Disclosure of Invention
In order to solve the problems, the embodiment designs a wall joint sealant sealing device for buildings, which comprises a main body, wherein a handle is fixedly connected to the upper end face of the main body, a working cavity is arranged in the handle, a rack chute with a rightward opening is arranged in the inner walls of the left side and the lower side of the working cavity in a communicating manner, an arc rack is slidably arranged in the rack chute, a rack fixing block is fixedly arranged on the front end face of the arc rack, a motor is fixedly arranged in the inner wall of the upper side of the working cavity, when the motor is not electrified, the motor is in an idle state, the lower end of the motor is dynamically connected with a first rotating shaft, the lower end of the first rotating shaft is fixedly connected with a first rotating block which can rotate in the working cavity, a first sleeve groove which penetrates through the first rotating block from top to bottom is arranged in an annular array, and a first sleeve rod is slidably arranged in the first, the lower end of the first loop bar is fixedly connected with a first circular ring, a first circular hole is arranged in the first circular ring in a penetrating way, a guide loop block is arranged at the lower side of the first rotating block and is positioned in the working cavity in a sliding way, a through hole is arranged in the guide loop block in a penetrating way, a second rotating shaft is arranged in the through hole in a sliding way, the lower end of the second rotating shaft extends out of the lower end opening of the through hole and is fixedly connected with a bevel gear meshed with the rack fixing block, the upper end of the second rotating shaft extends out of the upper end opening of the through hole and is fixedly connected with a second rotating block positioned at the lower side of the first rotating block, a second loop groove is arranged in the second rotating block in an annular array in a penetrating way, a second loop bar is arranged in the second loop groove in a sliding way, and a second circular ring is fixedly connected at the upper end of, the second circular hole is arranged in the second circular ring in a penetrating mode, the second circular hole is in one-to-one corresponding sleeving connection with the first circular hole, a quantifying groove with a right opening is formed in the rear inner wall of the working cavity in a communicated mode, a quantifying push block is slidably arranged in the quantifying groove, a push spring is fixedly connected between the quantifying push block and the inner wall of the quantifying groove, the rear end face of the guide sleeve block is rotatably connected with the quantifying push block, a squeezing groove is formed in the lower side wall of the working cavity and located in the main body, a squeezing block connected with the lower end of the arc-shaped rack in a meshing mode is slidably arranged in the squeezing groove, a communicating groove is formed in the squeezing block in a penetrating mode in a left-right mode, a wedge-shaped groove is arranged in the communicating groove in a communicated mode, a round ball can be arranged in the wedge-shaped groove in a rolling mode, and a, the lower side of the main body is provided with a sealing glue supplementing assembly, and the quantitative push block is pushed to adjust the position of the guide sleeve block, so that the rotation angle of the arc-shaped rack is limited, and the amount of sealing glue extruded each time is adjusted.
Preferably, the needle head assembly comprises a threaded connection hole which penetrates through the left side and the right side and is communicated with the threaded connection hole in the inner wall of the right side of the extrusion groove, the threaded connection hole is in threaded connection with a threaded connection block, a limiting baffle is fixedly arranged on the right end face of the threaded connection block, a needle tube is fixedly connected to the right end face of the limiting baffle, injection molding holes are formed in the needle tube, the limiting baffle and the threaded connection block in a left-right penetrating mode, and sealing glue on the right side of the extrusion block in the extrusion groove can be guided to gaps of walls through the needle tube and the injection molding holes.
Preferably, the user can replace the needle tubes with different hole diameters according to the requirement, so that the application range of the device is enlarged.
But preferably, it sets up including fixed set up in seal the fixed block on the main part downside terminal surface to glue the supplementary subassembly, be provided with the downward seal of opening in the fixed block and store the chamber, it is provided with the division board to seal the slidable in the storage chamber, the upside terminal surface of division board with it fills between the upside inner wall of sealing the storage chamber and has sealed the glue, and seals and not mix with the air in the glue, seal glue the storage chamber with it is left to extrude the piece communicate through communicating pipe between the extrusion groove, work as the extrusion piece is in when the right side slides in the extrusion groove, the accessible extrude the piece left side with negative pressure that produces between the extrusion groove will seal the interior sealed suction of glue storage chamber extrude in the inslot.
Preferably, the first sleeve groove in the first rotating block and the second sleeve groove in the second rotating block are all provided with three grooves, and the first sleeve rod and the second sleeve rod which are respectively located in the three first sleeve grooves and the three second sleeve grooves are respectively sleeved one by one.
Preferably, the right end of the quantitative pushing block is fixedly connected with a pressing plate, and a user can push the quantitative pushing block to slide by pressing the pressing plate.
But preferably, the wedge groove is the toper, just the macrostoma end of wedge groove points to the right, through the wedge groove with the ball can make the interior glue of gluing of intercommunication inslot can only one-way right.
