CN208082856U - A kind of vibrating sieving machine and the rubble hierarchy system with the vibrating sieving machine - Google Patents

Abstract

The utility model provides a kind of vibrating sieving machine and the rubble hierarchy system with the vibrating sieving machine, it is related to building construction technique field, aim to solve the problem that the problem of screen durability difference, including screen box, compass screen surface is provided tiltedly in screen box, sieve is equipped on compass screen surface, compass screen surface both sides, it is provided with T-slot positioned at screen box relative inner wall upper edge sieve length direction, sieve both sides of the edge go out cooperation and are equipped with T-bar, side T-slot is equipped with the slippage slot for being more than T-bar setting far from the connection of compass screen surface side, slippage slot is penetrated through on screen box lateral wall is rotatably connected to the adjusting screw rod perpendicular to screen box lateral wall, adjusting screw rod is connected to close to sieve threaded one end in T-bar；Further include feeding equipment, feeding equipment is connected to the setting of the first pile of aggregate, and the compass screen surface connection for being located at middle part is equipped with the second pile of aggregate, and the compass screen surface connection for being located at top is equipped with reprocessing device.The utility model makes to keep rigidity when its vibration, to extend sieve service life by providing tensile force for sieve.

Description

A kind of vibrating sieving machine and the rubble hierarchy system with the vibrating sieving machine

Technical field

The utility model is related to build construction technique field, more particularly to a kind of vibrating sieving machine and the rubble with the vibrating sieving machine Hierarchy system.

Background technology

Rubble refers to that granule content of granule content of the grain size more than 200mm no more than full weight 50%, grain size more than 20mm is super Cross full weight 50%, the soil based on angular particle；Rubble is divided into different stage using hierarchy system, solves rubble dust Content is high, grading is uneven, the problem of particle composition consistency difference, to meet architectural engineering demand.

Currently, rubble screening machine in the market is as shown in Fig. 1, including vibrating sieving machine ontology 1, vibrating sieving machine ontology 1 include bottom Seat 11,11 edge of the pedestal are equipped with spring fastening 111, are equipped on the spring fastening 111, above pedestal 11 The screen box 12 being obliquely installed is connected with by motor-driven vibrator 13 on 12 side plate of the screen box；It is equipped in the screen box 12 flat For row in being placed with sieve 124 on the compass screen surface 121 of screen box 12, the compass screen surface 121,124 both sides of the sieve are pressed with channel steel 01, the slot Steel 01 is bolted on 12 inside of screen box.The sieve 124 of this vibrating sieving machine ontology 1 can be laid immediately on compass screen surface 121 On, staff compresses channel steel 01 and fixes, simple in structure, easy for installation.

But sieve is pressed on compass screen surface by channel steel, when vibrating sieving machine works, screen box drive sieve vibration, sieve with The rubble passed through on sieve mutually collides, and rubble generates impulse force to sieve, and the effect of sieve both sides no-station pole canopy, stress is yielding, With the progress of work, sieve amplitude of deformation gradually increases until losing sieving actoion, and service life is short.

Utility model content

The purpose of this utility model is to provide a kind of vibrating sieving machine, can apply tensile force and fixed force to screen portion, protect Rigidity of the sieve during vibration is demonstrate,proved, the service life of sieve is extended.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of vibrating sieving machine, including Vibrating sieving machine ontology, the edge of the pedestal vibrating sieving machine ontology are equipped with spring fastening, on the spring fastening, are located at pedestal Top is equipped with the screen box that is obliquely installed, is connected on the sieve box side plate by motor-driven vibrator, tilts and sets in the screen box There is compass screen surface, sieve is equipped on the compass screen surface, the compass screen surface both sides are opened positioned at screen box relative inner wall upper edge sieve length direction There is T-slot, the sieve both sides of the edge, which go out to coordinate, is equipped with T-bar, and T-slot described in side is equipped with far from the connection of compass screen surface side and is more than The slippage slot of T-bar setting, perforation slippage slot is rotatably connected to the adjusting perpendicular to screen box lateral wall on the screen box lateral wall Screw rod, the adjusting screw rod are connected to close to sieve threaded one end in T-bar.

