CN216609477U - Mechanism applied to cover mold convex position cleaning - Google Patents

Abstract

The utility model discloses a mechanism applied to cover mold convex position cleaning, which comprises a convex position cleaning roller structure, wherein the convex position cleaning roller structure comprises a second groove used for cleaning a cover film convex position, and the second groove can be matched with the cover mold convex position. The cover die cleaning device is provided with the cleaning convex roller structure, the cleaning convex roller structure is provided with the second groove, and the second groove can be matched with the convex position of the cover die, so that the cleaning convex roller structure can be specially used for cleaning the convex position of the cover die, the cover die is cleaned more cleanly, and the cleaning effect is better.

Description

Mechanism applied to cover mold convex position cleaning

Technical Field

The utility model relates to the field of tubular pile production, in particular to a mechanism applied to cleaning a convex position of a cover die.

Background

The tubular pile is a pile foundation material commonly used for foundation construction, is also an important concrete product, and is widely applied to foundation engineering of various buildings and constructions. The existing method for manufacturing the tubular pile adopts a tubular pile forming die (pipe die for short) comprising an upper die and a lower die, the pipe die usually consists of two half dies which are called the upper die and the lower die in the industry, slurry is put into the lower die, the upper die is closed and fixed with the lower die, or the upper die and the lower die are combined firstly and then the slurry is put into a die cavity, the tubular pile is obtained after the steps of tensioning, centrifuging, steam curing, demoulding and the like, in the demoulding process, the upper die and the lower die need to be separated firstly, the upper die is moved to a vacant position, and the lower die is turned over to separate the tubular pile from the lower die. After the whole set of working procedures is finished, the pipe die needs to be cleaned, if the pipe die is not cleaned or is not cleaned completely, the negative influence on the next manufacturing of the pipe pile can be caused, and the quality problem of the pipe pile can be caused in serious cases.

In the past, the pipe die is brushed by using an artificial brush, and the operation method has low automation degree and wastes time and labor. The mop material of the existing automatic scrubbing most of the bore cleaners is soft material, the soft material has not ideal effect on cleaning the concrete waste, and the cleaned concrete waste is not collected in real time, so that the cleaning effect of the rear bore cleaners can be further reduced due to the accumulation of the concrete waste cleaned in front.

Therefore, a technical solution to the above problems is needed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model aims to provide a mechanism applied to the cover die convex position cleaning.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a be applied to mechanism of protruding position clearance of lid mould, is including the protruding position roller structure of clearance, and the protruding position roller of clearance is structural including the second recess that is used for clearing up the protruding position of epiphragma, and the second recess can with the protruding position looks adaptation of lid mould.

The utility model has the following effects: the cover die cleaning device is provided with the cleaning convex roller structure, the cleaning convex roller structure is provided with the second groove, and the second groove can be matched with the convex position of the cover die, so that the cleaning convex roller structure can be specially used for cleaning the convex position of the cover die, the cover die is cleaned more cleanly, and the cleaning effect is better.

In some embodiments, the cleaning crowning roller arrangement includes a first shaft and a cleaning roller rotatably disposed on the first shaft, the second groove being disposed on an outer surface of the cleaning roller. From this, make the cleaning roller can rotate along with the cover mould removes, reduce cover mould and cleaning roller rigidity collision, make the cover mould difficult receive the damage.

In some embodiments, the cleaning roller comprises an end cover and end cover roller shells arranged at two ends of the roller shell, the cleaning roller is detachably arranged on the bearing through the end covers, the outer surface of the roller shell is provided with a second groove, and the cover die convex position can be embedded into the second groove, so that the roller shell can be used for cleaning the cover die convex position. From this, the simple structure of cleaning roller conveniently dismantles the change.

In some embodiments, the cleaning device further comprises a limiting sleeve, the first shaft is provided with a stepped groove, the cleaning roller is movably mounted on the first shaft, and the cleaning roller is limited on the first shaft through the limiting sleeve and the stepped groove. Thereby, the cleaning roller can move and rotate on the first shaft.

In some embodiments, the cover die cleaning machine further comprises a cleaning rack, the cleaning rack is provided with a channel arranged in the horizontal direction, the channel can be used for the cover die to pass through the cleaning rack, the cleaning convex roller is structurally installed in the cleaning rack, and the cleaning convex roller can clean the cover die passing through the channel. From this, make protruding position roller structure of clearance can clear up the lid mould.

In some embodiments, a roller groove cleaning structure is further included in the cleaning rack, the roller groove cleaning structure is installed at the bottom of the convex roller cleaning structure, the roller groove cleaning structure includes a cleaning pin, and the cleaning pin is located at the bottom of the second groove and can be used for cleaning the second groove. From this, can clear up protruding position roller structure through roller slot clearance structure, make protruding position roller structure of clearance keep clean, better clearance lid mould protruding position.

In some embodiments, the cleaning machine frame further comprises a rolling brush structure, the rolling brush structure comprises a rolling brush driving device and a rolling brush, the rolling brush driving device is mounted on the cleaning machine frame, the rolling brush is in driving connection with the rolling brush driving device, and the rolling brush driving device can drive the rolling brush to rotate. From this, the structural round brush of round brush can rotate, cleans the protruding position of lid mould, can clear up the lid mould once more through the round brush structure that sets up.

