CN114833001A

CN114833001A - Building workpiece spraying equipment with automatic cyclic movement function and compression function

Info

Publication number: CN114833001A
Application number: CN202210652994.XA
Authority: CN
Inventors: 邹进波
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-06-09
Filing date: 2022-06-09
Publication date: 2022-08-02

Abstract

The invention relates to the field of constructional engineering equipment, in particular to a construction workpiece spraying device capable of automatically circularly moving and compressing, which comprises a transmission device for guiding and supporting, wherein the upper end surface of the transmission device is slidably clamped with a guiding device, a supporting rotating ring is rotatably clamped on the inner end surface of the guiding device, the upper end surface of the supporting rotating ring penetrates through to the bottom and is uniformly provided with limiting rotating grooves at equal intervals, and a connecting toothed ring is fixedly arranged at the center of the side end surface of the supporting rotating ring. According to the invention, by arranging the spraying device, when the spraying operation is carried out on the building workpiece, the connecting gear ring can synchronously provide autorotation and circumferential rotation power for the four groups of connecting gears, so that the multiple groups of spraying devices can carry out circumferential rotation on the upper part of the guide device, meanwhile, power is provided for the connecting clamping seat through the connecting gears and the fixed guide shaft, the high-pressure spraying is automatically carried out, and the efficiency of spraying the exterior of the building workpiece by the equipment is effectively improved.

Description

Building workpiece spraying equipment with automatic cyclic movement function and compression function

Technical Field

The invention relates to the technical field of building equipment, in particular to building workpiece spraying equipment which can automatically move circularly and can be compressed.

Background

After the building workpiece is processed, various spraying liquids need to be sprayed on the exterior of the building workpiece, so that the protective performance of the exterior of the building workpiece is improved, and the service life of the building workpiece is effectively prolonged.

However, the existing spraying equipment for building workpieces has the defects of insufficient efficiency of circular spraying on the building workpieces, inconvenience in integrated movable compression spraying on the building workpieces, reduction in spraying uniformity of the equipment and utilization efficiency of power, and therefore, the spraying equipment for building workpieces, which is capable of automatically circularly moving and compressing, is needed to solve the problems.

Disclosure of Invention

The invention aims to provide a building workpiece spraying device which has automatic cycle movement and can be compressed, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a building work piece spraying equipment with automatic cycle removes and can compress, is including being used for direction and the transmission who supports, transmission's up end slip joint has guider, and is located guider's interior terminal surface rotates the joint and has the support swivel, the up end that supports the swivel link up to the even equidistance in bottom has seted up spacing runner, the side end face center department fixed mounting that supports the swivel has the connection ring gear, guider's interior terminal surface has spraying device through the even equidistance meshing sliding connection of connection ring gear.

Preferably, the spraying device comprises a plate-shaped high-pressure nozzle, a sealing compression plate, a connection clamping seat, a guide sliding seat, an insertion sliding shaft, a limiting sliding block, a sealing compression cylinder, a spraying liquid storage box, a connection gear, a positioning sliding seat, a guide roller, a fixed guide shaft, a limiting sliding groove, a transfusion pipe body and a one-way valve, wherein the inner end surface of the positioning sliding seat is fixedly clamped with the spraying liquid storage box near the rear part, three groups of sealing compression cylinders are fixedly arranged at the bottom of the inner end surface of the positioning sliding seat at equal intervals, the outer end surface of the sealing compression cylinder is symmetrically and fixedly provided with the transfusion pipe body near the bottom, the center of the outer end surface of the transfusion pipe body is fixedly provided with the one-way valve, the front parts of the three groups of sealing compression cylinders are fixedly provided with the plate-shaped high-pressure nozzle through the transfusion pipe body, the inner end surface of the positioning sliding seat is close to the rear part and is rotatably clamped with the connection gear, and the fixed guide shaft is arranged at the center of the upper end surface of the connection gear, the outer terminal surface symmetry of fixed guide shaft has seted up spacing spout, fixed guide shaft has the direction slide through spacing spout slip joint, the preceding terminal surface bottom fixed mounting of direction slide has spacing slider, the interior terminal surface of direction slide is close to the fixed grafting slide axle that is provided with in bottom, the preceding terminal surface fixed mounting of direction slide has the connection cassette, and is located the even equidistance fixedly connected with three groups of sealed compression plates of lower terminal surface of connection cassette.

