CN111346781B - Device is paintd to release agent for building templates - Google Patents

Abstract

The invention relates to a release agent smearing device, in particular to a release agent smearing device for a building template. The technical problem is how to design a release agent smearing device for a building template, which can replace manual work to smear release agents on the template, does not need hands, avoids the pain from influencing the working efficiency, and is simple and convenient to operate. A release agent smearing device for building templates comprises: the bottom plate, bottom plate one side mid-mounting has places the frame for place the template. According to the invention, a proper amount of templates are stacked on the placing frame, the release agent is poured on the rolling brush, the servo motor is started, the rolling brush can move rightwards to coat the release agent on the templates, and the L-shaped stop block is separated from the first slide block, so that the rolling brush can move for a certain distance to coat the release agent on the next template, the release agent is not required to be manually stripped on the templates by a person, the influence of hand ache on the working efficiency is avoided, and the operation is simple and convenient.

Description

Device is paintd to release agent for building templates

Technical Field

The invention relates to a release agent smearing device, in particular to a release agent smearing device for a building template.

Background

The template is a model for forming newly cast concrete, and the template system consists of the template, a supporting piece and a fastening piece, and is required to ensure the accurate shape and size of the structure and the member; sufficient strength, rigidity and stability; the assembly and disassembly are convenient and the device can be used repeatedly; the joint is tight and does not leak slurry, common templates comprise a wood template, a shaping combined template, a large tool type large template, a creeping formwork, a sliding formwork, a tunnel formwork, a platform formwork (a flying formwork and a table formwork), a permanent template and the like, the template is required to be used for forming concrete during building construction, but in order to avoid the concrete from being stuck on the template, a parting medium is coated on the template before the concrete is used to avoid being stuck on the concrete.

A conventional applicator, such as chinese patent publication No. CN110694868A, discloses a release agent applicator, which includes a main body base and a rotary connecting base; a storage barrel is rotatably connected in the main body seat, and a positioning structure is welded on the storage barrel; the main body seat and the storage bucket are connected with a stirring shaft in a rotating mode. Through the linkage arrangement between the grinding roller and the stirring shaft, raw materials in the storage barrel can be stirred while printing is carried out, and compared with the existing device, the device has a more reasonable structure and higher practicability; through the linkage setting between whitewashing roller and the cleaning roller, so can drive the cleaning roller when whitewashing roller clockwise rotation and carry out anticlockwise rotation to can realize the clearance of dust and debris on the plank, with current device relative ratio, this device can prevent that dust and debris adhesion from causing the clearance difficulty on the whitewashing roller, and above-mentioned patent exists following not enoughly: the release agent is smeared on the template by continuous movement of hands for a long time, the work efficiency is affected by the aching pain of the hands, and the operation is troublesome.

Disclosure of Invention

In order to overcome the defects that the release agent is smeared on the template by continuous movement of hands for a long time, the work efficiency is affected by the aching pain of the hands, and the operation is still troublesome, the technical problem to be solved is as follows: the release agent smearing device for the building template can be used for smearing the release agent on the template instead of manual work, avoids the influence of ache on the working efficiency without using hands, and is simple and convenient to operate.

The technical scheme of the invention is as follows: a release agent smearing device for building templates comprises: the middle part of one side of the bottom plate is provided with a placing frame for placing the template; the number of the racks is at least two, and the racks are symmetrically arranged on one side of the bottom plate close to the placing frame; the number of the first guide rods is at least four, every two first guide rods form a group, and each group of first guide rods is arranged on one side of the bottom plate close to the rack; the number of the first sliding blocks is at least two, the first sliding blocks are connected between the first guide rods on each side in a sliding mode in a penetrating mode, and a guide frame is fixedly connected to the inner side of each first sliding block; the supporting frame is arranged between the outer sides of the two guide frames facing the rack; the smearing assembly is arranged between the support frame and the two guide frames and is used for smearing the release agent on the template; the clamping component is installed at one end of the rack and is in contact fit with the first sliding block and used for limiting the first sliding block.