In some embodiments, still include steel wire clearance structure in the clearance frame, steel wire clearance structure includes wire rope, and wire rope sets up along vertical direction on steel wire clearance structure, and wire rope stretches to in the passageway, can be used for clearing up the cover mould. From this, can clean the concrete that glues on the cover mould through steel wire clearance structure, make the cover mould clearance cleaner.

In some embodiments, the steel wire cleaning structure further comprises a telescopic assembly, the steel wire cleaning structure is mounted on the cleaning rack through the telescopic assembly, and the telescopic assembly can be used for preventing the steel wire cleaning structure from being shocked. From this, can make steel wire clearance subassembly install and reduce vibrations in the clearance frame through flexible subassembly.

In some embodiments, the convex cleaning roller structure, the rolling brush structure and the steel wire cleaning structure are arranged in the cleaning rack along the length direction of the channel, the convex cleaning roller structure, the rolling brush structure and the steel wire cleaning structure are arranged below the channel, the convex cleaning roller structure and the steel wire cleaning structure are distributed on two sides of the rolling brush structure, and the steel wire cleaning structure is arranged on the inner side of the convex cleaning roller structure. From this, protruding position roller structure of clearance, round brush structure and steel wire clearance structure are all established in the passageway below, can carry out clearance many times to the lid mould, make lid mould protruding position clearance more thorough, and the clearance effect is better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described 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 to obtain other drawings based on these drawings without inventive labor.

FIG. 1 is a perspective view of an automated lid form cleaning machine according to a first embodiment of the present invention;

FIG. 2 is a first internal block diagram of a cleaning rack according to a first embodiment of the present invention;

FIG. 3 is a second internal structure diagram of a cleaning rack according to a first embodiment of the present invention;

FIG. 4 is a perspective view of a cap mold cavity cleaning mechanism according to an embodiment of the present invention;

FIG. 5 is a perspective view of a cover mold cavity cleaning mechanism with the cavity cleaning shield removed in accordance with an embodiment of the present invention;

FIG. 6 is a perspective view of a cleaning structure in accordance with a first embodiment of the present invention;

FIG. 7 is a perspective view of a gland in a first embodiment of the present invention;

FIG. 8 is a perspective view of a support chassis according to a first embodiment of the present invention;

FIG. 9 is a perspective view of a first embodiment of the present invention;

FIG. 10 is a cross-sectional view of a first embodiment of the present invention showing a relief roll cleaning structure;

FIG. 11 is a perspective view of a cleaning roll in accordance with a first embodiment of the present invention;

FIG. 12 is a perspective view of a first shaft in accordance with a first embodiment of the present invention;

FIG. 13 is a perspective view of a roller brush according to a first embodiment of the present invention;

FIG. 14 is a perspective view of a roll groove cleaning structure in accordance with an embodiment of the present invention;

FIG. 15 is a perspective view of a roll groove cleaning structure with the roll groove cleaning guard removed in accordance with one embodiment of the present invention;

FIG. 16 is a perspective view of a cotter pin in accordance with a first embodiment of the present invention;

FIG. 17 is a perspective view of a cleaning pin according to a first embodiment of the present invention;

FIG. 18 is a perspective view of a steel wire cleaning structure according to a first embodiment of the present invention;

FIG. 19 is a perspective view of a first embodiment of the present invention with the wire cleaning structure removed and the wire cleaning shield removed;

FIG. 20 is a perspective view of a wire cleaning shield in accordance with a first embodiment of the present invention;

FIG. 21 is a perspective view of a cover mold in accordance with a first embodiment of the present invention;

FIG. 22 is an enlarged view of the position A in FIG. 21;

FIG. 23 is a schematic diagram of an automated lid form cleaning machine according to a first embodiment of the present invention;

FIG. 24 is a perspective view of an automated form-lid cleaner according to a second embodiment of the present invention;

FIG. 25 is a perspective view of a release agent spray mechanism in accordance with a second embodiment of the present invention;

FIG. 26 is a perspective view of a cover mold oiling structure in a second embodiment of the present invention;

FIG. 27 is a schematic diagram of an automated mold lid cleaner according to a second embodiment of the present invention.

