CN216782181U - Surface scraping device for gypsum block forming die - Google Patents

Abstract

The surface strickling device is arranged above the gypsum block forming die; the scraping device comprises a scraping plate with a cuboid structure, the scraping plate is longitudinally attached to the top surface of the gypsum block forming die, the length of the scraping plate is equal to that of the top surface of the gypsum block forming die, transverse moving mechanisms are respectively and symmetrically arranged at two ends of the scraping plate in a perpendicular mode, and the scraping plate is driven by the transverse moving mechanisms to move transversely and reciprocally along the direction of the short side of the top surface of the gypsum block forming die. The strickling device can strickling the surface of a gypsum block forming die at one time, the strickling mode is not limited and influenced by human factors, the working efficiency is effectively improved, and the strickling device is favorable for controlling the quality of gypsum block products in the later period.

Description

Surface scraping device for gypsum block forming die

Technical Field

The utility model belongs to the technical field of gypsum block processing, and particularly relates to a surface strickling device for a gypsum block forming die.

Background

The gypsum block is a light building gypsum product prepared by taking building gypsum as a main raw material and adding water for stirring, casting for molding and drying; in the process of casting and molding the gypsum block, the slurry on the surface of the molding die needs to be strickled off so as to ensure that the gypsum block with a smooth surface is obtained.

To strickleing off on gypsum block forming die surface, adopt artifical handheld plastering trowel to strickle off among the prior art and handle, however, this kind of strickle off mode not only receives the restriction influence of human factor, and work efficiency is also not high moreover, is unfavorable for the gypsum block product quality in management and control later stage.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a surface strickling device for a gypsum block forming die, which has the following specific technical scheme:

the surface scraping device is arranged above the gypsum block forming die; the scraping device comprises a scraping plate of a cuboid structure, the scraping plate is vertically attached to the top surface of the gypsum block forming die, the length of the scraping plate is equal to that of the top surface of the gypsum block forming die, transverse moving mechanisms are respectively and symmetrically arranged at two ends of the scraping plate in a perpendicular mode, and the scraping plate is driven by the transverse moving mechanisms to move transversely and reciprocally along the direction of the short side of the top surface of the gypsum block forming die.

Furthermore, the transverse moving mechanism comprises a supporting square column, the supporting square column is transversely suspended on the end surface corresponding to the gypsum block forming mold, one end of the supporting square column is flush with the outer vertical surface of the gypsum block forming mold on the same side, and the other end of the supporting square column extends out of the outer vertical surface of the gypsum block forming mold on the same side; the top surface of the supporting square column is transversely connected with a push-pull oil cylinder in a sliding manner, the end part of a piston rod in the push-pull oil cylinder faces to the side away from the gypsum block forming die, and the end part of the piston rod is axially connected with a fixed seat arranged at the end part of the corresponding supporting square column; the top of the push-pull oil cylinder is transversely fixedly clamped and matched with a grooved steel plate, and the inner side face of the end part of the channel steel plate, which faces one side of the gypsum block forming die, is vertically connected with the corresponding end face of the scraper.

Furthermore, guide grooves are formed in the top surface of the supporting square column along the long edge direction of the supporting square column, slide rails are respectively and transversely and symmetrically installed on the outer sides of the top edges of the guide grooves, and baffles are respectively and vertically arranged at the two ends of each slide rail; the sliding rail is matched with a sliding block in a transverse sliding clamping mode, the top surface of the sliding block is vertically connected with support frames of an inverted L-shaped structure, the push-pull oil cylinder is transversely erected between the horizontal parts of the two support frames, and the bottom of the push-pull oil cylinder is embedded in the guide groove in a clearance mode.

Furthermore, a plurality of marking grooves with saw-toothed structures are longitudinally arranged on the bottom surface of the scraper at equal intervals.