In one embodiment, the smearing component comprises: the number of the second sliding blocks is at least two, the second sliding blocks are respectively placed in the two guide frames in a sliding mode, one side, facing the bottom plate, of each second sliding block is fixedly connected with a pushing block, and the pushing blocks penetrate through the guide frames and are matched with the second sliding blocks; the first spring is connected between one side of the push block facing the rack and one side of the guide frame facing the bottom plate and far away from the first sliding block; the rotating shaft is rotatably connected between the two second sliding blocks, and one end of the rotating shaft, which is close to the second sliding blocks, is fixedly connected with an installation rod; the rolling brush is rotatably arranged between the end parts of the two mounting rods facing the bottom plate; the number of the limiting frames is at least two, the limiting frames are arranged on one side, close to the second sliding block, of the outer side of the guide frame, the inner side of each limiting frame is in contact fit with the rolling brush, and each limiting frame is V-shaped; the first connecting sleeve is fixedly connected to the middle of the rotating shaft; the first guide wheel is arranged on one side, far away from the bottom plate and the rotating shaft, outside the support frame; the second guide wheel is arranged on one side in the support frame, which faces the bottom plate and is far away from the rotating shaft; the servo motor is arranged on one side, far away from the bottom plate and the outer side of the support frame of the first guide wheel; the reel is installed on the output shaft of the servo motor, a pull rope is wound on the reel, and the tail end of the pull rope bypasses the first guide wheel and the second guide wheel and is fixedly connected with one side of the first connecting sleeve.

In one embodiment, the screens subassembly includes: the L-shaped stop blocks are connected to one end, facing the rotating shaft, of the rack in a penetrating mode at intervals and are in contact fit with the first sliding block; and the fourth spring is connected between one side of the L-shaped check block facing the first guide rod and one side of the rack facing the rotating shaft.

In one embodiment, the feed assembly further comprises a feed assembly, wherein the feed assembly comprises: the second guide rod is arranged on one side of the outer side of the guide frame far away from the bottom plate, and a guide sleeve is slidably sleeved on the second guide rod; the storage box is arranged between one sides of the two guide sleeves far away from the bottom plate; the number of the second connecting sleeves is at least two, the second connecting sleeves are rotatably sleeved at two ends of the rotating shaft, one side of each second connecting sleeve, which is far away from the bottom plate, is fixedly connected with a fixing rod, and the end part, which is far away from the bottom plate, of each fixing rod is fixedly connected with one side, which faces the bottom plate, of the storage box; the feeding pipe is connected to one side of the storage box facing the rotating shaft and communicated with the storage box; the first flow guide block is arranged between one sides of the two fixing rods, and the end part, far away from the bottom plate, of the first flow guide block is connected and communicated with the tail end of the feeding pipe; the second flow guide block is fixedly sleeved at one end of the rotating shaft close to the first connecting sleeve and is in contact fit with the first flow guide block; the hollow pipe is fixedly connected to one end of the second flow guide block in a penetrating mode and matched with the first flow guide block; the material supplementing pipe is connected to the end part, facing the bottom plate, of the hollow pipe and communicated with the end part, close to the roller brush, of the material supplementing pipe, and the tail end of the material supplementing pipe is matched with the hollow pipe.

In one embodiment, the device further comprises a descending assembly, wherein the descending assembly comprises: the guide block is arranged on one side, away from the first connecting sleeve and the outer side of the guide frame of the support frame; the sliding frame is slidably connected in the guide block in a penetrating manner, and the sliding frame is close to the end part of the rotating shaft and is in contact fit with the push block; the sliding rod is vertically and slidably connected to one side of the sliding frame far away from the rotating shaft in a penetrating mode, an L-shaped block is fixedly connected to the end portion, facing the bottom plate, of the sliding rod, and the L-shaped block is in contact fit with the L-shaped stop block; the third spring is sleeved on the sliding rod, one end of the third spring is fixedly connected with one side of the sliding frame facing the bottom plate, and the other end of the third spring is fixedly connected with one side of the L-shaped block far away from the bottom plate; and one end of the second spring is connected with one side of the guide block facing the rack, and the other end of the second spring is fixedly connected with one side of the sliding frame close to the guide block.