In the figure: 1. cleaning the rack; 11. a channel; 12. a protective barrier; 13. a concrete recovery hopper; 2. A cover die inner cavity cleaning mechanism; 21. cleaning the structure; 211. a gland; 212. a wire brush; 213. a first groove; 214. mounting holes; 215. a first through hole; 22. a support chassis; 221. a guide base plate; 222. A shock-proof spring; 223. a guide rail; 224. a limiting plate; 23. an inner cavity cleaning rack; 231. a support frame; 232. turning over the frame; 233. a rotating shaft; 234. a shaft gland; 24. an inner cavity cleaning driving device; 241. a drive motor; 242. a first pulley; 243. a second pulley; 244. a driving cylinder; 25. cleaning a protective cover in the inner cavity; 3. a cover die convex position cleaning mechanism; 31. cleaning the convex roller structure; 311. a second groove; 312. a bearing seat; 313. a first shaft; 314. cleaning the roller; 315. an end cap; 316. a roll shell; 317. a limiting sleeve; 318. a stepped groove; 32. a rolling brush structure; 321. a roller brush drive device; 322. rolling and brushing; 33. a roll groove cleaning structure; 331. mounting a rod; 332. a slide rail; 333. a slider; 334. cushion blocks; 335. a mounting seat; 336. cleaning a protective cover in a roller groove; 337. cleaning the pin; 338. A cotter pin; 339. a limiting hole; 34. a steel wire cleaning structure; 341. a telescoping assembly; 3411. mounting a plate; 3412. a connecting rod; 3413. a spring; 3414. a limit nut; 342. a steel wire cleaning assembly; 3421. a steel wire mounting block; 3422. a wire rope; 3423. a second through hole; 343. cleaning a protective cover by using a steel wire; 4. covering the mold; 41. covering the convex position of the mold; 42. covering the inner cavity of the mold; 5. a release agent spraying mechanism; 51. a release agent spray head; 52. a cover die oiling structure; 521. an oil tank; 522. an oiling roller; 53. spraying a release agent bracket; 54. a release agent collection structure; 541. a release agent collecting hopper; 542. a release agent collecting box; 543. A residue-liquid separator; 544. a liquid outlet pipe; 545. a ball valve; 55. a release agent flow guide structure; 551. a mold release agent blocking frame; 552. a release agent deflector; 56. a release agent supply system.

Detailed Description

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the utility model, 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 invention.

This embodiment is briefly described as follows:

the first embodiment is as follows:

fig. 1 schematically shows an automatic cover die cleaning machine for cleaning a cover die in a pipe pile production process according to the utility model.

Referring to fig. 1 to 23, the automatic cover mold cleaning machine comprises a cleaning rack 1, a cover mold inner cavity cleaning mechanism 2 and a cover mold convex position cleaning mechanism 3, wherein the cleaning rack 1 is provided with a channel 11 arranged along the horizontal direction, and the channel 11 can be used for the cover mold 4 to pass through the cleaning rack 1; the cover die inner cavity cleaning mechanism 2 is arranged at one end of the cleaning rack 1, the cover die inner cavity cleaning mechanism 2 is positioned at an inlet of the barrel channel 11, the cover die inner cavity cleaning mechanism 2 is provided with a cleaning structure 21 which can be used for cleaning the cover die inner cavity 42, so that when the cover die 4 passes through the cleaning rack 1, the cover die inner cavity cleaning mechanism 2 passes through first, and the inner cavity can be cleaned by the cover die inner cavity cleaning structure 2; the cover die convex position cleaning mechanism 3 is arranged in the cleaning rack 1, the cover die convex position cleaning mechanism 3 is provided with a cleaning convex position roller structure 31 which can be used for cleaning the cover die convex position 41, and when the cover die 4 enters the cleaning rack 1 from the channel 11, the cover die can be cleaned through the cleaning convex position roller structure 31. Wherein:

referring to fig. 4 to 8, in some embodiments, the cover mold inner cavity cleaning mechanism 2 further includes a supporting chassis 22, an inner cavity cleaning chassis 23, and an inner cavity cleaning driving device 24, the inner cavity cleaning chassis 23 is mounted on the supporting chassis 22, the inner cavity cleaning driving device 24 is mounted on the inner cavity cleaning chassis 23, the cleaning structure 21 is mounted on the inner cavity cleaning driving device 24, and the cleaning structure 21 is in driving connection with the inner cavity cleaning driving device 24, the cleaning structure 21 can drive the cleaning cover mold 4 through the inner cavity cleaning driving device 24, the cleaning structure 21 can be used for cleaning the cover mold inner cavity 42 through the supporting chassis 22 and the inner cavity cleaning driving device 24 disposed on the inner cavity cleaning chassis 23, the cover mold inner cavity 42 can be automatically cleaned through the cover mold inner cavity cleaning mechanism, the automation degree of the device is high, manual cleaning is avoided, and the labor intensity of operators is reduced, greatly improves the working efficiency, saves labor force and meets the requirement of automatic cleaning of the cover die 4.

Preferably, in this embodiment, when the cavity cleaning frame 23 is mounted on the supporting chassis 22, a shock-proof member is further disposed between the supporting chassis 22 and the cavity cleaning frame 23. Specifically, the support chassis 22 is provided with a guide bottom plate 221, the guide bottom plate 221 is provided with 1-4 guide rails 223, preferably, two guide rails 223, the cavity cleaning rack 23 is movably mounted on the guide rails 223 through a sliding block and can move on the guide rails 223, the compression springs 222 are arranged between the guide rails 223, the compression springs 222 can be arranged in multiple numbers and are arranged inside and/or outside the guide rails 223, the middle part of the guide bottom plate 221 is provided with a limit plate 224, preferably, two compression springs 222 are arranged, one ends of the two compression springs 222 are connected to the sliding block of the support chassis 22, the other ends of the two compression springs are respectively connected to two sides of the limit plate 224, the compression springs 222 are used as shock-proof members between the support chassis 22 and the cavity cleaning rack 23, when the cavity cleaning rack 23 is mounted on the guide rails 223, the extension direction of the compression spring 222 is the same as the extension direction of the guide rail, so that the inner cavity cleaning rack 23 can slightly move within the elastic range of the compression spring 222, the vibration is reduced, and the vibration of the cover mold inner cavity cleaning mechanism 2 and the cleaning structure 21 is reduced. Alternatively, the shock absorbing member may be an extension spring, a spring plate, elastic rubber, elastic sponge, or the like.

