阅读说明：本技术 一种水泥袋减震切割系统 (Cement bag shock attenuation cutting system ) 是由 黄玉明 于 2021-09-16 设计创作，主要内容包括：发明属于水泥领域,为一种水泥袋减震切割系统,一种水泥袋减震切割系统,所述壳体上端壁固定设有主动腔,所述主动腔内设有连接下放装置,所述吸灰腔上设有吸灰装置,所述裁剪腔、所述卡死腔与所述压力腔内设有裁剪装置,所述裁剪腔下端壁固定设有缓震腔,所述缓震腔内设有减震清壁装。本发明在能够将水泥袋挂住,然后能够准确控制下方时间,不会受到一些突然滑落的影响,能够在绷紧的状态下,对水泥袋快速划开,将水泥下放能够对水泥落下来的一瞬间进行有效的减震,能够对水泥灰进行有效的吸收,不会导致水泥仓内视野模糊,同时达到水泥袋上升的目的,能够对快速的通过旋转清理壁灰,同时能够吸一定量的灰尘。(The invention belongs to the field of cement, and relates to a cement bag damping and cutting system, which is characterized in that an active cavity is fixedly arranged on the upper end wall of a shell, a connecting lowering device is arranged in the active cavity, an ash suction device is arranged on the ash suction cavity, cutting devices are arranged in the cutting cavity, the clamping cavity and the pressure cavity, a buffering cavity is fixedly arranged on the lower end wall of the cutting cavity, and a damping wall cleaning device is arranged in the buffering cavity. The cement bag lifting device can hang the cement bag, can accurately control the time below the cement bag, cannot be influenced by sudden sliding, can quickly open the cement bag in a tightened state, can effectively absorb cement ash when cement falls down, cannot cause blurred vision in a cement bin, achieves the aim of quickly cleaning wall ash through rotation, and can absorb a certain amount of dust.)

1. The utility model provides a cement bag shock attenuation cutting system, includes casing (10), its characterized in that, casing (10) upper end wall is fixed to be equipped with initiative chamber (11), be equipped with in initiative chamber (11) and connect and transfer the device, both ends wall is fixed to be equipped with inhales ash cavity (13) about casing (10), it inhales the ash device to be equipped with on ash cavity (13), initiative chamber (11) lower extreme wall is fixed to be equipped with card dead chamber (23), card dead chamber (23) left and right sides end wall is fixed to be equipped with two the same pressure chambers (44), card dead chamber (23) lower extreme wall is fixed to be equipped with cuts out chamber (50), cut out chamber (50), card dead chamber (23) with be equipped with in pressure chamber (44) and cut out the device, cut out chamber (50) lower extreme wall is fixed to be equipped with bradyseism chamber (46), be equipped with the clear wall device of shock attenuation in bradyseism chamber (46).

2. The cement bag damping and cutting system as set forth in claim 1, wherein: the connecting and lowering device comprises an upper fixing column (12) fixed on the upper end wall of a driving cavity (11), a first motor is fixedly arranged on the rear end wall of the driving cavity (11), a rotating shaft (35) is arranged on the first motor, a control gear (36) is fixedly arranged on the rotating shaft (35), an upper side rack (34) and a lower side opening plate (39) are arranged in the driving cavity (11) in a sliding mode, the upper end of the control gear (36) is meshed with the lower end of the upper side rack (34), the lower end of the control gear (36) is meshed with the upper end of the lower side opening plate (39), two identical sliding grooves (16) are fixedly arranged in the driving cavity (11), a downward moving rod (40) can slide on the sliding grooves (16), a hook block (41) is fixedly arranged on the downward moving rod (40), a hook (42) is fixedly arranged at the left end of the hook block (41), and the hook (42) can hook a cement bag, the cement bag can be hung, the time below the cement bag can be accurately controlled, and the cement bag cannot be influenced by sudden sliding.

3. The cement bag vibration damping cutting system according to claim 2, wherein: the dust suction device comprises driving shafts (14) which are rotated on the left end wall and the right end wall of the dust suction cavity (13), an active rope (33) is connected between the driving shaft (14) at the uppermost side and the hook block (41), the driving shafts (14) are connected through rotating wheels (15), an ash suction fan (37) is fixedly arranged on the driving shafts (14), a filter plate (38) is fixedly arranged on the dust absorption cavity (13), a conveying pipe (32) is fixedly arranged on the lower side wall of the front end of the filter plate (38), two symmetrical ash storage cavities (19) are fixedly arranged on the lower end wall of the shell (10), store up ash cavity (19) upper end wall and fixedly be equipped with into grey mouth (18), go into grey mouth (18) with it is equipped with transfer port (31) to connect between transfer tube (32), can carry out effectual absorption to the cement ash, can not lead to the cement storehouse in the field of vision fuzzy.

