CN114016358B

CN114016358B - Asphalt pouring device for building

Info

Publication number: CN114016358B
Application number: CN202111540286.9A
Authority: CN
Inventors: 李翠双
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-16
Filing date: 2021-12-16
Publication date: 2023-02-28
Anticipated expiration: 2041-12-16
Also published as: CN114016358A

Abstract

The invention relates to a pouring device, in particular to an asphalt pouring device for a building. The invention provides an asphalt pouring device for construction, which can heat asphalt when the asphalt is stirred and avoid asphalt solidification. The invention provides an asphalt pouring device for a building, which comprises rollers, a connecting frame, a shell, a first fixing block, a turnover cover and the like, wherein the rollers are rotatably arranged at four corners of the lower side of the connecting frame, the shell is connected to the upper part of the connecting frame, the first fixing block is connected to the right side of the upper part of the shell, the turnover cover is rotatably sleeved on the first fixing block, and the turnover cover is in clamping fit with the upper side of the shell. The poison gas that pitch produced when heating can be discharged through the outlet duct, and the active carbon cotton on the outlet duct can adsorb the poison gas that produces when pitch heats to cause harm to operating personnel, simultaneously, the active carbon cotton can be changed, can adsorb the poison gas with this continuously.

Description

Asphalt pouring device for building

Technical Field

The invention relates to a pouring device, in particular to an asphalt pouring device for a building.

Background

Asphalt, commonly known as asphalt, is a black, glossy and plastic material, and is commonly used in road construction projects. Because pitch can solidify when the temperature is lower, consequently before carrying out pitch and pouring, need carry out constantly stirring and heating to pitch to make things convenient for pouring of pitch, pitch is inside can produce a toxic gas when high temperature heating, in order to avoid the harm that toxic gas caused, the staff that many carried out pitch and pour can all carry the gauze mask and prevent that gas from inhaling internal.

According to patent grant publication No. CN 213476548U's a device is pour to asphalt for building, including the building asphalt pouring machine body, the one end fixedly connected with filling mouth of the building asphalt pouring machine body for building, the inside block of the building asphalt pouring machine body has the slurcam, the slurcam includes sealed horizontal pole, slide bar, first connecting plate and sliding tray, sealed horizontal pole fixed connection is in one side of slurcam, the one side fixedly connected with of sealed horizontal pole, the first connecting plate of one side fixedly connected with, first connecting plate block is in the inside of sliding tray.

This device is pour to pitch for building though install the hob through the inside of blown down tank, the motor drives the hob and rotates for the pitch ejection of compact is even, however, because the inside of blown down tank does not set up heating device, when carrying out the pitch stirring, the pitch solidification makes the hob rotate the difficulty easily.

In conclusion, the asphalt pouring device for the building is designed to heat the asphalt and avoid asphalt solidification when the asphalt is stirred.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the conventional asphalt pouring device for the building cannot heat the asphalt being stirred and the screw rod is difficult to rotate due to easy asphalt solidification.

(2) Technical scheme

In order to solve the technical problems, the invention provides an asphalt pouring device for a building, which comprises rollers, a connecting frame, a shell, a first fixed block, a flip cover, handles, a rotating frame, a heat conducting layer, a loading frame, heating wires, a discharging pipe, a discharging mechanism and a stirring mechanism, wherein the rollers are arranged at four corners of the lower side of the connecting frame in a rotating mode, the shell is connected to the upper portion of the connecting frame, the first fixed block is connected to the right side of the upper portion of the shell, the flip cover is rotatably sleeved on the first fixed block and is in clamping fit with the upper side of the shell, the two handles are sleeved on the upper portion of the rear portion of the connecting frame, the rotating frame is rotatably arranged in the shell, the heat conducting layer, the loading frame and the heating wires are sequentially connected to the rotating frame from inside to outside from a central point, the bottom of the loading frame is in a circular truncated cone shape, the discharging pipe is communicated with the bottom of the loading frame, and the discharging mechanism and the stirring mechanism are arranged on the loading frame.

