CN112780051B - Article conveying system suitable for buildings - Google Patents

Abstract

The application relates to an article conveying system suitable for buildings, which relates to the field of article conveying and comprises a discharge frame arranged on a floor slab, wherein article injection openings communicated with the discharge frame are formed in the floor slab, discharge inclined pipes are arranged at the bottom of the discharge frame, vertical pipes are vertically arranged among a plurality of floor slabs, and the discharge inclined pipes are communicated with the vertical pipes; install the protection subassembly on the inside wall of discharging the frame, the protection subassembly is including installing the installation shell on discharging the frame inside wall, install on the installation shell and carry out the isolation bag that covers to discharging the pipe chute. This application has the effect that improves the user to the clearance efficiency of pipeline.

Description

Article conveying system suitable for building

Technical Field

The application relates to the field of article conveying, in particular to an article conveying system suitable for buildings.

Background

At present, with the development of society and the further promotion of urbanization construction, the requirement of people on the treatment of urban environment is higher and higher, and a pipeline collection system for sewage is generated. The sewage pipeline collecting system collects the sewage generated by different floors to a sewage disposal point through pipelines for further treatment. In the operation mode, the sewage is not treated before entering the pipeline, the carried bacteria and viruses easily cause secondary pollution to the pipeline and subsequent treatment, and meanwhile, the system cannot record and manage the data of the type, weight and the like of the treated sewage.

In the related art, in the existing sewage pipeline collecting system, when in use, an operator simply drops a collecting bag filled with sewage into the pipeline from a sewage delivery port, so that the collecting bag falls into the vertical pipe along the pipeline to be collected.

To the correlation technique among the above-mentioned, the inventor thinks that the collection bag that is equipped with the filth on the floor flows into to the standpipe inside from the pipeline, and the collection bag that is equipped with the filth alright discharge outside in following the standpipe, but because the collection bag that is equipped with the filth is when sliding along the pipeline, the filth can cause the pollution to the pipeline inside this moment, leads to the inside peculiar smell of pipeline and bacterium to spread to the floor in, needs the staff regularly to clear up the inner wall that discharges the pipeline, but the clearance process is comparatively complicated, and cleaning efficiency is lower.

Disclosure of Invention

In order to improve the cleaning efficiency of a user on a pipeline, the application provides an article conveying system suitable for buildings.

The application provides an article conveying system suitable for buildings adopts the following technical scheme:

an article conveying system suitable for buildings comprises discharge frames installed on floor slabs, wherein article injection openings communicated with the discharge frames are formed in the floor slabs, discharge inclined pipes are installed at the bottoms of the discharge frames, vertical pipes are vertically installed among the floor slabs, and the discharge inclined pipes are communicated with the vertical pipes; install the protection subassembly on the inside wall of discharging the frame, the protection subassembly is including installing the installation shell on discharging the frame inside wall, install on the installation shell and carry out the isolation bag that covers to discharging the pipe chute.

By adopting the technical scheme, a user puts articles into the discharge frame, the articles slide along the isolation bag and the discharge inclined tube, and the articles are finally discharged into the vertical tube and are discharged from the vertical tube; thereby the isolation bag covers the clean degree that discharges the pipe chute and is better to discharging the pipe chute, when isolation bag dirt more need clear up, take off isolation bag and change can.

Preferably, the bottom of installation shell is seted up with the inside opening that communicates of installation shell, the isolation bag is reciprocal folding to be placed inside the cavity of installation shell, the bottom of isolation bag is worn to establish inside the opening, and extends to inside the emission pipe chute.

By adopting the technical scheme, the isolation bag is cut off and falls along the discharge inclined tube, and then the isolation bag is pulled out from the interior of the installation shell, so that the isolation bag covers the discharge inclined tube; the whole using process is simple, so that the cleaning of the discharge inclined pipe is reduced, and the cleaning efficiency of the discharge inclined pipe is high.

Preferably, it ties up the subassembly to all install on two inside walls that discharge the pipe chute is relative and tie up the bag, discharge all offer the mounting groove that is used for placing the subassembly of tying up on two inside walls that the pipe chute is relative, it is including installing the first round bar between two inside walls that the mounting groove is relative to tie up the subassembly, it is equipped with two dwangs, two to rotate the cover on the first round bar install the heating member between the dwang, it carries out pivoted second driving piece to the dwang to install on the lateral wall that discharges the pipe chute.