By using above-mentioned technical proposal, for vibrator when driving screen box vibration, the sieve in screen box follows screen box to synchronize Vibration, after rubble is fallen on sieve, gradually moves down along the sieve being obliquely installed, and in moving process, is less than mesh size Rubble is sized out；On the one hand, it is provided with T-slot in screen box relative inner wall upper edge sieve length direction, and sieve both sides are matched Conjunction is provided with T-bar, to facilitate staff to slide onto sieve on compass screen surface along T-slot, on the other hand, the T shapes in side Slippage slot is provided with and communicated at slot, and the adjusting screw rod by being threadedly coupled with T-bar realizes position of the T-bar in slippage slot It moves, to facilitate staff to adjust the tensile force on sieve, so that sieve is kept rigidity in vibration processes, to reduce rubble pair The deformation effect of sieve, and then extend the service life of sieve.

Further, the screen box lateral wall is equipped with the connection bolt being threaded in T-bar.

By using above-mentioned technical proposal, screen box lateral wall perforation T-bar is provided with connection bolt, by connecting bolt Fix position of the T-bar in T-slot, to fasten screen position, avoid sieve shift in vibration processes and Influence the screening of rubble.

Further, the connecting pin of the T-bar and sieve is set there are two the clamping plate that is oppositely arranged, sandwiched in the clamping plate There is sieve, gasket is equipped between the clamping plate and sieve.

By using above-mentioned technical proposal, the connecting pin of T-bar and sieve is provided with two pieces of clamping plates being oppositely arranged, and passes through Between sieve is folded in clamping plate, the convertibility of sieve is realized, to economize on resources, reduce cost；In addition, the setting of gasket The setting of sieve and T-bar can further be fastened.

Further, two clamping plates are penetrated through at the T-bar equipped with the fastening bolt perpendicular to clamping plate.

By using above-mentioned technical proposal, it is equipped with fastening bolt on clamping plate, is clamped by fastening bolt mating splint Sieve, to avoid sieve from being detached from T items part.

Further, the vibrating sieving machine is equipped with two groups of compass screen surfaces, and from top to bottom mesh number is incremented by sieve, below compass screen surface described in two groups Equipped with the bottom being obliquely installed.

By using above-mentioned technical proposal, two groups of compass screen surfaces are provided in vibrating sieving machine, and be obliquely installed below compass screen surface The rubble of bottom, grain size minimum can be fallen on across sieve at bottom, and the medium sized rubble of grain size is fallen across first layer sieve On second layer sieve, the maximum rubble of grain size is stopped by first layer sieve, to realize the multi-stage screening of rubble.

Another purpose of the utility model is to provide rubble hierarchy system, can be to rubble with above-mentioned vibrating sieving machine Gradation sizing is carried out, to facilitate staff to handle rubble classification.

Further, including feeding equipment, the feeding equipment lower section are equipped with the first conveyer belt, the first conveyer belt end End is equipped with vibrating sieving machine, and equipped with the first pile of aggregate, the compass screen surface connection for being located at middle part is equipped with second for connection at the bottom discharging Pile of aggregate, the compass screen surface connection for being located at top are equipped with reprocessing device.

By using above-mentioned technical proposal, rubble is put into feeding equipment by staff, and is reached by the first conveyer belt At vibrating sieving machine ontology, minimum rubble is deposited in the first pile of aggregate, and medium sized rubble is reached along the sieve being obliquely installed Second pile of aggregate, and the maximum rubble of grain size reaches reprocessing device and carries out after-treatment, to facilitate staff's screening, receive Collect rubble.

Further, the reprocessing device includes the first crusher, and first crusher is connected to the first conveyer belt and sets It sets.

By using above-mentioned technical proposal, the maximum rubble of grain size reaches the first crusher, is reduced using the first crusher Ballast grain sizes, and pass the first conveyer belt back and sieve again, to avoid wastage of material.

Further, further include the second crusher being arranged close to feeding equipment, the second crusher connection first passes Band is sent to be arranged.