Furthermore, the gypsum block forming die is towards the outer facade top edge of fixing base one side is vertically suspended with first backup pad along vertical, the outer second backup pad of installing mutually supporting vertically along vertical of first backup pad, vertically be provided with more than three buffer assembly vertically at equal interval in the second backup pad, just buffer assembly with the scraper blade is in on the same horizontal plane.

Further, the buffering subassembly includes the guide bar, the guide bar with the perpendicular clearance setting of second backup pad, the guide bar orientation the tip of scraper blade is connected with the buffering offset plate perpendicularly, and another tip is connected with the limiting plate perpendicularly, the axial cover is equipped with the spring on the guide bar, spring one end with limiting plate fixed connection, the other end with second backup pad fixed connection.

The beneficial effects of the utility model are:

the scraping device is characterized in that a scraping plate is longitudinally attached to the top surface of a gypsum block forming die, transverse moving mechanisms are vertically and symmetrically arranged at two ends of the scraping plate respectively, and the scraping plate is driven by the transverse moving mechanisms to transversely reciprocate along the direction of the short edge of the top surface of the gypsum block forming die; like this alright once only strickle off gypsum block forming die surface, this kind of strickle off the mode and can not receive the restriction influence of human factor, and work efficiency also effectively improves moreover, is favorable to the gypsum block product quality in management and control later stage.

Drawings

Fig. 1 shows a structural plan view of a strike-off device according to the utility model;

FIG. 2 is a schematic view showing the structure of the traverse mechanism of the present invention;

FIG. 3 is a partial sectional view of the traversing mechanism according to the present invention;

FIG. 4 is a schematic view showing the construction of a squeegee according to the present invention;

FIG. 5 shows a top view of the structure of the screed device of the present invention assembled with a gypsum block-forming die;

FIG. 6 shows a top view of the structure of the gypsum block forming mold of the present invention;

fig. 7 shows an enlarged view of a structure of a portion a in fig. 6.

Shown in the figure: 1. a strickling device; 11. a squeegee; 111. scribing a groove; 12. a traversing mechanism; 121. supporting a square column; 1211. a guide groove; 122. a push-pull oil cylinder; 1221. a piston rod; 1222. a fixed seat; 123. a support frame; 124. a slider; 125. a slide rail; 1251. a baffle plate; 126. a channel steel plate; 2. forming a mould for gypsum blocks; 21. a first support plate; 22. a second support plate; 23. a buffer assembly; 231. a guide bar; 232. a buffer rubber plate; 233. a limiting plate; 234. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1 and 5, the surface scraping device of the gypsum block forming die is arranged above a gypsum block forming die 2, wherein the scraping device 1 is arranged on the surface of the gypsum block forming die; strickle device 1 and include the scraper blade 11 of cuboid structure, scraper blade 11 with gypsum block forming die 2's the vertical subsides of top surface connect, just scraper blade 11's length with gypsum block forming die 2's top surface length is the same, 11 both ends of scraper blade are perpendicular symmetry respectively and are provided with sideslip mechanism 12, scraper blade 11 passes through sideslip mechanism 12 drive and along horizontal reciprocating motion is made to gypsum block forming die 2's top surface minor face direction.

According to the technical scheme, the scraping device 1 is used for longitudinally attaching the scraping plate 11 to the top surface of the gypsum block forming die 2, the two ends of the scraping plate 11 are respectively and vertically and symmetrically provided with the transverse moving mechanisms 12, and the scraping plate 11 is driven by the transverse moving mechanisms 12 to transversely reciprocate along the direction of the short side of the top surface of the gypsum block forming die 2; like this alright once only strickle off 2 surfaces of gypsum block forming die, this kind of strickle off the mode and can not receive the restriction influence of human factor, work efficiency also effectively improves in addition, is favorable to the gypsum block product quality in management and control later stage.

