Building bricklaying trowel equipment of polishing
Technical Field
The invention relates to the technical field of building related equipment, in particular to building bricklaying trowel polishing equipment.
Background
When the concrete putty is scraped and smeared between the wall surface and the brick, the bricklaying operation is usually carried out by using a bricklaying trowel, most of the methods adopted in the existing equipment are manual bricklaying trowel operation, but in the process, as the bricklaying trowel is bonded with concrete and is common, personnel can not carry out efficient scraping and cleaning on the bricklaying trowel in time, so that the bricklaying trowel can not be continuously and reliably used by the personnel with high efficiency, and the existing equipment has less cleaning and polishing aiming at the bricklaying trowel, for example, the handle part of the bricklaying trowel can form a hard block due to the bonding of the concrete, and the hard block can cause the phenomena of incised injury of the hand part of the personnel when the handle of the bricklaying trowel is held by the personnel, so that the personnel can not continuously and efficiently use the bricklaying trowel for working and processing operation, thus the convenience in use of the, due to the defects, the brick laying trowel cannot be effectively used by people.
Disclosure of Invention
The invention aims to provide building bricklaying trowel grinding equipment which can solve the problems in the prior art.
The invention is realized by the following technical scheme: the building bricklaying trowel polishing equipment comprises a supporting box body, wherein symmetrical sliding box bodies are arranged on the front side and the rear side of the supporting box body in a sliding mode, a bricklaying trowel device is arranged on the front side of the supporting box body, a bottom linkage device for driving the sliding box bodies on the two sides to be linked is arranged at the bottom of the supporting box body, a front side clamping device for clamping the bricklaying trowel device is arranged on the rear side of the supporting box body, and a polishing device for polishing a trowel device cutter handle in an annular mode in the sliding process of the sliding box body is arranged at the top of the sliding box.
According to a further technical scheme, the bricklaying trowel device comprises a shovel plate, a vertical rod is arranged on the upper side of the shovel plate, and a handle is arranged on one side of the vertical rod.
Further technical scheme, bottom aggregate unit including set up in bottom inner chamber in the supporting box, the bottom inner chamber end wall internal rotation be provided with the cooperation connecting rod, supporting box one side is provided with side driving motor, side driving motor with cooperation connecting rod power is connected and is set up, the cooperation connecting rod outside be provided with the box power of sliding is connected and is made the box that slides is close to each other or the cooperation subassembly of keeping away from.
According to a further technical scheme, the matching assembly comprises a bottom sliding block connected with the bottom inner cavity in a sliding fit mode, the bottom sliding block is connected with the matching connecting rod in a threaded fit mode, and the bottom sliding block is connected with the sliding box body in a fixed fit mode.
According to the technical scheme, the front side clamping device comprises a supporting box body which is fixedly matched and connected with the supporting box body, an open clamping inner cavity is formed in the supporting box body, a driving matching motor is arranged in the end wall of the clamping inner cavity, a matching threaded rod is arranged on one side of the driving matching motor in a power connection mode, the matching threaded rod is connected with the end wall of the clamping inner cavity in a rotating matching mode, and an up-and-down symmetry part and a clamping component which is matched with the matching threaded rod to achieve clamping of the bricklaying tool device are arranged in the end wall of the clamping inner cavity.
Further technical scheme, the centre gripping subassembly includes the side fixed block, side fixed block one side has set firmly the internal thread board, the internal thread board with the cooperation threaded rod surface is revolved to opposite thread line screw-thread fit connection, the side fixed block with be provided with between the dress card inner chamber end wall and make the connecting rod sliding structure that the side fixed block can slide and move.
Further technical scheme, connecting rod sliding structure include with the recess of dress card inner chamber end wall intercommunication, the recess end wall is provided with the guide arm, the gliding sliding fit piece that is provided with of guide arm surface, the sliding fit piece internal rotation be provided with the side connecting rod, coaxial normal running fit is connected between the side connecting rod, the side connecting rod with the side fixed block normal running fit is connected.
According to the technical scheme, the polishing device comprises a side box body, a side inner cavity is formed in the side box body, a groove is formed in one side of the side inner cavity in a communicated mode, a top motor is arranged on the top side of the side box body, a rotating threaded rod is arranged on the lower side of the top motor in a power connection mode, the rotating threaded rod is connected with the end wall of the side inner cavity in a rotating fit mode, a sliding rod is arranged on the outer surface of the rotating threaded rod in a threaded fit mode, the sliding rod is connected with the end wall of the side inner cavity in a sliding fit mode, and an elastic polishing assembly which is used for enabling a brick laying knife to be sufficiently.
According to the technical scheme, the elastic polishing assembly comprises a parallel cylinder arranged on one side of the sliding rod, a spring placing inner cavity is formed in the parallel cylinder, a convex block is arranged on the end face of the sliding rod and connected with the spring placing inner cavity in a sliding fit mode, a buffer spring is elastically arranged between the convex block and the end wall of the spring placing inner cavity, and the polishing cylinder rotates in the parallel cylinder.
