrusion 302 upper surfaces of sieve plate is additionally provided on the sieve plate 302, the cross sectional shape of the fin 308 is Arc；More fins 308 are arranged in parallel and arrange (referring to fig. 4) along the width direction of sieve plate 302.

As shown in Fig. 2, the vibratory drive mechanism 4 include the driving motor 401 that is set on support column 2 and rotational installation in Shaft 402 on vibrating bin 301, the output shaft centre line of the driving motor 401 and the center line of shaft 402 be arranged in a staggered manner and It is equipped with drive disk 403 between the two.

As shown in figure 3, every group of damper 5 includes more compressed springs disposed in parallel being set on support column 2 501, the other end of all compressed springs 501 is connected on attachment base 502, which is articulated on vibrating bin 301.

The feeding conveying belt 202 and final stage discharging conveyor belts 103 are obliquely installed, and the feeding conveying belt 202 and final stage go out The starting point of material conveyer belt 103 is below the other end；First discharging conveyor belts 304, the second also tiltable of discharging conveyor belts 307 Setting, so that the building stones of conveying can be fed directly in transport vehicle；Positioned at feeding conveying belt 202, the first discharging conveyor belts 304, The top of second discharging conveyor belts 307 and final stage discharging conveyor belts 103 is all provided with equipped with dust cover (not shown).

The bottom of the feeding warehouse 203 is equipped with the rubber feed set 204 abutted against with feeding conveying belt 202.

Chassis 1 close to 203 one end of feeding warehouse is equipped with hook 104, thus be connected by hook 104 with fixation member, To guarantee the stationarity of multistage bolter position at work.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (9)

1. a kind of multistage bolter, including chassis, which is characterized in that the chassis is equipped with support frame, sets on support frame as described above The final stage discharging conveyor belts for thering is the first power device to drive；

The chassis and support frame as described above are equipped with more support columns, and all support columns drive equipped with the second power device Feeding conveying belt, the feeding conveying belt and the final stage discharging conveyor belts are arranged in parallel and the conveying direction of the two is identical； The support column above the feeding conveying belt is equipped with feeding warehouse, and the feeding warehouse is close to the feeding conveying belt Starting point setting；

The support column between the final stage discharging conveyor belts and the feeding conveying belt is more equipped with being obliquely installed Grade screening assembly, is equipped with multiple vibratory drive mechanisms and multiple groups between the two sides and the support column of the multi-stage screening assembly Damper；

Walking mechanism is additionally provided on the chassis.

2. multistage bolter according to claim 1, which is characterized in that the multi-stage screening assembly is described including being set to Vibrating bin on support column, the vibrating bin is interior to be equipped with four layers of sieve plate that is parallel and being obliquely installed, and the sieve plate is equipped with several A sieve pore, the sieve diameter on four layers of sieve plate are sequentially reduced from top to down；

Close to the feeding warehouse, the low side of sieve plate described in first layer to third layer corresponding one is set to the low side of the vibrating bin The first discharging conveyor belts on the support column are equipped between first discharging conveyor belts and the sieve plate and to be obliquely installed Material guiding hopper；The lower section of the 4th layer of sieve plate is equipped with discharge bucket, and the discharge bucket is arranged close to the low side of the 4th layer of sieve plate, The lower section of the discharge bucket is equipped with and first discharging conveyor belts the second discharging conveyor belts disposed in parallel；

The setting direction of first discharging conveyor belts and second discharging conveyor belts with the final stage discharging conveyor belts Setting direction is vertically arranged.

3. multistage bolter according to claim 2, which is characterized in that be additionally provided with the more protrusion sieves on the sieve plate The fin of plate upper surface, the cross sectional shape of the fin are arc；The more fins are arranged in parallel and along the width of the sieve plate Spend direction arrangement.

4. multistage bolter according to claim 3, which is characterized in that the vibratory drive mechanism is described including being set to Driving motor on support column and rotational installation in the shaft on the vibrating bin, the output shaft centre line of the driving motor and The center line of the shaft is arranged in a staggered manner and is equipped with drive disk between the two.

5. multistage bolter according to claim 4, which is characterized in that the feeding conveying belt and final stage discharging are defeated Band is sent to be obliquely installed, the starting point of the feeding conveying belt and the final stage discharging conveyor belts is below the other end.

6. multistage bolter according to claim 5, which is characterized in that the walking mechanism is crawler type walking mechanism.

7. multistage bolter according to claim 5, which is characterized in that go out positioned at the feeding conveying belt, described first It is all provided with above material conveyer belt, second discharging conveyor belts and the final stage discharging conveyor belts equipped with dust cover.

8. multistage bolter according to claim 5, which is characterized in that the bottom of the feeding warehouse is equipped with and the feeding The rubber feed set that conveyer belt abuts against.

9. multistage bolter according to claim 8, which is characterized in that on the chassis of described feeding warehouse one end Equipped with hook.