CN116943902A - Surface coating equipment for glass bead layer - Google Patents

Abstract

The invention belongs to the technical field of coating equipment, in particular to surface coating equipment for a glass bead layer, which comprises a frame body and further comprises: the spray head is arranged on the frame body; a square shell arranged at one side of the frame body; the clamping part comprises a circular ring, a clamping assembly and a first replacement assembly, wherein the clamping assembly comprises a T-shaped rod, two round blocks and two round shells, the T-shaped rod is slidably mounted in Fang Ke, the two round blocks are slidably connected with the T-shaped rod, the circular ring is fixedly connected in Fang Ke, the first replacement assembly comprises a first cylinder and a plurality of stop blocks, the first cylinder is slidably mounted at the bottom of the circular ring, and the plurality of stop blocks are all placed in the first cylinder; through setting up the portion of gripping, grip the unused dog in a replacement subassembly before the spraying and place in appointed position, withdraw the dog after the spraying is accomplished, grip a new dog again before the spraying of next time.

Description

Surface coating equipment for glass bead layer

Technical Field

The invention belongs to the field of coating equipment, and particularly relates to surface coating equipment for a glass bead layer.

Background

Most of the existing reflective cloths are coated with glass beads on the surface to achieve the reflective effect, are mainly used for products related to road traffic safety, are widely used for reflective clothing, working clothes, fashion, shoes and caps and the like, and some reflective cloths needing waterproof treatment are coated with a waterproof layer outside the glass bead layer by using coating equipment, and the existing coating technology mainly comprises electroplating, spraying, hot dip coating and the like.

For some reflective cloths with special requirements, some positions do not need to be plated with waterproof materials, the plating operation is that the reflective cloth is arranged on plating equipment, a stop block is placed at a designated position to shield the places which do not need to be sprayed, and then a waterproof layer is sprayed on the reflective cloth; however, the liquid waterproof material remains on the stop block after spraying, if the stop block is not replaced, after spraying for many times, the liquid coating can gather on the stop block to form large drops of liquid, after the stop block is clamped, the large drops of liquid waterproof material can possibly slide to the bottom of the stop block, and then the large drops of liquid waterproof material are attached to cloth in the subsequent use process, so that the subsequent coating process is affected.

Therefore, the invention provides surface coating equipment for glass bead layers.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a surface coating device of a glass bead layer, as shown in figures 1-9, which comprises a frame body and further comprises:

the spray head is arranged on the frame body and is used for spraying waterproof paint;

a square shell arranged at one side of the frame body;

the clamping part comprises a circular ring, a clamping component and a first replacement component, the clamping component comprises a T-shaped rod, two round blocks and two round shells, the T-shaped rod is slidably mounted in Fang Ke, the two round blocks are slidably connected with the T-shaped rod, a spring is mounted between the round blocks and the T-shaped rod, the circular ring is fixedly connected in Fang Ke, the first replacement component comprises a first cylinder and a plurality of check blocks, the first cylinder is slidably mounted at the bottom of the circular ring, the plurality of check blocks are all placed in the first cylinder, and two circular arc grooves are symmetrically formed in two sides of the check blocks.

Specifically, the during operation will reflect light cloth and place on the support body, will need the one side of spraying waterproof material to place the top, to some cloth that contain special demand, need not spray waterproof material to some places, therefore need carry out the spraying again after using the dog, but the dog can remain above the spraying, if the dog is not changed, after many times spraying, the liquid of droplet can gather on the dog and form big dripped liquid, the liquid waterproof material of big drip can slide to the bottom of dog after pressing from both sides getting, then waterproof material can be attached to the cloth in subsequent use, influence the cladding process of follow-up, through setting up clamping portion, clamp the unused dog in the replacement subassembly of one number before the spraying and place the assigned position, will withdraw the dog after the spraying is accomplished, press from both sides a new dog again before the spraying next time, the above-mentioned problem has been avoided.

Preferably, the clamping assembly further comprises:

the special-shaped block I is fixedly connected inside the round shell;

the second special-shaped block is rotatably connected inside the round shell, the second special-shaped block is positioned outside the first special-shaped block, a spring is arranged at the joint of the second special-shaped block and the round shell, and the spring is fixedly connected with the round shell;

the third special-shaped block is connected to the outer wall of the first special-shaped block in a sliding manner;

two right-angle rods fixedly connected to the second special-shaped block;

the arc block is connected to the right-angle rod in a sliding mode, and the shape of the arc block is consistent with that of the arc groove.

