CN221193781U - Large-span beam slab gap filling device - Google Patents

Abstract

The utility model discloses a large-span beam slab gap filling device, which relates to the field of beam slab gap filling and comprises a storage barrel body, wherein the storage barrel body is a straight barrel with two open ends, a sealing cover for sealing is coaxially and detachably fixed at one end of the storage barrel body, and a discharging pipe for discharging a gap filler is coaxially and fixedly communicated with the middle part of the sealing cover. The beneficial effects are that: according to the utility model, the pushing plate and the sealing plate can be driven to move along the inner periphery of the storage barrel body in a mode that the pushing rod of the filler pushing assembly moves along the axial direction of the storage barrel body, then the caulking agent in the storage barrel body can be pushed out for caulking operation in a mode that the pushing plate and the sealing plate move along the inner periphery of the storage barrel body to be close to the discharging pipe, and meanwhile, the supplementary caulking agent can be sucked into the storage barrel body through the discharging pipe to complete material supplementing in a mode that the pushing plate and the sealing plate move along the inner periphery of the storage barrel body to be far away from the discharging pipe.

Description

Large-span beam slab gap filling device

Technical Field

The utility model relates to the field of beam slab gap filling auxiliary assemblies, in particular to a large-span beam slab gap filling device.

Background

The beam plate is a common structural member in constructional engineering, and is usually referred to as a combination of a beam and a plate, which play important roles in the construction, the beam is used for supporting and transmitting load, the plate is used as a horizontal bearing structure of a floor, gaps can be formed at the junctions between some beam plates and walls in specific construction, and filling agents need to be filled into the gaps through filling devices at the moment so as to improve the tightness of the beam plate structure.

When filling the gap of the beam plate, the beam plate is usually held by a handheld filling device because the position of the beam plate is higher, but when the handheld filling device is specifically designed, the extrusion and the replenishment of the gap filler in the barrel are inconvenient, the gap filler in the large-span beam plate is usually longer, the gap filler can be successfully completed by supplementing the gap filler for many times, so that certain inconvenience exists in use, the gap filling efficiency is general, and meanwhile, when the gap filling operation is finished, the interior of the barrel of the filling device is inconvenient to clean, so that the gap filler can be adhered and dried in the barrel of the filling device, and the subsequent repeated use is directly influenced.

Disclosure of utility model

The utility model aims to solve the problems, and provides a large-span beam plate gap filling device, wherein a push rod of a filler push-out assembly can drive a push plate and a sealing plate to move along the inner periphery of a storage cylinder body in an axial moving manner along the storage cylinder body, then the push plate and the sealing plate can push out a caulking agent in the storage cylinder body to perform a caulking operation in a manner that the push plate and the sealing plate move close to a discharging pipe along the inner periphery of the storage cylinder body, and meanwhile, the push plate and the sealing plate can suck the supplementary caulking agent into the storage cylinder body through the discharging pipe to complete a material supplementing process in a manner that the push plate and the sealing plate move away from the discharging pipe along the inner periphery of the storage cylinder body.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides a large-span beam slab gap filling device, which comprises a storage cylinder body, wherein the storage cylinder body is a straight cylinder with two open ends, a sealing cover for sealing is coaxially and detachably fixed at one end of the storage cylinder body, and a discharging pipe for discharging a caulking agent is coaxially and fixedly communicated with the middle part of the sealing cover;

The packing pushing assembly capable of axially sliding back and forth is coaxially and slidably connected to the other end of the storage cylinder body, and is used for extruding the caulking agent in the storage cylinder body through the discharging pipe or sucking the caulking agent to be supplemented through the discharging pipe;

The storage cylinder body is close to the outside of the end part of the filler pushing-out assembly and is provided with a mounting substrate, the mounting substrate is fixedly connected with the outer end position of the filler pushing-out assembly, and the mounting substrate is provided with a pushing-out driving assembly used for driving the filler pushing-out assembly to reciprocate axially.

Preferably, the sealing cover is coaxially and detachably connected with the storage cylinder body in a threaded fit mode, and the discharging pipe is a funnel-shaped straight pipe with a small outer end.

Preferably, the storage cylinder body is downwards extended and fixed with a handle which is used for being conveniently held away from the bottom of the outer end of the discharging pipe.

