CN114809657B - Assembled building material splicing device - Google Patents

Abstract

The invention discloses an assembled building material splicing device, which relates to the field of building material construction equipment, and comprises a movable base, wherein a glue injection device is arranged on the movable base, climbing wheels are arranged at four corners of the movable base, a glue guiding device is arranged at the bottom of the glue injection device, sealing glue can be injected into the glue guiding device and coated on a splicing position of building materials by the glue guiding device, a sealing glue processing mechanism is further arranged in the middle of the glue guiding device and used for helping the sealing glue to be uniformly coated and grooved in the coated sealing glue, and a glue solution collecting mechanism is further arranged on the side face of the glue guiding device; the inner side of the trowelling deflector rod is provided with the hollow ball head, so that the coated redundant sealant can be collected into the hollow part and then is collected by the sealant collecting box, and waste is avoided.

Description

Assembled building material splicing device

Technical Field

The invention relates to the field of building material construction equipment, in particular to an assembled building material splicing device.

Background

Compared with the traditional building technology, the fabricated building is representative of a modern industrial production mode because of adopting standardized design, industrial production, fabricated construction, information management and intelligent application, and meets the requirements of green buildings better.

In the installation process of the assembled building, a plurality of plates are often required to be connected and fixed in a welding mode, a bolt connection mode and the like, but gaps exist among the plates after connection, water leakage and the like are inevitably caused if the plates are not treated, generally, sealant is filled in the gaps, and the gaps are covered by other decoration means after the plates are solidified, but creep of the gaps is caused due to alternate cooling and heating and expansion and contraction in the later period, namely, the gaps can not be completely sealed by the originally filled sealant, and the quality of the building is further affected.

Disclosure of Invention

The invention aims to provide an assembled building material splicing device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an assembled building material splicing apparatus, includes the removal base, be equipped with the injecting glue device on the removal base, be equipped with the climbing wheel on the four corners of removal base, the bottom of injecting glue device is equipped with draws the mucilage binding and puts, the injecting glue device can be with the sealing glue injection draw in the mucilage binding put and by drawing the concatenation department that the mucilage binding was put to building material, the intermediate position of drawing the mucilage binding put still is equipped with sealing gum processing mechanism, sealing gum processing mechanism is used for helping sealing gum coating even and in the sealed rubberizing of coating fluting, the side of drawing the mucilage binding is put still equipped with glue solution collection mechanism.

Preferably, the bottom climbing wheel of the movable base is self-locking, and a handle is further arranged at the end part of the movable base.

Preferably, the glue injection device comprises a glue bin and an electric push rod I, the glue bin is of a hollow structure, a glue guiding hole is formed in the opening of the glue bin, the side faces of the glue bin and the electric push rod I are fixed on the movable base through fixing blocks, an output shaft of the electric push rod I is connected to a pressing plate, the pressing plate is slidably mounted in the glue bin, and a guide pad with a guiding function is arranged at the opening of the glue guiding hole.

Preferably, the glue guiding device comprises a first glue guiding plate and a second glue guiding plate, the first glue guiding plate is fixed below the glue solution bin, a first glue guiding groove is formed in the first glue guiding plate, the first glue guiding groove is opposite to the glue guiding hole, a second glue guiding groove is formed in the second glue guiding plate, and the second glue guiding plate is fixed at the mouth of the glue solution collecting mechanism.

Preferably, the sealant treatment mechanism comprises two symmetrically arranged clamping discs, a driving disc, a rotating shaft, a power motor structure and a treatment assembly, wherein the clamping discs and the driving disc are both fixed on the rotating shaft, the outer side end of the rotating shaft is arranged in a bearing seat, the rotating shaft provides power through the power motor structure, and an inclined plate is further arranged on the side surface of the clamping disc;

the power motor structure comprises a motor and a belt pulley set, wherein the motor is arranged on the movable base through a fixed seat, one end of the belt pulley set is connected to an output shaft of the motor, and the other end of the belt pulley set is connected to a rotating shaft;

the processing assembly is arranged in the driving disc, the structure of the processing assembly comprises a trowelling deflector rod, a grooving deflector rod, a spring and a ball head ejector rod, the trowelling deflector rod and the grooving deflector rod are all slidably arranged in the driving disc, the trowelling deflector rod and the grooving deflector rod are arranged at intervals one by one, the spring is arranged at the bottoms of the trowelling deflector rod and the grooving deflector rod, and the ball head ejector rod is slidably arranged in the trowelling deflector rod and the bottom of the ball head ejector rod is fixed on the driving disc.