Preferably, unloading mechanism is including leading truck, cover block, pushing down frame, stopper and spring, and the frame right part lower side sliding type of feeding is equipped with the cover block, is connected with the spring between cover block and the frame of feeding, is connected with pushing down the frame on the cover block, and pushing down the frame left part and being connected with the stopper, is connected with the leading truck in the discharging tube, and stopper sliding type cover is established on the leading truck, stopper and discharging pipe joint cooperation.

Preferably, rabbling mechanism is including first mount, first dwang, the stirring frame, the second mount, second dwang and knob, flip downside middle part is connected with the second mount, the bottom is connected with first mount in the frame of feeding, the rotary type runs through there is the second dwang between flip middle part and the second mount, second dwang upper portion cover is equipped with the knob, the rotary type is equipped with first dwang in the first mount, open on first dwang top has the hexagon groove, second dwang bottom is located the hexagon inslot on first dwang, the cover is equipped with the stirring frame on the first dwang, the stirring frame is around in first mount.

Preferably, still including filtering mechanism, filtering mechanism is including outlet duct, rotor plate, buckle and activated carbon cotton, and flip left part upside runs through there is the outlet duct, and outlet duct upside rotary type is equipped with the rotor plate, and the rotor plate sub-unit connection has the buckle, and it has the draw-in groove to open on the outlet duct, and buckle and draw-in groove joint cooperation have placed activated carbon cotton between rotor plate and the outlet duct.

Preferably, still including drive mechanism, drive mechanism is including the second fixed block, the carriage, rack and first straight gear, and the link right part is connected with the second fixed block, and the gliding formula has run through the carriage on the second fixed block, and the carriage contacts with pushing down the frame, and carriage upper portion is connected with the rack, and flip overlaps with the rear portion of first fixed block junction and is equipped with first straight gear, rack and first straight gear meshing.

Preferably, the heat-conducting type motor speed reducer further comprises a rotating mechanism, the rotating mechanism comprises a third fixing frame, a motor, a second straight gear and a gear ring, the third fixing frame is connected to the front side of the upper portion of the shell, the motor is installed on the third fixing frame, the second straight gear is connected to an output shaft of the motor, the gear ring is sleeved on an outer cylindrical surface of the upper portion of the heat-conducting layer, and the gear ring is meshed with the second straight gear.

Preferably, still including compaction mechanism, compaction mechanism is connected with the third fixed block including third fixed block, threaded rod, guide bar, connecting block and cylinder in the left side of link rear portion, and the last rotation type of third fixed block runs through threaded rod, and the anterior upside bilateral symmetry formula of link is equipped with the guide bar, and the slip type cover is equipped with the connecting block on the guide bar, and the rotation type is equipped with the cylinder between two connecting blocks, and left connecting block and threaded rod threaded connection.

Preferably, the material of the drum is Q235.

(3) Advantageous effects

The invention can achieve the following beneficial effects:

1. the poison gas that pitch produced when heating can pass through the outlet duct and discharge, and the active carbon cotton on the outlet duct can adsorb the poison gas that produces when pitch heats to cause harm to operating personnel, simultaneously, the active carbon cotton can be changed, can adsorb poison gas with this continuously.

2. Through the meshing of a straight-teeth wheel and rack, can make operating personnel open flip and add pitch in, the pitch that heats flows from the discharging pipe to this operation that can incessantly pour pitch.

3. Through the handle pulling link backward, the link drives the connecting block rearward movement through the guide bar, and the connecting block drives the cylinder rearward movement, and the cylinder can carry out compaction fast to the pitch of just pouring to avoid the pitch solidification of just pouring, not good compaction problem.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

Fig. 3 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of a first blanking mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second blanking mechanism of the present invention.

Fig. 6 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 7 is a schematic perspective view of the filter mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the filter mechanism of the present invention.

Fig. 9 is a perspective view of the transmission mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first rotating mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second rotating mechanism of the present invention.

Fig. 12 is a schematic perspective view of the compactor mechanism of the present invention.