Through adopting above-mentioned technical scheme, opening the second driving piece, at first drive the dwang through the second driving piece and rotate, the bottom of dwang rotates to one side of isolation bag this moment, when two heating member butts, the bottom of isolation bag is accomplished by the heating this moment, and the isolation bag is the form of tying up this moment, then closes the second driving piece. Then, articles are placed into the isolation bag, the isolation bag can be driven by the articles to move downwards, the isolation bag is pressed by hands after the isolation bag moves downwards to a required position, and the isolation bag is subjected to downward force of the articles, so that the articles drive the isolation bag at the bottom to be separated from the isolation bag at the top, and the replacement work of the isolation bag is completed.

Preferably, the isolation bag is provided with a plurality of easy-to-tear lines along the length direction thereof.

Through adopting above-mentioned technical scheme, through setting up the easy tear line, the isolation bag that needs to abandon is conveniently got rid of to make the isolation bag that needs to abandon can be faster from the bottom separation of isolation bag, thereby the person of facilitating the use uses isolation bag.

Preferably, install the locating component who advances line location to the isolation bag on the inside wall of emission pipe chute, locating component is including installing the horizontal seat on the installation shell inside wall, the vertical seat that sets up with adjacent installation shell interval is installed to the bottom of horizontal seat, the holding tank has been seted up towards one side of installation shell to vertical seat, install the installation pole between two lateral walls that the holding tank is relative, rotate the cover on the installation pole and be equipped with two rotor plates, the bottom of rotor plate extends to the outside of vertical seat, installs the second round bar that is located the vertical seat outside between two rotor plates, it is equipped with the swivel becket to rotate the cover on the second round bar, the cover is equipped with the rubber ring on the swivel becket, the lateral wall butt of rubber ring and isolation bag.

By adopting the technical scheme, the isolation bag is tightly pressed by the rubber ring, so that the attachment degree of the isolation bag and the discharge inclined tube is better; and when the isolation bag was when vertical downstream, isolation bag alright drive the rubber ring and rotate this moment, isolation bag also compressed tightly by the rubber ring at the in-process that removes for isolation bag's result of use is better.

Preferably, the second round rod is sleeved with a coil spring, the center end of the coil spring is fixedly connected to the rotating ring, the other end of the coil spring is fixedly connected to the end face of the rotating ring, and the vertical seat is provided with a first driving piece for driving the rotating plate to rotate.

By adopting the technical scheme, when the isolation bag at the bottom is required to be replaced, the bundling assembly is firstly opened to enable the bottom end of the isolation bag to be closed, then the articles are placed into the isolation bag, the articles drive the isolation bag to move downwards, and when the isolation bag moves downwards, the clean isolation bag is taken out from the interior of the mounting shell; meanwhile, the isolation bag drives the rubber ring to rotate when moving downwards, the rubber ring drives the coil spring to rotate through the rotating ring when rotating, and when the coil spring rotates to the end, the bottom end of the isolation bag rotating from the inside of the mounting shell moves to the inner side of the bundling assembly; because the rubber ring can not rotate, the isolation bag can not move at the moment, and the section of the isolation bag, the bottom of which needs to be replaced, is separated from the bottom of the section of the isolation bag at the upper part under the gravity of the articles; the isolation bag can be replaced by matching with articles, so that the whole using process is more convenient and the using effect is better; after the isolation bag is replaced, the rotating plate is driven to move to one side far away from the isolation bag through the first driving piece, the rubber ring is separated from the isolation bag, the coil spring drives the rubber ring to recover through the rotating ring at the moment, then the first driving piece is closed, and the rubber ring is still connected with the isolation bag in a butting mode. Through setting up the wind spring for rubber ring pivoted number of turns is fixed numerical value, thereby makes the distance that the rubber ring drove isolation bag and remove at every turn and be fixed numerical value, and the effect when can making isolation bag use is better.

Preferably, first driving piece is including installing the first cylinder on one of them fixing base lateral wall, first telescopic link is installed at the top of first cylinder, the first waist shape hole of extending along its length direction is seted up to the lateral wall of rotor plate upper level, first telescopic link is installed towards one side of fixing base and is slided the slip round bar in first waist shape hole inside.