Preferably, the packing pushing assembly comprises a pushing plate and a pushing rod, the pushing plate is located in the end portion of the storage cylinder body away from the discharging pipe in a coaxial sliding fit mode, a sealing plate is coaxially fixed on the end face of the pushing plate, which is close to the discharging pipe, and the sealing plate is coaxially sealed and matched with the inner wall of the storage cylinder body and can axially move along the storage cylinder body, the pushing plate is away from the end face of the discharging pipe, which is coaxially fixed with the pushing rod through a connecting sleeve, and the outer end of the pushing rod is fixedly connected with the mounting substrate through the connecting sleeve.

Preferably, the sealing plate is a circular rubber plate, and the periphery of the sealing plate is in coaxial tensioning fit with the inner periphery of the storage cylinder body.

Preferably, the axial length of the push rod is not smaller than that of the storage cylinder body, the two connecting sleeves are welded on the end faces of the mounting substrate and the push plate, which are opposite to each other, respectively, and the two ends of the push rod are in coaxial interference fit with the similar connecting sleeves respectively.

Preferably, the pushing driving assembly comprises a guide seat, a nut seat and a driving motor, wherein the two sides of the outer end of the discharge pipe are far away from the storage cylinder body, the guide seat and the nut seat are respectively and fixedly extended, a guide rod is inserted in a sliding fit mode of the guide seat, a screw rod is inserted in a threaded fit mode of the nut seat, the guide rod and the screw rod are parallel to each other, the end part of the guide rod, which is far away from the discharge pipe, is fixedly arranged on the end surface, which is far away from the storage cylinder body, of the mounting substrate, the driving motor is fixedly arranged on the end surface, which is far away from the storage cylinder body, of the mounting substrate, and a motor shaft of the driving motor penetrates through the mounting substrate in a sliding fit mode, and the end part of the motor is far away from the end part of the discharge pipe, which is fixedly connected with the end part of the screw rod, which is far away from the discharge pipe, of the mounting substrate.

Preferably, the end parts of the guide rod and the screw rod, which are close to the discharging pipe, are coaxially fixed with an anti-drop cap, and when the anti-drop cap contacts the nut seat and the guide seat, the push plate is not exposed out of the end part of the storage cylinder body.

Preferably, the mounting substrate is far away from the end face of the storage cylinder body and is fixedly provided with a power supply box, a control button is arranged on the surface of the power supply box, and the control button and the driving motor are electrically connected with the power supply box.

By adopting the large-span beam plate gap filling device, particularly when the large-span beam plate gap is subjected to gap filling operation, after the discharge pipe is aligned to the position of the beam plate to be filled with the gap, the push rod of the filling push-out assembly can drive the push plate and the sealing plate to move along the inner periphery of the storage cylinder body in an axial moving manner of the storage cylinder body, then the push plate and the sealing plate can move along the inner periphery of the storage cylinder body to be close to the discharge pipe, the gap filling agent in the storage cylinder body can be pushed out for gap filling operation, and when the gap filling agent in the storage cylinder body is completely extruded, the discharge pipe is immersed into a container filled with the gap filling agent to be supplemented, then the push plate and the sealing plate can be moved away from the inner periphery of the storage cylinder body in a moving manner of the filling pipe to complete the filling agent through the push plate, the gap filling agent in the storage cylinder body is extruded and the sealing plate can be easily pushed out by a motor, the large-up motor can be driven by the driving assembly to drive the long-reversing motor, and the gap filling assembly can be driven to perform the gap filling operation conveniently, and the gap filling box can be driven to move along the axial direction of the power supply assembly to complete the gap filling operation when the large-filling assembly is completely driven to fill the gap filling assembly, because the closing cap detachable is coaxial to be fixed in the tip position of storage cylinder body, simultaneously the axial length of push rod is not less than the axial length of storage cylinder body, will then the closing cap is detached and is made after the storage cylinder body tip is opened, through pushing away the material drive assembly drive the push rod is removed and is made the push pedal with the closing plate is close to the mode of the open end of storage cylinder body can be with this internal adnexed joint mixture clearance of storage cylinder is released, has realized after the joint mixture finishes to in time clear up in the storage cylinder body, has avoided joint mixture to adhere to and dry to be in on the storage cylinder body inner wall and influence follow-up used repeatedly.