The symbols in the drawings are: 1-roller, 2-connecting frame, 3-shell, 4-first fixed block, 5-flip cover, 6-handle, 7-rotating frame, 71-heat conducting layer, 8-loading frame, 9-heating wire, 10-discharging pipe, 11-blanking mechanism, 111-guide frame, 112-sleeve block, 113-pressing frame, 114-plug, 115-spring, 12-stirring mechanism, 121-first fixed frame, 122-first rotating rod, 123-stirring frame, 124-second fixed frame, 125-second rotating rod, 126-knob, 13-filtering mechanism, 131-air outlet pipe, 132-rotating plate, 133-buckle, 134-activated carbon cotton, 14-transmission mechanism, 141-second fixed block, 142-sliding frame, 143-rack, 144-first straight gear, 15-rotating mechanism, 151-third fixed frame, 152-motor, 153-second straight gear, 154-gear ring, 16-compacting mechanism, 161-third fixed block, 162-threaded rod, 163-guide rod, 163-connecting block, and roller-165-pressing frame.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a device is pour to pitch for building, as shown in fig. 1-6, including gyro wheel 1, link 2, shell 3, first fixed block 4, flip 5, the handle 6, the rotating turret 7, the heat-conducting layer 71, the frame of feeding 8, heater strip 9, discharging pipe 10, unloading mechanism 11 and rabbling mechanism 12, link 2 downside four corners department equal rotary type is equipped with gyro wheel 1, link 2 upper portion is connected with shell 3 through bolted connection's mode, shell 3 upper portion right side is connected with first fixed block 4 through bolted connection's mode, the rotary type cover is equipped with flip 5 on the first fixed block 4, flip 5's shape is circular, flip 5 and shell 3 upside joint cooperation, link 2 back upper portion cover is equipped with two handles 6, the inside rotary type of shell 3 is equipped with rotating turret 7, from the interior heat-conducting layer 71 that has connected gradually outward by the central point on the rotating turret 7, frame of feeding 8 and heater strip 9, the frame 8 bottom is the round platform shape of feeding, discharging pipe 10 links to the frame 8 bottom, be equipped with unloading mechanism 11 and rabbling mechanism 12 on the frame 8.

As shown in fig. 4 and 5, the discharging mechanism 11 includes a guide frame 111, a sleeve block 112, a lower pressing frame 113, a plug 114 and a spring 115, the sleeve block 112 is movably disposed on the lower right side of the charging frame 8, the spring 115 is connected between the sleeve block 112 and the charging frame 8, the lower pressing frame 113 is connected on the sleeve block 112, the plug 114 is connected on the left side of the lower pressing frame 113, the guide frame 111 is connected in the discharging pipe 10, the plug 114 is slidably sleeved on the guide frame 111, and the plug 114 is in clamping fit with the discharging pipe 10.

As shown in fig. 6, the stirring mechanism 12 includes a first fixing frame 121, a first rotating rod 122, a stirring frame 123, a second fixing frame 124, a second rotating rod 125 and a knob 126, the middle part of the lower side of the flip 5 is connected with the second fixing frame 124 through a bolt connection mode, the bottom of the loading frame 8 is connected with the first fixing frame 121, the second rotating rod 125 penetrates through the middle part of the flip 5 and the second fixing frame 124 in a rotating mode, the knob 126 is sleeved on the upper part of the second rotating rod 125, the first rotating rod 122 is arranged in the first fixing frame 121 in a rotating mode, a hexagonal groove is formed in the top end of the first rotating rod 122, the bottom end of the second rotating rod 125 is located in the hexagonal groove of the first rotating rod 122, the stirring frame 123 is sleeved on the first rotating rod 122, and the stirring frame 123 surrounds the first fixing frame 121.