Specifically, the junction of circular arc piece and quarter butt is equipped with the spring, no. one dysmorphism piece, no. two dysmorphism pieces and No. three dysmorphism pieces are last to be equipped with two inclined planes, when the circle shell pushed down to the dog, the circular arc piece receives the extrusion of dog and slides along the direction that is close to the circle shell inner wall, no. three dysmorphism pieces atress slides along the direction of No. one dysmorphism piece, the in-process that slides contacts with No. two dysmorphism pieces and promotes No. two dysmorphism pieces and move towards the direction that is away from the circle shell inner wall, until No. two dysmorphism pieces are located the top, no. two dysmorphism pieces receive the elasticity of spring and rotate along the inclined plane of No. three dysmorphism pieces, when the circle shell upwards lifts up, no. two dysmorphism pieces receive the elasticity of spring and slide and rotate along the inclined plane of No. one dysmorphism piece, drive quarter butt and circular arc piece rotate 90 degrees, the circular arc piece slides along the circular arc groove and finally enter into the circular arc inslot under the effect of spring elasticity, the dog is got by the circle shell clamp at this moment, press once more then can rotate 90 degrees with the dysmorphism piece, the dog leaves the circular arc inslot, will drop from the shell in the circular arc groove freely, can realize the step with getting manual clamp.

Preferably, the gripping portion further includes:

the electric telescopic rod is used for driving the T-shaped rod to move and is fixedly arranged in the square shell;

the short rod is fixedly connected to the T-shaped rod;

the T-shaped rod is driven to rotate, the first long barrel is installed on the outer wall of the T-shaped rod, the first long barrel is slidably installed in the Fang Ke, a sliding groove is formed in the first long barrel, and the short rod is slidably connected with the sliding groove.

Specifically, the spout comprises two arc grooves, two straight grooves and two circular grooves, a new dog is equipped with in the circle shell that T word pole is located the below under the initial condition, be located the circle shell of T word pole top and do not contain the dog, when the dog after the use is got to the clamp, electric telescopic handle stretches out, drive T word pole and quarter butt to the direction removal that is close to the reflective cloth, in the in-process quarter butt that moves slides along the arc groove, and drive T word pole and rotate, when T word pole is located the top of dog, the circle shell that does not contain the dog is located the top of dog at this moment, promote down and press from both sides the subassembly, can press from both sides the dog that has used and get, electric telescopic handle continues to promote T word pole, the quarter butt is along straight groove removal until entering the circle inslot, the T word pole receives the elasticity rotation of spring to initial condition this moment, the circle shell that is equipped with new dog at this moment is located the top of reflective cloth, electric telescopic handle shortens, drive T word pole to the direction removal that is kept away from the reflective cloth, the quarter butt slides in the straight inslot, when T word pole is located the top of dog, when T word pole is located the dog, the top of holding down the subassembly, the appointed circle shell is got to the position through the clamp, can be got by the rotatory position to the appointed clamp to the clamp by the subassembly when the realization, can take down the rotary clip the position by the appointed position.

Preferably, the gripping portion further includes:

the round sleeve is rotationally connected to the T-shaped rod and is in sliding connection with the square shell;

a second club fixedly connected to the round sleeve;

a long rod rotatably installed in the square shell;

a V-shaped plate rotatably connected to the long rod;

a first club fixedly connected to one end of the V-shaped plate;

the connecting rod is hinged to the first long barrel, one end, away from the first long barrel, of the connecting rod is hinged to the V-shaped plate, and the first ball rod and the connecting rod are located on two sides of the V-shaped plate respectively.

Specifically, the quarter butt drives circle cover and No. two clubs and slides forward along the in-process that the spout removed, when the quarter butt slides in straight slot, when the circle shell is located the top of dog, no. two clubs and No. one club and contact, and promote No. one club and upwards remove, drive the V-arrangement board and rotate, the V-arrangement board rotates and drives the connecting rod and rotate and remove, promote to press from both sides and get the subassembly and remove down, used dog is installed in the circle shell this moment, the quarter butt continues to remove, no. one club and No. two clubs contactless, press from both sides and get the subassembly and resume to original height this moment, then the quarter butt enters into the circular slot from straight slot and rotates 90 degrees, no. two clubs contact with No. one club again when the quarter butt slides along straight slot again, press from both sides and get the subassembly by the connecting rod down again this moment, new dog is placed on reflective cloth this moment, through setting up No. one club and No. two clubs, can control the removal of clamping the subassembly by oneself, realize the action of clamping.