Moreover, inner chamber clearance frame 23 is including supporting frame 231 and upset frame 232, support frame 231 bottom through slider movable mounting on guided way 223, upset frame 232 one end installation clearance structure 21, the upset frame 232 other end is through pivot movable mounting at the top of supporting frame 231, make upset frame 232 overturn at supporting frame 231 top, make clearance structure 21 can overturn on inner chamber clearance frame 23, it is wider to make clearance structure 21 clearance scope, the clearance structure 21 clearance that makes cover mould inner chamber clearance mechanism 2 is more comprehensive, it is more thorough.

Further, clearance structure 21 includes gland 211 and steel brush 212, be equipped with first through-hole 215 on gland 211, it is preferred, gland 211 is equipped with a plurality ofly, thereby can pass first through-hole 215 through the bolt between a plurality of glands 211 and compress tightly gland 211 together, and compress tightly the one end of steel brush 212 between gland 211, make the other end of steel brush 212 extend along gland 211 radial direction toward the gland 211 outside, the steel brush 212 that makes installation on gland 211 is used for clearance cover mould inner chamber 42, through the steel brush 212 on clearance structure 21, it is cleaner to make 2 clearance cover moulds 4 of cover mould inner chamber clearance mechanism. More preferably, the pressing cover 211 is provided with first grooves 213, the first grooves 213 are arranged in an annular array around the pressing cover 211, the first grooves 213 between the pressing covers 211 correspond, when the two pressing covers 211 are pressed together, one end of the steel wire brush 212 is pressed in the first grooves 213 on the two pressing covers 211, so that the steel wire brush 212 is more easily fixed on the pressing cover 211.

The inner cavity cleaning driving device 24 comprises a driving motor 241, a first belt pulley 242, a second belt pulley 243 and a driving cylinder 244, wherein the driving motor 241 is fixedly installed on the side surface of the supporting frame 231 through bolts, the first belt pulley 242 is installed on the top of the supporting frame 231 through a rotating shaft, so that the first belt pulley 242 can movably rotate on the top of the supporting frame 231, and the first belt pulley 242 is in transmission connection with the driving motor 241 through a belt; the second belt pulley 243 is installed on the turnover frame 232, and the second belt pulley 243 can be movably rotated on the turnover frame 232, and the second belt pulley 243 is connected with the first belt pulley 242 through belt transmission, so that the kinetic energy of the driving motor 241 on the support frame 231 can be transmitted to the turnover frame 232, and the turnover of the turnover frame 232 on the support frame 231 cannot be influenced.

Moreover, the cleaning structure 21 is installed on the turning frame 232, and is in driving connection with the second belt pulley 243 on the turning frame 232, and can rotate along with the second belt pulley 243, and when the turning frame 232 turns, the driving motor 241 on the supporting frame 231 can drive the cleaning structure 21 to clean the inner cavity 42 of the cover mold. Specifically, the middle part of the gland 211 of the cleaning structure 21 is provided with a mounting hole 214, the overturning frame 232 is provided with a rotating shaft 233 capable of movably rotating, the gland 211 is mounted at one end of the rotating shaft 233 through the mounting hole 214, the cleaning structure 21 is in transmission connection with the rotating shaft 233 through a shaft key, the cleaning structure 21 is limited on the rotating shaft 233 through a shaft gland 234, and the cleaning structure 21 is mounted on the overturning frame 232 to be capable of rotating; and second belt pulley 243 fixed mounting makes second belt pulley 243 rotate with axis of rotation 233 simultaneously at the other end of axis of rotation 233, makes second belt pulley 243 can drive clearance structure 21 and rotate, makes clearance structure 21 can be connected with inner chamber clearance drive arrangement 24 drive, makes clearance structure 21 can be connected with second belt pulley 243 coaxial, and second belt pulley 243 is driven the back by driving motor 241, can drive clearance structure 21 and clear up.

One end of the driving cylinder 244 is hinged to the supporting frame 231, and the other end of the driving cylinder 244 is hinged to the middle of the overturning frame 232, so that the overturning frame 232 can be driven by the driving cylinder 244 to overturn on the supporting frame 231, and the overturning frame 232 can automatically overturn on the supporting frame 231.

Cover mould inner chamber clearance mechanism 2 still includes inner chamber clearance protection casing 25, inner chamber clearance protection casing 25 is installed on supporting chassis 22, and inner chamber clearance protection casing 25 cover outside direction bottom plate 221 and inner chamber clearance frame 23, an inner chamber clearance drive arrangement 24 for protecting installation on inner chamber clearance frame 23 and the inner chamber clearance frame 23, and inner chamber clearance protection casing 25 sets up the opening, upset frame 232 can stretch out from the opening, make upset frame 232 can overturn outside inner chamber clearance protection casing 25, through inner chamber clearance protection casing 25 protection inner chamber clearance drive arrangement 24 not damaged by the fragment of concrete.