Preferably, the quantitative pushing block is provided with scales, and a user can observe the amount of the extrusion sealing glue set each time through the scales carved on the quantitative pushing block.
The invention has the beneficial effects that: when the device is used, the sealing glue can be quantitatively extruded into the gap according to the preset amount of a user, so that the waste of the sealing glue can be reduced, the dependence on a gas tank can be avoided, the device can realize synchronous feeding and discharging, is simple to operate and convenient to use, and is worthy of recommendation.
Detailed Description
The invention will now be described in detail with reference to fig. 1-4, for ease of description, the orientations described below will now be 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 invention relates to a wall joint glue sealing device for buildings, which is further explained by combining the attached drawings of the invention:
the wall joint glue sealing device for the building comprises a main body 101, a handle 119 is fixedly connected to the upper end face of the main body 101, a working cavity 124 is arranged in the handle 119, a rack sliding groove 121 with a rightward opening is formed in the inner walls of the left side and the lower side of the working cavity 124 in a communicated manner, an arc-shaped rack 122 is slidably arranged in the rack sliding groove 121, a rack fixing block 123 is fixedly arranged on the front end face of the arc-shaped rack 122, a motor 127 is fixedly arranged in the inner wall of the upper side of the working cavity 124, when the motor 127 is not electrified, the motor 127 is in an idle running state, the lower end of the motor 127 is dynamically connected with a first rotating shaft 132, the lower end of the first rotating shaft 132 is fixedly connected with a first rotating block 134 capable of rotating in the working cavity 124, and a first sleeve groove 135 which penetrates through up and down is arranged in an annular array in the first rotating, a first sleeve rod 133 is slidably arranged in the first sleeve groove 135, a first circular ring 141 is fixedly connected to the lower end of the first sleeve rod 133, a first circular hole 142 is penetratingly arranged in the first circular ring 141, a guide sleeve block 145 is slidably arranged on the lower side of the first rotating block 134 and in the working cavity 124, a through hole 146 is penetratingly arranged in the guide sleeve block 145 up and down, a second rotating shaft 139 is slidably arranged in the through hole 146, the lower end of the second rotating shaft 139 extends out of the lower end opening of the through hole 146 and is fixedly connected with a bevel gear 117 engaged and connected with the rack fixing block 123, the upper end of the second rotating shaft 139 extends out of the upper end opening of the through hole 146 and is fixedly connected with a second rotating block 138 positioned on the lower side of the first rotating block 134, and a second sleeve groove 137 which is penetratingly arranged in an annular array and up and down is arranged in the second rotating block 138, a second loop bar 136 is slidably arranged in the second loop groove 137, the upper end of the second loop bar 136 is fixedly connected with a second ring 143, a second circular hole 144 is penetratingly arranged in the second ring 143, the second circular hole 144 is in one-to-one corresponding socket joint with the first circular hole 142, a quantitative groove 125 with a rightward opening is arranged in the rear inner wall of the working cavity 124 in a communicating manner, a quantitative pushing block 129 is slidably arranged in the quantitative groove 125, a pushing spring 126 is fixedly connected between the quantitative pushing block 129 and the inner wall of the quantitative groove 125, the rear end face of the guide loop block 145 is rotatably connected with the quantitative pushing block 129, a squeezing groove 102 is arranged in the main body 101 and in the lower side wall of the working cavity 124, a squeezing block 103 engaged and connected with the lower end of the arc-shaped rack 122 is slidably arranged in the squeezing groove 102, and a communicating groove 105 is penetratingly arranged in the squeezing block 103, the connecting groove 105 is internally provided with a wedge-shaped groove 106 in a communicated manner, the wedge-shaped groove 106 is internally provided with a ball 107 in a rolling manner, the right end of the extrusion groove 102 is provided with a needle head assembly, the lower side of the main body 101 is provided with a sealing glue supplementing assembly, the quantitative push block 129 is pushed to be adjustable to the position of the guide sleeve block 145, and then the rotation angle of the arc-shaped rack 122 is limited, so that the amount of sealing glue extruded each time is adjusted.
Beneficially, the needle assembly includes a threaded connection hole 112 penetrating through and communicating with each other from left to right and disposed in the inner wall of the right side of the extrusion groove 102, the threaded connection hole 112 is connected with a threaded connection block 113 through an internal thread, a limit baffle 114 is fixedly disposed on the right side end face of the threaded connection block 113, a needle tube 115 is fixedly connected to the right side end face of the limit baffle 114, injection molding holes 116 penetrate through the needle tube 115, the limit baffle 114 and the threaded connection block 113 from left to right, and the sealing compound in the extrusion groove 102 on the right side of the extrusion block 103 can be guided to a gap of a wall through the needle tube 115 and the injection molding holes 116.
Advantageously, the user may replace the needle cannula 115 with different bore sizes as desired, thereby increasing the range of applicability of the device.