The beneficial effects are that: 1. according to the utility model, the pushing plate and the sealing plate can be driven to move along the inner periphery of the storage barrel body in a mode that the pushing rod of the filler pushing assembly moves along the axial direction of the storage barrel body, then the caulking agent in the storage barrel body can be pushed out for caulking operation in a mode that the pushing plate and the sealing plate move along the inner periphery of the storage barrel body to be close to the discharging pipe, and meanwhile, the supplementary caulking agent can be sucked into the storage barrel body through the discharging pipe to complete material supplementing in a mode that the pushing plate and the sealing plate move along the inner periphery of the storage barrel body to be far away from the discharging pipe, so that the extrusion and the supplementary operation of the caulking agent in the storage barrel body are easy to realize, the use requirement of long-span beam slab gaps and frequent material supplementing is met, and the caulking efficiency of the large-span beam slab is facilitated to be improved;

2. The driving motor of the packing driving assembly drives the screw rod to reciprocate along the axial direction of the inner periphery of the storage cylinder body, so that the pushing plate and the sealing plate are conveniently driven to extrude the joint mixture for joint filling or suck the joint mixture for supplementing, and the driving mode of the packing pushing assembly is simple and easy to realize;

3. the sealing cover is detachably and coaxially fixed at the end part of the storage barrel body, and then the sealing cover is detached to enable the end part of the storage barrel body to be opened, and the pushing plate and the sealing plate can be cleaned and pushed out by the pushing driving assembly to enable the pushing plate and the sealing plate to be close to the open end of the storage barrel body.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic overall isometric view of the present utility model;

FIG. 2 is a schematic cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a second schematic cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 4 is a front exterior view of FIG. 1 of the present utility model;

FIG. 5 is a left side exterior view of FIG. 1 of the present utility model;

FIG. 6 is a right side exterior view of FIG. 1 of the present utility model;

fig. 7 is a top exterior view of fig. 1 of the present utility model.

The reference numerals are explained as follows:

1. A storage cylinder body; 101. a discharge pipe; 102. a cover; 103. a grip; 2. a pushing driving assembly; 201. an anti-drop cap; 202. a guide seat; 203. a guide rod; 204. a power supply box; 205. a control button; 206. a driving motor; 207. a screw; 208. a nut seat; 209. a motor shaft; 3. a mounting substrate; 4. a filler push-out assembly; 401. a push rod; 402. connecting sleeves; 403. a push plate; 404. and (5) sealing the plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1-7, the utility model provides a large-span beam slab gap filling device, which comprises a storage barrel body 1, wherein the storage barrel body 1 is a straight barrel with two open ends, one end of the storage barrel body 1 is coaxially and detachably fixed with a sealing cover 102 for sealing, the middle part of the sealing cover 102 is coaxially and fixedly communicated with a discharging pipe 101 for discharging a gap filler, and if the large-span beam slab gap filling device is arranged, the sealing cover 102 and the outer end of the storage barrel body 1 can be quickly combined and detached, the outer end of the storage barrel body 1 can be opened in a mode of detaching the sealing cover 102, and the inside can be cleaned conveniently. Simultaneously the inside coaxial sliding connection of the other end of storage cylinder body 1 has the packing ejecting assembly 4 that can axial reciprocal slide for extrude the joint mixture in the storage cylinder body 1 through discharging pipe 101 or inhale the joint mixture that will wait to supplement through discharging pipe 101, concretely speaking, packing ejecting assembly 4 includes push pedal 403 and push rod 401, push pedal 403 is located the tip inner periphery of keeping away from discharging pipe 101 in storage cylinder body 1 with coaxial sliding fit's mode, push pedal 403 is close to the terminal surface coaxial fixed with closing plate 404 of discharging pipe 101, and closing plate 404 and the coaxial sealing cooperation of storage cylinder body 1 inner wall and can follow storage cylinder body 1 axial displacement, the terminal surface that push pedal 403 kept away from discharging pipe 101 is through connecting sleeve 402 coaxial fixed with push rod 401, and the outer end of push rod 401 links to each other through connecting sleeve 402 and mounting base plate 3 is fixed, the effect of setting up like this, can drive push pedal 403 and closing plate 404 along the inner periphery of storage cylinder body 1 through packing ejecting assembly 4, then move along the inner periphery of storage cylinder body 1 and move the sealing plate 403 and be close to the body 1 along the inner periphery of storage cylinder body 1, can carry out the operation easy operation of the interior joint mixture of storage cylinder body 1 along the mode that the sealing plate 403 is kept away from the inner periphery of storage cylinder body 1 through the sealing plate 1, can carry out the operation easy operation and the joint mixture is kept away from the inside the storage cylinder body 1 through the sealing plate 1.