Preferably, the replacement component No. one further includes:

a plurality of compression bars which are connected in the first cylinder in a sliding way, and springs are arranged between the compression bars and the first cylinder;

a plurality of first unidirectional transmission structures which are connected with the compression bar through threads, wherein the first unidirectional transmission structures are rotationally connected with the first cylinder;

the second long cylinder is rotatably connected to the round shell, and the second long cylinder and the first unidirectional transmission structures are transmitted through a transmission belt;

the threaded connection is in the bracing piece No. one in the long section of thick bamboo No. two, a plurality of baffles have been placed to the bracing piece No. one.

Specifically, when T word pole is located the ring, the circle piece is extrudeed, the in-process that the circle shell slides to a drum top, the dog that is located the top in the replacement subassembly receives the extrusion, promote whole replacement subassembly downwardly moving, when the circle shell slides to a drum top, a replacement subassembly receives elasticity effect and resumes initial condition, the dog is located the circle shell this moment, the circle piece pops out downwards under the effect of spring elasticity simultaneously, drive circle shell downwardly moving, circle shell and depression bar contact, and promote the depression bar to slide, the dog bumps with the special-shaped piece of No. three in the circle shell this moment, the circular arc piece slides to the circular arc inslot, the dog is held by the circle shell clamp, when the T word pole slides away, the depression bar receives elasticity effect upwards to slide, drive one-way transmission structure rotation No. two long drums are rotatory, make a bracing piece upwards move the assigned distance, the dog that is located last dog this moment, through setting up a replacement subassembly, can install new dog on holding the subassembly by oneself.

Preferably, the gripping portion further includes:

the first recovery shell is fixedly connected to the circular ring, and purified water is filled in the first recovery shell;

the lug is fixedly connected to the circular ring, and the lug and the first recovery shell are both positioned on the sliding track when the T-shaped rod is retracted.

Specifically, when the round shell of the used check block is clamped and retracted, the check block is contacted with the convex block on the round ring at first and pushed upwards, when the round shell passes through the first recovery shell, the circular arc block in the round shell rotates and slides out of the circular arc groove, at the moment, the check block falls from the round shell and enters the first recovery shell, the waterproof material on the check block is dissolved in purified water, and the check block on the round shell can be automatically taken down by arranging the convex block.

Preferably, the T-shaped rod comprises a first ring, a second ring, a first protection sleeve, a second protection sleeve, a first protection part, a second protection part and a third protection sleeve, wherein the first protection part comprises a second replacement component, the second replacement component comprises a second cylinder and a plurality of protection sleeves, the second cylinder is fixedly arranged on the outer wall of the ring, the plurality of protection sleeves are all positioned in the second cylinder, and the second cylinder is positioned on a sliding track extending out of the T-shaped rod.

Specifically, before clamping the used stop block, a protective sleeve is sleeved on the round shell, so that the problem that the normal operation of the clamping assembly is affected due to the fact that waterproof materials remain in the round shell can be avoided.

Preferably, the second replacement component further comprises:

two rotating rods rotatably connected in the second cylinder;

the second supporting rod is connected in the second cylinder in a sliding way;

the rotary connecting device comprises a second one-way transmission structure on a second supporting rod, wherein the second one-way transmission structure is rotationally connected with a second cylinder, and the second one-way transmission structure is driven by a chain belt between two rotating rods.

Specifically, contain two pull rings on the lag, the surface of bull stick is equipped with the helicla flute, the pitch on the bull stick is greater than the thickness of a pull ring, and be less than the thickness of two pull rings, the pull ring is hung on the helicla flute, when the circle shell that needs clamp the dog of getting the use is through No. two drums, the circle shell pops out under the effect of spring elastic force, drive circle shell pop out and contact with the lag, no. two bracing pieces are to keeping away from the direction of circle shell and slide certain distance, drive No. two unidirectional structure rotations, through chain belt transmission, the bull stick rotates appointed angle, the pull ring that is located the lag of bull stick nearest to circle shell direction drops from the bull stick, the outermost lag drops from No. two replacement subassemblies and overlaps outside the circle shell, through setting up No. two replacement subassemblies, press from the in-process that the subassembly slides in the ring.