As shown in fig. 2, the traversing mechanism 12 includes a supporting square column 121, the supporting square column 121 is transversely suspended on the end surface corresponding to the gypsum block forming mold 2, and one end of the supporting square column 121 is flush with the outer vertical surface of the gypsum block forming mold 2 on the same side, and the other end thereof extends to the outer side of the outer vertical surface of the gypsum block forming mold 2 on the same side; the top surface of the supporting square column 121 is transversely connected with a push-pull oil cylinder 122 in a sliding manner, the end part of a piston rod 1221 in the push-pull oil cylinder 122 faces to the side departing from the gypsum block forming mold 2, and the end part of the piston rod 1221 is axially connected with a fixed seat 1222 installed at the end part corresponding to the supporting square column 121; the top of the push-pull oil cylinder 122 is transversely and fixedly clamped and matched with a slotted steel plate 126, and the inner side surface of the end part of the slotted steel plate 126, which faces one side of the gypsum block forming die 2, is vertically connected with the end surface of the corresponding scraper 11.

Through the technical scheme, after the push-pull oil cylinder 122 pushes out the piston rod 1221, the piston rod slides along the supporting square column 121 in the reverse direction, and meanwhile, the groove steel plate 126 is driven to move, so that the surface of the gypsum block forming die 2 is scraped by the scraper 11, and the operation is convenient and fast.

As shown in fig. 2 and 3, a guide groove 1211 is formed on the top surface of the supporting square column 121 along the long side direction thereof, slide rails 125 are respectively and transversely and symmetrically installed on the top edge of the guide groove 1211 along the outer side, and baffles 1251 are respectively vertically arranged at two ends of the slide rails 125; a sliding block 124 is clamped and matched on the sliding rail 125 in a transverse sliding manner, a supporting frame 123 with an inverted L-shaped structure is vertically connected to the top surface of the sliding block 124, the push-pull oil cylinder 122 is transversely erected between the horizontal parts of the two supporting frames 123, and the bottom gap of the push-pull oil cylinder 122 is embedded in the guide groove 1211.

Through the above technical solution, the guide groove 1211 and the slide rail 125 cooperate to ensure that the push-pull cylinder 122 moves better laterally.

As shown in fig. 4, the bottom surface of the squeegee 11 is provided with a plurality of scribe grooves 111 having a saw-toothed structure in the longitudinal direction at equal intervals.

Through above-mentioned technical scheme, zigzag structure's marking off slot 111 can be when strickleing off, and the gypsum block is marked off, the cutting of the gypsum block of the later stage of being convenient for.

As shown in fig. 6, a first support plate 21 is vertically suspended along a longitudinal direction on an outer vertical surface top of one side of the gypsum block forming mold 2 facing the fixing seat 1222, a second support plate 22 adapted to the first support plate 21 is vertically installed along the longitudinal direction on the outer edge of the first support plate 21, at least three buffer assemblies 23 are vertically arranged on the second support plate 22 at equal intervals in the longitudinal direction, and the buffer assemblies 23 and the scraper 11 are located on the same horizontal plane.

Through the technical scheme, after the push-pull oil cylinder 122 contracts the piston rod 1221, the arranged buffer assemblies 23 can buffer the scraper 11, so that the push-pull oil cylinder 122 is prevented from impacting the fixed seat 1222.

As shown in fig. 7, the buffering assembly 23 includes a guide rod 231, the guide rod 231 and the second supporting plate 22 are vertically arranged in a clearance manner, the guide rod 231 faces the end portion of the scraping plate 11 is vertically connected with a buffering rubber plate 232, the other end portion of the scraping plate is vertically connected with a limiting plate 233, a spring 234 is axially sleeved on the guide rod 231, one end of the spring 234 is fixedly connected with the limiting plate 233, and the other end of the spring 234 is fixedly connected with the second supporting plate 22.

Through above-mentioned technical scheme, after scraper blade 11 striking buffering offset plate 232, guide bar 231 outwards stretches out, and spring 234 reverse pulling limiting plate 233 cushions buffering offset plate 232.

