CN112065050A - Outer wall heat preservation mortar tensile net construction equipment - Google Patents

Abstract

The invention discloses construction equipment for an external wall heat-insulating mortar tensile net, which comprises a wall surface, wherein a crane is arranged on the right side of the wall surface, a transmission cavity is formed in the crane, two power mechanisms are arranged in the transmission cavity in a bilateral symmetry mode, and each power mechanism comprises a lower rotating shaft which is rotatably connected with the inner wall on the rear side of the transmission cavity. The invention has the advantages of low cost, simple structure, high automation degree and suitability for large-area popularization.

Description

Outer wall heat preservation mortar tensile net construction equipment

Technical Field

The invention relates to the related field of building construction, in particular to external wall thermal insulation mortar tensile net construction equipment.

Background

Along with the rapid development of economy, people have higher and higher requirements on life quality, more and more people begin to lay heat insulation mortar on the outer wall, a layer of tensile net is often laid between the heat insulation mortar and the outer wall, the tensile net and the heat insulation mortar are traditionally laid and are often laid on a suspension frame which is manually stood on the outer side of the outer wall, in the process, the suspension frame needs to be continuously lowered to facilitate the operation of workers, the life safety of the workers is seriously harmed, the efficiency is extremely low, the tensile net needs to be continuously flattened manually, the construction quality is often poor, and therefore, the continuous research on how to efficiently and quickly lay the tensile net and the mortar on the outer wall is not needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing the construction equipment for the tensile net of the external wall thermal insulation mortar, which overcomes the defects of high risk, low efficiency, poor construction quality and the like of the traditional manual construction of the tensile net of the external wall thermal insulation mortar.

The invention is realized by the following technical scheme.

The invention relates to construction equipment for an external wall heat-preservation mortar tensile net, which comprises a wall surface, wherein a crane is arranged on the right side of the wall surface, a transmission cavity is formed in the crane, two power mechanisms are arranged in the transmission cavity, the two power mechanisms are bilaterally symmetrical, each power mechanism comprises a lower rotating shaft which is rotatably connected with the inner wall of the rear side of the transmission cavity, a lower driving wheel and a cloth net wheel are fixedly arranged at the front end of each lower rotating shaft, an anti-pulling net is wound on the outer side of the cloth net wheel, the upper end of the anti-pulling net is fixedly connected with the upper end of the wall surface, a lower driving belt is connected outside the lower driving wheels in a friction mode, a middle driving wheel is connected to the upper side of the lower driving belt in a friction mode, the middle driving wheel is fixedly connected with a middle driving; the upper side of the power mechanism is provided with a recovery mechanism, the recovery mechanism comprises a recovery wheel fixedly connected with the front end of the middle transmission shaft, the front end of the recovery wheel is fixedly provided with a recovery shaft, the recovery shaft is rotatably connected with a sliding chute rod, a swinging sliding chute is arranged in the sliding chute rod and is slidably connected with a swinging sliding block, the rear end of the swinging sliding block is rotatably connected with the crane, the sliding chute rod is rotatably and fixedly provided with a sliding cylinder, the sliding cylinder is internally provided with a recovery sliding chute, the recovery sliding chute is slidably provided with a recovery sliding block, the lower end of the recovery sliding block is fixedly provided with a recovery scraper blade, the upper end of the recovery sliding block is fixedly provided with a recovery pressure spring, the upper end of the recovery pressure spring is fixedly connected with the inner wall of the upper side of the recovery sliding chute, the lower end of the recovery scraper blade is contacted with a turnover plate, the right end of, the recycling cavity is arranged in the crane, a middle driving wheel is arranged outside the turnover shaft, the left end of the turnover plate is in contact with the anti-pulling net and the wall surface, the rear end of the turnover plate is fixedly connected with the front end of the middle driving wheel, the rear end of the middle driving wheel is fixedly connected with the front end of the crane, and the recycling mechanism is used for the upper end surface of the turnover plate for kissing moth; the utility model discloses a crane, including crane, power unit, push rod, reset chute, power unit left side is equipped with cuts the mechanism, cut the mechanism including seting up in the inside spout that cuts of crane, it is equipped with the sword that cuts to cut the inside slip of spout, it is equipped with the sword that cuts to cut the fixed push rod that is equipped with of sword lower extreme, the fixed promotion slider that is equipped with of push rod lower extreme, the push rod lower extreme is fixed and is equipped with the promotion slider, promote the slider and reset chute sliding connection, the spout that resets is seted up in inside the crane, it is equipped with the depression bar to promote the slider lower extreme is fixed, promote the fixed pressure spring that is equipped with in.