Preferably, the head of the trowelling deflector rod is a 3/4 hollow ball head, the head of the grooving deflector rod is provided with a grooving cutter with uniform gradient transition, and the outer diameter of the ball head ejector rod is smaller than the hollow ball head of the trowelling deflector rod head.

Preferably, the back of the inclined plate is connected to the side surface of the fixed block through a connecting plate, a glue collecting box is arranged below the inclined plate, and the glue collecting box is communicated with the glue guiding plate II.

Preferably, the glue solution collecting mechanism comprises a collecting bin and an electric push rod II, wherein a collecting hole is formed in the position, opposite to the glue guiding groove II, of the collecting bin, and an output shaft of the electric push rod II is connected to the back of the collecting bin.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can realize the purpose of uniformly coating the sealant at the spliced part of the building board, and can also be troweled by a troweling deflector rod after coating;

2. the inner side of the trowelling deflector rod is provided with the hollow ball head, so that the coated excessive sealant can be collected into the hollow part and then is collected by the sealant collecting box, and waste is avoided;

3. the grooving deflector rod provided by the invention can mark a blank groove on the screeding sealant after the screeding deflector rod screeds, and then the blank groove is reserved in the sealant by using the sealant to coat, so that a space is reserved for thermal expansion and cold contraction of the plate, and the quality of the sealant is prevented from being influenced by the creep plate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the glue injection device, the glue guiding device and the glue collecting mechanism of the invention;

FIG. 3 is a schematic cross-sectional view of FIG. 2;

FIG. 4 is a schematic view of the structure of J in FIG. 3;

FIG. 5 is a schematic view of a sealant processing mechanism according to the present invention;

FIG. 6 is an exploded view of the processing assembly;

fig. 7 is an enlarged view of the structure at G in fig. 6.

In the figure: 1-moving a base; 11-a handle;

2-a glue injection device; 21-a glue solution bin; 22-electric push rod I; 24-a glue guiding hole; 25-fixing blocks; 26-pressing plate; 28-a guide pad;

3-climbing wheels;

4-a glue guiding device; 41-a first glue guiding plate; 42-a second glue guiding plate; 43-a first glue guiding groove; the method comprises the steps of carrying out a first treatment on the surface of the 44-a second glue guiding groove; 45-glue amount control board;

5-a sealant treatment mechanism; 51-clamping the disc; 52-driving a disc; 53-a rotating shaft;

55-power motor structure; 551-motor; 552-pulley sets;

56-a processing assembly; 561-trowelling lever; 562-a grooved deflector rod; 563-spring; 564-ball head ejector rod;

57-bearing seats; 58-inclined plate; 59-connecting plates;

6-a glue solution collecting mechanism; 61-collecting bin; 62-second electric push rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides an assembled building material splicing apparatus, includes removes base 1, remove and be equipped with injecting glue device 2 on the base 1, be equipped with climbing wheel 3 on the four corners of removing base 1, the bottom of injecting glue device 2 is equipped with guiding glue device 4, injecting glue device 2 can pour into guiding glue device 4 in and by guiding glue device 4 coating to building material's concatenation department, guiding glue device 4's intermediate position still is equipped with sealing glue processing mechanism 5, sealing glue processing mechanism 5 is used for helping sealing glue coating even and in the sealed glue of coating fluting, guiding glue device 4's side still is equipped with glue solution collection mechanism 6.

In this embodiment, the bottom climbing wheel 3 of moving base 1 is from locking-type, the tip of moving base 1 still is equipped with handle 11, and climbing wheel 3 can be lighter cross debris on the building material or rib that exceeds, and the self-locking truckle can avoid moving base 1 unexpected removal.