Firstly, an operator rotates the turning cover 5 clockwise by taking the first fixed block 4 as a circle center to separate the turning cover 5 from the housing 3, the turning cover 5 drives the second fixed frame 124 and the second rotating rod 125 to move upwards, the second rotating rod 125 moves out of the hexagonal groove on the first rotating rod 122, asphalt for building pouring is poured into the charging frame 8, the turning cover 5 is rotated anticlockwise to close the turning cover 5, the turning cover 5 drives the second fixed frame 124 and the second rotating rod 125 to move downwards, the second rotating rod 125 is inserted into the hexagonal groove on the first rotating rod 122, the heater strip 9 is started, the heater strip 9 heats the asphalt in the charging frame 8, the operator continuously rotates the knob 126 clockwise, the knob 126 drives the first rotating rod 122 to rotate clockwise through the second rotating rod 125, the first rotating rod 122 drives the stirring frame 123 to rotate clockwise, the stirring frame 123 stirs the asphalt in the charging frame 8, an operator presses the pressing frame 113 downwards, the pressing frame 113 drives the sleeve block 112 and the plug 114 to move downwards, the spring 115 enters a stretching state along with the downward movement, the plug 114 moves downwards to be separated from the discharging pipe 10, the asphalt in the charging frame 8 flows out of the discharging pipe 10, the operator pulls the connecting frame 2 backwards through the handle 6, the connecting frame 2 moves backwards through the roller 1, the asphalt pouring operation can be achieved, after the asphalt pouring is completed, the operator closes the heating wire 9, releases the pressing frame 113, the spring 115 resets, the sleeve block 112 drives the pressing frame 113 to move upwards under the reset action of the spring 115, the pressing frame 113 drives the plug 114 to move upwards to reset, and the plug 114 moves upwards to be in contact with the discharging pipe 10 again, and the discharging pipe 10 can be closed.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 7 and fig. 8, still including filtering mechanism 13, filtering mechanism 13 is including outlet duct 131, rotor plate 132, buckle 133 and activated carbon cotton 134, flip 5 left part upside has run through outlet duct 131, outlet duct 131 upside rotary type is equipped with rotor plate 132, the mode that the bolt is connected through to rotor plate 132 lower part is connected with buckle 133, open on the outlet duct 131 has the draw-in groove, buckle 133 and draw-in groove joint cooperation, activated carbon cotton 134 has been placed between rotor plate 132 and the outlet duct 131.

Poison gas that pitch produced when heating can pass through outlet duct 131 and discharge, activated carbon cotton 134 can filter the poison gas that pitch produced when heating and adsorb, when activated carbon cotton 134 needs to be changed, operating personnel counter-clockwise turning rotor plate 132, rotor plate 132 drives buckle 133 counter-clockwise turning, make buckle 133 break away from with the draw-in groove on the outlet duct 131, at this moment, operating personnel can rebound rotor plate 132, take out rotor plate 132 and buckle 133 from outlet duct 131, change the activated carbon cotton 134 on the outlet duct 131 again, make rotor plate 132 and buckle 133 contact with outlet duct 131 again, clockwise turning rotor plate 132, rotor plate 132 drives buckle 133 clockwise turning, buckle 133 can be with the draw-in groove joint again at clockwise turning's in-process, with this can fix the activated carbon cotton 134 of new change.

Example 3

On the basis of the embodiment 2, as shown in fig. 1 and 9, the foldable electronic device further includes a transmission mechanism 14, the transmission mechanism 14 includes a second fixed block 141, a sliding frame 142, a rack 143 and a first straight gear 144, the second fixed block 141 is connected to the right portion of the connecting frame 2 through a bolt, the sliding frame 142 is slidably inserted through the second fixed block 141, the sliding frame 142 contacts with the lower pressing frame 113, the rack 143 is connected to the upper portion of the sliding frame 142 through a bolt, the first straight gear 144 is sleeved on the rear portion of the connecting portion of the flip 5 and the first fixed block 4, and the rack 143 is engaged with the first straight gear 144.