Preferably, the recycling wheel outside friction is connected with the transmission belt, go up transmission belt upper end friction connection and have last drive wheel, go up drive wheel and last axis of rotation fixed connection, go up the axis of rotation slip with transmission chamber rear side inner wall rotates the connection, the fixed dish that vibrates that is equipped with of last axis of rotation front end, the dish front end that vibrates rotates and is equipped with the axle that vibrates, the axle that vibrates with vibrate the connecting rod right-hand member and rotate and be connected, the connecting rod that vibrates rotates and vibrate the pole articulated, vibrate the pole and vibrate spout sliding connection, the spout that vibrates is seted up inside the crane, the spout that vibrates runs through transmission chamber left side inner wall communicates with each other with the external world, the pole that vibrates rotates the fixed piece that vibrates that is equipped with, the piece that vibrates be used for the mortar that flattens with anti-trompil.

Preferably, the fixed rope piece that is equipped with in transmission chamber upper end, the fixed haulage rope that is equipped with in rope piece upper end, the haulage rope with from driving wheel frictional connection, rotate with the removal base upper end from the driving wheel and be connected, it is equipped with traction motor to remove the inside embedding of base, traction motor control has the traction motor shaft, the fixed traction wheel that is equipped with in traction motor shaft front end, the winding of traction wheel outside has the haulage rope, it removes the fixed removal slider that is equipped with of base lower extreme to remove, remove slider and removal spout sliding connection, it locates inside the unable adjustment base to remove the spout.

Preferably, a mortar pool is arranged inside the fixing base, a mortar pump is fixedly arranged at the upper end of the inner wall of the lower side of the mortar pool, a feeding pipe is fixedly arranged at the upper end of the mortar pump and used for feeding the inner part of the feeding cavity, the material cavity is arranged inside the crane, a mortar spraying pump is fixedly arranged at the right end of the inner wall of the left side of the material cavity and used for pumping out mortar in the material cavity, a nozzle is fixedly arranged at the left end of the crane and used for spraying out mortar.

Preferably, the feeding pipe is made of flexible materials, the feeding pipe can be freely extended and bent, the left lower end of the crane is rotatably provided with a roller, and the roller is used for rolling in contact with the wall surface.