Referring to fig. 2 and 3, the cover mold convex position cleaning mechanism 3 further comprises a rolling brush structure 32, a roller groove cleaning structure 33 and a steel wire cleaning structure 34, the convex position cleaning roller structure 31, the rolling brush structure 32, the roller groove cleaning structure 33 and the steel wire cleaning structure 34 are all installed in the cleaning rack 1, the convex position cleaning roller structure 31, the rolling brush structure 32 and the steel wire cleaning structure 34 are arranged in the cleaning rack along the length direction of the channel 11, the convex position cleaning roller structure 31, the rolling brush structure 32 and the steel wire cleaning structure 34 are all arranged below the channel 11, when the cover mold 4 passes through the cleaning rack 1, the convex position cleaning roller structure 31, the rolling brush structure 32 and the steel wire cleaning structure 34 are all located at the bottom of the cover mold 4 for cleaning the convex position of the cover mold 4, the convex position cleaning roller structure 31 and the steel wire cleaning structure 34 are all installed at two sides of the rolling brush structure 32, and the steel wire cleaning structure 34 is arranged at the inner side of the convex position cleaning roller structure 31, install in the bottom of clearing up protruding position roller structure 31 roller groove clearance structure 33, roller groove clearance structure 33 can be used for clearing up protruding position roller structure 31 clean, can clear up lid mould 4 once more through the round brush structure 32 that sets up, can clear up protruding position roller structure 31 of clearance through roller groove clearance structure 33, make the protruding position roller structure 31 of clearance keep clean, better clearance lid mould protruding position 41, can clean the concrete that glues on the lid mould 4 through steel wire clearance structure 34, it is cleaner to make lid mould 4 clear up.

Referring to fig. 9 to 12, be equipped with the second recess 311 that is used for clearing up the protruding position of epiphragma on the protruding position roller structure 31 of clearance, second recess 311 size can with the protruding position 41 size looks adaptation of epiphragma, make the protruding position roller structure 31 of clearance can be used for clearing up the protruding position of epiphragma 4 specially, make the protruding position roller structure 31 of clearance epiphragma clear up epiphragma 41 more thoroughly, make the epiphragma 4 clearance cleaner, the cleaning effect is better. Specifically, protruding position roller structure 31 of clearance includes bearing frame 312, first axle 313 and cleaning roller 314, first axle 313 is installed and can is rotated on bearing frame 312, cleaning roller 314 is installed and can be rotated along with first axle 313 rotation on first axle 313, second recess 311 is equipped with a plurality ofly, a plurality of second recesses 311 are arranged on cleaning roller 314's surface along cleaning roller 314 axial direction, make cleaning roller 314 can rotate along with the removal of lid mould 4, reduce lid mould 4 and cleaning roller 314 rigid collision, make lid mould 4 be difficult for receiving the damage, and the second recess on cleaning roller 314 can be used for clearing up the protruding position of lid mould.

Furthermore, the cleaning roller 314 comprises end covers 315 and a roller shell 316, the cleaning roller 314 is detachably sleeved on the first shaft 313 through the end covers 315, two ends of the roller shell 316 are detachably mounted on the two end covers 315 through bolts, the end covers 315 are mounted on the first shaft 313, the roller shell 316 is of a cylindrical structure, the second grooves 311 are formed in the outer surface of the roller shell 316, the second grooves 311 are arranged on the outer surface of the roller shell 316 along the axial direction of the roller shell 316, the distance between the second grooves 311 is slightly larger than the width of the cover mold convex position 41, the cover mold convex position 41 can be embedded into the second grooves 311, the roller shell 316 can be used for cleaning the cover mold convex position 41, and the cleaning roller 314 is simple in structure and convenient to detach and replace.

Moreover, the convex cleaning roller structure 31 further comprises a limiting sleeve 317, the first shaft 313 is provided with a protrusion in the middle position, so that the diameters of the two ends of the first shaft are smaller than the diameter of the middle part, the two ends of the first shaft 313 and the middle part form a stepped groove 318, the end cover 315 of the cleaning roller 314 is sleeved on the first shaft 313, so that the cleaning roller 314 is movably mounted on the first shaft 313, and the cleaning roller 313 can move on the first shaft; the limiting sleeve 317 is sleeved at the two ends of the first shaft 313, the cleaning roller 314 is limited at the two ends of the first shaft 313 through the limiting sleeve 317 and the stepped groove 318, so that the cleaning roller 313 can move on a space between the limiting sleeve 317 and the stepped groove, the cleaning roller 314 can rotate on the first shaft 313, the cleaning roller 314 is fixed on the first shaft 313 with the base, and the cleaning roller 314 is arranged on the first shaft 313 and has the functions of left-right movement and rotation, so that the phenomenon that the protruding positions of pipe dies are inconsistent is adapted; when the cover die 4 passes through the cleaning roller, the cleaning roller 314 is driven by the cover die 4 to rotate, when the cleaning roller 314 rotates, the first shaft 313 is driven to rotate by the rolling friction force of the cleaning roller 314 and the first shaft 313, the abrasion between the cleaning roller 314 and the first shaft 313 is reduced, and the cleaning roller 314 is driven by the driven pipe die 4.