Referring to fig. 1-3, a mounting substrate 3 is arranged outside the end part of the storage cylinder body 1, which is close to the filler pushing-out assembly 4, the mounting substrate 3 is fixedly connected with the outer end position of the filler pushing-out assembly 4, the mounting substrate 3 is provided with a pushing-out driving assembly 2 for driving the filler pushing-out assembly 4 to reciprocate axially, specifically, the pushing-out driving assembly 2 comprises a guide seat 202, a nut seat 208 and a driving motor 206, the two sides of the outer end of the storage cylinder body 1, which are far away from the discharging pipe 101, are respectively extended and fixed with the guide seat 202 and the nut seat 208, a guide rod 203 is inserted in a sliding fit manner by the guide seat 202, a screw 207 is inserted in a threaded fit manner by the nut seat 208, the guide rod 203 and the screw 207 are parallel to each other by the push rod 401, the end part of the guide rod 203, which is far away from the discharging pipe 101, is fixed on the end surface of the mounting substrate 3, which is close to the storage cylinder body 1, the end face of the mounting base plate 3 far away from the storage barrel body 1 is fixedly provided with a driving motor 206, a motor shaft 209 of the driving motor 206 penetrates through the mounting base plate 3 in a sliding fit mode, and the end part of the motor shaft 209 is fixedly connected with the end part of the screw 207 far away from the discharge pipe 101 through a coupler, so that the purpose of the arrangement is that firstly, the driving motor 206 drives the screw 207 to positively and negatively rotate in a mode to drive the push plate 403 to axially reciprocate along the inner periphery of the storage barrel body 1, then the push plate 403 and the sealing plate 404 are conveniently driven to extrude the caulking agent or inhale the caulking agent to supplement, meanwhile, as the sealing cover 102 is detachably and coaxially fixed at the end part of the storage barrel body 1, and then the sealing cover 102 is detached to open the end part of the storage barrel body 1, the pushing plate 403 and the sealing plate 404 can be close to the open end of the storage barrel body 1 by driving the pushing rod 401 to move through the pushing material driving assembly 2, so that the joint mixture attached in the storage barrel body 1 can be cleaned and pushed out.

Referring to fig. 1-3, the following optimization is performed on the storage cylinder body 1 and the filler push-out assembly 4, specifically to the storage cylinder body 1, the sealing cover 102 and the storage cylinder body 1 are coaxially and detachably connected in a threaded fit manner, so that the sealing cover 102 and the end part of the storage cylinder body 1 can be quickly combined and detached. Simultaneously, the discharging pipe 101 is a funnel-shaped straight pipe with a small outer end, so that the sealing agent discharged through the discharging pipe 101 is columnar and has a certain initial flow rate, and accordingly the sealing agent can smoothly enter a gap of a beam plate to perform sealing operation. Further alternatively, the handle 103 for facilitating holding is fixed to the bottom of the outer end of the storage barrel body 1 away from the discharging pipe 101 in a downward extending manner, and if the handle 103 is arranged, the storage barrel body 1 can be conveniently held for movement and the discharging pipe 101 can be aligned to the joint filling position.

And in particular to the filler pushing-out assembly 4, the sealing plate 404 is a circular rubber plate, and the periphery of the sealing plate 404 is in coaxial tensioning fit with the inner periphery of the storage barrel body 1, so that the sealing plate 404 can be in coaxial sealing fit with the inner wall of the storage barrel body 1 and can axially move along the storage barrel body 1, and then the filling agent can be smoothly pushed out of the storage barrel body 1 or sucked into the storage barrel body 1 to supplement the filling agent. Meanwhile, the axial length of the optional push rod 401 is not smaller than that of the storage cylinder body 1, so that the push rod 401 has enough length to enable the sealing plate 404 to smoothly extrude and clean the joint compound in the storage cylinder body 1, and further alternatively, the two connecting sleeves 402 are welded on the end faces of the mounting substrate 3 and the push plate 403 opposite to each other respectively, and the two ends of the push rod 401 are in coaxial interference fit with the similar connecting sleeves 402 respectively, so that the two ends of the push rod 401 can be connected with the mounting substrate 3 and the push plate 403 in a rapid combined manner through the connecting sleeves 402 respectively.

