CN221580746U - A high-efficiency crushing device for mining engineering stones - Google Patents

Abstract

The utility model relates to the technical field of mining engineering, and specifically to an efficient stone crushing device for mining engineering, comprising a crushing box, a support seat, a first conveying mechanism, a second conveying mechanism, a vibrating mechanism and a bottom plate, wherein the vibrating mechanism comprises a vibrating machine, a vibrating block, a feeding frame, a feeding plate and a plurality of soft pads, each of the soft pads is fixedly connected to the feeding plate, the feeding plate is fixedly connected to the feeding frame, the vibrating block is fixedly connected to the output end of the vibrating machine, the vibrating machine is fixedly connected to the feeding frame, the feeding frame is movably connected to the supporting seat, the vibrating machine drives the vibrating block to vibrate, and continuously hits the feeding plate in the feeding frame, and due to the effect of the soft pad, the feeding plate will shake, thereby the stone can be slowly dropped, and no blockage will be caused. The design solves the problem in the prior art that the crushed stones are easily piled up during the falling and conveying process, thereby affecting the subsequent conveying of the stones.

Description

Efficient crushing device for mining engineering stone

Technical Field

The utility model relates to the technical field of mining engineering, in particular to a high-efficiency breaking device for stone blocks in mining engineering.

Background

The crusher, also called as the stone crusher, is the crushing machine that adopts in metal ore and the non-metal ore course of working can be with the crude ore of exploitation broken into small pieces granule through modes such as extrusion and bending action, and current stone crushing equipment is with stone machine-shaping back stone can fall into the basket of placing of below automatically, does not possess the function of loading after the breakage, need the manual work to shift.

In the prior art, patent (CN 218393867U) discloses a high-efficient breaker of stone for mining engineering, including broken case, the bottom plate, the support, crushing roller and feed chute, the support is used for installing broken case, the feed inlet is used for carrying out reinforced, telescopic link and damping spring are used for carrying out the shock attenuation to broken case, two gear engagement makes two back shaft relative rotation, two back shaft relative rotation drive two crushing rollers relative rotation, thereby break the stone, the antiskid ribbed tile can prevent that the stone after the breakage of second belt from receiving gravity and taking place to slide, the opening makes the sliding block can not produce the interference with the installation shell, two sliding blocks are relative or slide in opposite directions and drive articulated pole and hinge, thereby drive the backup pad and slide, and then prop up the feed chute, be convenient for load the stone after the breakage, the problem that current high-efficient breaker of tradition does not have the loading function can be conveniently solved.

However, in the prior art described above, crushed stones tend to accumulate during the drop transport process, affecting the subsequent transport of the stones.

Disclosure of utility model

The utility model aims to provide a high-efficiency crushing device for stone blocks in mining engineering, which solves the problem that the crushed stone blocks in the prior art are easy to accumulate in the falling conveying process to influence the subsequent conveying of the stone blocks.

In order to achieve the above object, the utility model provides a high-efficiency crushing device for a mining engineering stone block, comprising a crushing box, a supporting seat, a first conveying mechanism, a second conveying mechanism, a vibrating mechanism and a bottom plate, wherein the second conveying mechanism is fixedly connected with the bottom plate and is positioned above the bottom plate, the supporting seat is fixedly connected with the bottom plate and is positioned above the bottom plate, the first conveying mechanism is fixedly connected with the supporting seat and is positioned above the supporting seat, the crushing box is fixedly connected with the supporting seat and is positioned above the supporting seat, the vibrating mechanism comprises a vibrating machine, a vibrating block, a blanking frame, a blanking plate and a plurality of soft cushions, each soft cushion is fixedly connected with the blanking plate and is positioned on two sides of the blanking plate respectively, the blanking plate is fixedly connected with the blanking frame and is positioned on the inner wall of the blanking frame, the vibrating block is fixedly connected with the output end of the vibrating machine, and the vibrating machine is fixedly connected with the blanking frame and is positioned on one side of the supporting seat

Wherein the supporting seat comprises a bracket and four shock absorbing members, each shock absorbing member is fixedly connected with the bracket and is respectively positioned above the bracket

The first conveying mechanism comprises a first belt, two first conveying wheels, a first motor and a central shaft, wherein the central shaft is rotationally connected with the support and positioned on the inner wall of the support, one end of one conveying wheel is movably connected with the output end of the first motor, the first motor is fixedly connected with the support and positioned on one side of the support, the two conveying wheels are rotationally connected with the support and positioned on the inner wall of the support, and the first belt is sleeved on the two first conveying wheels