4. The cement bag damping and cutting system as claimed in claim 3, wherein: tailor device including sliding holding down plate (43) in sliding tray (16), initiative chamber (11) internal fixation is equipped with pressure chamber (44), it is equipped with two the same sword (51) of tailorring to slide in chamber (50), tailor sword (51) left end wall with it is equipped with compression spring (49) to tailor to connect between chamber (50) right-hand member wall, tailor sword (51) right end wall with it is equipped with tight control rope (45) to connect between holding down plate (43) lower extreme wall, can be under the state of tightening, scribes the cement bag fast, transfers cement.

5. The cement bag damping and cutting system as set forth in claim 4, wherein: the damping wall cleaning device comprises a cement wall (47) fixedly arranged at the middle end of a damping cavity (46), a cement outlet (25) is arranged between the two cement walls (47), a second motor is fixedly arranged at the rear end wall of the damping cavity (46), a cleaning shaft (55) is fixedly arranged on the second motor, a cleaning wheel (54) is fixedly arranged on the cleaning shaft (55), an air inlet (56) is fixedly arranged on the cleaning wheel (54), a top rod (17) is slidably arranged on the cleaning wheel (54), a cleaning block (53) is fixedly arranged at the front end of the top rod (17), a sealing rubber ring (57) is fixedly arranged at the rear end wall of the cleaning block (53), two symmetrical rotary cleaning rods (24) are fixedly arranged in the cement wall (47), the rotary cleaning rods (24) and the quick cement wall (47) are arranged between the cleaning shaft (55), and wall ash can be cleaned through rotation, and simultaneously can absorb a certain amount of dust.

6. The cement bag damping and cutting system as claimed in claim 5, wherein: fixed two the same cushion chambers (27) that are equipped with in both ends about bradyseism chamber (46), cushion chamber (27) upper end wall slides and is equipped with catch bar (26), catch bar (26) run through to be fixed buffer board (29) of bradyseism chamber (46), buffer board (29) with it connects through buffer spring (28) to go out cement mouth (25) lower extreme, bradyseism chamber (46) upper end is fixed and is equipped with two the same chamber (30) and fixed block (22) of pushing up, it is equipped with push rod (21) to slide in chamber (30) to push up, push rod (21) lower end wall with catch bar (26) upper end wall carries out effective shock attenuation through push rod (21), can carry out effectual shock attenuation in the twinkling of an eye to cement drops.

Technical Field

The invention belongs to the field of cement, and particularly relates to a cement bag damping and cutting system.

Background

As is well known, cement: the hydraulic inorganic cementing material is mixed with water to form slurry, which can harden in air or water and bond sand, stone and other material firmly. It has long been used as an important cementing material, but when cement is needed, a large amount of cement dust appears when the cement is poured into a designated place, certain influence is caused on the environment and human bodies, and the cement bag is lost everywhere after being used up, so that bad influence is caused on the environment.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a cement bag damping and cutting system.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a cement bag shock attenuation cutting system, includes the casing, the fixed initiative chamber that is equipped with of casing upper end wall, the initiative intracavity is equipped with connects and transfers the device, the fixed ash suction cavity that is equipped with of both ends wall about the casing, it is equipped with on the ash suction cavity and inhales the ash device, the fixed card dead chamber that is equipped with of initiative chamber lower extreme wall, the card is dead about the chamber end wall is fixed and is equipped with two the same pressure chambeies, the card is dead under the chamber end wall fixed be equipped with tailor the chamber, tailor the chamber the card dead chamber with be equipped with in the pressure chamber and tailor the device, it is fixed the bradyseism chamber that is equipped with of chamber lower extreme wall to tailor, the bradyseism intracavity is equipped with the clear wall device of shock attenuation.

Preferably, connect and transfer the device including fixing the last fixed column at initiative chamber upper end wall, the fixed first motor that is equipped with of initiative chamber rear end wall, be equipped with the axis of rotation on the first motor, the fixed control gear that is equipped with in the axis of rotation, the slip of initiative intracavity is equipped with upside rack and downside and opens the board, control gear upper end and the meshing of upside rack lower extreme, control gear lower extreme with the downside is opened the meshing of board upper end, the fixed sliding tray that is equipped with of initiative intracavity, it can move down the pole slide on the sliding tray, it is equipped with the hook block to move down to fix on the pole, the hook block left end is fixed and is equipped with the couple, the couple can hook the cement bag, can hang the cement bag, then can accurate control below time, can not receive the influence of some sudden landing.