Preferably, the guard further includes:

the second recovery shell is fixedly connected to the side wall of the circular ring, a suction pump is arranged in the second recovery shell, and the second recovery shell is positioned on a sliding track when the T-shaped rod is retracted;

the two switches are used for controlling the suction pump to be started and closed, the two switches are arranged on the inner wall of the circular ring, the two switches are symmetrically distributed on the upper side and the lower side of the second recovery shell, and the two switches are both positioned on the sliding track when the T-shaped rod is retracted.

Specifically, when the round shell which does not contain the check block and is provided with the protective sleeve contacts with the switch below the second recovery shell, the suction pump is started, when the round shell passes through the second recovery shell, the protective sleeve is sucked into the second recovery shell, and when the round shell contacts with the switch above the second recovery shell, the suction pump is closed, so that the protective sleeve can be automatically taken off without manual operation.

Preferably, the frame body is fixedly connected with two fixing seats, a threaded rod is rotationally connected to the fixing seats, and the threaded rod penetrates through the square shell and is in threaded connection with the square shell.

Specifically, rotate the threaded rod, can make the square shell effect on the threaded rod remove, square shell removes and drives and press from both sides and get a portion and protection portion one and remove, through setting up the threaded rod, can control the position of dog.

The beneficial effects of the invention are as follows:

1. according to the surface coating equipment for the glass bead layer, the clamping component is arranged and matched with the first ball rod and the second ball rod, when the round shell is positioned above the stop block, the second ball rod is contacted with the first ball rod to push the clamping component to move downwards, the stop block is clamped by the round shell, when the round shell is positioned above the stop block again, the second ball rod is contacted with the first ball rod for a second time to push the clamping component to move downwards, a new stop block is taken down from the round shell, the used stop block can be clamped by itself and replaced by the new stop block, continuous use of the stop block is avoided, and the residual small-drop waterproof material on the stop block gathers to form a large-drop waterproof material and then slides to the bottom of the stop block to influence new reflective cloth.

2. According to the surface coating equipment for the glass bead layer, the first replacing component is arranged, when the round shell slides to the upper side of the first cylinder, the stop block positioned at the uppermost part in the first replacing component is extruded, the whole first replacing component is pushed to move downwards, when the round shell slides to the upper side of the first cylinder, the first replacing component is recovered to an initial state under the action of elastic force, at the moment, the stop block is positioned in the round shell, meanwhile, the round block pops downwards under the action of elastic force of the spring, the round shell is driven to move downwards, the round shell is contacted with the pressing rod and pushes the pressing rod to slide, at the moment, the stop block collides with the third special-shaped block in the round shell, at the moment, the round block slides into the circular arc groove, the stop block is clamped by the round shell and is matched with the convex block, after the round block is clamped with the round shell with the used stop block, the round shell is clamped with the convex block on the round ring, the stop block is pushed upwards, and the round block is rotated in the round shell after the round shell passes through the first recycling shell, the round shell rotates and falls out of the circular arc groove from the round shell and falls into the new stop block, and is automatically removed from the round shell after the round shell, and the round shell is installed into the new stop block.

3. According to the surface coating equipment for the glass bead layer, the second replacing component is arranged, the electric telescopic rod stretches out to drive the T-shaped rod and the short rod to move in the direction close to the reflective cloth, the short rod slides along the arc-shaped groove in the moving process and drives the T-shaped rod to rotate, when the T-shaped rod rotates in the arc, when the round shell without the stop block passes through the second recycling shell, the round block ejects out under the action of spring elastic force to drive the round shell to eject and contact with the protective sleeve, the second supporting rod slides for a certain distance in the direction far away from the round shell to drive the second unidirectional structure to rotate, the chain belt drives the rotary rod to rotate by a specified angle, the pull ring of the protective sleeve positioned in the direction closest to the round shell is separated from the rotary rod, the protective sleeve positioned at the outermost layer is separated from the second replacing component and sleeved outside the round shell, the protective sleeve is automatically sleeved on the outer layer of the round shell, the protective sleeve plays a role of the protective clamping component, the waterproof material is prevented from being rubbed into the round shell when the stop block is clamped, the protective sleeve is used for a long time, the problem that the protective sleeve is damaged after the protective sleeve is clamped, and the second replacing component is matched with the protective sleeve automatically.