The invention has the beneficial effects that:

1. through stacking an appropriate amount of templates on placing the frame, pouring the release agent on the rolling brush, starting servo motor, can make the rolling brush move right and paint the release agent on the template, and break away from with first slider through L type dog, can make the rolling brush move a section distance and paint the release agent to next template, need not the manual release agent release of people on the template, avoided the aching pain of hand to influence work efficiency, and the operation is still simple and convenient.

2. Through the effect of feed supplement subassembly, can spout the stripping agent on the round brush when the round brush removes, then need not operating personnel and manually pour the stripping agent on the round brush, convenient and fast.

3. Through the effect of descending the subassembly, when can making the round brush move left and reset, make the round brush move down to the position of next template and paint the stripping agent to it, need not staff pulling L type dog and remove and make the round brush move down, it is more convenient.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic cross-sectional view of a first embodiment of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

FIG. 5 is a schematic view of a second partial body structure according to the present invention.

Fig. 6 is an enlarged view of a portion a of the present invention.

Fig. 7 is a second cross-sectional structural diagram of the present invention.

Labeled as: 1 bottom plate, 2 placing frame, 3 machine frame, 4 first guide rod, 5 first slide block, 6 guide frame, 7 support frame, 9 smearing component, 901 reel, 902 first guide wheel, 903 second guide wheel, 904 second slide block, 905 push block, 906 first spring, 907 rotating shaft, 908 mounting rod, 909 roller brush, 910 spacing frame, 911 first connecting sleeve, 912 pull rope, 913 servo motor, 10 position clamping component, 1001L-shaped block, 1002 fourth spring, 11 template, 12 material supplementing component, 1201 second guide rod, 1202 guide sleeve, 1203 storage box, 1204 second connecting sleeve, 1205 first guide block, 1206 feeding pipe, 1207 second guide block, 1208 hollow pipe, 1209 material supplementing pipe, 1210 fixing rod, 13 descending component, 1301 guide block, 1302 sliding frame 1303, 1301 second spring, 1304 slide bar, 1305L-shaped block, 1306 third spring.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

Referring to fig. 1-6, a mold release agent coating device for a building template comprises a base plate 1, a placing frame 2, a frame 3, a first guide rod 4, first slider 5, guide frame 6, support frame 7, paint subassembly 9 and screens subassembly 10, install in the middle of the 1 top of bottom plate and place frame 2, the equal rigid coupling in both sides left part has frame 3 around the 1 top of bottom plate, the 3 left parts in frame are equipped with screens subassembly 10, all the rigid coupling in both sides left side has two first guide arms 4 around the 1 top of bottom plate, first slider 5 of all slidingtype between two first guide arms 4 in front side and between two first guide arms 4 in rear side, 5 left parts in first slider are the inclined plane, first slider 5 and the cooperation of screens subassembly 10 contact, 5 medial surface rigid couplings in the first slider of both sides have guide frame 6 around, the rigid coupling has support frame 7 between 6 lateral surface middle parts in front and back both sides, be equipped with between support frame 7 and two guide frame 6 and paint subassembly 9.

The smearing component 9 comprises a reel 901, a first guide wheel 902, a second guide wheel 903, a second sliding block 904, a pushing block 905, a first spring 906, a rotating shaft 907, a mounting rod 908, a rolling brush 909, a limiting frame 910, a first connecting sleeve 911, a pulling rope 912 and a servo motor 913, wherein the first guide wheel 902 is mounted on the right side of the outer top of the supporting frame 7, the second guide wheel 903 is mounted on the right side of the inner top of the supporting frame 7, the second sliding block 904 is arranged in a sliding manner in the guiding frame 6, the pushing block 905 is fixedly connected to the bottom of the second sliding block 904, the first spring 906 is connected between the right side of the pushing block 905 and the right side of the outer bottom of the guiding frame 6, the rotating shaft 907 is rotatably connected between the inner sides of the second sliding blocks 904 on the front and rear sides, the mounting rods 908 are fixedly connected on the front and rear sides of the rotating shaft 907, the rolling brush 909 is rotatably connected between the bottom ends of the mounting rods 908 on the front and rear sides, the middle of the rotating shaft 907 is fixedly connected with the first connecting sleeve 911, the left side of the outer bottom of the guiding frame 6 is fixedly connected with the limiting frame 910, the inner side surface of the limiting frame 910 is in contact fit with the rolling brush 909, the limiting frame 910 is in a V shape, the servo motor 913 is installed on the rear side of the outer top of the support frame 7 in a bolt connection mode, a reel 901 is connected to an output shaft of the servo motor 913 through a coupler, a pull rope 912 is wound on the reel 901, and the tail end of the pull rope 912 is fixedly connected with the middle of the right side surface of the first connecting sleeve 911 around the first guide wheel 902 and the second guide wheel 903.