The second conveying mechanism comprises a second belt, two second conveying wheels, a second motor, a lifting unit and a connecting unit, wherein the connecting unit is rotatably connected with one of the second conveying wheels and is positioned below one of the second conveying wheels, the lifting unit is movably connected with the connecting unit and is positioned below the connecting unit, one end of one conveying wheel is movably connected with the output end of the second motor, the second motor is fixedly connected with the support and is positioned on one side of the support, and the second belt is sleeved on the two second conveying wheels

Wherein, the crushing case includes box, crushing motor, two guide boards, two backing rolls, two crushing rolls and two gears, two the gear respectively with corresponding backing roll fixed connection, and be located respectively corresponding backing roll's one end, two the crushing rolls respectively with corresponding backing roll fixed connection, and be located respectively the periphery of backing roll, two the backing roll all with box fixed connection, and be located the inner wall of box, one of them the one end of backing roll with crushing motor's output swing joint, crushing motor with box fixed connection, and be located one side of box, two the guide boards all with box fixed connection, and be located respectively the both sides of box

The efficient crushing device for the mining engineering stone comprises a box body, a box cover, a protection plate, a feeding hole, a protection plate and a crushing device for the mining engineering stone, wherein the efficient crushing device for the mining engineering stone further comprises two pin shafts, the protection plate and the feeding hole, the feeding hole is fixedly connected with the protection plate and located above the protection plate, the two pin shafts are fixedly connected with the protection plate and located on one side of the protection plate, and the protection plate is fixedly connected with the box body and located above the box body.

The utility model relates to a high-efficiency breaking device for a mining engineering stone, which is characterized in that a vibrating machine drives a vibrating block to vibrate and continuously impacts a blanking plate in a blanking frame, the blanking plate can shake due to the action of a soft cushion, so that the stone can slowly fall down and can not be blocked, the design solves the problem that crushed stone is easy to accumulate in the falling conveying process in the prior art, the problem of influence stone follow-up transport, the setting of guard plate can effectively slow down the stone and produce at crushing in-process and splash, plays the effect of protection to the staff, also can keep out these stones that splash simultaneously, falls into two again the centre of crushing roller smashes, the round pin axle is for the rotation of guard plate is convenient, has made things convenient for the staff to maintenance and maintenance of crushing roller.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a front view of a first embodiment of the present utility model.

Fig. 2 is a rear view of the first embodiment of the present utility model.

Fig. 3 is a cross-sectional view taken along line A-A of fig. 2 in accordance with the present utility model.

Fig. 4 is an enlarged view of the partial structure at B of fig. 3 according to the present utility model.

Fig. 5 is a top view of a second embodiment of the present utility model.

101-Crushing box, 102-supporting seat, 103-first conveying mechanism, 104-second conveying mechanism, 105-vibrating mechanism, 106-bottom plate, 107-vibrating machine, 108-vibrating block, 109-blanking frame, 110-blanking plate, 111-cushion, 112-support, 113-shock absorber, 114-first belt, 115-first conveying wheel, 116-first motor, 117-central shaft, 118-second belt, 119-second conveying wheel, 120-second motor, 121-elevating unit, 122-connecting unit, 123-box, 124-crushing motor, 125-guide plate, 126-supporting roller, 127-crushing roller, 128-gear, 201-pin, 202-protection plate, 203-feed inlet.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

Referring to fig. 1-4, fig. 1 is a front view of a first embodiment of the present utility model, fig. 2 is a rear view of the first embodiment of the present utility model, fig. 3 is a sectional view taken along line A-A of fig. 2 of the present utility model, and fig. 4 is an enlarged view of a partial structure of fig. 3B of the present utility model.

The utility model provides a mining engineering stone efficient crushing device, which comprises a crushing box 101, a supporting seat 102, a first conveying mechanism 103, a second conveying mechanism 104, a vibrating mechanism 105 and a bottom plate 106, wherein the vibrating mechanism 105 comprises a vibrating machine 107, a vibrating block 108, a blanking frame 109, a blanking plate 110 and a plurality of soft cushions 111, the supporting seat 102 comprises a bracket 112 and four shock absorbing pieces 113, the first conveying mechanism 103 comprises a first belt 114, two first conveying wheels 115, a first motor 116 and a central shaft 117, the second conveying mechanism 104 comprises a second belt 118, two second conveying wheels 119, a second motor 120, a lifting unit 121 and a connecting unit 122, and the crushing box 101 comprises a box body 123, a crushing motor 124, two guide plates 125, two supporting rollers 126, two crushing rollers 127 and two gears 128.