The invention has the beneficial effects that: the invention can lay the tensile net and lay mortar on the outer wall in a mechanical matching mode, has obvious effects of improving laying efficiency and saving manpower, is provided with the power mechanism part, can convert gravity into power, is energy-saving and environment-friendly, can recycle redundant mortar, saves materials, keeps clean environment, cuts the mechanism part, can cut the tensile net, and is convenient to further lay the tensile net. The invention has the advantages of low cost, simple structure, high automation degree and suitability for large-area popularization.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention in the direction of A-A in FIG. 1;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction of C-C in FIG. 2;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 5 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The construction equipment for the tensile net of the thermal insulation mortar of the external wall comprises a wall surface 10, wherein a crane 47 is arranged on the right side of the wall surface 10, a transmission cavity 46 is formed in the crane 47, two power mechanisms 65 are arranged in the transmission cavity 46, the power mechanisms 65 are bilaterally symmetrical, each power mechanism 65 comprises a lower rotating shaft 34 rotatably connected with the inner wall of the rear side of the transmission cavity 46, a lower driving wheel 33 and a net distributing wheel 35 are fixedly arranged at the front end of the lower rotating shaft 34, an anti-pulling net 36 is wound on the outer side of the net distributing wheel 35, the upper end of the anti-pulling net 36 is fixedly connected with the upper end of the wall surface 10, a lower driving belt 32 is externally and frictionally connected with the lower driving wheel 33, a middle driving wheel 64 is frictionally connected with the upper side of the lower driving belt 32, the middle driving wheel 64 is fixedly connected with a middle driving shaft 63, the rear end of the, the power mechanism 65 is configured to drive the middle driving wheel 64 to rotate, when in use, the anti-pull net 36 is unfolded at the outer side of the cloth net wheel 35, the anti-pull net 36 drives the cloth net wheel 35 to rotate, the cloth net wheel 35 drives the lower driving wheel 33 to rotate through the lower rotating shaft 34, and the lower driving wheel 33 drives the middle driving wheel 64 to rotate through the lower driving belt 32; the upper side of the power mechanism 65 is provided with a recovery mechanism 66, the recovery mechanism 66 comprises a recovery wheel 62 fixedly connected with the front end of the middle transmission shaft 63, the front end of the recovery wheel 62 is fixedly provided with a recovery shaft 61, the recovery shaft 61 is rotatably connected with a chute rod 58, a swing chute 59 is arranged in the chute rod 58, the swing chute 59 is slidably connected with a swing slider 60, the rear end of the swing slider 60 is rotatably connected with the crane 47, the chute rod 58 is rotatably and fixedly provided with a slide cylinder 53, a recovery chute 54 is arranged in the slide cylinder 53, a recovery slider 56 is slidably arranged in the recovery chute 54, the lower end of the recovery slider 56 is fixedly provided with a recovery scraper 57, the upper end of the recovery slider 56 is fixedly provided with a recovery pressure spring 55, the upper end of the recovery pressure spring 55 is fixedly connected with the inner wall on the upper side of the recovery chute 54, and the lower end of the recovery scraper, the right end of the turning plate 52 is rotatably provided with a turning shaft 51, the rear end of the turning shaft 51 is fixedly connected with the inner wall of the rear side of the recovery cavity 50, the recovery cavity 50 is arranged in the crane 47, the outer side of the turning shaft 51 is provided with a middle driving wheel 64, the left end of the turning plate 52 is in contact with the tensile net 36 and the wall surface 10, the rear end of the turning plate 52 is fixedly connected with the front end of the middle driving wheel 64, the rear end of the middle driving wheel 64 is fixedly connected with the front end of the crane 47, the recovery mechanism 66 is used for the upper end surface of the turning plate 52 of Qie's elder, when in use, the middle driving wheel 64 drives the recovery wheel 62 to rotate through the middle driving shaft 63, the recovery wheel 62 drives the chute rod 58 to swing around the swing sliding block 60 through the recovery shaft 61, the swing sliding block 60 slides in the swing chute 59, the chute rod 58 drives the scraper 57 at the upper end of the recovery plate 52 to scrape the turnover plate 52 through the sliding cylinder The recovery pressure spring 55 is continuously compressed and then reset in the process, the turnover plate 52 is tightly attached to the tensile net 36 to move downwards, and the mortar at the upper end of the turnover plate 52 is scraped into the recovery cavity 50; the left side of the power mechanism 65 is provided with a cutting mechanism 67, the cutting mechanism 67 comprises a cutting chute 39 arranged inside the crane 47, the cutting chute 39 is internally provided with a cutting knife 38 in a sliding manner, the lower end of the cutting knife 38 is fixedly provided with a push rod 40, the lower end of the push rod 40 is fixedly provided with a push slider 42, the push slider 42 is in sliding connection with a reset chute 68, the reset chute 68 is arranged inside the crane 47, the lower end of the push slider 42 is fixedly provided with a press rod 43, the upper end of the push slider 42 is fixedly provided with a pressure spring 41, the upper end of the pressure spring 41 is fixedly connected with the inner wall on the upper side of the reset chute 68, the upper side of the cutting knife 38 is provided with a cutting cushion block 37, the right end of the cutting cushion block 37 is fixedly connected with the crane 47 in a rotating manner, the cutting mechanism 67 is used for cutting, the depression bar 43 contacts and compresses tightly ground, depression bar 43 drives promote slider 42 rebound, it is in to promote slider 42 reset the inside lapse of spout 68, it makes to promote slider 42 the compression spring 41 compression, it passes through to promote slider 42 the push rod 40 drives cut the sword 38 and be in cut the inside slip of spout 39, cut the sword 38 and upwards move the contact and compress tightly tensile net 36, cut the sword 38 with cut the cooperation of cushion 37 and cut off tensile net 36.