The clamping assembly 10 comprises an L-shaped stopper 1001 and a fourth spring 1002, eleven L-shaped stoppers 1001 are connected to the upper portion of the left side of the rack 3 in a sliding-type penetrating manner at uniform intervals, the L-shaped stoppers 1001 are in contact fit with the first sliding blocks 5, and the fourth spring 1002 is connected between the inner left side face of the L-shaped stopper 1001 and the outer left side face of the rack 3.

Firstly, an operator places a proper amount of templates 11 on the placing frame 2, pours a proper amount of parting medium on the smearing component 9, starts the smearing component 9, the smearing component 9 moves rightwards to be in contact with the templates 11, the smearing component 9 smears the parting medium on the templates 11, when the smearing component 9 moves rightwards to the maximum stroke, the smearing component 9 is closed, the smearing component 9 resets and smears the parting medium on the templates 11 again, after smearing reset, the operation of smearing the parting medium on one template 11 is finished, namely, the templates 11 smeared with the parting medium can be taken down, the operator pulls the corresponding clamping component 10 again to loosen the first slide block 5, the first slide block 5 moves downwards to drive the guide frame 6 to move downwards, the guide frame 6 moves downwards to drive the smearing component 9 to move downwards by the distance of one template 11, the clamping component 10 limits the first slide block 5 again, the smearing component 9 is started again, the smearing component 9 smears the template 11 with the release agent, and the release agent can be smeared on the template 11 continuously after the smearing component 9 is repeatedly used. When the templates 11 on the placing frame 2 are all coated with the release agent and taken down, the guide frame 6 is pulled to drive the coating component 9 to move upwards for resetting, and meanwhile, the first sliding block 5 is also driven to move upwards for resetting.

When the template 11 is placed, an appropriate amount of release agent is poured on the roller brush 909, the servo motor 913 is started to rotate in the positive direction, the servo motor 913 rotates in the positive direction to drive the reel 901 to rotate in the positive direction, the reel 901 rotates in the positive direction to roll up the pull rope 912, the pull rope 912 rolls up to drive the first connecting sleeve 911 to move in the right direction, the first connecting sleeve 911 moves in the right direction to drive the rotating shaft 907 to move in the right direction, the rotating shaft 907 moves in the right direction to drive the roller brush 909 to move in the right direction through the mounting rod 908, the roller brush 909 moves in the right direction a little distance upwards through the limiting frame 910, when the roller brush 909 continues to move in the right direction to reach the horizontal position of the limiting frame 910, the roller brush 909 stops swinging upwards, the roller brush 909 continues to move in the right direction until the release agent is coated on the template 11, meanwhile, the rotating shaft 907 also drives the second sliding block 904 to move in the right direction, the second sliding block moves in the right direction to drive the push block 905 to move 904 in the right direction, the first spring 906 is compressed, when the second sliding block 904 reaches the maximum stroke, the servo motor 913 is turned off, the roller brush 909 finishes coating the release agent on the template 11, due to the action of the first spring 906, the pushing block 905 moves leftwards to drive the second sliding block 904 to move leftwards, the second sliding block 904 moves leftwards to drive the rotating shaft 907 to move leftwards, and then the roller brush 909 is driven to move leftwards to coat the release agent on the template 11 again, when the roller brush 909 is in contact with the limiting frame 910, the roller brush 909 swings downwards for a certain distance, and the swinging of the roller brush 909 stops after being reset, so that the release agent can be coated on the template 11. When a release agent needs to be added to the roller brush 909, the release agent can be poured onto the roller brush 909.