By using above-mentioned technical proposal, for the smaller rubble of average grain diameter, staff direct plunges into feeding equipment It is sieved, and for the larger rubble of average grain diameter, the second crusher is put into, reaches the first conveyer belt biography after smashing again It is sent into vibrating sieving machine ontology to be sieved, to reduce energy consumption, improves efficiency.

In conclusion the utility model has the advantages that：

1. the adjusting screw rod being rotatablely connected by screen box lateral wall coordinates the threaded connection of adjusting screw rod and T-bar, realize Displacement of the T-shaped block in slippage slot to facilitate the tensile force on staff's adjustable screen, and then extends the use longevity of sieve Life；

2. by the clamping plate being folded at sieve both sides of the edge, facilitates staff to dismantle sieve and replace；

3. by the cooperation of feeding equipment, screening machine and crusher, the screening of rubble is realized, facilitate at staff's classification Manage rubble.

Description of the drawings

Fig. 1 is the overall structure diagram of prior art vibrating sieving machine；

Fig. 2 is a kind of overall structure diagram of vibrating sieving machine of the utility model；

Fig. 3 is the sectional view in the directions A-A in Fig. 2, for showing screen box part-structure；

Fig. 4 is the enlarged drawing of part B in Fig. 3；

Fig. 5 is the enlarged drawing of C portion in Fig. 3；

Fig. 6 is rubble hierarchy system overall structure diagram.

In figure, 01, channel steel；1, vibrating sieving machine ontology；11, pedestal；111, spring fastening；12, screen box；121, compass screen surface；122,T Shape slot；123, slippage slot；124, sieve；125, T-bar；1251, clamping plate；1252, gasket；1253, fastening bolt；126, spiral shell Hole；1261, spiral shell block；1262, adjusting screw rod；127, bolt is connected；13, vibrator；2, feeding equipment；21, the first conveyer belt；3, Second conveyer belt；31, the first pile of aggregate；4, third conveyer belt；41, the second pile of aggregate；5, the 4th conveyer belt；51, reprocessing dress It sets；511, the first crusher；512, the 5th conveyer belt；6, the second crusher.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment 1：A kind of vibrating sieving machine is provided with multiple springs as shown in Fig. 2, including pedestal 11 in 11 edge of pedestal Bearing 111 is installed screen box 12 on the pedestal 11 by spring fastening 111, and screen box 12 is obliquely installed here, and top and side Sidewall opening is arranged；Be fixed with the compass screen surface 121 being obliquely installed in screen box 12, and be covered with sieve 124 on compass screen surface 121, such as Fig. 3 and Shown in Fig. 4, it is provided with T-slot 122 in 121 both sides of compass screen surface, positioned at 12 relative inner wall upper edge compass screen surface of screen box, 121 length direction, and 124 both sides of the edge of sieve are equipped with T-bar 125, and the sliding of T-bar 125 is connected in T-slot 122；As shown in figure 4, wherein Side of the side T-slot 125 far from compass screen surface 121 is provided with and communicated with slippage slot 123, and here, slippage slot 123 is set more than T-bar 125 It sets, the adjusting screw rod 1262 perpendicular to 12 lateral wall of screen box is rotatably connected on 12 lateral wall of screen box of 123 side of slippage slot, adjust Section screw rod 1262 is connected to close to 124 threaded one end of sieve in T-bar 125, and here, adjusting screw rod 1262 is set as one, and Positioned at 125 center of T-bar.

When vibrating sieving machine ontology 1 is when sieving rubble, rubble is fallen on sieve 124, and screen box 12 drives sieve 124 to vibrate, from And rubble is driven to be vibrated on sieve 124, and to improve screening effect, in screening process, the vibration impact screen 124 of rubble, Pressure is applied to sieve 124, sieve 124 is forced to deform；T-bar 125 is housed in 124 both sides of sieve, and T-bar 125 is slid It is arranged in T-slot 122, and the slippage slot 123 by being set up in parallel with T-slot 122 is that T-bar 125 provides lateral sliding Space recycles adjusting screw rod 1262 to drive 125 displacement of T-bar, to the tensile force on adjustable screen 124, sieve 124 is made to exist Keep rigidity in screening process, to reduce the deformation degree of sieve 124, extend the service life of sieve 124, so reduce at This；And sliding the T-bar 125 of connection and T-slot 122 can facilitate staff to replace 124 part of sieve, improve work effect Rate.