The invention has the beneficial effects that:
the equipment disclosed by the invention is simple in structure, and the tool face of the bricklaying trowel is stably clamped and then is fully polished in all directions by adopting the polishing structure with two sliding sides, so that the working reliability and the polishing efficiency of the equipment are greatly improved.
When the device, the assembly and the structure are in a stop working state in an initial state, the device can be used for fully clamping the shovel plate, and then the handle is fully ground by using corresponding grinding equipment, so that the handle is in a smooth state and is convenient for a person to use.
When the shovel plate is clamped, the shovel plate is placed into the clamping inner cavity, the driving matching motor drives the matching threaded rod to rotate after working, the outer surface of the matching threaded rod is provided with threaded lines with opposite rotation directions, the matching threaded rod drives the inner threaded plates to approach each other after rotating, the inner threaded plate drives the side fixing blocks to move after moving, in the process, due to the design of the guide rod, the sliding matching block, the side connecting rods and the groove, the side connecting rods approach each other, the sliding matching block slides on one side of the guide rod and the groove, the side connecting rods push the side fixing blocks to fully clamp the shovel plate, the shovel plate is wrapped and clamped by the side fixing blocks on the upper side and the lower side stably, and the matching connecting rods are driven to rotate after the side driving motor works, because the bottom sliding block is respectively in thread fit connection with the thread lines with opposite rotation directions on the outer surface of the matching connecting rod, the bottom sliding block drives the sliding box body to move, and then the shovel board, the vertical rod and the handle are wrapped on one side of the sliding box body, the design aims at preventing dust and the like from flying up when the handle is polished, the top motor drives the rotating threaded rod to rotate after working, because the rotating threaded rod is in thread fit connection with the sliding rod, the sliding rods on two sides can respectively move around the two half parts of the handle from the upper side and the lower side of the handle, the polishing cylinders are fully abutted against the upper side and the lower side of the handle, and the polishing cylinders on two sides respectively move around the upper side and the lower side of the handle to fully polish the handle, and due to the elastic design of the buffer spring, the parallel barrel, the convex block and the sliding rod can have the function of elastic movement, so that the grinding barrel and the handle are kept against each other to improve the grinding effect.
Drawings
For ease of illustration, the invention is described in detail by the following specific examples and figures.
FIG. 1 is a schematic view of the internal overall structure of the building bricklaying trowel grinding device of the present invention;
FIG. 2 is a schematic front cross-sectional view of the grip clamping and sanding device of FIG. 1;
FIG. 3 is a side schematic view of the blade clamping assembly of FIG. 1;
in the figure, a handle 11, a supporting box body 12, a sliding box body 13, a side driving motor 15, a bottom inner cavity 16, a matching connecting rod 17, a shovel plate 18, a bottom sliding block 19, a vertical rod 21, a side inner cavity 31, a top motor 32, a side box body 33, a rotating threaded rod 34, a groove 35, a sliding rod 36, a convex block 37, a buffer spring 38, a spring placing inner cavity 39, a parallel cylinder 41, a polishing cylinder 42, a supporting box body 51, an internal threaded plate 52, a matching threaded rod 53, a side fixing block 54, a guide rod 55, a sliding matching block 56, a side connecting rod 57, a groove 58 and a driving matching motor 61.
Detailed Description
As shown in fig. 1 to 3, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the building bricklaying trowel polishing equipment comprises a supporting box body 12, wherein symmetrical sliding box bodies 13 are arranged on the front side and the rear side of the supporting box body 12 in a sliding mode, a bricklaying trowel device is arranged on the front side of the supporting box body 12, a bottom linkage device for driving the sliding box bodies 13 on two sides to be linked is arranged at the bottom of the supporting box body 12, a front clamping device for clamping the bricklaying trowel device is arranged on the rear side of the supporting box body 12, and a polishing device for polishing a trowel device handle in an annular mode in the sliding process of the sliding box bodies 13 is arranged at the top of the sliding box body 13.
Advantageously, the bricklaying trowel device comprises a shovel plate 18, wherein the upper side of the shovel plate 18 is provided with a vertical rod 21, and one side of the vertical rod 21 is provided with a handle 11.
Advantageously, the bottom linkage comprises a bottom inner cavity 16 arranged in the support box 12, a matching connecting rod 17 is arranged in the end wall of the bottom inner cavity 16 in a rotating mode, a side driving motor 15 is arranged on one side of the support box 12, the side driving motor 15 is arranged in a power connection mode with the matching connecting rod 17, and a matching component which is in power connection with the sliding box 13 and enables the sliding boxes 13 to be close to or far away from each other is arranged on the outer side of the matching connecting rod 17.
Advantageously, the matching assembly comprises a bottom slider 19 in sliding fit connection with the bottom inner cavity 16, the bottom slider 19 is in threaded fit connection with the matching connecting rod 17, and the bottom slider 19 is in fixed fit connection with the sliding box body 13.