When the rolling brush 909 moves leftwards to reset, the coating of the release agent on one template 11 is finished, the template 11 is taken down, the L-shaped stop 1001 in contact with the first slide block 5 is pulled to move leftwards, the fourth spring 1002 stretches, the L-shaped stop 1001 moves leftwards to be separated from the first slide block 5, the first slide block 5 moves downwards to be in contact with the next L-shaped stop 1001 to be stopped, the rolling brush 909 moves downwards to coat the release agent on the next template 11, the L-shaped stop is released, and the L-shaped stop 1001 moves rightwards to reset under the action of the fourth spring 1002. In this manner, the roller 909 finishes applying the release agent to each of the templates 11.

Example 2

Referring to fig. 1, 5 and 7, the feeding device 12 further includes a feeding assembly 12, the feeding assembly 12 includes a second guide rod 1201, a guide sleeve 1202, a storage tank 1203, a second connection sleeve 1204, a first guide block 1205, a feeding tube 1206, a second guide block 1207, a hollow tube 1208, a feeding tube 1209 and a fixing rod 1210, the second guide block 1207 is fixedly connected to the front portion of the rotation shaft 907, the hollow tube 1208 is embedded in the right portion of the second guide block 1207, the feeding tube 1209 is connected to the bottom end of the hollow tube 1208, the feeding tube 1209 is communicated with the hollow tube 1208, the tail end of the feeding tube 1209 is located above the roller brush 909 and is matched with the roller brush, the second guide rod 1201 is mounted on the top portion of the guide frame 6, the guide sleeve 1202 is slidably mounted on the second guide rod 1201, the storage tank 1203 is fixedly connected between the front and rear guide sleeves 1202, the front side of the bottom of the storage tank 1203 is connected to the feeding tube 1206, the feeding tube 1206 is communicated with the storage tank 1203, the front and rear portion of the rotation shaft 907 is connected to the second connection sleeve 1204, the top of the second connecting sleeve 1204 is fixedly connected with a fixing rod 1210, the top ends of the front and rear fixing rods 1210 are respectively fixedly connected with the front and rear sides of the outer bottom of the material storage tank 1203, a first flow guide block 1205 is fixedly connected between the inner side surfaces of the front and rear fixing rods 1210, the top of the first flow guide block 1205 is connected with the tail end of the feeding pipe 1206, the first flow guide block 1205 is communicated with the feeding pipe 1206, the first flow guide block 1205 is in contact fit with a second flow guide block 1207, and the first flow guide block 1205 is further matched with a hollow pipe 1208.

When the template 11 is placed, pouring a proper amount of release agent into the storage box 1203, the release agent in the storage box 1203 flows into the feeding pipe 1206, the release agent in the feeding pipe 1206 flows into the first flow guide block 1205, the second flow guide block 1207 blocks the release agent in the first flow guide block 1205, when the servo motor 913 starts forward rotation, the rotating shaft 907 moves rightwards, the rolling brush 909 is driven to move rightwards through the mounting rod 908, the rolling brush 909 moves rightwards and swings upwards for a certain distance through the limiting frame 910, the rolling brush 909 swings upwards and drives the rotating shaft 907 to rotate backwards through the mounting rod 908, the rotating shaft 907 rotates backwards and drives the second flow guide block 1207 to rotate backwards, the second flow guide block 1207 rotates backwards and drives the hollow pipe 1208 to rotate backwards, when the hollow pipe 1208 rotates backwards and is correspondingly communicated with the first flow guide block 1205, the rolling brush 909 stops swinging upwards, the second flow guide block 1207 stops rotating backwards, the release agent in the first flow into the hollow pipe 1208, the release agent in the hollow pipe 1208 flows into the feed-in the feed-supplement pipe 1209, the release agent in the feeding pipe 1209 falls onto the roller brush 909, the roller brush 909 moves rightwards to coat the release agent on the template 11, meanwhile, the rotating shaft 907 moves rightwards to drive the storage box 1203 to move rightwards through the second connecting sleeve 1204 and the fixing rod 1210, and therefore the release agent can be continuously supplemented to the roller brush 909. When the servo motor 913 is closed, the rotating shaft 907 moves leftwards to drive the roller brush 909 to move leftwards for resetting through the mounting rod 908, and simultaneously drives the material storage box 1203 to move leftwards for resetting, the roller brush 909 resets and swings downwards through the limiting frame 910, so that the second flow guide block 1207 rotates forwards for resetting, the second flow guide block 1207 resets to enable the hollow pipe 1208 not to be communicated with the first flow guide block 1205, and the stripping agent stops spraying. Thus, the operator does not need to manually pour the release agent onto the roller brush 909, which is convenient and fast.