In order to avoid 124 part of sieve is detached from screen box 12 in vibration processes, as shown in figure 5, being inserted in 12 lateral wall of screen box There is the connection bolt 127 being threaded in T-bar 125, to which T-bar 125 to be fixed in T-slot 122, and then fixes Position of the sieve 124 in screen box.

As shown in figure 4,12 lateral wall of screen box, which corresponds to 123 center of slippage slot, is provided with screw hole 126, screw thread in the screw hole 126 It is connected with spiral shell block 1261, the adjusting screw rod 1262 is rotatablely connected（It is provided with annular groove, spiral shell block in 1262 periphery wall of adjusting screw rod 1261 internal perisporiums are provided with the ring block being connected in annular groove）At 1261 center of spiral shell block.In this way, needing replacing sieve 124 When part, spiral shell block 1261 can be rotated, adjusting screw rod 1262 is taken out, adjusting screw rod 1262 is avoided to block 124 part of sieve more It changes.

124 part of sieve is replaced in order to further facilitate staff, as shown in figure 5, the company of T-bar 125 and sieve 124 It connecing end and is relatively set with two pieces of clamping plates being mutually parallel 1251,124 marginal portion of sieve is folded between two clamping plates 1251, and The gasket 1252 being fixed on clamping plate 1251 is provided between clamping plate 1251 and sieve 124；Two pieces of folders are penetrated through at T-bar 125 Plate 1251 is provided with fastening bolt 1253, and fastening bolt 1253 is arranged perpendicular to clamping plate 1251.In this way, can sieve removed 124 and 125 part of T-bar after, remove sieve 124 and replaced, to reduce by 124 replacement cost of sieve.

In order to realize the multi-stage screening of rubble, as shown in Fig. 2, being provided with two groups of compass screen surfaces 121, compass screen surface in vibrating sieving machine ontology 1 Sieve 124 is equipped on 121 respectively, and from top to bottom mesh number is incremented by sieve 124；It is bottom below two groups of compass screen surfaces 121.This Sample, large-sized rubble are stopped by first layer sieve 124, and medium sized rubble is fallen on second layer sieve 124, and grain size is most Small rubble is fallen in bottom.

Embodiment 2：A kind of rubble hierarchy system equipped with above-mentioned vibrating sieving machine, as shown in fig. 6, including feeding equipment 2 and shaking Screen(ing) machine ontology 1, is provided with and communicated with the first conveyer belt 21 between feeding equipment 2 and vibrating sieving machine ontology 1, and the first conveyer belt 21 from The setting of 1 top of vibrating sieving machine ontology is extended at the discharging of 2 lower section of feeding equipment；1 discharge outlet of vibrating sieving machine ontology is provided with Two conveyer belts 3, the second conveyer belt 3, which extends at the first pile of aggregate 31, to be arranged；Connect at the compass screen surface 121 at 1 middle part of vibrating sieving machine ontology Logical to be provided with third conveyer belt 4, third conveyer belt 4, which extends at the second pile of aggregate 41, to be arranged；And the sieve at 1 top of vibrating sieving machine ontology Face 121 is provided with and communicated with the 4th conveyer belt 5, and the 4th conveyer belt 5 connection reprocessing device 51 is arranged.

In this way, rubble is put into feeding equipment 2 by staff, it is sent into vibrating sieving machine ontology 1 through the first conveyer belt 21 and is sieved Point, the level-one rubble of grain size minimum is transmitted to through the second conveyer belt 3 at the first pile of aggregate 31 from inclined bottom to be stacked, medium The two level rubble of size is transmitted to through third conveyer belt 4 at the second pile of aggregate 41 from second layer compass screen surface 121 to be stacked, and grain size is most Big three-level rubble is sent to from the compass screen surface 121 at the top of vibrating sieving machine ontology 1 through the 4th conveyer belt 5 from reprocessing device 51 carries out Reason, to realize the classification processing of rubble.

