CN219362167U - Vertical conveying device for bagged cement - Google Patents

Abstract

The utility model relates to the technical field of transportation, in particular to a vertical conveying device for bagged cement, which comprises a supporting frame, wherein a rectangular channel is fixedly arranged in the supporting frame, the upper end and the lower end of the channel are respectively connected with a feeding chute and a discharging chute, a plurality of groups of buffer baffles are arranged in the channel, one side of each buffer baffle is provided with a baffle buffer mechanism, the bagged cement falls in the channel, the two buffer baffles are spread under the action of self gravity, the buffer mechanism is stressed and compressed, and the rebound force of the buffer mechanism pushes the buffer baffles back to apply clamping force to the bagged cement, so that the bagged cement falls in a decelerating way, the phenomenon that the bagged cement falls down too fast and is broken after sliding out of the discharging chute is effectively prevented.

Description

Vertical conveying device for bagged cement

Technical Field

The utility model relates to the technical field of transportation, in particular to a bagged cement vertical conveying device.

Background

At present, the bagged cement occupies higher specific gravity in the sales of cement products, and in the shipping process, if a vertical conveying place is required, a large-scale belt conveyor with an adjustable inclination angle is generally used, but the large-scale belt conveyor with an adjustable inclination angle has larger self-volume, and a cantilever is longer and is limited by a certain degree of use in a narrow place.

Existing publication No.: the 'vertical conveying device for bagged cement' of CN 209177511U is provided with a supporting frame, travelling wheels are arranged at the bottom of the supporting frame, a vertical belt conveyor A and a vertical belt conveyor B which are synchronously driven are arranged in the supporting frame, a bag clamping belt bin is arranged between the vertical belt conveyor A and the vertical belt conveyor B, a bag discharging chute is arranged in the middle of the bottom of the supporting frame, a fixed clamping plate and a movable clamping plate are arranged between the vertical belt conveyor A and the vertical belt conveyor B, and the vertical belt conveyor A and the vertical belt conveyor B consist of a driving roller, a belt, a direction changing roller, a vertical roller, a compression roller and a tensioning device; the bagged cement can be transported from top to bottom, and the defect that the large-scale dip angle-adjustable belt conveyor is limited in use in a narrow place is effectively overcome. However, when the vertical conveyor belt is used, the two vertical conveyor belt needs to be operated continuously, and the energy consumption is large, so that the development of the bagged cement vertical conveying device which can realize descending under the action of self gravity without external force consumption has important significance.

Disclosure of Invention

The present utility model is directed to solving the above problems, thereby providing a vertical conveying device for bagged cement.

The utility model solves the problems, and adopts the following technical scheme:

the utility model provides a vertical conveying device of bagged cement, including braced frame, feeding chute and ejection of compact chute, fixedly mounted has rectangular passageway in the braced frame, the upper and lower both ends of passageway are connected with feeding chute and ejection of compact chute respectively, be provided with the horizontal tongue of multiunit outwards outstanding relatively on two opposite faces of passageway, the length of horizontal tongue equals with place passageway lateral wall width, the bayonet socket downwards of slope has been seted up by keeping away from passageway side direction on the horizontal tongue, set up the axostylus axostyle in the bayonet socket, fixedly connected with buffering baffle on the axostylus axostyle shaft that is located inside the bayonet socket, the one side that two relative buffering baffles deviate from mutually in the passageway is provided with baffle buffer mechanism respectively;

the baffle buffering mechanism comprises a guide sleeve, a guide rod, a compression spring and an adjusting nut, wherein one end of the guide sleeve is of a closed structure and is hinged with a first hinging seat arranged on the supporting frame, an external thread structure is arranged on the pipe body of the guide sleeve, the adjusting nut is screwed, one end of the guide rod is inserted into the guide sleeve, the other end of the guide rod is hinged with a second hinging seat arranged on one side of the buffering baffle, and the compression spring is sleeved on the guide rod and the guide sleeve of the splicing part of the guide rod.

Compared with the prior art, the utility model adopting the technical scheme has the outstanding characteristics that:

according to the utility model, the plurality of groups of buffering baffles are arranged in the channel, one side of each buffering baffle is provided with the baffle buffering mechanism, the bagged cement falls in the channel, the two buffering baffles are spread under the action of self gravity, the buffering mechanism is stressed and compressed, and the rebound force of the buffering mechanism reversely pushes the buffering baffles to apply clamping force to the bagged cement, so that the bagged cement falls in a decelerating manner, the phenomenon that the bagged cement falls too fast and is broken after sliding out of the discharging chute is effectively prevented, and the device is simple in structure, ingenious in design, free of external force consumption, capable of realizing falling under the self gravity of the bagged cement and free of breakage.