Example 3

Referring to fig. 1, 3 and 6, the descending device 13 further includes a descending assembly 13, the descending assembly 13 includes a guide block 1301, a sliding frame 1302, a second spring 1303, a sliding rod 1304, an L-shaped block 1305 and a third spring 1306, the guide block 1301 is fixedly connected to the left portion of the outer front side of the front side guide frame 6 and the left portion of the outer rear side of the rear side guide frame 6, the sliding frame 1302 is arranged in the guide block 1301 in a sliding manner, the left end of the sliding frame 1302 is located on the left side of the push block 905 and is in contact fit with the left end of the push block, the second spring 1303 is wound between the right portion of the sliding frame 1302 and the right side of the guide block 1301, the sliding rod 1304 is arranged on the right portion of the outer side of the sliding frame 1302 in a sliding manner, the L-shaped block 1305 is fixedly connected to the bottom end of the sliding rod 1304, the outer bottom of the L-shaped block 1305 is in contact fit with the L-shaped block 1001, the third spring 1306 is connected between the left side of the bottom of the L-shaped block 1305 and the sliding frame 1302, and the third spring 1306 is sleeved on the sliding rod 1304.

Initially, the second spring 1303 and the third spring 1306 are in a compressed state, when the servo motor 913 starts to rotate forward, the push block 905 moves rightward and disengages from the sliding frame 1302, due to the action of the second spring 1303, the sliding frame 1302 moves rightward and drives the sliding rod 1304 to move rightward, the sliding rod 1304 moves rightward and drives the L-shaped block 1305 to move rightward, when the L-shaped block 1305 moves rightward and disengages from the L-shaped block 1001, due to the action of the third spring 1306, the L-shaped block 1305 moves downward and drives the sliding rod 1304 to move downward to a proper position, when the template 11 is coated with a stripping agent, the push block 905 moves leftward and resets, the push block 905 resets and drives the sliding frame 1302 to move leftward, the second spring 1303 compresses, the sliding frame 1302 moves leftward and drives the sliding rod 1304 to move leftward, the sliding rod 1304 moves leftward and drives the L-shaped block 1304 to move leftward, the L-shaped block 1305 moves leftward and drives the L-shaped block 1001 to move leftward, and the L-shaped block 1001 disengages from the first sliding block 5, further, the first sliding block 5 moves downwards to drive the guide frame 6 to move downwards, so that the rolling brush 909 moves downwards to a proper position, meanwhile, the guide frame 6 also drives the sliding frame 1302 to move downwards through the guide block 1301, the sliding frame 1302 moves downwards to drive the L-shaped block 1305 to move downwards through the sliding rod 1304, the L-shaped block 1305 moves downwards to be separated from the L-shaped block 1001, the L-shaped block 1305 moves downwards to be in contact with the next L-shaped block 1001, the next L-shaped block 1001 enables the L-shaped block 1305 to move upwards, and the third spring 1306 is compressed. In this way, an operator does not need to pull the L-shaped stopper 1001 to be separated from the first slider 5, so that the rolling brush 909 moves downwards to paint the release agent on the next template 11, and time and labor are saved.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims (3)