Preferably, the guiding device comprises a limiting tooth groove, a positioning clamping plate, a connecting guide shaft, a clamping sliding groove, a gear rotating groove, a positioning gear, a positioning rotating groove and a positioning chuck, wherein the side end face of the positioning chuck is uniformly and equidistantly fixedly mounted with eight groups of positioning clamping plates and located in four groups of the positioning clamping plates, the connecting guide shaft is fixedly mounted on the inner end face of each positioning clamping plate, the positioning clamping plates are located in the four groups of the positioning clamping plates, the gear rotating groove is formed in the inner end face of each positioning clamping plate, the positioning gear is connected to the rotating joint of the inner end face of each gear rotating groove in a rotating mode, the clamping sliding groove is formed in the center of the inner end face of each positioning gear, the inner end face of each positioning chuck is close to the bottom and provided with the limiting tooth groove, and the inner end face of each positioning chuck is close to the top and provided with the positioning rotating groove.

Preferably, transmission includes gear motor, transmission guide shaft, connects the spout, connects sliding shaft, fixed gear, transmission ring gear and supports the frame, the even equidistance of interior terminal surface of support frame rotates the joint and has four groups of transmission guide shafts, the even equidistance of the adjacent department of interior terminal surface and transmission guide shaft of support frame rotates the joint and has four groups of connection sliding shafts, just connect sliding shaft and transmission guide shaft alternate segregation, transmission guide shaft and the equal fixed gear of lower terminal surface center department of being connected the sliding shaft, eight groups mesh through the transmission ring gear between the fixed gear and connect, the connection spout has been seted up to the outer terminal surface symmetry of transmission guide shaft, the lower terminal surface of support frame is located one of them group the bottom fixed mounting of fixed gear has gear motor.

Preferably, the rear end face center department of location slide has seted up the joint spout, just the joint spout all is T shape setting with spacing slider's cross section, grafting slide spindle and spacing spout looks adaptation, the direction slide passes through joint spout and spacing slider looks adaptation, grafting slide spindle and spacing spout looks adaptation and then the rear end face of slip joint at the location slide.

Preferably, the rear portion of the sealed compression cylinder is communicated and fixedly connected with the spraying liquid storage tank through three groups of infusion tube bodies, the bottom of the limiting sliding groove is connected with the inner end face of the sealed compression cylinder in a sealing and sliding mode through a sealed compression plate, and the connecting gear is meshed and connected with the inside of the limiting tooth groove.

Preferably, the supporting rotary ring is rotatably clamped in the positioning chuck through the positioning rotary groove, the four groups of gear rotary grooves are communicated with the inside of the positioning rotary groove, and the four groups of positioning gears are meshed and connected with the connecting gear ring through the gear rotary grooves.

Preferably, the center of the inner end face of the positioning chuck is provided with a guide rotating groove, the inner wall of the guide rotating groove is tangent to the guide roller, the clamping sliding groove is matched with the connecting sliding shaft, and the connecting sliding shaft is in sliding connection with the positioning gear through the clamping sliding groove.

Preferably, the positioning clamping plate is matched with the transmission guide shaft, the connecting sliding groove is matched with the connecting guide shaft, and the guide device is matched with the connecting guide shaft through the connecting sliding groove, matched with the transmission guide shaft and clamped on the upper end face of the transmission device in a sliding manner.