Advantageously, an upper driving belt 31 is frictionally connected to the outside of the recovery wheel 62, an upper driving wheel 45 is frictionally connected to the upper end of the upper driving belt 31, the upper driving wheel 45 is fixedly connected with the upper rotating shaft 30, the upper rotating shaft 30 is connected with the inner wall of the rear side of the driving cavity 46 in a sliding manner, the front end of the upper rotating shaft 30 is fixedly provided with a vibrating disc 29, the front end of the vibrating disc 29 is rotatably provided with a vibrating shaft 28, the vibrating shaft 28 is rotatably connected with the right end of the vibrating connecting rod 27, the vibrating connecting rod 27 is rotatably hinged with the vibrating rod 25, the vibrating rod 25 is connected with a vibrating chute 26 in a sliding manner, the vibrating chute 26 is arranged in the crane 47, the vibrating chute 26 penetrates through the inner wall of the left side of the transmission cavity 46 to be communicated with the outside, the vibrating rod 25 is fixedly provided with a vibrating block 24 in a rotating mode, and the vibrating block 24 is used for vibrating and flattening mortar and the tensile net 36.

Beneficially, the rope block 23 is fixedly arranged at the upper end of the transmission cavity 46, the traction rope 21 is fixedly arranged at the upper end of the rope block 23, the traction rope 21 is in friction connection with the driven wheel 22, the driven wheel 22 is in rotary connection with the upper end of the movable base 17, the traction motor 18 is embedded in the movable base 17, the traction motor 18 is controlled by the traction motor shaft 19, the traction wheel 20 is fixedly arranged at the front end of the traction motor shaft 19, the traction rope 21 is wound on the outer side of the traction wheel 20, the movable slider 16 is fixedly arranged at the lower end of the movable base 17, the movable slider 16 is in sliding connection with the movable chute 15, and the movable chute 15 is arranged in the fixed base 11.

Beneficially, a mortar pool 12 is arranged inside the fixing base 11, a mortar pump 13 is fixedly arranged at the upper end of the inner wall of the lower side of the mortar pool 12, a feeding pipe 14 is fixedly arranged at the upper end of the mortar pump 13, the feeding pipe 14 is used for feeding materials inside a feeding cavity 69, the feeding cavity 69 is arranged inside the crane 47, a mortar spraying pump 48 is fixedly arranged at the right end of the inner wall of the left side of the feeding cavity 69, the mortar spraying pump 48 is used for pumping out mortar inside the feeding cavity 69, a nozzle 49 is fixedly arranged at the left end of the crane 47, and the nozzle 49 is used for spraying mortar.

Advantageously, the feeding pipe 14 is made of flexible material, the feeding pipe 14 can be freely extended and bent, and the left lower end of the crane 47 is rotatably provided with a roller 44, and the roller 44 is used for contacting and rolling with the wall surface 10.

Initial state: the compression spring 41 and the middle transmission wheel 64 are in a normal state, and the recovery compression spring 55 is in a compressed state.