For the present embodiment, the second conveying mechanism 104 is fixedly connected with the bottom plate 106, the supporting seat 102 is fixedly connected with the bottom plate 106, the first conveying mechanism 103 is fixedly connected with the supporting seat 102, the crushing box 101 is fixedly connected with the supporting seat 102, each cushion 111 is fixedly connected with the blanking plate 110, the blanking plate 110 is fixedly connected with the blanking frame 109, the vibrating block 108 is fixedly connected with the output end of the vibrating machine 107, the vibrating machine 107 is fixedly connected with the blanking frame 109, the blanking frame 109 is movably connected with the supporting seat 102, each damping member 113 is fixedly connected with the bracket 112, the central shaft 117 is rotatably connected with the bracket 112, one end of one conveying wheel is movably connected with the output end of the first motor 116, the first motor 116 is fixedly connected with the bracket 112, the two conveying wheels are rotatably connected with the bracket 112, the first belt 114 is sleeved on the two first conveying wheels 115, the connecting unit 122 is rotatably connected with one of the second conveying wheels 119, the lifting unit 121 is movably connected with the connecting unit 122, one end of one conveying wheel is movably connected with the output end of the second motor, the second motor 120 is fixedly connected with the bracket 112, the second belt 118 is sleeved on the two second conveying wheels 119, the two gears 128 are respectively fixedly connected with the corresponding supporting rollers 126, the two crushing rollers 127 are respectively fixedly connected with the corresponding supporting rollers 126, the two supporting rollers 126 are respectively fixedly connected with the box body 123, one end of one supporting roller 126 is movably connected with the output end of the crushing motor 124, the crushing motor 124 with box 123 fixed connection, two guide board 125 all with box 123 fixed connection, the bobbing machine 107 drive vibrating mass 108 vibrates, continuously strikes in the unloading frame 109 the flitch 110, because the effect of cushion 111, flitch 110 can produce and rock, can also not cause the jam with the slow whereabouts of stone, and this design has solved the stone that pulverizes among the prior art and causes the accumulation easily in whereabouts transportation process, influences the problem of follow-up transportation of stone.

The second conveying mechanism 104 is located above the bottom plate 106, the supporting seat 102 is located above the bottom plate 106, the first conveying mechanism 103 is located above the supporting seat 102, the crushing box 101 is located above the supporting seat 102, each soft cushion 111 is located on two sides of the blanking plate 110, the blanking plate 110 is located on the inner wall of the blanking frame 109, the vibrating machine 107 is located on one side of the blanking frame 109, the blanking frame 109 is located above the supporting seat 102, and the first conveying mechanism 103 can stably convey just crushed stones, so that the cushioning and shock absorbing effects are achieved, and the follow-up conveying is facilitated.

Secondly, each shock absorbing member 113 is located above the corresponding bracket 112, the central shaft 117 is located on the inner wall of the corresponding bracket 112, the first motor 116 is located on one side of the corresponding bracket 112, the two conveying wheels are located on the inner wall of the corresponding bracket 112, the connecting unit 122 is located below one of the second conveying wheels 119, the lifting unit 121 is located below the connecting unit 122, the second motor 120 is located on one side of the corresponding bracket 112, the second motor 120 drives the second belt 118 to operate, the first motor 116 drives the first belt 114 to operate, crushed stones are transported more stably, and the phenomenon that the stones fall down directly to be transported directly and are vibrated to eject out of the second belt 118 is avoided, so that stone transportation is affected.

Simultaneously, two gears 128 are located respectively corresponding the one end of backing roll 126, two crushing roller 127 are located respectively the week side of backing roll 126, two backing roll 126 all are located the inner wall of box 123, crushing motor 124 is located one side of box 123, two guide plates 125 are located respectively the both sides of box 123, two guide plates 125 guide the stone fall into two the centre of crushing roller 127.

In this embodiment, the vibrator 107 drives the vibrating block 108 to vibrate, and continuously impacts the blanking plate 110 in the blanking frame 109, due to the action of the soft pad 111, the blanking plate 110 can shake, so that stones can slowly fall down and cannot be blocked, the problem that crushed stones are easy to pile up in the falling conveying process and influence subsequent conveying of the stones in the prior art is solved, the first conveying mechanism 103 can stably convey the just crushed stones, has the effect of buffering and damping, is convenient for subsequent conveying, the first motor 116 drives the first belt 114 to operate, conveys the crushed stones more stably, avoids the direct falling conveying of the stones, and generates vibration to eject out of the second belt 118, so that the conveying of the stones is influenced, and the two guide plates 125 guide the stones to fall into the middle of the two crushing rollers 127.

The second embodiment of the application is as follows:

on the basis of the first embodiment, please refer to fig. 5, wherein fig. 5 is a top view of a second embodiment of the present utility model.