Referring to fig. 1-3, the pushing driving assembly 2 is optimized such that the end portions of the guide rod 203 and the screw rod 207, which are close to the discharging pipe 101, are coaxially fixed with the anti-drop cap 201, and when the anti-drop cap 201 contacts the nut seat 208 and the guide seat 202, the push plate 403 is not exposed to the end portion of the storage barrel body 1, so that the screw rod 207 and the nut seat 208 are firstly prevented from being accidentally separated from each other, and the guide rod 203 and the guide seat 202 are simultaneously prevented from being accidentally separated from each other, and because the end portion of the storage barrel body 1 is not exposed to the push plate 403 when the anti-drop cap 201 contacts the nut seat 208 and the guide seat 202, the situation that the sealing agent is accidentally leaked due to the fact that the push plate 403 and the sealing plate 404 are exposed from the end portion of the storage barrel body 1 is avoided. Further alternatively, the mounting substrate 3 is fixedly mounted on the end face, far away from the storage barrel body 1, of the power box 204, a control button 205 is arranged on the surface of the power box 204, the control button 205 and the driving motor 206 are electrically connected with the power box 204, the power box 204 is convenient to provide electric energy for the driving motor 206, and meanwhile, the driving motor 206 can be regulated and controlled in operation by the mode of arranging the control button 205.

By adopting the structure, particularly when the large-span beam plate gap is subjected to gap filling operation, after the discharge pipe 101 is aligned to the beam plate gap filling position, the push rod 401 of the filler push-out assembly 4 can drive the push plate 403 and the sealing plate 404 to move along the inner periphery of the storage cylinder body 1 in the axial moving mode of the storage cylinder body 1, then the push plate 403 and the sealing plate 404 can push out the gap filling agent in the storage cylinder body 1 in the mode of moving along the inner periphery of the storage cylinder body 1 to perform the gap filling operation in the mode of moving along the inner periphery of the storage cylinder body 1 to be close to the discharge pipe 101, and when the gap filling agent in the storage cylinder body 1 is completely extruded, the discharge pipe 101 is immersed into a container filled with the gap filling agent to be supplemented, and then the supplemented gap filling agent can be sucked into the storage cylinder body 1 through the push plate 403 and the sealing plate 404 in the mode of moving along the inner periphery of the storage cylinder body 1 to be far away from the discharge pipe 101 to complete the material supplementing, the extrusion and the supplementation of the caulking agent in the storage barrel body 1 are simple and easy to realize, the use requirement of frequent material supplementation due to longer caulking gap of a large-span beam plate is met, the caulking efficiency of the large-span beam plate is improved, the use of the pushing driving assembly 2 is facilitated, the driving motor 206 is powered by the power box 204, the pushing plate 403 can be driven to axially reciprocate along the inner periphery of the storage barrel body 1 in a way that the driving motor 206 of the filling driving assembly drives the screw 207 to positively and negatively rotate, the pushing plate 403 and the sealing plate 404 are conveniently driven to extrude the caulking agent for caulking or inhale the caulking agent for supplementation, the driving way of the filling pushing assembly 4 is simple and easy to realize, when the caulking operation is finished, because the sealing cover 102 is detachably and coaxially fixed at the end part of the storage barrel body 1, the axial length of the pushing rod 401 is not less than the axial length of the storage barrel body 1, and then, after the sealing cover 102 is detached to open the end part of the storage barrel body 1, the pushing plate 403 and the sealing plate 404 can be cleaned and pushed out by a mode that the pushing rod 401 is driven by the pushing driving assembly 2 to move so that the pushing plate 403 and the sealing plate 404 are close to the open end of the storage barrel body 1, so that the timely cleaning of the inside of the storage barrel body 1 after the sealing is finished is realized, and the influence of the adhesion and the drying of the sealing agent on the inner wall of the storage barrel body 1 on the subsequent reuse is avoided.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a large-span beam slab gap filling device, includes storage cylinder body (1), its characterized in that: the material storage barrel body (1) is a straight barrel with two open ends, a sealing cover (102) for sealing is coaxially and detachably fixed at one end of the material storage barrel body (1), and a discharging pipe (101) for discharging a gap filler is coaxially and fixedly communicated with the middle part of the sealing cover (102);