The using method comprises the following steps: when the tension-resistant net 36 and the mortar are required to be laid on the right end face of the wall surface 10, the mortar pump 13 pumps the mortar in the mortar pool 12 to the inside of the material cavity 69 through the feeding pipe 14, the mortar pump 48 sprays the mortar in the material cavity 69 to the right end of the tension-resistant net 36 through the nozzle 49, and the mortar pumping is completed; after the mortar is pumped out, the traction motor 18 controls the traction motor shaft 19 to rotate, the traction motor shaft 19 drives the traction wheel 20 to rotate, the traction rope 21 is unfolded outside the traction wheel 20, the traction rope 21 drives the driven wheel 22 to rotate, the traction rope 21 releases the crane 47 through the rope block 23 to move downwards under the action of gravity, the roller 44 is in contact with and rolls on the right end face of the wall surface 10, the tensile net 36 is unfolded outside the cloth net wheel 35, the tensile net 36 drives the cloth net wheel 35 to rotate, the cloth net wheel 35 drives the lower driving wheel 33 to rotate through the lower rotating shaft 34, the lower driving wheel 33 drives the middle driving wheel 64 to rotate through the lower driving belt 32, the middle driving wheel 64 drives the recovery wheel 62 to rotate through the middle driving shaft 63, the recovery wheel 62 drives the chute rod 58 to swing around the swing sliding block 60 through the recovery shaft 61, the swing sliding block 60 slides inside the swing chute 59, the chute rod 58 drives the recovery scraper 57 through the sliding cylinder 53, the recovery pressure spring 55 is reset after being continuously compressed in the process, the turnover plate 52 is tightly attached to the tensile net 36 to move downwards, mortar at the upper end of the turnover plate 52 is scraped into the recovery cavity 50, and the mortar is recovered; after the mortar is recycled, the recycling wheel 62 is in friction transmission with the upper transmission belt 31, the upper transmission belt 31 is in friction transmission with the upper transmission wheel 45, the upper transmission wheel 45 drives the vibrating disc 29 to rotate through the upper rotating shaft 30, the vibrating disc 29 drives the vibrating rod 25 to slide in a reciprocating manner in the vibrating chute 26 through the vibrating shaft 28 and the vibrating connecting rod 27, and the vibrating chute 26 drives the vibrating block 24 to move in a reciprocating manner to vibrate the left mortar; when the crane 47 moves downwards to approach the ground, the pressure rod 43 contacts and presses the ground, the pressure rod 43 drives the pushing slide block 42 to move upwards, the pushing slide block 42 slides upwards in the resetting slide groove 68, the pushing slide block 42 compresses the pressure spring 41, the pushing slide block 42 drives the cutting knife 38 to slide in the cutting slide groove 39 through the push rod 40, the cutting knife 38 moves upwards to contact and press the tensile net 36, the cutting knife 38 is matched with the cutting cushion block 37 to cut off the tensile net 36, and the laying of the tensile net 36 and mortar is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an outer wall insulation mortar tensile net construction equipment, includes the wall, its characterized in that: the wall surface is provided with a crane on the right side, a transmission cavity is formed in the crane, two power mechanisms are arranged in the transmission cavity, the two power mechanisms are bilaterally symmetrical, each power mechanism comprises a lower rotating shaft rotatably connected with the inner wall on the rear side of the transmission cavity, a lower driving wheel and a cloth net wheel are fixedly arranged at the front end of the lower rotating shaft, a tensile net is wound on the outer side of the cloth net wheel, the upper end of the tensile net is fixedly connected with the upper end of the wall surface, a lower driving belt is connected to the outer side of the lower driving wheel in a friction mode, a middle driving wheel is connected to the upper side of the lower driving belt in a friction mode, the middle driving wheel is fixedly connected with a middle driving shaft, the rear end of the middle driving; the upper side of the power mechanism is provided with a recovery mechanism, the recovery mechanism comprises a recovery wheel fixedly connected with the front end of the middle transmission shaft, the front end of the recovery wheel is fixedly provided with a recovery shaft, the recovery shaft is rotatably connected with a sliding chute rod, a swinging sliding chute is arranged in the sliding chute rod and is slidably connected with a swinging sliding block, the rear end of the swinging sliding block is rotatably connected with the crane, the sliding chute rod is rotatably and fixedly provided with a sliding cylinder, the sliding cylinder is internally provided with a recovery sliding chute, the recovery sliding chute is slidably provided with a recovery sliding block, the lower end of the recovery sliding block is fixedly provided with a recovery scraper blade, the upper end of the recovery sliding block is fixedly provided with a recovery pressure spring, the upper end of the recovery pressure spring is fixedly connected with the inner wall of the upper side of the recovery sliding chute, the lower end of the recovery scraper blade is contacted with a turnover plate, the right end of, the recycling cavity is arranged in the crane, a middle driving wheel is arranged outside the turnover shaft, the left end of the turnover plate is in contact with the anti-pulling net and the wall surface, the rear end of the turnover plate is fixedly connected with the front end of the middle driving wheel, the rear end of the middle driving wheel is fixedly connected with the front end of the crane, and the recycling mechanism is used for the upper end surface of the turnover plate for kissing moth; the utility model discloses a crane, including crane, power unit, push rod, reset chute, power unit left side is equipped with cuts the mechanism, cut the mechanism including seting up in the inside spout that cuts of crane, it is equipped with the sword that cuts to cut the inside slip of spout, it is equipped with the sword that cuts to cut the fixed push rod that is equipped with of sword lower extreme, the fixed promotion slider that is equipped with of push rod lower extreme, the push rod lower extreme is fixed and is equipped with the promotion slider, promote the slider and reset chute sliding connection, the spout that resets is seted up in inside the crane, it is equipped with the depression bar to promote the slider lower extreme is fixed, promote the fixed pressure spring that is equipped with in.