1. The utility model provides a device is paintd to release agent for building templates which characterized in that, including:

the template comprises a bottom plate (1), a placing frame (2) and a template (11), wherein the placing frame (2) is arranged in the middle of one side of the bottom plate (1) and used for placing the template (11);

the number of the racks (3) is at least two, and the racks (3) are symmetrically arranged on one side of the bottom plate (1) close to the placing frame (2);

the number of the first guide rods (4) is at least four, every two first guide rods (4) form a group, and each group of first guide rods (4) is arranged on one side of the bottom plate (1) close to the rack (3);

the guide device comprises first sliding blocks (5) and guide frames (6), wherein the number of the first sliding blocks (5) is at least two, the first sliding blocks (5) are connected between first guide rods (4) on each side in a sliding mode in a penetrating mode, and the guide frames (6) are fixedly connected to the inner sides of the first sliding blocks (5);

the supporting frame (7), the supporting frame (7) is installed between the outer sides of the two guide frames (6) facing the rack (3);

the smearing assembly (9) is arranged between the support frame (7) and the two guide frames (6) and is used for smearing the release agent on the template (11);

the clamping component (10) is mounted at one end of the rack (3), and the clamping component (10) is in contact fit with the first sliding block (5) and used for limiting the first sliding block (5);

the application assembly (9) comprises:

the number of the second sliding blocks (904) is at least two, the second sliding blocks (904) are respectively and slidably placed in the two guide frames (6), one side, facing the bottom plate (1), of each second sliding block (904) is fixedly connected with a push block (905), and the push blocks (905) penetrate through the guide frames (6) to be matched with the second sliding blocks (904);

the first spring (906) is connected between one side of the push block (905) facing the rack (3) and one side of the guide frame (6) facing the bottom plate (1) and far away from the second sliding block (904);

the rotating shaft (907) is rotatably connected between the two second sliding blocks (904), and one end, close to the second sliding blocks (904), of the rotating shaft (907) is fixedly connected with the mounting rod (908);

a rolling brush (909), wherein the rolling brush (909) is rotatably mounted between the ends of two mounting rods (908) facing the base plate (1);

the number of the limiting frames (910) is at least two, the limiting frames (910) are arranged on one side of the outer side of the guide frame (6) close to the second sliding block (904), and the inner side of each limiting frame (910) is in contact fit with the rolling brush (909);

the limiting frame (910) is V-shaped, the rolling brush (909) moves rightwards for a certain distance through the upward swinging of the limiting frame (910), when the rolling brush (909) continues to move rightwards to the horizontal position of the limiting frame (910), the rolling brush (909) stops swinging upwards, and then the rolling brush (909) continues to move rightwards to the template (11) to be coated with a parting medium; the roller brush (909) moves leftwards to smear the release agent on the template (11) again, when the roller brush (909) is contacted with the limiting frame (910), the roller brush (909) swings downwards for a little distance, and the swing is stopped after the roller brush (909) is reset;

the first connecting sleeve (911) is fixedly connected to the middle of the rotating shaft (907);

the first guide wheel (902), the said first guide wheel (902) is mounted to the outside of the said supporting arm (7) far away from bottom plate (1) and said spindle (907);

the second guide wheel (903), the second guide wheel (903) is installed on one side in the supporting frame (7) which faces the bottom plate (1) and is far away from the rotating shaft (907);

the servo motor (913), servo motor (913) is installed in the outer side of the supporting frame (7) far away from the bottom plate (1) and the first guide wheel (902);

the reel (901), the said reel (901) is mounted on output shaft of the said servomotor (913), the said reel (901) winds the guy rope (912), the said guy rope (912) tail end is wound the said first guide pulley (902) and said second guide pulley (903) and fixedly connected to one side of said first connecting sleeve (911);

the screens subassembly (10) includes:

the L-shaped stoppers (1001) are arranged, the L-shaped stoppers (1001) are connected to one end of the rack (3) facing the rotating shaft (907) in a penetrating mode at intervals, and the L-shaped stoppers (1001) are in contact fit with the first sliding block (5);

a fourth spring (1002), wherein the fourth spring (1002) is connected between the inner side of the L-shaped block (1001) facing the first guide rod (4) and the outer side of the frame (3) facing the rotating shaft (907).