In this embodiment, the glue injection device 2 includes a glue bin 21 and an electric push rod 22, the glue bin 21 is of a hollow structure, a glue guiding hole 24 is formed in the opening of the glue bin 21, the side surfaces of the glue bin 21 and the electric push rod 22 are fixed on the movable base 1 through a fixing block 25, an output shaft of the electric push rod 22 is connected to a pressing plate 26, the pressing plate 26 is slidably mounted in the glue bin 21, a guiding pad 28 with guiding function is arranged in the opening of the glue guiding hole 24, the pressing plate 26 is driven by the electric push rod 22 to uniformly press down, sealing glue in the glue bin 21 is extruded and uniformly smeared on a gap, the guiding pad 28 can guide the glue to be discharged from the narrow glue guiding hole 24, the glue discharging amount each time is reduced, and the glue discharging amount is easier to control.

In this embodiment, the glue guiding device 4 includes a first glue guiding plate 41 and a second glue guiding plate 42, the first glue guiding plate 41 is fixed below the glue bin 21, the first glue guiding plate 41 is provided with a first glue guiding groove 43, the first glue guiding groove 43 is opposite to the glue guiding hole 24, the second glue guiding plate 42 is provided with a second glue guiding groove 44, the second glue guiding plate 42 is fixed at the mouth of the glue collecting mechanism 6, glue pressed down by the pressing plate 26 is first converged at the junction of the first glue guiding plate 41 and the second glue guiding plate 42 through the drainage function of the first glue guiding groove 43, a glue amount control plate 45 is further arranged at the junction of the second glue guiding plate 42, after the pressed sealing glue exceeds the height of the glue amount control plate 45, the sealing glue flows onto the second glue guiding plate 42, and the second glue guiding groove 44 on the second glue guiding plate 42 is guided into the glue collecting mechanism 6.

In this embodiment, the sealant treatment mechanism 5 includes two symmetrically disposed clamping discs 51, a driving disc 52, a rotating shaft 53, a power motor structure 55 and a treatment assembly 56, where the clamping discs 51 and the driving disc 52 are both fixed on the rotating shaft 53, the outer end of the rotating shaft 53 is installed in a bearing seat 57, the rotating shaft 53 provides power through the power motor structure 55, and an inclined plate 58 is further disposed on the side surface of the clamping disc 51;

the power motor structure 55 comprises a motor 551 and a belt pulley set 552, the motor 551 is arranged on the movable base 1 through a fixed seat, one end of the belt pulley set 552 is connected to an output shaft of the motor 551, and the other end is connected to the rotating shaft 53;

the processing component 56 is installed in the driving disc 52, the structure of the processing component comprises a trowelling deflector rod 561, a notch deflector rod 562, a spring 563 and a ball head ejector rod 564, the trowelling deflector rod 561 and the notch deflector rod 562 are both slidably installed in the driving disc 52, the trowelling deflector rod 561 and the notch deflector rod 562 are arranged at intervals one by one, the spring 563 is installed at the bottoms of the trowelling deflector rod 561 and the notch deflector rod 562, and the ball head ejector rod 564 is slidably installed in the trowelling deflector rod 561 and the bottom of the ball head ejector rod 564 is fixed on the driving disc 52.

In this embodiment, the head of the trowelling lever 561 is a 3/4 hollow ball, the head of the grooved lever 562 is provided with a grooved knife with uniform slope transition, and the outer diameter of the ball head push rod 564 is smaller than the hollow ball of the head of the trowelling lever 561.

In this embodiment, the back of the inclined plate 58 is connected to the side of the fixed block 25 by a connecting plate 59, and a glue collecting box 510 is disposed below the inclined plate 58, and the glue collecting box 510 is communicated with the second glue guiding plate 42.