Referring to fig. 13, the rolling brush structure 32 includes a rolling brush driving device 321 and a rolling brush 322, the rolling brush driving device 321 is installed on the cleaning frame 1, the rolling brush 322 is provided with a plurality of pieces, the plurality of pieces of rolling brush 322 are in driving connection with the rolling brush driving device 321, and the rolling brush driving device 321 can drive the rolling brush 322 to rotate, so that the rolling brush 322 on the rolling brush structure 32 can rotate to clean the cover mold convex position 41. Specifically, in the present embodiment, the roller brush structure 32 is a driving motor.

Referring to fig. 14 to 17, the roller slot cleaning structure 33 includes a mounting rod 331, a slide rail 332, a slide block 333, a cushion block 334, a mounting seat 335, a roller slot cleaning shield 336, a cleaning pin 337 and a split pin 338, the mounting rod 331 is provided with a fixing plate which is mounted on the cleaning frame 1 through bolts, the slide rail 332 is fixedly mounted on the mounting rod 331, the slide block 333 is mounted on the slide rail 332, the cushion block 334 is mounted on the slide block 333, and the mounting seat 335 is mounted on the cushion block 334, so that the mounting seat 335 is mounted on the slide rail 332 and can move on the slide rail 332; be equipped with clearance round pin mounting hole (not marked) on mount pad 335, clearance round pin 337 installs on mount pad 335 through clearance round pin mounting hole, and the side of mount pad 335 and clearance round pin 337 side all set up spacing hole 339, spacing hole 339 communicates in the clearance round pin mounting hole, cotter 338 can insert the side of mount pad 335 and carry out spacing fixed with clearance round pin 337 in the spacing hole 339 of clearance round pin 337 side, roller slot clearance protection casing 336 covers outside mount pad 335, roller slot clearance structure 33 can adjust according to the position of clearance boss roller structure 31, roller slot clearance protection casing 336 can guarantee the life of roller slot clearance structure 33, and when roller slot clearance structure 33 installed in the bottom of clearance boss roller structure 31, clearance round pin 337 is just to clearance boss roller structure 31 second recess 311, clearance round pin 337 can be used for clearing up second recess 311.

Referring to fig. 18 to 20, steel wire clearance structure 34 includes flexible subassembly 341, steel wire clearance subassembly 342 and steel wire clearance protection casing 343, flexible subassembly 341 is installed on clearance frame 1, steel wire clearance subassembly 342 is connected on flexible subassembly 341, can stretch out and draw back through flexible subassembly 341, steel wire clearance protection casing 343 covers and establishes on steel wire clearance subassembly 342, can make steel wire clearance subassembly 342 install the reduction vibrations on clearance frame 1 through flexible subassembly 341, the life of steel wire clearance structure 34 can be guaranteed to the protection casing.

Furthermore, the telescopic assembly 341 includes a mounting plate 3411, a connecting rod 3412, a spring 3413 and a limit nut 3414, the telescopic assembly 341 is mounted on the cleaning rack 1 through the mounting plate 3411, the connecting rod 3412 is sequentially connected with the spring 3413, the mounting plate 3411 and the limit nut 3414 from top to bottom, the wire cleaning assembly 342 is connected to the connecting rod 3412 and connected to one end of the connecting rod 3412 and abuts against the spring 3413, and vibration of the wire cleaning assembly 342 can be reduced by arranging the spring 3413.

Furthermore, the steel wire cleaning component 342 includes a steel wire mounting block 3421 and a steel wire rope 3422, a steel wire mounting hole and a steel wire limiting hole are formed in the steel wire cleaning component 342, the steel wire rope 3422 penetrates into the steel wire mounting hole to enable the steel wire rope 3422 to be mounted on the steel wire mounting block 3421, the steel wire rope 3422 is vertically arranged on the steel wire cleaning structure 34, the steel wire rope 3422 tightly supports the steel wire rope 3422 on the steel wire mounting block 3421 through mounting bolts on the steel wire limiting hole, the steel wire rope 3422 extends into the channel 11, and the steel wire mounting block 3421 is connected to the connecting rod 3412; and the steel wire cleaning protective cover 343 is provided with a second through hole 3423, the steel wire cleaning protective cover 343 is covered on the steel wire mounting block 3421, the steel wire rope 3422 can extend out from the second through hole 3423, the steel wire rope 3422 corresponds to the position of the cover mold convex position 41, the steel wire rope 3422 arranged on the steel wire cleaning assembly 342 can clean the cover mold convex position 41, so that the cover mold convex position 41 can be cleaned more thoroughly, and the cleaning effect is better.

Moreover, referring to fig. 1 and 2, in the present embodiment, a protective partition 12 and a concrete recovery bucket 13 are installed in the cleaning rack 1, the protective partition 12 is installed on the side surface and the top surface of the cleaning rack 1, when the cover mold convex position cleaning mechanism 3 cleans the cover mold inner cavity 42 by installing the protective partition 12, the cleaned concrete is prevented from flying out, and the noise generated when the cover mold convex position cleaning mechanism 3 cleans the cover mold convex position 41 can be reduced; concrete recycling hopper 13 is arranged below cover die convex position cleaning mechanism 3, and concrete cleaned by cover die convex position cleaning mechanism 3 can be collected from cover die 4 by arranging concrete recycling hopper 13, so that environment pollution is prevented.