Through adopting above-mentioned technical scheme, when needs make rubber ring and isolation bag separation, at first open first cylinder, first cylinder drives first telescopic link rebound, and first telescopic link drives the slip round bar and shifts up this moment, and the slip round bar moves along first waist shape hole, and the slip round bar alright drive the rotor plate when removing and rotate, and the bottom of rotor plate is to the one side removal of keeping away from the isolation bag, and the rubber ring of installing between two rotor plates just accomplishes the separation with the isolation bag.

Preferably, the top of the mounting shell is detachably connected with two cover plates, two bolts penetrate through the upper end surfaces of the cover plates, and the bottoms of the two bolts are respectively in threaded connection with the upper part of the inner side mounting shell and the upper part of the outer side mounting shell; the isolation bag is folded from top to bottom and placed in the cavity of the mounting shell, the top of the isolation bag is connected with a double-sided sticker in a bonding mode, the top of the isolation bag is provided with a positioning block, and the width of the positioning block is larger than that of the opening.

Through adopting above-mentioned technical scheme, after the isolation bag used up, the isolation bag received the effect of locating piece this moment, and the top of isolation bag still is located inside the installation shell, opens the apron, then tears two-sided subsides, and the bottom bonding connection of the isolation bag that will need add is pasted on two-sided to with the locating piece from the upper portion separation of isolation bag, can accomplish the interpolation to the isolation bag.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the isolation bag is placed in the discharge inclined tube, and when the interior of the isolation bag is polluted more, the isolation bag is taken down and replaced, so that the cleanness of the surface of the discharge inclined tube is reduced from the source, and the discharge inclined tube is cleaned conveniently;

2. the bundling assembly is arranged, so that the bottom of the isolation bag can be conveniently bundled into a closed shape, when an article is placed into the isolation bag, the article can take the clean isolation bag out of the mounting shell, and the use by a user is facilitated;

3. the setting of locating component for the length of barrier bag downstream is fixed numerical value, conveniently fixes a position the length of barrier bag, makes the barrier bag better with the effect that the cooperation of emission pipe chute was used.

Drawings

Fig. 1 is a schematic structural diagram of an article conveying system suitable for buildings according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram for illustrating a protection component according to an embodiment of the present application.

Fig. 3 is a schematic diagram for showing a specific structure of a mounting case according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram for illustrating a positional relationship between the positioning assembly and the mounting housing according to the embodiment of the present application.

Fig. 5 is a schematic structural diagram illustrating a strapping assembly according to an embodiment of the present application.

Fig. 6 is a schematic diagram of the structure at a in fig. 5.

Fig. 7 is a schematic structural diagram for illustrating a positioning assembly according to an embodiment of the present application.

Fig. 8 is a schematic diagram of the structure at B in fig. 7.

Description of reference numerals: 1. a floor slab; 11. an article injection port; 12. a storage frame; 2. an exhaust frame; 3. an exhaust chute; 4. a vertical tube; 5. a protection component; 51. mounting a shell; 511. an opening; 512. a cover plate; 513. a bolt; 52. positioning blocks; 53. an isolation bag; 531. an easily torn line; 54. pasting on two sides; 6. a strapping assembly; 61. a first round bar; 611. mounting grooves; 62. rotating the rod; 63. a heating element; 631. a second driving member; 641. a second cylinder; 642. a second telescopic rod; 643. a slider; 644. a second waist-shaped hole; 7. a positioning assembly; 71. a fixed seat; 711. a horizontal base; 712. a vertical seat; 7121. accommodating grooves; 72. mounting a rod; 73. a rotating plate; 74. a second round bar; 75. a rotating ring; 76. a rubber ring; 77. a coil spring; 78. a connecting rod; 8. a first driving member; 81. a first cylinder; 82. a first telescopic rod; 83. a sliding round bar; 831. a first waist-shaped aperture.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses an article conveying system suitable for buildings. Referring to fig. 1, the article conveying system suitable for the building comprises a discharge frame 2 installed on a multilayer floor slab 1, discharge inclined pipes 3 extending to the upper part of a lower floor slab 1 are installed at the bottoms of the discharge frame 2, vertical pipes 4 extending vertically are built on the floor slab 1 from top to bottom, and the bottom ends of the discharge inclined pipes 3 are fixedly connected to the outer side walls of the vertical pipes 4; all seted up article filling opening 11 on floor 1, discharge frame 2 and vertically fixed wear to establish inside article filling opening 11, discharge frame 2, discharge pipe chute 3, 4 three of standpipe are the intercommunication form.