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

1. according to the invention, by arranging the spraying device, when the spraying operation is carried out on the building workpiece, the connecting gear ring can synchronously provide autorotation and circumferential rotation power for the four groups of connecting gears, so that the multiple groups of spraying devices can carry out circumferential rotation on the upper part of the guide device, meanwhile, power is provided for the connecting clamping seat through the connecting gears and the fixed guide shaft, the high-pressure spraying is automatically carried out, and the efficiency of spraying the exterior of the building workpiece by the equipment is effectively improved.

2. According to the invention, by arranging the transmission device, when spraying is carried out, the transmission device can synchronously drive eight groups of fixed gears to rotate in a meshing manner through the transmission gear ring, so that four groups of fixed gears can provide power for the transmission guide shaft and further drive the guide device to circularly move up and down, the other four groups of fixed gears can provide power for the connecting sliding shaft, further provide power for spraying for the spraying device in the guide device, and effectively improve the omnibearing of the spraying of the equipment to the exterior of the building workpiece.

3. When the spraying device is used for transmission, the speed reducing motor can synchronously drive the four groups of transmission guide shafts and the connecting sliding shafts through the transmission gear ring to enable the four groups of transmission guide shafts to synchronously drive the guiding device to circularly move up and down, and meanwhile, the four groups of connecting sliding shafts can provide compression power for the spraying device, so that the utilization efficiency of the power is improved to the greatest extent.

Drawings

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

FIG. 1 is an exploded view of a body of the present invention;

FIG. 2 is an assembled view of the body of the present invention;

FIG. 3 is a front view of the body of the present invention;

FIG. 4 is a cross-sectional view of the present invention taken along the front view A-A of the body;

FIG. 5 is a partial enlarged view of the main body I of the present invention;

FIG. 6 is a cross-sectional view of the present invention taken along the front view C-C of the body;

FIG. 7 is an enlarged view of a portion of the main body II of the present invention;

FIG. 8 is an exploded view of the spray coating device of the present invention;

FIG. 9 is an exploded side view of the spray coating device of the present invention;

FIG. 10 is a front view of the spray coating device of the present invention;

FIG. 11 is a cross-sectional view of the present invention taken along the front view D-D of the spray coating device;

FIG. 12 is an exploded view of the guide of the present invention;

FIG. 13 is an exploded view of the transmission of the present invention.

In the figure: 1-limit rotating groove, 2-connecting gear ring, 3-spraying device, 4-supporting rotating ring, 5-guiding device, 6-transmission device, 31-plate-shaped high-pressure spray head, 32-sealing compression plate, 33-connecting clamping seat, 34-guiding sliding seat, 35-inserting sliding shaft, 36-limit sliding block, 37-sealing compression cylinder, 38-spraying liquid storage tank, 39-connecting gear, 310-positioning sliding seat, 311-guiding roller, 312-fixing guide shaft, 313-limit sliding groove, 314-transfusion tube body, 315-one-way valve, 51-limit tooth groove, 52-positioning clamping plate, 53-connecting guide shaft, 54-clamping sliding groove, 55-gear rotating groove, 56-positioning gear, 57-positioning rotating groove, 58-positioning chuck, 61-speed reducing motor, 62-transmission guide shaft, 63-connecting chute, 64-connecting sliding shaft, 65-fixed gear, 66-transmission gear ring and 67-supporting frame.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Example 1

Referring to fig. 1-13, an embodiment of the present invention is shown: the utility model provides a building work piece spraying equipment with automatic cycle removes and can compress, including being used for direction and the transmission 6 that supports, transmission 6's up end slip joint has guider 5, and the interior terminal surface that is located guider 5 rotates the joint and has a support change 4, the up end that supports change 4 link up to the even equidistance in bottom and has seted up spacing rotary trough 1, support change 4's side end face center department fixed mounting has connection ring gear 2, the interior terminal surface of guider 5 has spraying device 3 through connecting the even equidistance meshing sliding connection of ring gear 2.