Beneficially, wherein, the front side clamping device comprises a supporting box body 51 fixedly connected with the supporting box body 12 in a matched mode, an open clamping inner cavity 59 is arranged in the supporting box body 51, a driving matched motor 61 is arranged in an end wall of the clamping inner cavity 59, a matched threaded rod 53 is arranged on one side of the driving matched motor 61 in a power connection mode, the matched threaded rod 53 is connected with the end wall of the clamping inner cavity 59 in a rotating matched mode, and clamping components which are vertically symmetrical and matched with the matched threaded rod 53 to clamp the bricklaying trowel device are arranged in the end wall of the clamping inner cavity 59.
Advantageously, the clamping assembly comprises a side fixing block 54, an inner thread plate 52 is fixedly arranged on one side of the side fixing block 54, the inner thread plate 52 is in threaded fit connection with a thread line with an opposite screwing direction on the outer surface of the fit threaded rod 53, and a connecting rod sliding structure enabling the side fixing block 54 to slidably move is arranged between the side fixing block 54 and the end wall of the clamping inner cavity 59.
Advantageously, the link sliding structure comprises a groove 58 communicated with the end wall of the clamping inner cavity 59, the end wall of the groove 58 is provided with a guide rod 55, the outer surface of the guide rod 55 is slidably provided with symmetrical sliding fit blocks 56, the sliding fit blocks 56 are rotatably provided with side connecting rods 57, the side connecting rods 57 are coaxially connected in a rotating fit manner, and the side connecting rods 57 are connected with the side fixed blocks 54 in a rotating fit manner.
Beneficially, wherein, grinding device includes side box 33, be provided with side inner chamber 31 in the side box 33, side inner chamber 31 one side intercommunication is provided with recess 35, side box 33 top side is provided with top motor 32, top motor 32 downside power connection is provided with rotating threaded rod 34, rotating threaded rod 34 with side inner chamber 31 end wall normal running fit is connected, rotating threaded rod 34 surface screw-thread fit connection is provided with slide bar 36, slide bar 36 with side inner chamber 31 end wall sliding fit is connected, slide bar 36 one side is provided with and adopts elasticity slide bar and grinding wheel to cooperate the elasticity subassembly of polishing that fully polishes to bricklaying trowel.
Beneficially, the elastic grinding assembly includes a parallel cylinder 41 disposed on one side of the sliding rod 36, a spring placing cavity 39 is disposed in the parallel cylinder 41, a protrusion 37 is disposed on an end face of the sliding rod 36, the protrusion 37 is connected with the spring placing cavity 39 in a sliding fit manner, a buffer spring 38 is elastically disposed between the protrusion 37 and an end wall of the spring placing cavity 39, and a grinding cylinder 42 is rotatably disposed in the parallel cylinder 41.
In the initial state, the above-mentioned devices, assemblies and structures are in the inactive state, and the device can fully clamp the shovel plate 18, and then fully polish the grip 11 by using the corresponding polishing device, so that the grip 11 is in the smooth state for the convenience of personnel.
When the shovel plate 18 is clamped, the shovel plate 18 is put into the clamping inner cavity 59, the driving matching motor 61 drives the matching threaded rod 53 to rotate after working, the matching threaded rod 53 drives the inner threaded plates 52 to approach each other after rotating due to the fact that the outer surface of the matching threaded rod 53 is provided with threads with opposite rotation directions, the side fixing blocks 54 are driven to move after the inner threaded plates 52 move, but in the process, due to the design of the guide rods 55, the sliding matching blocks 56, the side connecting rods 57 and the grooves 58, the side connecting rods 57 approach each other, the sliding matching blocks 56 slide on one side of the guide rods 55 and the grooves 58, the side connecting rods 57 push the side fixing blocks 54 to fully clamp the shovel plate 18, and therefore the shovel plate 18 is stably wrapped and clamped by the side fixing blocks 54 on the upper side and the lower side, then the side driving motor 15 drives the matching connecting rod 17 to rotate after working, because the bottom slider 19 is respectively in thread matching connection with the thread line with the opposite rotation direction on the outer surface of the matching connecting rod 17, the shovel plate 18, the vertical rod 21 and the handle 11 are wrapped on one side of the sliding box 13 after the sliding box 13 is driven by the bottom slider 19 to move, the design aims at preventing dust and the like from flying up when the handle 11 is ground, the top motor 32 drives the rotary threaded rod 34 to rotate after working, because the rotary threaded rod 34 is in thread matching connection with the sliding rod 36, the sliding rods 36 on two sides can respectively move around the two half parts of the handle 11 from the upper side and the lower side of the handle 11, and the grinding cylinder 42 is fully abutted against the handle 11 from the upper side and the lower side, the polishing cylinders 42 on both sides move around from the upper and lower sides of the grip 11 to polish the grip 11 sufficiently, and due to the elastic design of the buffer spring 38, the parallel cylinder 41, the projection 37 and the slide rod 36 can move elastically, so that the polishing cylinders 42 and the grip 11 are kept in contact with each other to improve the polishing effect.
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.