Preferably, the utility model further adopts the technical scheme that:

a baffle plate is respectively arranged between the compression spring and the adjusting nut as well as between the compression spring and the second hinging seat.

The channel is formed by a plurality of channel sections, the channel sections are fixedly connected through bolts, the top of the uppermost channel section is fixedly connected with the feeding chute, and the bottom end of the bottommost channel section is fixedly connected with the discharging chute.

Limiting sleeves are respectively arranged on the shaft rod and between the buffering baffle plate and the bayonet walls at two sides.

Drawings

FIG. 1 is a schematic diagram of a main structure of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a front view of a channel segment according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a buffer stop mounting structure according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a baffle buffering mechanism according to an embodiment of the present utility model;

marked in the figure as: the device comprises a supporting frame 1, a discharging chute 2, a feeding chute 3, a channel 4, a baffle buffering mechanism 5, a channel section 6, a bayonet 7, a shaft lever 8, a buffering baffle 9, a transverse convex groove 10, a limit sleeve 11, bagged cement 12, a second hinging seat 13, a first hinging seat 14, a guide sleeve 51, a guide rod 52, an adjusting nut 53 and a compression spring 54.

Detailed Description

The utility model is further described below in connection with the following examples which are provided for the purpose of better understanding of the present utility model and are, therefore, not to be construed as limiting the scope of the utility model.

Referring to fig. 1-4, a bagged cement vertical conveying device comprises a supporting frame 1, a feeding chute 3 and a discharging chute 2, wherein a rectangular channel 4 is fixedly installed in the supporting frame 1, the upper end and the lower end of the channel 4 are respectively connected with the feeding chute 3 and the discharging chute 2, a plurality of groups of outwards protruding transverse convex grooves 10 are oppositely arranged on two opposite surfaces of the channel 4, the length of each transverse convex groove 10 is equal to the width of the side wall of the corresponding channel 4, a bayonet 7 obliquely downwards is formed in the transverse convex groove 10 from the direction far away from the channel 4 to the side channel 4, a shaft lever 8 is erected in the bayonet 7, the length of the shaft lever 8 is longer than that of each transverse convex groove 10, the shaft body of the shaft lever 8 is positioned in the transverse convex groove 10, the two ends of the shaft lever 8 are respectively positioned outside the transverse convex grooves 10 and are lapped on the side walls of the transverse convex grooves 10, a buffer baffle 9 is fixedly connected to the shaft body of the shaft lever 8 positioned in the bayonet 7, the buffer baffle 9 drops downwards under the action of self gravity, and one sides of the opposite two buffer baffles 9 are respectively provided with a baffle buffer mechanism 5;

one end of the baffle buffering mechanism 5 is hinged with the buffering baffle 9, the other end penetrates through the side wall of the channel 4 to be hinged with the supporting frame 1, the baffle buffering mechanism 5 comprises a guide sleeve 51, a guide rod 52, a compression spring 54 and an adjusting nut 53, one end of the guide sleeve 51 is of a closed structure and is hinged with a first hinging seat 14 arranged on the supporting frame 1, a pipe body of the guide sleeve 51 is provided with an external thread structure and is screwed with the adjusting nut 53, one end of the guide rod 54 is inserted into the guide sleeve 51, the other end of the guide rod 54 is hinged with a second hinging seat 13 arranged on one side of the buffering baffle 9, and the compression spring 54 is sleeved on the guide rod 52 and the guide sleeve 51 of an inserting part of the guide rod 52.

A blocking piece 55 is arranged between the compression spring 54 and the adjusting nut 53 and between the compression spring and the second hinge seat 13.

The channel 4 is composed of a plurality of channel sections 6, the channel sections 6 are fixedly connected with each other through bolts, the top of the uppermost channel section 6 is fixedly connected with the feeding chute 3, and the bottom end of the bottommost channel section 6 is fixedly connected with the discharging chute 2; the channel sections 6 are arranged, so that the number of the sections can be increased or decreased according to the actual descending height of the bagged cement, and the vertical conveying device is suitable for vertical conveying at different heights.