The coated sealant is firstly screeded by the screeding poking rod 561 in rotation through the hollow ball head part, meanwhile, redundant glue solution is collected in the hollow ball head, then the groove poking rod 562 which is arranged at intervals cuts empty grooves on the screeding glue surface, the whole device is pushed forward manually to move forward, the coated sealant is screeded while a whole empty groove is cut, the sealant which is temporarily collected in the hollow ball head part is propped against the inclined plate 58 along with rotation, the inclined plate 58 is provided with an empty groove for the groove poking rod 562 to run along with rotation of the screeding poking rod 561, the screeding poking rod 561 is pressed down by the inclined plate 58 along with rotation of the screeding poking rod 561, and the ball head part of the ball head poking rod is extended into the hollow ball head of the screeding poking rod 561 along with downward movement of the screeding poking rod 561, the sealant solution is discharged through the hollow ball head at the position, and is thrown into the glue collecting box 510 under the action of centrifugal force, and glue solution recovery is completed.

In this embodiment, the glue collecting mechanism 6 includes a collecting bin 61 and a second electric push rod 62, where the collecting bin 61 is opposite to the second glue guiding slot 44, and an output shaft of the second electric push rod 62 is connected to the back of the collecting bin 61.

Working principle: when the sealing device is used, firstly, the height of the sealing glue processing mechanism 5 is adjusted to enable the trowelling deflector rod 561 and the grooving deflector rod 562 to touch the splicing part when the sealing device rotates to the lowest point, then the sealing device 2 positioned at the end far away from the handle 11 is firstly pressed down to coat sealing glue at the splicing part, then the whole device is pushed, firstly, the coated sealing glue can be firstly trowelled by the trowelling deflector rod 561 in rotation through the hollow ball head part of the sealing device, meanwhile, redundant glue is collected in the hollow ball head, then the groove deflector rod 562 which is arranged at intervals can scratch empty grooves on the surface of the trowelling glue, the whole device is pushed forward along with manual pushing, the coated sealing glue can scratch one side of the hollow ball head part along with rotation, the sealing glue temporarily collected to the hollow ball head part is pressed down on the inclined plate 58 along with rotation of the inclined plate 58, the hollow ball head part is pushed down by the inclined plate 58 along with rotation of the flat ball head deflector rod 561, and the whole device is pushed down along with the rotation of the hollow ball head part 564, then the sealing glue is continuously coated in the hollow ball head part along with the hollow ball head part of the sealing device, the sealing glue is continuously coated in the hollow ball head part along with the hollow ball head part, and the sealing glue is continuously coated in the hollow body is completely sealed along with the hollow ball head part along with the whole device, the sealing glue is completely coated in the hollow body, and the sealing glue is completely coated in the hollow sealing groove is completely, and the sealing glue is completely sealed by the sealing device is continuously coated in the hollow by the hollow sealing rod, and the sealing device is sealed by the sealing device, and the sealing device is continuously sealed in the sealing glue film at the sealing device.

Based on the above, the invention can realize the purpose of uniformly coating the sealant at the spliced part of the building board, and can also be trowelled through the trowelling deflector rod after coating; the inner side of the trowelling deflector rod is provided with the hollow ball head, so that the coated excessive sealant can be collected into the hollow part and then is collected by the sealant collecting box, and waste is avoided; the grooving deflector rod provided by the invention can mark a blank groove on the screeding sealant after the screeding deflector rod screeds, and then the blank groove is reserved in the sealant by using the sealant to coat, so that a space is reserved for thermal expansion and cold contraction of the plate, and the quality of the sealant is prevented from being influenced by the creep plate.

It will be appreciated by those skilled in the art that the present invention can be carried out in other embodiments without departing from the spirit or essential characteristics thereof. Accordingly, the above disclosed embodiments are illustrative in all respects, and not exclusive. All changes that come within the scope of the invention or equivalents thereto are intended to be embraced therein.