Referring to fig. 8, 9, 10 and 11, the spraying device 3 includes a plate-shaped high pressure nozzle 31, a sealing compression plate 32, a connection clamping seat 33, a guide sliding seat 34, an insertion sliding shaft 35, a limit sliding block 36, a sealing compression cylinder 37, a spraying liquid storage tank 38, a connection gear 39, a positioning sliding seat 310, a guide roller 311, a fixed guide shaft 312, a limit sliding chute 313, a transfusion tube body 314 and a one-way valve 315, wherein the spraying liquid storage tank 38 is fixedly clamped at a position close to the rear part of the inner end surface of the positioning sliding seat 310, three groups of sealing compression cylinders 37 are fixedly installed at the bottom of the inner end surface of the positioning sliding seat 310 at equal intervals uniformly, the transfusion tube body 314 is symmetrically and fixedly installed at the position close to the bottom of the outer end surface of the sealing compression cylinder 37, the one-way valve 315 is fixedly installed at the center of the outer end surface of the transfusion tube body 314, the plate-shaped high pressure nozzle 31 is fixedly installed at the front part of the three groups of sealing compression cylinders 37 through the transfusion tube body 314, the connection gear 39 is rotatably clamped at a position close to the rear part of the inner end surface of the positioning sliding seat 310, and a fixed guide shaft 312 is fixedly installed at the center of the upper end face of the connecting gear 39, a limiting sliding groove 313 is symmetrically formed in the outer end face of the fixed guide shaft 312, the fixed guide shaft 312 is slidably clamped with a guide sliding seat 34 through the limiting sliding groove 313, a limiting sliding block 36 is fixedly installed at the bottom of the front end face of the guide sliding seat 34, an inserting sliding shaft 35 is fixedly arranged at the inner end face of the guide sliding seat 34 close to the bottom, a connecting clamping seat 33 is fixedly installed at the front end face of the guide sliding seat 34, and three groups of sealing compression plates 32 are fixedly connected to the lower end face of the connecting clamping seat 33 at equal intervals.

As shown in fig. 12, the guiding device 5 includes a limiting tooth slot 51, positioning clamping plates 52, connecting guide shafts 53, clamping slide grooves 54, gear rotating grooves 55, positioning gears 56, positioning rotating grooves 57 and positioning chucks 58, the side end surfaces of the positioning chucks 58 are uniformly and equidistantly fixedly mounted on eight groups of positioning clamping plates 52, the connecting guide shafts 53 are fixedly mounted on the inner end surfaces of four groups of positioning clamping plates 52, the gear rotating grooves 55 are formed on the inner end surfaces of the other four groups of positioning clamping plates 52, the positioning gears 56 are rotatably clamped on the inner end surfaces of the gear rotating grooves 55, the clamping slide grooves 54 are formed in the centers of the inner end surfaces of the positioning gears 56, the limiting tooth slot 51 is formed near the bottom of the inner end surface of the positioning chuck 58, and the positioning rotating grooves 57 are formed near the top of the inner end surface of the positioning chuck 58.

As shown in fig. 13, the transmission device 6 includes a reduction motor 61, transmission guide shafts 62, connecting chutes 63, connecting sliding shafts 64, fixed gears 65, transmission gear rings 66 and a support frame 67, four groups of transmission guide shafts 62 are uniformly and equidistantly rotatably clamped on an inner end surface of the support frame 67, four groups of connecting sliding shafts 64 are uniformly and equidistantly rotatably clamped on an inner end surface of the support frame 67 adjacent to the transmission guide shafts 62, the connecting sliding shafts 64 and the transmission guide shafts 62 are separated from each other, the fixed gears 65 are fixedly mounted on centers of lower end surfaces of the transmission guide shafts 62 and the connecting sliding shafts 64, eight groups of fixed gears 65 are meshed and connected through the transmission gear rings 66, the connecting chutes 63 are symmetrically formed on the outer end surface of the transmission guide shafts 62, and the reduction motor 61 is fixedly mounted on bottoms of one group of the fixed gears 65 on lower end surfaces of the support frame 67.