Preferably, the ash suction device comprises driving shafts which rotate on the left end wall and the right end wall of the ash suction cavity, driving ropes are connected between the driving shafts on the top side and the hook blocks, the driving shafts are connected through rotating wheels, an ash suction fan is fixedly arranged on the driving shafts, a filter plate is fixedly arranged on the ash suction cavity, a conveying pipe is fixedly arranged on the lower side wall of the front end of the filter plate, two symmetrical ash storage cavities are fixedly arranged on the lower end wall of the shell, an ash inlet is fixedly arranged on the upper end wall of the ash storage cavity, and a conveying port is connected between the ash inlet and the conveying pipe.

Preferably, tailor the device including the holding down plate that slides in the sliding tray, the initiative intracavity is fixed and is equipped with the pressure chamber, it is equipped with two the same swoves of tailorring to tailor intracavity slip, tailor sword left end wall with it is equipped with pressure spring to tailor to connect between the chamber right-hand member wall, tailor sword right-hand member wall with it tightens the control rope to connect to be equipped with between the holding down plate lower end wall, can be under the state of tightening, cut the cement bag fast, transfer cement.

Preferably, the shock attenuation wall cleaning device is including fixing the fixed cement wall that is equipped with in bradyseism chamber middle-end, be equipped with out the cement mouth between two cement walls, the fixed second motor that is equipped with of bradyseism chamber rear end wall, the fixed clearance axle that is equipped with on the second motor, the epaxial fixed clearance wheel that is equipped with of clearance, the fixed air inlet that is equipped with on the clearance wheel, it is equipped with the ejector pin to slide on the clearance wheel, the fixed wiping piece that is equipped with in ejector pin front end, wiping piece rear end wall is fixed and is equipped with the sealing rubber circle, the rotatory washing pole that is equipped with two symmetries in the cement wall internal fixation, rotatory washing pole with be equipped with the cement wall between the clearance axle, can be to quick through rotatory clearance wall ash, can inhale an amount of dust simultaneously.

Preferably, both ends are fixed and are equipped with two the same cushion chambers about the bradyseism chamber, the cushion chamber upper end wall slides and is equipped with the catch bar, the catch bar runs through to be fixed the buffer board in bradyseism chamber, the buffer board with go out cement mouth lower extreme and pass through buffer spring and connect, the fixed chamber and the fixed block of pushing up that are equipped with two the same in bradyseism chamber upper end, it is equipped with the push rod to push up the intracavity slip, the push rod lower end wall with the catch bar upper end wall carries out effective shock attenuation through the push rod, can carry out effectual shock attenuation in the twinkling of an eye that cement falls down.

The during operation hangs cement on two couples, starts first motor, drives the axis of rotation and rotates, drives control gear and rotates, drives the downside and opens the board and slide right, and the upside rack slides left, but does not influence the initiative rope, when opening the back completely, moves down the pole whereabouts, will stimulate the initiative rope and slide downwards, drives the axle and starts to blow the wind direction outward, can hang the cement bag, then can accurate control time in the below, can not receive the influence of some sudden sliding.

On the cement bag falls card dead space, the cement bag limit will fall and tailor on the chamber, and simultaneously, the clamp plate lapse of pressure, when tightening the control rope and relaxing, pressure spring will pop out and tailor the sword, cut the cement bag, the cement that falls off will be through rotatory washing pole, at this moment, when cement falls off, the hydraulic pressure oil pocket in the push rod will promote the fixed block carries out the bradyseism, it will promote out the cement mouth and cushion to the buffering intracavity to push up the chamber, can be under the state of tightening, cut out the cement bag fast, transfer cement and can carry out effectual shock attenuation in the twinkling of an eye to cement that falls off, can carry out effectual absorption to cement ash, can not lead to the interior visual field of cement storehouse fuzzy.

At this moment, there is a large amount of cement can be floated, cement because the cement of cement bag alleviates, the lower clamp plate will launch the hook piece fast, it will drive the ash suction fan rotation to drive the axle start simultaneously, adsorb the ash on the sword filter, get into in the transfer tube and get into the ash storage chamber through the transfer port, at this moment, start the second motor, it rotates to drive the clearance axle, the air inlet can begin the inflation with the sealing rubber circle, the ejector pin is according to inertia and thrust, will jack up and clean the piece, clean the wall, the second motor can begin to slide according to the spout route and convolute the connection rope, it begins to inhale the ash to reach rotatory washing pole, can be to quick through rotatory clearance wall ash, can inhale a certain amount of dust simultaneously.