When the gypsum block forming die 2 is implemented, after gypsum slurry is filled in the gypsum block forming die 2, the push-pull oil cylinder 122 is started to push the piston rod 1221 out, and then the piston rod slides along the supporting square column 121 in the reverse direction, and meanwhile, the groove steel plate 126 is driven to move along with the piston rod, so that the surface of the gypsum block forming die 2 is scraped by the scraper 11.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. Gypsum block forming die surface strickles device its characterized in that: the strickle device (1) is arranged above the gypsum block forming die (2); strickle device (1) including scraper blade (11) of cuboid structure, scraper blade (11) with the vertical subsides of top surface of gypsum block forming die (2) connect, just the length of scraper blade (11) with the top surface length of gypsum block forming die (2) is the same, scraper blade (11) both ends perpendicular symmetry respectively are provided with sideslip mechanism (12), scraper blade (11) pass through the drive of sideslip mechanism (12) and along the horizontal reciprocating motion is done to the top surface minor face direction of gypsum block forming die (2).

2. The gypsum block-forming die surface-scraping device of claim 1, wherein: the transverse moving mechanism (12) comprises a supporting square column (121), the supporting square column (121) is transversely suspended on the end face corresponding to the gypsum block forming mold (2), one end of the supporting square column (121) is flush with the outer vertical face of the gypsum block forming mold (2) on the same side, and the other end of the supporting square column extends out of the outer vertical face of the gypsum block forming mold (2) on the same side; the top surface of the supporting square column (121) is transversely connected with a push-pull oil cylinder (122) in a sliding manner, the end part of a piston rod (1221) in the push-pull oil cylinder (122) faces to the side away from the gypsum block forming die (2), and the end part of the piston rod (1221) is axially connected with a fixed seat (1222) which is installed at the end part of the corresponding supporting square column (121); the top of the push-pull oil cylinder (122) is transversely and fixedly clamped and matched with a groove steel plate (126), and the inner side face of the end part of the groove steel plate (126) facing one side of the gypsum block forming die (2) is vertically connected with the corresponding end face of the scraper (11).

3. The gypsum block-forming die surface-scraping device of claim 2, wherein: the top surface of the supporting square column (121) is provided with a guide groove (1211) along the long side direction, sliding rails (125) are respectively and transversely and symmetrically installed on the top edge of the guide groove (1211) along the outer side, and baffles (1251) are respectively and vertically arranged at two ends of each sliding rail (125); the sliding rail (125) is transversely slidably clamped and matched with a sliding block (124), the top surface of the sliding block (124) is vertically connected with a supporting frame (123) of an inverted L-shaped structure, the push-pull oil cylinder (122) is transversely erected between the horizontal parts of the two supporting frames (123), and the bottom of the push-pull oil cylinder (122) is embedded in the guide groove (1211) in a clearance mode.

4. The gypsum block-forming die surface-scraping device of claim 1, wherein: the bottom surface of the scraper (11) is provided with a plurality of marking grooves (111) with saw-toothed structures at equal intervals in the longitudinal direction.

5. The gypsum block-forming die surface-scraping device of claim 2, wherein: gypsum block forming die (2) are towards the outer facade top of fixing base (1222) one side is along vertical suspension first backup pad (21), the outer vertical second backup pad (22) of installing rather than the looks adaptation of following of first backup pad (21), vertical equidistant perpendicular setting has more than three at least buffering subassembly (23) on second backup pad (22), just buffering subassembly (23) with scraper blade (11) are in on same horizontal plane.

6. The gypsum block-forming die surface-scraping device of claim 5, wherein: buffering subassembly (23) include guide bar (231), guide bar (231) with the perpendicular clearance of second backup pad (22) sets up, guide bar (231) orientation the tip of scraper blade (11) is connected with buffering offset plate (232) perpendicularly, and its another tip is connected with limiting plate (233) perpendicularly, the axial cover is equipped with spring (234) on guide bar (231), spring (234) one end with limiting plate (233) fixed connection, the other end with second backup pad (22) fixed connection.

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