Claims (6)

1. An assembled building material splicing apparatus, characterized in that: the automatic glue injection device comprises a mobile base (1), wherein a glue injection device (2) is arranged on the mobile base (1), climbing wheels (3) are arranged at four corners of the mobile base (1), a glue guiding device (4) is arranged at the bottom of the glue injection device (2), sealing glue can be injected into the glue guiding device (4) by the glue injection device (2) and is coated on a splicing part of building materials by the glue guiding device (4), a sealing glue processing mechanism (5) is further arranged at the middle position of the glue guiding device (4), the sealing glue processing mechanism (5) is used for helping the sealing glue to be uniformly coated and grooved in the coated sealing glue, and a glue solution collecting mechanism (6) is further arranged on the side surface of the glue guiding device (4);

the sealant treatment mechanism (5) comprises two symmetrically arranged clamping discs (51), a driving disc (52), a rotating shaft (53), a power motor structure (55) and a treatment assembly (56), wherein the clamping discs (51) and the driving disc (52) are both fixed on the rotating shaft (53), the outer side end of the rotating shaft (53) is installed in a bearing seat (57), the rotating shaft (53) provides power through the power motor structure (55), and an inclined plate (58) is further arranged on the side surface of the clamping disc (51);

the power motor structure (55) comprises a motor (551) and a belt pulley set (552), the motor (551) is arranged on the movable base (1) through a fixed seat, one end of the belt pulley set (552) is connected to an output shaft of the motor (551), and the other end of the belt pulley set is connected to the rotating shaft (53);

the processing assembly (56) is arranged in the driving disc (52), the structure of the processing assembly comprises a trowelling deflector rod (561), a grooving deflector rod (562), a spring (563) and a ball head ejector rod (564), the trowelling deflector rod (561) and the grooving deflector rod (562) are both slidably arranged in the driving disc (52), the trowelling deflector rod (561) and the grooving deflector rod (562) are arranged at intervals one by one, the spring (563) is arranged at the bottoms of the trowelling deflector rod (561) and the grooving deflector rod (562), and the ball head ejector rod (564) is slidably arranged in the trowelling deflector rod (561) and the bottom of the ball head ejector rod is fixed on the driving disc (52);

the head of the trowelling deflector rod (561) is a 3/4 hollow ball head, the head of the grooving deflector rod (562) is provided with a grooving cutter with uniform gradient transition, and the outer diameter of the ball head ejector rod (564) is smaller than the hollow ball head of the trowelling deflector rod (561).

2. A modular building material splicing device according to claim 1, wherein: the bottom climbing wheel (3) of the movable base (1) is self-locking, and a handle (11) is further arranged at the end part of the movable base (1).

3. A modular building material splicing device according to claim 1, wherein: glue injection device (2) are including glue solution storehouse (21), first electric putter (22), glue solution storehouse (21) are hollow structure and its oral area is equipped with draws gluey hole (24), glue solution storehouse (21), the side of first electric putter (22) are fixed on moving base (1) through fixed block (25), the output shaft of first electric putter (22) is on clamp plate (26), clamp plate (26) slidable mounting is in glue solution storehouse (21), the oral area of drawing gluey hole (24) is equipped with guiding pad (28) that play guiding role.

4. A modular building material splicing device according to claim 3, wherein: the glue guiding device (4) comprises a glue guiding plate I (41) and a glue guiding plate II (42), the glue guiding plate I (41) is fixed below the glue solution bin (21), a glue guiding groove I (43) is arranged on the glue guiding plate I (41), the glue guiding groove I (43) is opposite to the glue guiding hole (24), a glue guiding groove II (44) is arranged on the glue guiding plate II (42), and the glue guiding plate II (42) is fixed at the mouth part of the glue solution collecting mechanism (6).

5. A modular building material splicing device according to claim 1, wherein: the back of inclined plate (58) is connected at the side of fixed block (25) through connecting plate (59), the below of inclined plate (58) is equipped with album gluey box (510), album gluey box (510) and draw gluey board two (42) UNICOM.

6. The fabricated building material splicing device of claim 4, wherein: the glue solution collecting mechanism (6) comprises a collecting bin (61) and an electric push rod II (62), wherein a collecting hole is formed in the position, opposite to the glue guiding groove II (44), of the collecting bin (61), and an output shaft of the electric push rod II (62) is connected to the back of the collecting bin (61).