Drawings

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

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of a square shell;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the ring of the present invention;

FIG. 5 is a schematic view of the structure of the clamping assembly of the present invention;

FIG. 6 is a cross-sectional view of a first horn of the present invention;

FIG. 7 is a schematic view of the internal structure of the round shell of the present invention;

FIG. 8 is a schematic diagram of an alternate assembly of the present invention;

fig. 9 is a schematic structural view of a second alternate assembly of the present invention.

In the figure: 1. a frame body; 2. a spray head; 3. a square shell; 4. a clamping part; 41. a circular ring; 42. a clamping assembly; 421. a T-shaped rod; 422. round blocks, 423 and round shells; 424. a first special-shaped block; 425. a second special-shaped block; 426. a third special-shaped block; 427. a right angle lever; 428. arc blocks; 43. a first replacement component; 431. a first cylinder; 432. a stop block; 433. an arc groove; 434. a compression bar; 435. a first unidirectional transmission structure; 436. a second long barrel; 437. a first support rod; 44. an electric telescopic rod; 45. a short bar; 46. a first long cylinder; 47. a chute; 48. a round sleeve; 49. a long rod; 410. a V-shaped plate; 411. a first club; 412. a connecting rod; 413. a first recovery shell; 414. a bump; 415. a second club; 5. a protective part; 51. a second replacement component; 511. a second cylinder; 512. a protective sleeve; 513. a rotating rod; 514. a second support rod; 515. a second unidirectional transmission structure; 52. a second recovery shell; 53. a switch; 6. a fixing seat; 7. a threaded rod.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one: as shown in fig. 1 to 9, a surface plating device for a glass bead layer according to an embodiment of the present invention includes a frame body 1, and further includes:

a spray head 2 mounted on the frame 1, the spray head 2 being used for spraying waterproof paint;

a square shell 3 arranged at one side of the frame body 1;

the clamping part 4, the clamping part 4 includes ring 41, clamping component 42 and replacement component 43, clamping component 42 includes T word pole 421, two rotary blocks 422 and two shells, T word pole 421 slidable mounting is in the square shell 3, two rotary blocks 422 with T word pole 421 sliding connection, install the spring between rotary block 422 with install the T word pole 421, ring 41 fixed connection is in the square shell 3, replacement component 43 includes a drum 431 and a plurality of dog 432, a plurality of drum 431 slidable mounting is in the bottom of ring 41, a plurality of dog 432 are all placed in the drum 431, two circular arc grooves 433 have been seted up to the bilateral symmetry of dog 432.

Specifically, the during operation will reflect light cloth and place on support body 1, will need to spray waterproof material's one side to place the top, to some cloth that contain special demand, it does not need to spray waterproof material to a place, consequently, need use dog 432 back again carry out the spraying, but the dog 432 can remain liquid waterproof material above after the spraying, if dog 432 is not in time changed, the liquid that drips on the dog 432 can condense into big liquid after the multiple use, the waterproof material of big drip can slide to the bottom of dog 432 after gripping, then waterproof material can be attached to the cloth in the subsequent use, through setting up clamping portion 4, the unused dog 432 in pressing from both sides a replacement subassembly 43 before the spraying is placed in the assigned position, withdraw dog 432 after the spraying is accomplished, press from both sides a new dog 432 again before the spraying next time, the above-mentioned problem has been avoided.

As shown in fig. 6 and 8, the gripping assembly 42 further includes:

a first special-shaped block 424 fixedly connected inside the circular shell;

the second special-shaped block 425 is rotatably connected inside the round shell, the second special-shaped block 425 is positioned outside the first special-shaped block 424, a spring is arranged at the joint of the second special-shaped block 425 and the round shell, and the spring is fixedly connected with the round shell;

a third special-shaped block 426 slidably connected to the outer wall of the first special-shaped block 424;

two right-angle bars 427 fixedly connected to the second shaped block 425;

and an arc block 428 slidably connected to the right angle lever 427, wherein the arc block 428 has a shape corresponding to the shape of the arc groove 433.