As shown in fig. 8, the rear end face center of the positioning sliding seat 310 is provided with a clamping sliding groove, and the clamping sliding groove and the cross section of the limiting sliding block 36 are both in a T-shaped arrangement, the insertion sliding shaft 35 and the limiting sliding groove 313 are adapted, the guiding sliding seat 34 is adapted to the limiting sliding block 36 through the clamping sliding groove, the insertion sliding shaft 35 and the limiting sliding groove 313 are adapted and then slidably clamped on the rear end face of the positioning sliding seat 310, the clamping sliding groove can be passed through the limiting sliding groove of the limiting sliding block 36, thereby the outside of the guiding sliding seat 34 is linearly limited, and the stability when the limiting sliding groove 313 drives the insertion sliding shaft 35 to ascend is effectively improved.

As shown in fig. 8 and 9, the rear portion of the sealing and compressing cylinder 37 is fixedly connected to the spraying liquid storage tank 38 through three sets of infusion tube bodies 314, the bottom of the limit chute 313 is connected to the inner end surface of the sealing and compressing cylinder 37 through the sealing and compressing plate 32 in a sealing and sliding manner, the connecting gear 39 is connected to the inside of the limit tooth slot 51 in a meshing manner, when the spraying liquid is compressed, the fixed guide shaft 312 can be moved up and down through the insertion sliding shaft 35 driven by the limit chute 313 in a circulating manner, so that the compression and lifting power is provided for the sealing and compressing plate 32 inside the sealing and compressing cylinder 37, and the subsequent circulating material suction and spraying through the infusion tube bodies 314 are facilitated.

As shown in fig. 6 and 12, the supporting rotary ring 4 is rotatably connected to the inside of the positioning chuck 58 through the positioning rotary groove 57, the four sets of gear rotary grooves 55 are communicated with the inside of the positioning rotary groove 57, the four sets of positioning gears 56 are meshed with the connecting toothed ring 2 through the gear rotary grooves 55, the positioning rotary groove 57 can provide a sufficient limiting space for the supporting rotary ring 4 and the connecting toothed ring 2, so that the stability of the supporting rotary ring 4 and the connecting toothed ring 2 in the rotation inside the positioning chuck 58 is improved, meanwhile, the positioning rotary groove 57 can be communicated with the gear rotary grooves 55, the four sets of positioning gears 56 can synchronously provide power for the connecting toothed ring 2, and the spraying device 3 can be conveniently sprayed in a circumferential rotation manner.

As shown in fig. 2 and 12, a guiding rotary groove is formed in the center of the inner end face of the positioning chuck 58, the inner wall of the guiding rotary groove is tangent to the guiding roller 311, the clamping sliding groove 54 is matched with the connecting sliding shaft 64, and the connecting sliding shaft 64 is in sliding connection with the positioning gear 56 through the clamping sliding groove 54, when the spraying device 3 performs circulating displacement on the upper portion of the guiding device 5, the supporting rotary ring 4 can limit the bottom of the connecting gear 39 through the limiting rotary groove 1, meanwhile, the guiding device 5 can limit the front portion of the spraying device 3 through the guiding roller 311, the two sides are limited, the spraying device 3 can be displaced without lateral deviation, and the spraying stability is improved.

As shown in fig. 12 and 13, the positioning clamping plate 52 is adapted to the transmission guide shaft 62, the connecting sliding groove 63 is adapted to the connecting guide shaft 53, the guiding device 5 is adapted to the connecting guide shaft 53 through the connecting sliding groove 63, the positioning clamping plate 52 is adapted to the transmission guide shaft 62 and is further slidably clamped on the upper end surface of the transmission device 6, when transmission is performed, the fixed gear 65 can drive the transmission guide shaft 62 on the upper portion to rotate, and meanwhile, the transmission guide shaft 62 can drive the four groups of the connection guide shafts 53 inside the positioning clamping plate 58 to synchronously move up and down through the spiral fixed track of the connecting sliding groove 63, so that the stability of the displacement of the guiding device 5 on the upper portion of the transmission device 6 is effectively improved, and meanwhile, the uniformity of subsequent spraying is also improved.