The working principle of the utility model is as follows:

referring to 23, during production, the cover mold 4 needing to be cleaned can be moved by an external cover mold moving mechanism or a cover mold transmission belt, so that the cover mold 4 firstly passes through the cover mold inner cavity cleaning mechanism 2 and then enters the cleaning rack 1. When cover mould 4 passes through cover mould inner chamber clearance mechanism 2, drive actuating cylinder 244 drive upset frame 232, make clearance structure 21 on the upset frame 232 move to cover mould inner chamber 42 position, make the steel brush 212 cleaning cover mould inner chamber 42 on the clearance structure 21 through the driving motor 241 drive, and the accessible drives actuating cylinder 244 drive and makes clearance structure 21 make a round trip to clean cover mould inner chamber 42, and the clearance is cleaner. When lid mould 4 advances to get into clearance frame 1 in, the protruding position roller structure 31 of clearance in the clearance frame 1, round brush structure 32 and steel wire clearance structure 34 homoenergetic are cleaned the protruding position of lid mould 4 bottom, and roller groove clearance structure 33 can clean protruding position roller structure 31 of clearance, make the protruding position roller structure 31 of clearance effect better.

Example II

Referring to fig. 24 to 27, another automated cover mold cleaning machine of the present invention is provided in this embodiment, which is different from the first embodiment in that: still including spouting release agent mechanism 5, cover mould inner chamber clearance mechanism 2 sets up when the one end of clearance frame 1, spout release agent mechanism 5 and install the other end at clearance frame 1, and spout the exit that release agent mechanism 5 is located passageway 11, it is equipped with release agent shower nozzle 51 and can be used for spouting the release agent for the cover mould 4 that needs the drawing of patterns to spout release agent mechanism 5, can be used for the cover mould 4 after the clearance to spout the release agent automatically through spouting release agent mechanism 5, can reduce operating personnel's intensity of labour, greatly improved work efficiency. Wherein:

in the embodiment, the demolding agent spraying mechanism 5 further comprises a cover mold oiling structure 52, a demolding agent spraying support 53, a demolding agent collecting structure 54 and a demolding agent guiding structure 55, wherein the demolding agent spray head 51, the cover mold oiling structure 52, the demolding agent collecting structure 54 and the demolding agent guiding structure 55 are all installed on the demolding agent spraying support 53, the cover mold oiling structure 52 is arranged on one side of the demolding agent spraying support 53 close to the cleaning rack 1, the demolding agent spray head 51 is arranged on one side of the demolding agent spraying support 53 far away from the cleaning rack 1, the demolding agent guiding structure 55 is arranged beside the moving direction of the cover mold 4 and beside the material spraying direction of the demolding agent spray head 51, so that the demolding agent guiding structure can be used for guiding the part of the demolding agent sprayed by the demolding agent spray head and not sprayed onto the cover mold 4 to the demolding agent collecting structure, the demolding agent collecting structure 54 is installed below the demolding agent spray head 51 and the cover mold oiling structure 52, the release agent and cover die oiling can be recycled by arranging the release agent spraying collection structure 54 and the release agent flow guide structure 55, so that waste is prevented.

Specifically, the release agent collecting structure 54 comprises a release agent collecting bucket 541 and a release agent collecting box 542, the release agent spray head 51 and the cover mold oiling structure 52 are positioned above the release agent collecting bucket 541, the release agent collecting box 542 is positioned right below the release agent collecting bucket 541, a slag-liquid separator 543 is arranged at the bottom of the release agent collecting bucket 541, a drain pipe 544 is arranged at the bottom of the release agent collecting box 542, a ball valve 545 is arranged on the drain pipe 544, the release agent falling from the release agent spray head 51 and the cover mold oiling structure 52 can be collected by the release agent collecting bucket 541, concrete slag on the cover mold 4 can be separated by the slag-liquid separator 543 on the release agent collecting bucket 541, the concrete slag falls into the release agent collecting box 542 from the release agent collecting bucket 51, the release agent collected by the release agent collecting bucket 541 can be stored by the release agent collecting box 542, and the release agent can be recycled.

Preferably, the release agent spraying mechanism 5 is located at the outlet of the channel 11, when the cover die 4 enters the channel, the cover die oiling structure 52 is located below the cover die, the cover die oiling structure 52 comprises an oil tank 521 and an oiling roller 522, the oil tank 521 is mounted on the release agent spraying bracket 53, the oiling roller 522 is mounted on the oil tank 521 through a bearing seat 312, the oiling roller 522 can rotate on the oil tank 521, the oiling roller 522 is partially located in the oil tank 521, the oiling roller 522 can carry up the oiling in the oil tank 521 when rotating, and the oiling roller 522 can be used for oiling the cover die 4 when rotating on the oil tank 521.