Referring to fig. 1, a bottom surface of the vertical pipe 4 is spaced from the bottommost floor slab 1, a storage frame 12 is installed on an upper end surface of the bottommost floor slab 1, and the vertical pipe 4 is located on an upper portion of the storage frame 12. The user puts into article from discharging frame 2, and article slide along isolation bag 53 and discharge pipe chute 3, and article final discharge is to the standpipe 4 inside, and article alright are discharged to accomodating the frame 12 inside from the standpipe 4.

Referring to fig. 2 and 3, the discharge frame 2 is a square frame, a protection assembly 5 for protecting the discharge frame 2 and the inner side wall of the discharge chute 3 is installed on the inner side wall of the discharge frame 2, and the protection assembly 5 includes an installation shell 51, a positioning block 52, and an isolation bag 53. The installation shell 51 is fixedly connected to the inner side wall of the discharge frame 2 and is horizontally arranged, the installation shell 51 is annular and is horizontally arranged, an opening 511 communicated with the inner cavity of the installation shell 51 is formed in the bottom of the installation shell 51, and the opening 511 is smaller than the extension width of the inner cavity of the installation shell 51; the two positioning blocks 52 are arranged in the inner cavity of the mounting shell 51, the positioning blocks 52 are symmetrical along the vertical central plane of the mounting shell 51, the length of the positioning blocks 52 along the width direction of the mounting shell 51 is larger than the width of the opening 511, and the positioning blocks 52 cannot fall from the opening 511; the isolation bag 53 is of a cylindrical structure, the isolation bag 53 is folded and placed in the cavity of the mounting shell 51 from top to bottom in a reciprocating mode, the bottom end of the isolation bag 53 extends out of the opening 511 and extends into the discharge inclined tube 3, and the positioning blocks 52 are all connected to the top of the isolation bag 53 in a bonding mode.

Article are from discharging frame 2 inside and putting into, and article alright move along barrier bag 53 at the in-process that moves down this moment, and article are kept apart by barrier bag 53 when moving to make the clean degree on emission pipe chute 3 surface better, reduce the inside condition that appears the peculiar smell of emission pipe chute 3, thereby make the result of use of emission pipe chute 3 better.

Referring to fig. 2 and 3, the top of the mounting shell 51 is open, two cover plates 512 are covered at the open top of the mounting shell 51, two bolts 513 are vertically arranged on the upper end surfaces of the cover plates 512 in a penetrating manner, the bottom of one bolt 513 is in threaded connection with the upper end surface of the mounting shell 51 close to one side of the discharge frame 2, and the bottom of the other bolt 513 is in threaded connection with the upper end surface of the mounting shell 51 away from one side of the discharge frame 2.

Referring to fig. 3, a double-sided sticker 54 is adhesively attached to the top of the isolation bag 53, and the double-sided sticker 54 is symmetrical along a vertical center plane between the two positioning blocks 52. After the isolation bag 53 is used up, the isolation bag 53 is limited by the positioning block 52 at this time, the top of the isolation bag 53 is still located inside the installation shell 51, the cover plate 512 is opened, then the double-sided tape 54 is torn, the bottom of the isolation bag 53 to be added is bonded and connected to the double-sided tape 54, the positioning block 52 is separated from the upper portion of the isolation bag 53, a new isolation bag 53 can be placed inside the installation shell 51, and finally the cover plate 512 is installed on the top of the installation shell 51.

Referring to fig. 1 and 2, the isolation bag 53 is provided with a plurality of easy-tear lines 531 along the length direction thereof. The lower end surface of the mounting case 51 is spaced from the lower end surface of the discharge frame 2 by a distance a, the center of the discharge chute 3 extends by a length b, and the two adjacent easy-tear lines 531 are spaced by a distance c, where c is a + b.

When the isolated bag 53 needs to be replaced, the isolated bag 53 can be quickly separated through the easy-tearing line 531, and the isolated bag is convenient for a user to use.