2. The construction equipment for the tensile net of the external wall thermal insulation mortar of claim 1, which is characterized in that: the recovery wheel outside friction is connected with the transmission area, go up transmission area upper end friction connection and have last drive wheel, go up drive wheel and last axis of rotation fixed connection, go up the axis of rotation slip with transmission chamber rear side inner wall rotates the connection, it is fixed with the dish of vibrating to go up the axis of rotation front end, the dish front end that vibrates rotates and is equipped with the axle that vibrates, the axle that vibrates with vibrate the connecting rod right-hand member and rotate and be connected, the connecting rod that vibrates rotates and is articulated with the pole that vibrates, the pole that vibrates with spout sliding connection that vibrates, the spout that vibrates is seted up in inside the crane, the spout that vibrates runs through transmission chamber left side inner wall communicates with each other with the external world, the pole that vibrates rotates the fixed piece that vibrates that is equipped with, the piece that vibrates be used for the mortar that vibrates and the anti-tension net.

3. The construction equipment for the tensile net of the external wall thermal insulation mortar of claim 1, which is characterized in that: the fixed rope piece that is equipped with in transmission chamber upper end, the fixed haulage rope that is equipped with in rope piece upper end, the haulage rope with from driving wheel friction connection, rotate with the removal base upper end from the driving wheel and be connected, the inside traction motor that inlays of removal base is equipped with, traction motor control has the traction motor shaft, the fixed traction wheel that is equipped with in traction motor shaft front end, the winding of the traction wheel outside has the haulage rope, the fixed removal slider that is equipped with of removal base lower extreme, remove slider and removal spout sliding connection, it locates inside the unable adjustment base to remove the spout.

4. The construction equipment for the tensile net of the external wall thermal insulation mortar of claim 1, which is characterized in that: the mortar pond has been seted up to unable adjustment base inside, the fixed mortar pump that is equipped with in mortar pond downside inner wall upper end, the fixed conveying pipe that is equipped with in mortar pump upper end, the conveying pipe is used for the inside pay-off of feed cavity, the material chamber is seted up in inside the crane, the fixed mortar pump that is equipped with of material chamber left side inner wall right-hand member, the mortar pump is used for pumping out the inside mortar of material chamber, the fixed nozzle that is equipped with in crane left end, the nozzle is used for the blowout mortar.

5. The construction equipment for the tensile net of the external wall thermal insulation mortar of claim 4, which is characterized in that: the feeding pipe is made of flexible materials and can be freely extended and bent, the left lower end of the crane is rotatably provided with a roller, and the roller is used for rolling in contact with the wall surface.

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