Limiting sleeves 11 are respectively arranged on the shaft lever 8 and between the buffering baffle 9 and the bayonet 7 walls on two sides; the buffer baffle 9 is limited, the buffer baffle 9 is prevented from moving left and right, a certain gap is reserved between the side edge of the buffer baffle 9 and the side wall of the similar channel 4, and the side edge of the buffer baffle 9 and the side wall of the channel 4 are prevented from rubbing, so that the speed reduction effect is influenced.

One embodiment of the utility model: before use, adjusting the adjusting nut 53, adjust two buffering baffles 9 to suitable angle, put into bagged water 12 to feeding chute 3, the bagged water 12 rolls into passageway 4 through feeding chute 3, buffering baffle 9 in the passageway 4 includes integrated into one piece's slope section and vertical section, slope section and axostylus axostyle 8 fixed connection, vertical section is located the below of slope section, form a V-arrangement chamber between two relative buffering baffles 9 slope sections, play the guide effect to the bagged water 12 that falls in the top, then bagged water 12 struts two buffering baffles 9, fall between two relative buffering baffles 9 vertical section, distance between two relative buffering baffles 9 vertical section is less than the whole width of bagged water, the bagged water struts two buffering baffles 9 under self gravity effect, after buffering baffles 9 struts, baffle buffer mechanism 5 atress compression, simultaneously under the effect of reverse thrust buffering baffles 9, apply clamping force to bagged water 12, make bagged water 12 slow down, prevent bagged water 12 to drop down, fall between two buffering baffles 12 and roll down, if fall between two relative damping baffles 9 fall, if the speed is too slow down in the speed is reached in the course of adjusting nut 2, and the speed is reached, if the speed is too slow down, and the speed is adjusted to the bagged water is reached, the speed is reduced, the speed is reached, the speed is adjusted, if the nut is rotated down, is passed down, and is opened.

According to the utility model, a plurality of groups of buffer baffles are arranged in the channel, one side of each buffer baffle is provided with a baffle buffer mechanism, the bagged cement falls in the channel, the two buffer baffles are spread under the action of self gravity, the buffer mechanism is stressed and compressed, and the rebound force of the buffer mechanism reversely pushes the buffer baffles to apply clamping force to the bagged cement, so that the bagged cement falls down in a decelerating manner, the phenomenon that the bagged cement falls off too fast and is broken after sliding out of the discharging chute is effectively prevented, and the device has the advantages of simple structure, ingenious design, no external force consumption, realization of falling under the self gravity of the bagged cement and no breakage.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the claims, but rather to cover all equivalent modifications within the scope of the present utility model as defined by the appended claims.

Claims (4)

1. The utility model provides a vertical conveyor of bagged cement, includes braced frame, feeding chute and ejection of compact chute, its characterized in that: a rectangular channel is fixedly arranged in the supporting frame, the upper end and the lower end of the channel are respectively connected with the feeding chute and the discharging chute, a plurality of groups of outwards protruding transverse convex grooves are oppositely arranged on two opposite surfaces of the channel, the length of each transverse convex groove is equal to the width of the side wall of the channel, a downward-inclined bayonet is formed in the transverse convex groove in the direction away from the lateral direction of the channel, a shaft lever is erected in the bayonet, a buffer baffle is fixedly connected on a shaft lever body positioned in the bayonet, and baffle buffer mechanisms are respectively arranged on one sides, facing away from each other, of the two buffer baffles in the channel;

the baffle buffering mechanism comprises a guide sleeve, a guide rod, a compression spring and an adjusting nut, wherein one end of the guide sleeve is of a closed structure and is hinged with a first hinging seat arranged on the supporting frame, an external thread structure is arranged on the pipe body of the guide sleeve, the adjusting nut is screwed, one end of the guide rod is inserted into the guide sleeve, the other end of the guide rod is hinged with a second hinging seat arranged on one side of the buffering baffle, and the compression spring is sleeved on the guide rod and the guide sleeve of the splicing part of the guide rod.

2. The vertical conveying device for bagged cement according to claim 1, wherein: a baffle plate is respectively arranged between the compression spring and the adjusting nut as well as between the compression spring and the second hinging seat.

3. The vertical conveying device for bagged cement according to claim 1, wherein: the channel is formed by a plurality of channel sections, the channel sections are fixedly connected through bolts, the top of the uppermost channel section is fixedly connected with the feeding chute, and the bottom end of the bottommost channel section is fixedly connected with the discharging chute.

4. The vertical conveying device for bagged cement according to claim 1, wherein: limiting sleeves are respectively arranged on the shaft rod and between the buffering baffle plate and the bayonet walls at two sides.