Referring to fig. 3 and 5, the bundling members 6 for bundling the isolation bags 53 are mounted on two opposite inner sidewalls of the discharge chute 3, and referring to fig. 5 and 6, the bundling members 6 are symmetrical along a central extension plane of the discharge chute 3 in the length direction, the bundling members 6 are close to the bottom end of the discharge chute 3, and the bundling members 6 include a first round bar 61, a rotation bar 62, a heating member 63, and a second driving member 631; the side wall of the discharge inclined pipe 3 is provided with a mounting groove 611, and the mounting groove 611 penetrates downwards along the extension direction of the discharge inclined pipe 3; the first round bar 61 is fixedly connected to two opposite inner side walls of the mounting groove 611; the two rotating rods 62 are arranged and are both rotatably sleeved on the first round rod 61 and are placed in the installation groove 611; the heating member 63 is fixedly connected between the two rotating rods 62 and can heat the isolation bag 53. When the two heating members 63 approach each other and the heating members 63 are in a pressing state, the two heating members 63 press and heat the isolation bag 53, so that the bottom of the isolation bag 53 is in a closed state.

Referring to fig. 5 and 6, two second drivers 631 are provided, each of which is mounted on a side wall of the discharge chute 3, and the second drivers 631 push the adjacent rotation levers 62. The second driving member 631 comprises a second cylinder 641, a second telescopic rod 642 and a sliding block 643; the second cylinder 641 is vertically and fixedly arranged on the side wall of the inclined discharge pipe 3 in a penetrating manner, and the end part of the second cylinder 641 extends into the mounting groove 611; the telescopic rod is installed at the end of the second cylinder 641 and is located inside the installation groove 611; the sliding block 643 is fixedly connected to the end of the second telescopic rod 642; the rotating rod 62 is provided with a second kidney-shaped hole 644 along the length direction thereof, and the sliding block 643 slides inside the second kidney-shaped hole 644.

When the isolation bag is used, the second driving member 631 is firstly turned on, the rotating rod 62 is firstly driven to rotate by the second driving member 631, the bottom end of the rotating rod 62 rotates towards one side of the isolation bag 53, when the two heating members 63 abut against each other, the bottom end of the isolation bag 53 is heated, and the isolation bag 53 is tightened; the second actuator 631 is then closed. Then, the articles are put into the isolation bag 53, at this time, the articles can drive the isolation bag 53 to move downwards, when the isolation bag 53 moves downwards to a required position, the isolation bag 53 is pressed by hands, at this time, the isolation bag 53 is subjected to downward force of the articles, so that the articles drive the bottom isolation bag 53 to be separated from the top isolation bag 53, and the replacement work of the isolation bag 53 is completed.

Referring to fig. 5 and 7, two inner side walls of the mounting shell 51 opposite to each other are respectively provided with a positioning assembly 7 for positioning the isolation bag 53, and one of the positioning assemblies 7 is taken as an example. Referring to fig. 7 and 8, the positioning assembly 7 includes a fixing base 71, a mounting rod 72, a rotating plate 73, a second round rod 74, a rotating ring 75, a rubber ring 76, and a coil spring 77. The fixed seat 71 comprises a horizontal seat 711 fixedly connected to the inner side wall of the mounting shell 51, the horizontal seat 711 is vertical to the inner side wall of the discharge frame 2, and the bottom of the horizontal seat 711 is fixedly connected with a vertical seat 712; an accommodating groove 7121 is formed in one side, facing the installation shell 51, of the horizontal seat 711, the installation rod 72 is horizontally and fixedly connected to two opposite side walls of the accommodating groove 7121, and the extending direction of the installation rod 72 is the same as that of the horizontal seat 711; the two rotating plates 73 are fixedly sleeved on the mounting rod 72, and the bottom ends of the two rotating plates 73 extend to a position between the vertical seat 712 and the mounting shell 51; the second round bar 74 is fixedly connected between the two rotating plates 73 and is positioned outside the vertical seat 712; the rotating ring 75 is rotatably sleeved on the second round rod 74, and the rotating ring 75 can rotate relative to the second round rod 74; the rubber ring 76 is fixedly sleeved on the rotating ring 75, and the rubber ring 76 is abutted against the inner side wall of the isolation bag 53; the coil spring 77 is sleeved on the second round rod 74, the center end of the coil spring 77 is fixedly connected to the rotating ring 75, the other end of the coil spring 77 is fixedly connected to the connecting rod 78, and the connecting rod 78 is fixedly connected to the end face of the rotating ring 75.