The packing pushing assembly (4) capable of axially sliding back and forth is coaxially and slidably connected to the inside of the other end of the storage cylinder body (1) and is used for extruding the caulking agent in the storage cylinder body (1) through the discharging pipe (101) or sucking the caulking agent to be supplemented through the discharging pipe (101);

The packing pushing device is characterized in that a mounting substrate (3) is arranged outside the end part of the storage cylinder body (1) close to the packing pushing assembly (4), the mounting substrate (3) is fixedly connected with the outer end position of the packing pushing assembly (4), and the mounting substrate (3) is provided with a pushing driving assembly (2) for driving the packing pushing assembly (4) to axially move in a reciprocating mode.

2. The large-span beam slab gap filling device according to claim 1, wherein: the sealing cover (102) and the storage cylinder body (1) are coaxially and detachably connected in a threaded fit mode, and the discharging pipe (101) is a funnel-shaped straight pipe with a small outer end.

3. The large-span beam slab gap filling device according to claim 1, wherein: the storage cylinder body (1) is far away from the bottom of the outer end of the discharge pipe (101), and a handle (103) which is convenient to hold is fixedly extended downwards.

4. A large span beam slab gap filling device according to any one of claims 1-3, wherein: the packing pushing assembly (4) comprises a pushing plate (403) and a pushing rod (401), the pushing plate (403) is located in a coaxial sliding fit mode, the storage barrel body (1) is away from the inner periphery of the end portion of the discharge pipe (101), the pushing plate (403) is close to the end face of the discharge pipe (101) and is coaxially fixed with a sealing plate (404), the sealing plate (404) is in coaxial sealing fit with the inner wall of the storage barrel body (1) and can axially move along the storage barrel body (1), the pushing plate (403) is away from the end face of the discharge pipe (101) and is coaxially fixed with the pushing rod (401) through a connecting sleeve (402), and the outer end of the pushing rod (401) is fixedly connected with the mounting substrate (3) through the connecting sleeve (402).

5. The large-span beam slab gap filling device according to claim 4, wherein: the sealing plate (404) is a round rubber plate, and the periphery of the sealing plate (404) is in coaxial tensioning fit with the inner periphery of the storage cylinder body (1).

6. The large-span beam slab gap filling device according to claim 5, wherein: the axial length of the push rod (401) is not smaller than that of the storage cylinder body (1), the two connecting sleeves (402) are welded on the end faces of the mounting substrate (3) and the push plate (403) opposite to each other respectively, and the two ends of the push rod (401) are in coaxial interference fit with the connecting sleeves (402) which are close to each other respectively.

7. A large span beam slab gap filling device according to claim 5 or 6, wherein: push away material drive assembly (2) including guide holder (202), nut seat (208) and driving motor (206), storage cylinder body (1) are kept away from the outer end both sides position of discharging pipe (101) is extended respectively and is fixed with guide holder (202) with nut seat (208), guide holder (202) slip fit's mode alternates has guide arm (203), nut seat (208) alternate with screw rod (207) with screw thread fit's mode, just guide arm (203) with screw rod (207) all with push rod (401) are parallel to each other, guide arm (203) keep away from the tip of discharging pipe (101) is fixed mounting substrate (3) is close to the terminal surface of storage cylinder body (1), mounting substrate (3) keep away from the terminal surface fixed mounting of storage cylinder body (1) has driving motor (206), motor shaft (209) of driving motor (206) pass with slip fit's mode and tip pass mounting substrate (3) and tip pass through the shaft coupling with the tip of discharging pipe (101) is kept away from.

8. The large-span beam slab gap filling device according to claim 7, wherein: the end parts of the guide rod (203) and the screw rod (207) close to the discharging pipe (101) are coaxially fixed with an anti-falling cap (201), and when the anti-falling cap (201) contacts the nut seat (208) and the guide seat (202), the end part of the storage cylinder body (1) is not exposed by the push plate (403).

9. The large-span beam slab gap filling device according to claim 8, wherein: the mounting substrate (3) is far away from the end face of the storage cylinder body (1) and fixedly provided with a power supply box (204), a control button (205) is arranged on the surface of the power supply box (204), and the control button (205) and the driving motor (206) are electrically connected with the power supply box (204).