2. A device for applying release agent to building templates as claimed in claim 1, further comprising a feeding assembly (12), wherein the feeding assembly (12) comprises:

the guide sleeve (1202) is sleeved on the second guide rod (1201) in a sliding mode;

the storage box (1203), the storage box (1203) is installed between one sides of the two guide sleeves (1202) far away from the bottom plate (1);

the number of the second connecting sleeves (1204) is at least two, the second connecting sleeves (1204) are rotatably sleeved at two ends of the rotating shaft (907), the fixing rods (1210) are fixedly connected to one side, away from the bottom plate (1), of the second connecting sleeves (1204), and the end, away from the bottom plate (1), of each fixing rod (1210) is fixedly connected to one side, facing the bottom plate (1), of the outer side of the material storage box (1203);

the feeding pipe (1206), the feeding pipe (1206) is connected to one side of the storage box (1203) facing the rotating shaft (907) and communicated with the storage box;

the first flow guide block (1205) is installed between one side of each fixed rod (1210), and the end part, far away from the bottom plate (1), of the first flow guide block (1205) is connected and communicated with the tail end of the feeding pipe (1206);

the second flow guide block (1207), the second flow guide block (1207) is fixedly sleeved at one end of the rotating shaft (907) close to the first connecting sleeve (911), and the second flow guide block (1207) is in contact fit with the first flow guide block (1205);

the hollow pipe (1208), the hollow pipe (1208) is fixedly connected to one end of the second flow guide block (1207) in a penetrating mode, and the hollow pipe (1208) is matched with the first flow guide block (1205);

the rotating shaft (907) rotates reversely to drive the second flow guide block (1207) to rotate reversely, the second flow guide block (1207) rotates reversely to drive the hollow pipe (1208) to rotate reversely, when the hollow pipe (1208) rotates reversely and is correspondingly communicated with the first flow guide block (1205), the rolling brush (909) stops swinging upwards, the second flow guide block (1207) stops rotating reversely, the parting medium in the first flow guide block (1205) flows into the hollow pipe (1208), and the parting medium in the hollow pipe (1208) flows into the material supplementing pipe (1209); the rolling brush (909) is reset and swings downwards through the limiting frame (910), so that the second flow guide block (1207) rotates forwards and resets, the second flow guide block (1207) resets, the hollow pipe (1208) is not communicated with the first flow guide block (1205), and the demolding agent stops spraying;

the material supplementing pipe (1209), the material supplementing pipe (1209) is connected and communicated with the end part of the hollow pipe (1208) facing the bottom plate (1), and the tail end of the material supplementing pipe (1209) is close to the rolling brush (909) to be matched with the rolling brush.

3. A device for applying release agent to building panels as claimed in claim 2, further comprising a descending assembly (13), the descending assembly (13) comprising:

the guide block (1301) is installed on one side, away from the first connecting sleeve (911), of the outer side of the guide frame (6), and the guide block (1301) is located between the limiting frame (910) and the rack (3);

the sliding frame (1302), the sliding frame (1302) is slidably inserted into the guide block (1301), and the sliding frame (1302) is in contact fit with the push block (905) close to the end of the rotating shaft (907);

the sliding rod (1304) is vertically and slidably connected to one side of the sliding frame (1302) far away from the rotating shaft (907), an L-shaped block (1305) is fixedly connected to the end part, facing the bottom plate (1), of the sliding rod (1304), and the L-shaped block (1305) is in contact fit with the L-shaped stop block (1001);

the third spring (1306), the third spring (1306) is sleeved on the sliding rod (1304), one end of the third spring (1306) is fixedly connected with one side of the sliding frame (1302) facing the bottom plate (1), and the other end of the third spring (1306) is fixedly connected with one side of the L-shaped block (1305) far away from the bottom plate (1);

the second spring (1303) is sleeved on the sliding frame (1302), one end of the second spring (1303) is connected with one side, facing the rack (3), of the guide block (1301), and the other end of the second spring (1303) is fixedly connected with one side, close to the guide block (1301), of the sliding frame (1302).

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