When the isolation bag 53 at the bottom needs to be replaced, firstly, the strapping assembly 6 is used for enabling the bottom end of the isolation bag 53 to be closed, then, articles are put into the isolation bag 53, the articles drive the isolation bag 53 to move downwards, and when the isolation bag 53 moves downwards, the clean isolation bag 53 is taken out from the interior of the mounting shell 51; meanwhile, the isolation bag 53 drives the rubber ring 76 to rotate when moving downwards, the rubber ring 76 drives the coil spring 77 to wind through the rotating ring 75 when rotating, and when the coil spring 77 is wound, the isolation bag 53 moves from the bottom end of the isolation bag 53 inside the mounting shell 51 to the inner side of the bundling assembly 6; the rubber ring 76 cannot rotate continuously under the action of the coil spring 77, the isolation bag 53 cannot move at the moment, and the section of isolation bag 53 with the bottom to be replaced is separated from the bottom of the section of isolation bag 53 at the upper part under the gravity of the articles; the isolation bag 53 can be replaced by matching with articles, so that the whole using process is convenient, and the using effect is good; after the isolation bag 53 is replaced, the rotating plate 73 is driven by the first driving member 8 to move to the side away from the isolation bag 53, and since the rubber ring 76 is separated from the isolation bag 53, the coil spring 77 drives the rubber ring 76 to return through the rotating ring 75, and then the first driving member 8 is closed, and at this time, the rubber ring 76 still abuts against the isolation bag 53.

Referring to fig. 7 and 8, a first driving member 8 is mounted on the inner bottom surface of the vertical seat 712, the first driving member 8 can drive the rotating plate 73 to rotate, and the first driving member 8 includes a first cylinder 81, a first telescopic rod 82, and a sliding round rod 83. The first cylinder 81 is fixedly connected to the inner bottom surface of the vertical seat 712 and is vertically arranged; the first telescopic rod 82 is installed at the top of the first cylinder 81; the sliding round bar 83 is installed at the top end of the first telescopic rod 82, a first waist-shaped hole 831 extending along the length direction of the sliding round bar is horizontally arranged on the side wall of the rotating plate 73 close to one side of the first telescopic rod 82, and the sliding round bar 83 is placed inside the first waist-shaped hole 831 in a sliding mode.

When the rubber ring 76 needs to be separated from the isolation bag 53, the first air cylinder 81 is firstly opened, the first air cylinder 81 drives the first telescopic rod 82 to move upwards, at the moment, the first telescopic rod 82 drives the sliding round rod 83 to move upwards, the sliding round rod 83 moves along the first waist-shaped hole 831, the sliding round rod 83 can drive the rotating plate 73 to rotate when moving, the bottom end of the rotating plate 73 moves towards one side far away from the isolation bag 53, and the rubber ring 76 arranged between the two rotating plates 73 is separated from the isolation bag 53.

The implementation principle of the article conveying system suitable for the building is as follows: the user puts the article into from discharging frame 2, and article slide along isolation bag 53 and discharge pipe chute 3, and the article finally discharges to the inside of standpipe 4 to from the inside of standpipe 4 to inside of accomodating frame 12.

When the isolation bag 53 needs to be replaced after a period of use, the strapping assembly 6 is first used: the second driving member 631 is turned on, the second driving member 631 drives the rotation rod 62 to rotate, the bottom end of the rotation rod 62 rotates towards one side of the isolation bag 53, when the two heating members 63 abut against each other, the bottom end of the isolation bag 53 is heated, the isolation bag 53 is tightened, and then the second driving member 631 is turned off.