When an operator rotates the flip cover 5 clockwise to open the flip cover 5, the flip cover 5 can drive the first straight gear 144 to rotate clockwise, the first straight gear 144 can enable the rack 143 to move downwards, the rack 143 drives the sliding frame 142 to move downwards, the lower pressing frame 113 is stressed to move downwards, so that the flip cover 5 can be opened, when the operator adds new asphalt, the heated asphalt can flow out from the discharge pipe 10, the operator rotates the flip cover 5 anticlockwise, the flip cover 5 can drive the first straight gear 144 to rotate anticlockwise, the first straight gear 144 can enable the rack 143 to move upwards, the rack 143 drives the sliding frame 142 to move upwards, the sliding frame 142 can be separated from the lower pressing frame 113 in the process of moving upwards, and therefore, the discharge pipe 10 can be closed while the flip cover 5 is closed.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 10, and 11, the heat conduction layer further includes a rotating mechanism 15, the rotating mechanism 15 includes a third fixing frame 151, a motor 152, a second spur gear 153, and a gear ring 154, the third fixing frame 151 is connected to the front side of the upper portion of the housing 3, the motor 152 is mounted on the third fixing frame 151 in a bolt connection manner, the second spur gear 153 is connected to an output shaft of the motor 152 in a bolt connection manner, the gear ring 154 is sleeved on the outer cylindrical surface of the upper portion of the heat conduction layer 71, and the gear ring 154 is engaged with the second spur gear 153.

Operating personnel starts motor 152, and motor 152 output shaft drives second straight-tooth gear 153 clockwise rotation, and second straight-tooth gear 153 drives ring gear 154 anticlockwise rotation, and ring gear 154 drives the 7 anticlockwise rotations of rotating turret through heat-conducting layer 71, and rotating turret 7 drives the 8 anticlockwise rotations of dress material frame to this can improve the rate of heating of pitch in the dress material frame 8, and operating personnel closes motor 152 afterwards and can accomplish the rotation operations.

Example 5

On the basis of embodiment 4, as shown in fig. 1 and 12, the device further includes a compacting mechanism 16, the compacting mechanism 16 includes a third fixed block 161, a threaded rod 162, a guide rod 163, a connecting block 164, and a roller 165, the third fixed block 161 is connected to the left side of the rear portion of the connecting frame 2, the third fixed block 161 is rotatably inserted through the threaded rod 162, the guide rod 163 is symmetrically arranged on the upper side of the front portion of the connecting frame 2, the connecting block 164 is slidably sleeved on the guide rod 163, the roller 165 is rotatably arranged between the two connecting blocks 164, the roller 165 is made of a material Q235 and has a large heat capacity, and the left connecting block 164 is threadedly connected with the threaded rod 162.

An operator pulls the connecting frame 2 backwards through the handle 6, the connecting frame 2 drives the connecting block 164 to move backwards through the guide rod 163, the connecting block 164 drives the roller 165 to move backwards, the roller 165 can compact asphalt flowing out of the discharging pipe 10 on the road and the ground in the backward moving process, the operator rotates the threaded rod 162 clockwise, the threaded rod 162 drives the connecting block 164 to move upwards, the connecting block 164 drives the roller 165 to move upwards, and if the operator rotates the threaded rod 162 anticlockwise, the connecting block 164 drives the roller 165 to move downwards, so that the distance between the roller 165 and the ground can be adjusted.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a device is pour to asphalt for building, including gyro wheel (1), link (2), shell (3), first fixed block (4), flip (5), handle (6), rotating turret (7), heat-conducting layer (71), charging frame (8), heater strip (9) and discharging pipe (10), link (2) downside four corners department equal rotary type is equipped with gyro wheel (1), link (2) upper portion is connected with shell (3), shell (3) upper portion right side is connected with first fixed block (4), the rotary type cover is equipped with flip (5) on first fixed block (4), flip (5) and shell (3) upside joint cooperation, link (2) back upper portion cover is equipped with two handles (6), the inside rotary type of shell (3) is equipped with rotating turret (7), heat-conducting layer (71) has been connected gradually from inside to outside by the central point on rotating turret (7), charging frame (8) and heater strip (9), heater strip (9) are used for heating the pitch in charging frame (8), charging frame (8) bottom is the round platform shape, charging frame (8) bottom hookup has discharge pipe (10), its stirring mechanism and discharging mechanism (11) are used for stirring and discharging mechanism (12) are equipped with on the stirring mechanism for the asphalt;