The working principle is as follows: before use, a user can install a hanger frame externally matched with equipment outside the transmission device 6 to facilitate subsequent rapid conveying and guiding operation on the building workpiece, when spraying operation is performed, as shown in fig. 1 and 7, the speed reducing motor 61 can drive the upper fixed gear 65 to rotate, meanwhile, when the fixed gear 65 rotates, the transmission gear ring 66 at the side part can be driven to carry out meshing rotation, so that when the transmission gear ring 66 rotates, the other seven groups of fixed gears 65 can be synchronously driven to synchronously rotate, when four groups of fixed gears 65 synchronously drive the upper fixed gear 65 to rotate, the transmission guide shaft 62 can drive the two groups of external connecting chutes 63 to rotate, and when the connecting chute 63 rotates, the connecting chute 63 can drive the four groups of connecting guide shafts 53 to synchronously and circularly lift up and down through limiting fit with the connecting guide shafts 53, meanwhile, as shown in fig. 13, the transmission gear ring 66 can also synchronously drive the other four sets of connecting sliding shafts 64 to rotate through the fixed gear 65, when the connecting sliding shafts 64 rotate, the connecting sliding shafts 64 can drive the positioning gear 56 to synchronously rotate through the connecting sliding shafts 64, and simultaneously, as the clamping sliding grooves 54 are in sliding clamping connection with the connecting sliding shafts 64, when the positioning gear 56 slides up and down outside the transmission device 6, the connecting sliding shafts 64 can still stably drive the positioning gear 56, as shown in fig. 5, when the positioning gear 56 rotates, the positioning gear 56 can drive the connecting gear ring 2 inside the positioning rotating groove 57 to rotate together, so that the connecting gear ring 2 can drive the supporting rotating ring 4 inside to synchronously rotate, and as the limiting rotating groove 1 inside the supporting rotating ring 4 is in rotating clamping connection with the upper part of the connecting gear 39, so that when the supporting rotating ring 4 rotates inside the positioning chuck 58, the spraying devices 3 can be synchronously driven to move together on the upper part of the positioning chuck 58, as shown in fig. 11 and 12, when the spraying devices 3 perform circular displacement, the connecting gear 39 can be meshed with the inside of the limiting tooth socket 51, so that when the spraying devices 3 perform circular rotation on the upper part of the positioning chuck 58, the connecting gear 39 can perform high-speed rotation, and when the connecting gear 39 rotates, the upper fixed guide shaft 312 can be driven to rotate, so that the fixed guide shaft 312 can drive the external limiting chute 313 to rotate, and simultaneously the limiting chute 313 can perform circular up-and-down lifting on the outside of the positioning slide seat 310 through the sliding clamping connection with the plugging sliding shaft 35, as shown in fig. 8 and 11, when the guiding slide seat 34 descends, the guiding slide seat 34 can drive the sealing compression plate 32 to compress inside the sealing compression cylinder 37 through the connecting clamping seat 33, at this time, the pressure inside the sealing and compressing cylinder 37 is increased, the check valve 315 located at the front plate-shaped high-pressure nozzle 31 is opened, and the check valve 315 located at the rear is closed, so that the high-pressure liquid inside the sealing and compressing cylinder 37 can be introduced into the plate-shaped high-pressure nozzle 31 through the front infusion tube 314, and then the external building workpiece is uniformly sprayed, otherwise, if the guiding slide seat 34 is raised, the inside of the sealing and compressing cylinder 37 is at a negative pressure, the check valve 315 located at the front is closed, and the check valve 315 located at the rear is opened, so that the sealing and compressing cylinder 37 can introduce the spraying liquid inside the spraying liquid storage tank 38 into the inside of the sealing and compressing cylinder 37 through the infusion tube 314, so as to facilitate the next spraying operation, when spraying, the guiding device 5 can perform a circulating up-and-down displacement along with the power output of the transmission device 6, and simultaneously, the plurality of groups of spraying devices 3 located at the upper part of the guiding device 5 can rotate around the guiding device 5 in a circulating manner, meanwhile, the synchronous high-speed spraying can be carried out, and the efficiency of spraying the building workpiece is effectively improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a building work piece spraying equipment with automatic cycle removes and can compress, includes transmission (6) that are used for direction and support, the up end slip joint of transmission (6) has guider (5), and is located the interior terminal surface of guider (5) rotates the joint and has support swivel (4), its characterized in that: the upper end face of supporting swivel (4) link up and seted up spacing revolving groove (1) to the even equidistance in bottom, the side end face center fixed mounting that supports swivel (4) has connection ring gear (2), the interior terminal surface of guider (5) has spraying device (3) through connecting the even equidistance meshing sliding connection of ring gear (2).