Then, articles are put into the isolation bag 53, the articles can drive the isolation bag 53 to move downwards due to the closed bottom end of the isolation bag 53, and when the isolation bag 53 moves downwards, the clean isolation bag 53 can be taken out from the interior of the installation shell 51; meanwhile, the isolation bag 53 drives the rubber ring 76 to rotate when moving downwards, the rubber ring 76 drives the coil spring 77 to rotate through the rotating ring 75 when rotating, when the coil spring 77 cannot rotate, the rubber ring 76 cannot rotate at the moment, the isolation bag 53 is tightly pressed by the rubber ring 76 and cannot move, and the section of the isolation bag 53, the bottom of which needs to be replaced, is separated from the bottom of the section of the isolation bag 53 at the upper part under the action of the gravity of the articles; the isolation bag 53 can be replaced by matching with articles, so that the isolation bag 53 is convenient to use and good in using effect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. An article conveying system suitable for use in buildings, comprising: the device comprises a discharge frame (2) arranged on floor slabs (1), wherein article injection ports (11) communicated with the discharge frame (2) are formed in the floor slabs (1), discharge inclined pipes (3) are arranged at the bottoms of the discharge frame (2), vertical pipes (4) are vertically arranged among a plurality of floor slabs (1), and the discharge inclined pipes (3) are communicated with the vertical pipes (4); a protection component (5) is arranged on the inner side wall of the discharge frame (2), the protection component (5) comprises a mounting shell (51) arranged on the inner side wall of the discharge frame (2), and an isolation bag (53) for covering the discharge inclined tube (3) is arranged on the mounting shell (51); the utility model discloses a building isolation bag, including the isolation bag (53), install many easily tear line (531) along its length direction on the inside wall of emission pipe chute (3), install locating component (7) of fixing a position isolation bag (53), locating component (7) is including installing horizontal seat (711) on installation shell (51) inside wall, vertical seat (712) that set up with adjacent installation shell (51) interval are installed to the bottom of horizontal seat (711), holding tank (7121) has been seted up towards one side of installation shell (51) to vertical seat (712), install installation pole (72) between two relative lateral walls of holding tank (7121), it is equipped with two rotor plates (73) to rotate the cover on installation pole (72), the bottom of rotor plate (73) extends to the outside of vertical seat (712), installs second round bar (74) that are located the vertical seat (712) outside between two rotor plates (73), the rotating sleeve on the second round rod (74) is provided with a rotating ring (75), the rotating ring (75) is provided with a rubber ring (76), and the rubber ring (76) is abutted to the side wall of the isolation bag (53).

2. The article conveying system suitable for buildings as claimed in claim 1, wherein: the bottom of installation shell (51) is seted up with the inside opening (511) that communicates of installation shell (51), isolation bag (53) are reciprocal folding to be placed inside the cavity of installation shell (51), the bottom of isolation bag (53) is worn to establish inside opening (511), and extends to inside the emission pipe chute (3).

3. The article conveying system suitable for buildings as claimed in claim 2, wherein: it ties up subassembly (6) to tie up to keep apart bag (53) to all install on two inside walls that discharge pipe chute (3) are relative, all offer on two inside walls that discharge pipe chute (3) are relative and be used for placing mounting groove (611) of tying up subassembly (6), tie up subassembly (6) including installing first round bar (61) between two inside walls that mounting groove (611) is relative, it is equipped with two dwang (62), two to rotate the cover on first round bar (61) install between dwang (62) with heating member (63), it carries out pivoted second driving piece (631) to dwang (62) to install on the lateral wall of discharging pipe chute (3).

4. The article conveying system suitable for buildings as claimed in claim 1, wherein: the second round rod (74) is sleeved with a coil spring (77), the center end of the coil spring (77) is fixedly connected to the rotating ring (75), the other end of the coil spring (77) is fixedly connected to the end face of the rotating ring (75), and a first driving piece (8) for driving the rotating plate (73) to rotate is arranged on the vertical seat (712).

5. An article conveying system suitable for use in buildings according to claim 4 wherein: first driving piece (8) are including installing first cylinder (81) on the bottom in vertical seat (712), first telescopic link (82) are installed at the top of first cylinder (81), first waist shape hole (831) that extend along its length direction are seted up to the level on the lateral wall of rotor plate (73), slide sliding round bar (83) inside first waist shape hole (831) are installed towards one side of fixing base (71) in first telescopic link (82).

6. The article conveying system suitable for buildings as claimed in claim 1, wherein: the top of the mounting shell (51) is detachably connected with two cover plates (512), two bolts (513) penetrate through the upper end surfaces of the cover plates (512), and the bottoms of the two bolts (513) are respectively in threaded connection with the upper part of the inner side mounting shell (51) and the upper part of the outer side mounting shell (51); the isolation bag (53) is folded from top to bottom and placed in the cavity of the mounting shell (51), the top of the isolation bag (53) is connected with a double-sided sticker (54) in a bonding mode, a positioning block (52) is installed at the top of the isolation bag (53), and the width of the positioning block (52) is larger than that of the opening (511).

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