The utility model provides a high-efficiency crushing device for mining engineering stones, which further comprises two pin shafts 201, a protection plate 202 and a feed inlet 203.

For this embodiment, the feed inlet 203 with guard plate 202 fixed connection, and be located the top of guard plate 202, two round pin axle 201 all with guard plate 202 fixed connection, and be located one side of guard plate 202, guard plate 202 with box 123 fixed connection, and be located the top of box 123, guard plate 202's setting can effectively slow down the scattering that the stone produced in smashing the in-process, plays the effect of protection to the staff, also can keep out these scattering stones simultaneously, falls into two again the centre of crushing roller 127 smashes, round pin axle 201 is for guard plate 202's rotation provides convenience, has made things convenient for the staff to the maintenance and the maintenance of crushing roller 127.

In this embodiment, the setting of guard plate 202 can effectively slow down the stone and produce in crushing process splashes, plays the effect of protection to the staff, also can keep out these stone that splashes simultaneously, falls into two again the centre of crushing roller 127 smashes, round pin axle 201 is for guard plate 202's rotation is convenient, has made things convenient for the staff to the maintenance and the maintenance of crushing roller 127.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the application.

Claims (6)

1. The utility model provides a mining engineering stone high-efficient breaker, includes broken case, supporting seat, first conveying mechanism, second conveying mechanism and bottom plate, second conveying mechanism with bottom plate fixed connection is located the top of bottom plate, the supporting seat with bottom plate fixed connection is located the top of bottom plate, first conveying mechanism with supporting seat fixed connection is located the top of supporting seat, broken case with supporting seat fixed connection is located the top of supporting seat,

Still include vibration mechanism, vibration mechanism includes bobbing machine, vibrating block, unloading frame, flitch and a plurality of cushion, every the cushion all with flitch fixed connection, and be located respectively the both sides of flitch, the flitch with unloading frame fixed connection, and be located the inner wall of unloading frame, the vibrating block with the output fixed connection of bobbing machine, the bobbing machine with unloading frame fixed connection, and be located one side of unloading frame, the unloading frame with supporting seat swing joint, and be located the top of supporting seat.

2. The efficient breaking device for mining engineering stones according to claim 1, characterized in that,

The supporting seat comprises a support and four shock absorbing members, and each shock absorbing member is fixedly connected with the support and is located above the support respectively.

3. An efficient breaking device for mining engineering rocks as claimed in claim 2, wherein,

The first conveying mechanism comprises a first belt, two first conveying wheels, a first motor and a central shaft, wherein the central shaft is rotationally connected with the support and located on the inner wall of the support, one end of each conveying wheel is movably connected with the output end of the first motor, the first motor is fixedly connected with the support and located on one side of the support, the two conveying wheels are rotationally connected with the support and located on the inner wall of the support, and the first belt is sleeved on the two first conveying wheels.

4. A mining engineering stone high-efficiency crushing device according to claim 3, wherein,

The second conveying mechanism comprises a second belt, two second conveying wheels, a second motor, a lifting unit and a connecting unit, wherein the connecting unit is connected with one of the second conveying wheels in a rotating manner and is positioned below one of the second conveying wheels, the lifting unit is movably connected with the connecting unit and is positioned below the connecting unit, one end of one conveying wheel is movably connected with the output end of the second motor, the second motor is fixedly connected with the support and is positioned on one side of the support, and the second belt is sleeved on the two second conveying wheels.

5. The efficient breaking device for mining engineering stones according to claim 4, characterized in that,

The crushing box comprises a box body, a crushing motor, two guide plates, two supporting rollers, two crushing rollers and two gears, wherein the two gears are respectively fixedly connected with the corresponding supporting rollers and are respectively positioned at one ends of the corresponding supporting rollers, the two crushing rollers are respectively fixedly connected with the corresponding supporting rollers and are respectively positioned at the periphery sides of the supporting rollers, the two supporting rollers are respectively fixedly connected with the box body and are positioned on the inner wall of the box body, one end of each supporting roller is movably connected with the output end of the crushing motor, the crushing motor is fixedly connected with the box body and is positioned at one side of the box body, and the two guide plates are respectively fixedly connected with the box body and are respectively positioned at two sides of the box body.

6. A mining engineering stone high-efficiency crushing device according to claim 5, wherein,

The efficient crushing device for the mining engineering stone blocks further comprises two pin shafts, protection plates and a feeding hole, wherein the feeding hole is fixedly connected with the protection plates and is located above the protection plates, the two pin shafts are fixedly connected with the protection plates and located on one side of the protection plates, and the protection plates are fixedly connected with the box and located above the box.