Compared with the prior art, this cement bag shock attenuation cutting system has following advantage:

1. the cement bag can be hung, the time below the cement bag can be accurately controlled, and the cement bag cannot be influenced by sudden sliding.

2. Can be under the state of tightening, carve out the cement bag fast, transfer cement and can carry out effectual shock attenuation to the cement in the twinkling of an eye that falls, can carry out effectual absorption to the cement ash, can not lead to the visual blurring in the cement storehouse, reach the purpose that the cement bag rises simultaneously.

3. Can be to quick through rotatory clearance wall ash, can inhale a certain amount of dust simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a shock-absorbing cutting system for cement bags.

Fig. 2 is an enlarged view of a structure a in fig. 1.

Fig. 3 is an enlarged view of the structure at B in fig. 1.

Fig. 4 is a sectional view taken along line C-C in fig. 1.

Fig. 5 is an enlarged view of the structure at D in fig. 3.

In the figure, 10, the housing; 11. an active cavity; 12. an upper fixing column; 13. an ash suction cavity; 14. driving a shaft; 15. a rotating wheel; 16. a sliding groove; 17. a top rod; 18. an ash inlet; 19. a dust storage cavity; 20. a hydraulic oil chamber; 21. a push rod; 22. a fixed block; 23. clamping a dead cavity; 24. rotating the cleaning rod; 25. a cement outlet; 26. a push rod; 27. a buffer chamber; 28. a buffer spring; 29. a buffer plate; 30. a push-up cavity; 31. a transfer port; 32. a transfer tube; 33. an active rope; 34. an upper rack; 35. a rotating shaft; 36. a control gear; 37. a dust suction fan; 38. a filter plate; 39. a lower side opening plate; 40. a down-moving rod; 41. hooking the block; 42. hooking; 43. a lower pressing plate; 44. a pressure chamber; 45. tightening the control rope; 46. a cushioning cavity; 47. a cement wall; 48. connecting ropes; 49. a pressure spring; 50. a cutting cavity; 51. a cutting knife; 53. a wiping block; 54. cleaning the wheel; 55. cleaning the shaft; 56. an air inlet; 57. and sealing the rubber ring.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in figure 1, a cement bag shock attenuation cutting system, including casing 10, the fixed initiative chamber 11 that is equipped with of casing 10 upper end wall, be equipped with in the initiative chamber 11 and connect and transfer the device, both ends wall is fixed to be equipped with inhales grey chamber 13 about casing 10, it is equipped with the ash-sucking device on the ash-sucking chamber 13, the fixed card dead chamber 23 that is equipped with of the end wall under the initiative chamber 11, card dead chamber 23 left and right sides end wall is fixed and is equipped with two the same pressure chambeies 44, card dead chamber 23 lower end wall is fixed and is equipped with tailors chamber 50, tailor chamber 50, be equipped with in card dead chamber 23 and the pressure chamber 44 and tailor the device, tailor chamber 50 lower end wall is fixed and is equipped with bradyseism chamber 46, be equipped with the clear wall device of shock attenuation in the bradyseism chamber 46.

As shown in fig. 1 and 2, the connecting and lowering device includes an upper fixing column 12 fixed on the upper end wall of the driving cavity 11, a first motor is fixedly arranged on the rear end wall of the driving cavity 11, a rotating shaft 35 is arranged on the first motor, a control gear 36 is fixedly arranged on the rotating shaft 35, an upper rack 34 and a lower opening plate 39 are slidably arranged in the driving cavity 11, the upper end of the control gear 36 is meshed with the lower end of the upper rack 34, the lower end of the control gear 36 is meshed with the upper end of the lower opening plate 39, two identical sliding grooves 16 are fixedly arranged in the driving cavity 11, a lower moving rod 40 can slide on the sliding grooves 16, a hook block 41 is fixedly arranged on the lower moving rod 40, a hook 42 is fixedly arranged at the left end of the hook block 41, the hook 42 can hook the cement bag, the cement bag can be hung, then the time below can be accurately controlled, and the cement bag cannot be influenced by sudden sliding.

As shown in fig. 1, the dust suction device includes driving shafts 14 rotating on the left and right end walls of a dust suction chamber 13, an active rope 33 is connected between the uppermost driving shaft 14 and a hook block 41, each driving shaft 14 is connected through a rotating wheel 15, a dust suction fan 37 is fixedly arranged on the driving shaft 14, a filter plate 38 is fixedly arranged on the dust suction chamber 13, a conveying pipe 32 is fixedly arranged on the lower side wall of the front end of the filter plate 38, two symmetrical dust storage chambers 19 are fixedly arranged on the lower end wall of a casing 10, a dust inlet 18 is fixedly arranged on the upper end wall of the dust storage chamber 19, a conveying port 31 is connected between the dust inlet 18 and the conveying pipe 32, cement dust can be effectively absorbed, and the visual field in the cement bin is not blurred.