Preferably, the release agent guiding structure 55 comprises a release agent baffle 551 and a release agent baffle 552, the release agent baffle 551 is installed on the release agent spraying bracket 53, the release agent baffle 552 is installed on the release agent baffle 551, and the release agent baffle 552 is located beside the moving direction of the cover mold 4 and beside the spraying direction of the release agent spray nozzle 51, when the cover mold 4 passes through the channel, the release agent baffle 552 is located at two sides of the cover mold 4, the cover mold 4 can pass through the release agent baffle 552, the release agent baffle 552 is arranged beside the release agent spray nozzle 51 through the release agent baffle, and the release agent sprayed by the release agent spray nozzle 51 can be guided back to the release agent collecting structure 54.

Referring to fig. 27, in the present embodiment, when the mold release agent spraying head 51 is externally connected to a mold release agent supply system 56, the cover mold 4 is cleaned by the cover mold inner cavity cleaning mechanism 2 and the cover mold convex position cleaning mechanism 3 in sequence, and then is transported out from the cleaning frame 1, and the mold release agent spraying mechanism 5 installed at the other end of the cleaning mechanism can spray a mold release agent on the cleaned cover mold 4.

The cleaning frame 1, the cover mold inner cavity cleaning mechanism 2 and the cover mold convex position cleaning mechanism 3 in this embodiment are the same as those in embodiment 1, and are not described again here.

In other embodiments, the convex roller cleaning structure 31, the rolling brush structure 32, the roller groove cleaning structure 33 and the wire cleaning structure 34 can also be replaced at will in the cleaning frame 1.

According to the utility model, the cover mold inner cavity cleaning mechanism is arranged at one end of the cleaning rack, before the cover mold enters the cleaning rack, the cover mold is cleaned by the cover mold inner cavity cleaning mechanism, the cover mold convex position cleaning mechanism is arranged in the cleaning rack, and after the cover mold inner cavity is cleaned by the cover mold inner cavity cleaning mechanism, the cover mold convex position cleaning can be carried out, so that the cover mold is cleaned more completely.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a be applied to mechanism of protruding position clearance of lid mould, its characterized in that, is including the protruding position roller structure of clearance, the protruding position roller structure of clearance is including the second recess that is used for clearing up the protruding position of epiphragma, the second recess can with the protruding position looks adaptation of lid mould.

2. The mechanism for cleaning the convex position of the cover mold as claimed in claim 1, wherein the structure of the convex position cleaning roller comprises a first shaft and a cleaning roller rotatably arranged on the first shaft, and the second groove is arranged on the outer surface of the cleaning roller.

3. The mechanism for cleaning the convex position of the cover die as claimed in claim 2, wherein the cleaning roller comprises a roller shell and end covers arranged at two ends of the roller shell, the cleaning roller is detachably mounted on the first shaft through the end covers, the outer surface of the roller shell is provided with the second groove, and the convex position of the cover die can be embedded into the second groove, so that the roller shell can clean the convex position of the cover die.

4. The mechanism of claim 2, further comprising a stop collar, wherein the first shaft is provided with a stepped groove, the cleaning roller is movably mounted on the first shaft, and the cleaning roller is limited on the first shaft by the stop collar and the stepped groove.

5. The mechanism for cleaning the convex position of the cover mold as claimed in any one of claims 1 to 4, further comprising a cleaning frame, wherein the cleaning frame is provided with a channel arranged along the horizontal direction, the channel can be used for the cover mold to pass through the cleaning frame, the structure of the cleaning convex position roller is installed in the cleaning frame, and the cleaning convex position roller can clean the cover mold passing through the channel.

6. The mechanism for cleaning the raised position of the cover mold as claimed in claim 5, wherein a roller groove cleaning structure is further included in the cleaning frame, the roller groove cleaning structure is mounted at the bottom of the cleaning raised position roller structure, the roller groove cleaning structure includes a cleaning pin, and the cleaning pin is located at the bottom of the second groove and can be used for cleaning the second groove.

7. The mechanism for cleaning the convex position of the cover mold as claimed in claim 5, further comprising a rolling brush structure in the cleaning frame, wherein the rolling brush structure comprises a rolling brush driving device and a rolling brush, the rolling brush driving device is mounted on the cleaning frame, the rolling brush is in driving connection with the rolling brush driving device, and the rolling brush driving device can drive the rolling brush to rotate.

8. The mechanism for cleaning the convex position of the cover mold as claimed in claim 7, wherein a steel wire cleaning structure is further included in the cleaning rack, the steel wire cleaning structure includes a steel wire rope, the steel wire rope is vertically arranged on the steel wire cleaning structure, and the steel wire rope extends into the channel and can be used for cleaning the cover mold.

9. The mechanism for cleaning the convex position of the cover die is characterized in that the steel wire cleaning structure further comprises a telescopic assembly, the steel wire cleaning structure is mounted on the cleaning rack through the telescopic assembly, and the telescopic assembly can be used for preventing the steel wire cleaning structure from being vibrated.

10. The mechanism of claim 8, wherein the convex cleaning roller structure, the rolling brush structure and the steel wire cleaning structure are arranged in the cleaning frame along the length direction of the channel, the convex cleaning roller structure, the rolling brush structure and the steel wire cleaning structure are arranged below the channel, the convex cleaning roller structure and the steel wire cleaning structure are distributed on two sides of the rolling brush structure, and the steel wire cleaning structure is arranged on the inner side of the convex cleaning roller structure.

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