As shown in fig. 6, reprocessing device 51 includes the first crusher 511, the 5th transmission is provided at the first crusher 511 Band 512, the 5th conveyer belt 512 are connected to the setting of the first conveyer belt 21.In this way, after three-level rubble is smashed by the first crusher 511, then It is recycled to progress screening process at vibrating sieving machine ontology 1, avoids wasting.

In addition, in order to reduce cost, as shown in fig. 6,2 one side of feeding equipment is provided with the second crusher 6, and second is broken Broken machine 6 is connected to the setting of the first conveyer belt 21.In this way, for the smaller rubble of average grain diameter, staff directly puts into rubble Feeding equipment 2 carries out cycle screening, and for the larger rubble of average grain diameter, rubble is put into the second crusher 6 by staff, Advance break process reduces grain size, reduces cycle-index.

The above is only the preferred embodiment of the utility model, and the scope of protection of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the scope of protection of the utility model.It should refer to Go out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (8)

1. a kind of vibrating sieving machine, including vibrating sieving machine ontology（1）, the vibrating sieving machine ontology（1）Pedestal（11）Edge is equipped with Spring fastening（111）, the spring fastening（111）Above, it is located at pedestal（11）Top is equipped with the screen box being obliquely installed（12）, described Screen box（12）It is connected on side plate by motor-driven vibrator（13）, the screen box（12）In be provided tiltedly with compass screen surface（121）, described Compass screen surface（121）On be equipped with sieve（124）, it is characterised in that：The compass screen surface（121）Both sides are located at screen box（12）Relative inner Wall upper edge sieve（124）Length direction is provided with T-slot（122）, the sieve（124）Both sides of the edge go out cooperation and are equipped with T-bar （125）, T-slot described in side（122）Far from compass screen surface（121）Side connection, which is equipped with, is more than T-bar（125）The slippage slot of setting （123）, the screen box（12）Slippage slot is penetrated through on lateral wall（123）It is rotatably connected to perpendicular to screen box（12）The adjusting of lateral wall Screw rod（1262）, the adjusting screw rod（1262）Close to sieve（124）Threaded one end is connected to T-bar（125）In.

2. a kind of vibrating sieving machine according to claim 1, it is characterised in that：The screen box（12）Lateral wall, which is equipped with, to be threadedly coupled In T-bar（125）In connection bolt（127）.

3. a kind of vibrating sieving machine according to claim 2, it is characterised in that：The T-bar（125）With sieve（124）Company It connects end and sets that there are two the clamping plates that are oppositely arranged（1251）, the clamping plate（1251）In be folded with sieve（124）, the clamping plate （1251）With sieve（124）Between be equipped with gasket（1252）.

4. a kind of vibrating sieving machine according to claim 3, it is characterised in that：The T-bar（125）Place's perforation two clamping plates （1251）Equipped with perpendicular to clamping plate（1251）Fastening bolt（1253）.

5. a kind of vibrating sieving machine according to claim 4, it is characterised in that：The vibrating sieving machine ontology（1）Equipped with two groups of compass screen surfaces （121）, sieve（124）From top to bottom mesh number is incremented by, compass screen surface described in two groups（121）Lower section is equipped with the bottom being obliquely installed.

6. a kind of rubble hierarchy system, including feeding equipment（2）, the feeding equipment（2）Lower section is equipped with the first conveyer belt（21）, It is characterized in that：First conveyer belt（21）End is equipped with the vibrating sieving machine described in claim 5, the vibrating sieving machine ontology （1）Connection is equipped with the first pile of aggregate at bottom discharging（31）, it is located at the compass screen surface at middle part（121）Connection is equipped with the second pile of aggregate （41）, it is located at the compass screen surface at top（121）Connection is equipped with reprocessing device（51）.

7. rubble hierarchy system according to claim 6, it is characterised in that：The reprocessing device（51）It is broken including first Broken machine（511）, first crusher（511）It is connected to the first conveyer belt（21）Setting.

8. rubble hierarchy system according to claim 7, it is characterised in that：Further include close to feeding equipment（2）It is arranged Second crusher（6）, second crusher（6）It is connected to the first conveyer belt（21）Setting.