As shown in fig. 1 and 3, the cutting device includes a lower pressing plate 43 sliding in the sliding groove 16, a pressure chamber 44 is fixedly arranged in the driving chamber 11, two identical cutting knives 51 are arranged in the cutting chamber 50 in a sliding manner, a pressure spring 49 is connected between the left end wall of each cutting knife 51 and the right end wall of each cutting chamber 50, a tightening control rope 45 is connected between the right end wall of each cutting knife 51 and the lower end wall of the lower pressing plate 43, and cement bags can be quickly cut open in a tightening state to lower cement.

As shown in fig. 1, 3 and 5, the vibration-damping wall cleaning device includes a cement wall 47 fixed at the middle end of a vibration-damping cavity 46, a cement outlet 25 is arranged between the two cement walls 47, a second motor is fixed at the rear end wall of the vibration-damping cavity 46, a cleaning shaft 55 is fixed on the second motor, a cleaning wheel 54 is fixed on the cleaning shaft 55, an air inlet 56 is fixed on the cleaning wheel 54, a top rod 17 is slidably arranged on the cleaning wheel 54, a wiping block 53 is fixed at the front end of the top rod 17, a sealing rubber ring 57 is fixed at the rear end wall of the wiping block 53, two symmetrical rotary cleaning rods 24 are fixed in the cement walls 47, and a cement wall 47 is arranged between the rotary cleaning rods 24 and the cleaning shaft 55, so that wall dust can be cleaned quickly through rotation and a certain amount of dust can be sucked at the same time.

As shown in fig. 1 and the drawing, both ends are fixed about bradyseism chamber 46 and are equipped with two the same cushion chambers 27, cushion chamber 27 upper end wall slides and is equipped with catch bar 26, catch bar 26 runs through the buffer board 29 of fixing at bradyseism chamber 46, buffer board 29 passes through buffer spring 28 with a cement mouth 25 lower extreme and is connected, bradyseism chamber 46 upper end is fixed and is equipped with two the same push-up chamber 30 and fixed block 22, it is equipped with push rod 21 to slide in the push-up chamber 30, push rod 21 lower end wall and catch bar 26 upper end wall carry out effective shock attenuation through push rod 21, can carry out effectual shock attenuation to the one moment that cement falls.

The during operation hangs cement on two couples 42, starts first motor, drives axis of rotation 35 and rotates, drives control gear 36 and rotates, drives the downside and opens board 39 and slide right, and upside rack 34 slides left, but does not influence initiative rope 33, when opening the back completely, moves down the whereabouts of pole 40, will stimulate initiative rope 33 and slide down, drives axle 14 and starts and can blow the wind direction outward, can hang the cement bag, then can accurate control below time, can not receive the influence of some sudden sliding.

On the cement bag falls card dead space 23, the cement bag limit will fall on tailorring chamber 50, and simultaneously, the holding down plate 43 lapse of pressure, when tightening control rope 45 relaxes, pressure spring 49 will pop out and tailor sword 51, cut the cement bag, the cement that falls down will be through rotatory washing pole 24, at this moment, when cement falls down, push rod 21 will promote the hydraulic pressure oil pocket 20 in the fixed block 22 and carry out the bradyseism, it will promote out cement mouth 25 and cushion in the cushion chamber 27 to push up the chamber 30, can be under the state of tightening, cut open the cement bag fast, transfer cement can carry out effectual shock attenuation to the cement in the twinkling of an eye that falls down, can carry out effectual absorption to cement ash, can not lead to the interior field of vision of cement storehouse fuzzy.

At this moment, a large amount of cement can float, because the cement of the cement bag is lightened, the lower pressing plate 43 can quickly eject the hook block 41, the driving shaft 14 is started to drive the dust sucking fan 37 to rotate, the dust is adsorbed on the knife filter plate 38 and enters the conveying pipe 32 to enter the dust storage cavity 19 through the conveying port 31, at the same time, the second motor is started to drive the cleaning shaft 55 to rotate, the air inlet 56 can expand the sealing rubber ring 57 with the inlet air, the ejection rod 17 can eject the cleaning block 53 according to the inertia force and the pushing force to clean the wall, the second motor can start to slide and wind the connecting rope 48 according to the chute route, the rotating cleaning rod 24 can start to suck the dust, the wall dust can be quickly cleaned through rotation, and a certain amount of dust can be sucked at the same time.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.