2. A construction work piece spray coating apparatus with automatic cycle movement and capable of compression as claimed in claim 1, wherein: the spraying device (3) comprises a plate-shaped high-pressure spray head (31), a sealing compression plate (32), a connecting clamping seat (33), a guiding sliding seat (34), an inserting sliding shaft (35), a limiting slide block (36), a sealing compression cylinder (37), a spraying liquid storage tank (38), a connecting gear (39), a positioning sliding seat (310), a guiding roller (311), a fixed guide shaft (312), a limiting sliding groove (313), a transfusion tube body (314) and a one-way valve (315), wherein the spraying liquid storage tank (38) is fixedly clamped at the position, close to the rear part, of the inner end face of the positioning sliding seat (310), three groups of sealing compression cylinders (37) are uniformly and equidistantly fixedly installed at the bottom of the inner end face of the positioning sliding seat (310), the transfusion tube body (314) is symmetrically and fixedly installed at the position, close to the bottom, of the outer end face of the sealing compression cylinder (37), the one-way valve (315) is fixedly installed at the center of the outer end face of the transfusion tube body (314), the front parts of the three groups of sealed compression cylinders (37) are fixedly provided with a plate-shaped high-pressure spray head (31) through a transfusion tube body (314), a connecting gear (39) is rotatably clamped on the inner end surface of the positioning sliding seat (310) close to the rear part, and a fixed guide shaft (312) is fixedly arranged at the center of the upper end surface of the connecting gear (39), the outer end surface of the fixed guide shaft (312) is symmetrically provided with limiting sliding grooves (313), the fixed guide shaft (312) is slidably clamped with a guide sliding seat (34) through the limiting sliding grooves (313), the bottom of the front end surface of the guide sliding seat (34) is fixedly provided with a limiting sliding block (36), an inserting sliding shaft (35) is fixedly arranged on the inner end surface of the guide sliding seat (34) close to the bottom, the front end surface of the guide sliding seat (34) is fixedly provided with a connecting clamping seat (33), and three groups of sealing compression plates (32) are uniformly and fixedly connected to the lower end surface of the connecting clamping seat (33) at equal intervals.

3. A construction work piece spray coating apparatus with automatic cycle movement and capable of compression as claimed in claim 2, wherein: the guiding device (5) comprises a limiting tooth groove (51), a positioning clamping plate (52), a connecting guide shaft (53), a clamping sliding groove (54), a gear rotating groove (55), a positioning gear (56), a positioning rotating groove (57) and a positioning clamping plate (58), the side end surface of the positioning chuck (58) is uniformly and equidistantly fixedly provided with eight groups of positioning clamping plates (52), the inner end surfaces of four positioning clamping plates (52) are fixedly provided with connecting guide shafts (53), the inner end surfaces of the other four positioning clamping plates (52) are provided with gear rotating grooves (55), and a positioning gear (56) is rotationally clamped on the inner end surface of the gear rotating groove (55), a clamping sliding groove (54) is arranged at the center of the inner end surface of the positioning gear (56), a limiting tooth groove (51) is arranged on the inner end surface of the positioning chuck (58) close to the bottom, and a positioning rotary groove (57) is arranged on the inner end surface of the positioning chuck (58) close to the top.