the blanking mechanism (11) comprises a guide frame (111), a sleeve block (112), a lower pressing frame (113), a plug (114) and a spring (115), the sleeve block (112) is arranged on the lower side of the right part of the charging frame (8) in a sliding mode, the spring (115) is connected between the sleeve block (112) and the charging frame (8), the lower pressing frame (113) is connected onto the sleeve block (112), the plug (114) is connected onto the left part of the lower pressing frame (113), the plug (114) is made of aluminum alloy, the guide frame (111) is connected into the discharging pipe (10), the plug (114) is sleeved onto the guide frame (111) in a sliding mode, and the plug (114) is matched with the discharging pipe (10) in a clamping mode;

the stirring mechanism (12) comprises a first fixing frame (121), a first rotating rod (122), a stirring frame (123), a second fixing frame (124), a second rotating rod (125) and a knob (126), the middle of the lower side of the flip cover (5) is connected with the second fixing frame (124), the bottom in the loading frame (8) is connected with the first fixing frame (121), the second rotating rod (125) penetrates through the middle of the flip cover (5) and the second fixing frame (124) in a rotating manner, the knob (126) is sleeved on the upper portion of the second rotating rod (125), the first rotating rod (122) is rotatably arranged in the first fixing frame (121), a hexagonal groove is formed in the top end of the first rotating rod (122), the bottom end of the second rotating rod (125) is located in the hexagonal groove in the first rotating rod (122), the stirring frame (123) is sleeved on the first rotating rod (122), and the stirring frame (123) surrounds the first fixing frame (121);

the asphalt heating device is characterized by further comprising a filtering mechanism (13) for filtering toxic gas generated by asphalt heating, wherein the filtering mechanism (13) comprises an air outlet pipe (131), a rotating plate (132), a buckle (133) and activated carbon cotton (134), the air outlet pipe (131) penetrates through the upper side of the left part of the flip cover (5), the air outlet pipe (131) is used for discharging the toxic gas, the rotating plate (132) is rotatably arranged on the upper side of the air outlet pipe (131), the buckle (133) is connected to the lower part of the rotating plate (132), a clamping groove is formed in the air outlet pipe (131), the buckle (133) is in clamping fit with the clamping groove, the activated carbon cotton (134) is placed between the rotating plate (132) and the air outlet pipe (131), and the activated carbon cotton (134) is used for filtering the toxic gas;

still including drive mechanism (14) of supplementary unloading mechanism (11), drive mechanism (14) are including second fixed block (141), carriage (142), rack (143) and first straight gear (144), link (2) right part is connected with second fixed block (141), sliding run through carriage (142) on second fixed block (141), carriage (142) and push down frame (113) contact, carriage (142) upper portion is connected with rack (143), flip (5) and the rear portion cover of first fixed block (4) junction are equipped with first straight gear (144), rack (143) and first straight gear (144) meshing.

2. The asphalt pouring device for the building according to claim 1, further comprising a rotating mechanism (15) for increasing the heating speed of asphalt, wherein the rotating mechanism (15) comprises a third fixing frame (151), a motor (152), a second straight gear (153) and a gear ring (154), the third fixing frame (151) is connected to the front side of the upper portion of the shell (3), the motor (152) is mounted on the third fixing frame (151), the motor (152) is a servo motor, the second straight gear (153) is connected to an output shaft of the motor (152), the gear ring (154) is sleeved on an outer cylindrical surface of the upper portion of the heat conduction layer (71), and the gear ring (154) is meshed with the second straight gear (153).

3. The asphalt pouring device for the building as claimed in claim 2, further comprising a compacting mechanism (16) for compacting the discharged asphalt, wherein the compacting mechanism (16) comprises a third fixing block (161), a threaded rod (162), a guide rod (163), a connecting block (164) and a roller (165), the third fixing block (161) is connected to the left side of the rear portion of the connecting frame (2), the third fixing block (161) is rotatably penetrated through the threaded rod (162) in a rotating manner, the guide rod (163) is symmetrically arranged on the left side of the front portion of the connecting frame (2), the connecting block (164) is slidably sleeved on the guide rod (163), the roller (165) is rotatably arranged between the two connecting blocks (164), the roller (165) is used for compacting the asphalt, and the left connecting block (164) is in threaded connection with the threaded rod (162).

4. An asphalt pouring device for building according to claim 3, wherein the material of the roller (165) is Q235.