Beneficially, it supplyes the subassembly to seal glue including fixed setting up in fixed block 108 on main part 101 downside terminal surface, be provided with the downward seal glue of opening in the fixed block 108 and store chamber 109, it is provided with division board 111 to seal in the glue storage chamber 109 slidable, fill between the upside terminal surface of division board 111 and the upside inner wall of sealing glue storage chamber 109 and seal and have sealed the glue, and seal and do not mix with the air in the glue, seal glue storage chamber 109 with the extrusion piece 103 is left communicate through communicating pipe 118 between the extrusion groove 102, work as the extrusion piece 103 is in when sliding to the right side in the extrusion groove 102, the accessible extrusion piece 103 the left side with the negative pressure that produces between the extrusion groove 102 will seal the glue suction in the glue storage chamber 109 in the extrusion groove 102.
Advantageously, three first sleeve grooves 135 in the first rotating block 134 and three second sleeve grooves 137 in the second rotating block 138 are provided, and the first sleeve rods 133 and the second sleeve rods 136 respectively located in the three first sleeve grooves 135 and the three second sleeve grooves 137 are sleeved one by one.
Advantageously, a pressing plate 128 is fixedly connected to the right end of the quantitative pushing block 129, and a user can push the quantitative pushing block 129 to slide by pressing the pressing plate 128.
Advantageously, the wedge-shaped groove 106 is tapered, and the large opening end of the wedge-shaped groove 106 points to the right, so that the sealant in the communication groove 105 can only be rightwards in one direction through the wedge-shaped groove 106 and the ball 107.
Advantageously, the quantitative pushing block 129 is provided with a scale, and a user can observe the amount of the extrusion molding glue set each time through the scale marked on the quantitative pushing block 129.
In an initial state, the arc-shaped rack 122 retracts into the rack sliding groove 121 to the maximum extent, the quantitative pushing block 129 slides out of the quantitative groove 125 to the maximum extent, the first rotating block 134 and the second rotating block 138 are located on the same vertical line, the first sleeve rod 133 and the second sleeve rod 136 are located in a vertical state, the extrusion block 103 slides to the left to the maximum extent in the extrusion groove 102, and the sealant storage cavity 109 is filled with sealant above the isolation plate 111.
When the device is used for sealing a gap of a wall surface, a user presses the pressing plate 128 according to the use requirement, so that the quantitative pushing block 129 is pushed to slide in the quantitative groove 125, the guide sleeve block 145 is driven to swing, the guide sleeve block 145 drives the second rotating shaft 139 to swing and drives the second rotating block 138 to swing in the swinging process of the guide sleeve block 145, at the moment, the second sleeve rod 136 swings, the bevel gear 117 swings along with the second rotating shaft 139 and is meshed with the rack fixing block 123, at the moment, the user presses a switch, the started motor 127 drives the first rotating shaft 132 to rotate, the first sleeve groove 135 is driven to rotate through the first rotating block 134, and the first sleeve rods 133 arranged in an annular array sequentially push and pull the second sleeve rod 136 in the rotating process of the first sleeve groove 135, thereby driving the second rotating block 138 to rotate, further driving the second rotating shaft 139 to rotate, thereby driving the bevel gear 117 to rotate, further driving the arc-shaped rack 122 to slide in the rack sliding groove 121, in the process of sliding the arc-shaped rack 122, the arc-shaped rack 122 drives the extrusion block 103 to slide to the right side in the extrusion groove 102, and at this time, the extrusion block 103 extrudes the sealing glue in the extrusion groove 102 on the right side of the extrusion block 103 into the injection molding hole 116, and extrudes the sealing glue into a wall gap through the injection molding hole 116, when the extrusion is completed, the user releases the quantitative pushing block 129, at this time, the quantitative pushing block 129 is restored to the initial state by the elastic force of the pushing spring 126, at this time, the motor 127 rotates reversely and drives the arc-shaped rack 122 to retract into the rack sliding groove 121, and drives the extrusion block 103 to return to the initial state;
in the process of sliding the extrusion block 103, when the extrusion block 103 slides to the right, the sealant in the extrusion groove 102 on the right side of the extrusion block 103 can be squeezed out of the injection molding hole 116, and due to the negative pressure generated between the extrusion block 103 and the extrusion groove 102, the sealant in the sealant storage chamber 109 can be sucked into the extrusion groove 102 on the left side of the extrusion block 103 through the communication pipe 118, and when the extrusion block 103 slides to the left, the sealant in the extrusion groove 102 on the left side of the extrusion block 103 is squeezed into the extrusion groove 102 on the right side of the extrusion block 103 through the communication groove 105 and the communication groove 105.
The invention has the beneficial effects that: when the device is used, the sealing glue can be quantitatively extruded into the gap according to the preset amount of a user, so that the waste of the sealing glue can be reduced, the dependence on a gas tank can be avoided, the device can realize synchronous feeding and discharging, is simple to operate and convenient to use, and is worthy of recommendation.
In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.