4. A construction work piece spray coating apparatus with automatic cycle movement and capable of compression as claimed in claim 3, wherein: the transmission device (6) comprises a speed reducing motor (61), transmission guide shafts (62), connecting chutes (63), connecting sliding shafts (64), fixed gears (65), a transmission gear ring (66) and a support frame (67), wherein the inner end surface of the support frame (67) is uniformly and equidistantly connected with four groups of transmission guide shafts (62), the inner end surface of the support frame (67) is uniformly and equidistantly connected with the adjacent positions of the transmission guide shafts (62) in a rotating manner and is uniformly and equidistantly connected with four groups of the connecting sliding shafts (64), the connection sliding shafts (64) and the transmission guide shafts (62) are mutually separated, the centers of the lower end surfaces of the transmission guide shafts (62) and the connection sliding shafts (64) are respectively and fixedly provided with the fixed gears (65), eight groups of the fixed gears (65) are meshed and connected through the transmission gear ring (66), the outer end surfaces of the transmission guide shafts (62) are symmetrically provided with the connecting chutes (63), the lower end face of the supporting rack (67) is positioned at the bottom of one group of the fixed gears (65) and is fixedly provided with a speed reducing motor (61).

5. A building workpiece coating apparatus with automatic cyclic movement and compression as claimed in claim 4, characterized in that: the rear end face center department of location slide (310) has seted up the joint spout, just the joint spout all is T shape setting with the cross section of spacing slider (36), grafting sliding shaft (35) and spacing spout (313) looks adaptation, direction slide (34) are through joint spout and spacing slider (36) looks adaptation, grafting sliding shaft (35) and spacing spout (313) looks adaptation and then the rear end face of slip joint at location slide (310).

6. A building workpiece coating apparatus with automatic cyclic movement and compression as claimed in claim 5, characterized in that: the rear part of the sealing compression cylinder (37) is fixedly connected with the spraying liquid storage tank (38) in a penetrating mode through three groups of infusion pipe bodies (314), the bottom of the limiting sliding groove (313) is connected with the inner end face of the sealing compression cylinder (37) in a sealing and sliding mode through a sealing compression plate (32), and the connecting gear (39) is meshed and connected with the inside of the limiting tooth groove (51).

7. A building workpiece coating apparatus with automatic cyclic movement and compression as claimed in claim 6, characterized in that: the supporting rotating ring (4) is further connected with the inside of the positioning chuck (58) in a rotating mode through the positioning rotating groove (57), the gear rotating grooves (55) are communicated with the inside of the positioning rotating groove (57), and the positioning gears (56) are connected with the connecting gear ring (2) in a meshing mode through the gear rotating grooves (55).

8. A construction work piece spray coating apparatus with automatic cycle movement and capable of compression as claimed in claim 7, wherein: the inner end face center of the positioning chuck (58) is provided with a guide rotating groove, the inner wall of the guide rotating groove is tangent to the guide roller (311), the clamping sliding groove (54) is matched with the connecting sliding shaft (64), and the connecting sliding shaft (64) is connected with the positioning gear (56) in a sliding mode through the clamping sliding groove (54).

9. A construction work piece spray coating apparatus with automatic cycle movement and capable of compression as claimed in claim 8, wherein: the positioning clamping plate (52) is matched with the transmission guide shaft (62), the connecting sliding groove (63) is matched with the connecting guide shaft (53), and the guiding device (5) is matched with the connecting guide shaft (53) through the connecting sliding groove (63), the positioning clamping plate (52) is matched with the transmission guide shaft (62) and then is in sliding clamping connection with the upper end face of the transmission device (6).