Specifically, the connection part of the circular arc block 428 and the right angle rod 427 is provided with a spring, the first special-shaped block 424, the second special-shaped block 425 and the third special-shaped block 426 are respectively provided with two inclined planes, when the circular shell is pressed down to the stop block 432, the circular arc block 428 is pressed by the stop block 432 to slide towards the direction close to the inner wall of the circular shell, the third special-shaped block 426 is forced to slide along the direction of the first special-shaped block 424, the sliding process is contacted with the second special-shaped block 425 and pushes the second special-shaped block 425 to move towards the direction far away from the inner wall of the circular shell until the second special-shaped block 425 is positioned at the topmost end, the second special-shaped block 425 is pressed by the spring to rotate along the inclined plane of the third special-shaped block 426, when the circular shell is lifted up, the second special-shaped block 425 is pressed by the spring to slide along the inclined plane of the first special-shaped block 424 and rotate to drive the right angle rod 427 and the circular arc block 428 to rotate 90 degrees, the circular arc block 428 slides along the circular arc groove 433 at the moment and finally enters the circular arc groove 433 under the action of the spring force, the stop block 432 is clamped by the circular shell, the second special-shaped block 425 is pressed again, the second special-shaped block 425 can be separated from the circular arc groove 428 by the circular arc groove 433, and the circular arc 428 can be freely separated from the circular shell 428, and the circular shell can be freely separated from the circular shell without any step.

As shown in fig. 2 to 6, the gripping portion 4 further includes:

an electric telescopic rod 44 for driving the T-shaped rod 421 to move, wherein the electric telescopic rod 44 is fixedly arranged in the square shell 3;

a short bar 45 fixedly connected to the T-bar 421;

the long barrel 46 of a number of the rotatory drive T word pole 421, long barrel 46 is installed on the outer wall of T word pole 421, long barrel 46 slidable mounting is in the square casing 3, offered spout 47 in the long barrel 46 of a number, the quarter butt 45 with spout 47 sliding connection.

Specifically, the chute 47 comprises two arc grooves, two straight grooves and two circular grooves, a new stop 432 is installed in the circular shell below the T-shaped rod 421 in an initial state, the stop 432 is not contained in the circular shell above the T-shaped rod 421, when the used stop 432 is to be clamped, the electric telescopic rod 44 stretches out and drives the T-shaped rod 421 and the short rod 45 to move in the direction close to the reflective cloth, the short rod 45 slides along the arc grooves in the moving process and drives the T-shaped rod 421 to rotate, when the T-shaped rod 421 is located above the stop 432, the circular shell without the stop 432 is located above the stop 432, the clamping component 42 is pushed downwards, the used stop 432 can be clamped, the electric telescopic rod 44 continues to push the T-shaped rod 421, the short rod 45 moves along the straight groove until the used stop 432 enters the circular groove, at this moment, the T-shaped rod 421 is rotated to the initial state by the elastic force of the spring, the circular shell with the new stop 432 is located above the reflective cloth, the electric telescopic rod 44 shortens, and drives the T-shaped rod 421 to move away from the specified position of the circular shell, and the T-shaped rod 421 can move to the specified position of the circular shell 46 when the T-shaped rod 421 falls down, and the specified position of the T-shaped rod 421 falls down in the specified position is realized.

As shown in fig. 3, the gripping portion 4 further includes:

a round sleeve 48 rotatably connected to the T-shaped rod 421, wherein the round sleeve 48 is slidably connected with the square shell 3;

a club No. two 415 fixedly attached to the round sleeve 48;

a long rod 49 rotatably installed in the square housing 3;

a V-shaped plate 410 rotatably connected to the long rod 49;

a number one club 411 fixedly attached to one end of the V-shaped plate 410;

the connecting rod 412 is hinged to the first long cylinder 46, one end of the connecting rod 412 away from the first long cylinder 46 is hinged to the V-shaped plate 410, and the first club 411 and the connecting rod 412 are respectively located at two sides of the V-shaped plate 410.

Specifically, the T-shaped rod 421 drives the round sleeve 48 and the second rod 415 to slide forward in the process of moving along the chute 47, when the short rod 45 slides in the straight slot, the second rod 415 contacts with the first rod 411 and pushes the first rod 411 to move upward, the V-shaped plate 410 is driven to rotate, the V-shaped plate 410 rotates to drive the connecting rod 412 to rotate and move, the clamping assembly 42 is pushed to move downward, the used stop 432 is installed in the round slot, the short rod 45 continues to move, the first rod 411 is not in contact with the second rod 415, the clamping assembly 42 returns to the original height, then the short rod 45 enters the round slot from the straight slot and rotates by 90 degrees, when the short rod 45 slides again along the straight slot, the second rod 415 contacts with the first rod 411 again, the clamping assembly 42 is pressed downward again by the connecting rod 412, the new stop 432 is placed on the reflective cloth, and the clamping assembly 42 can be automatically controlled to move by setting the first rod 411 and the second rod 415.

As shown in fig. 8, the first replacement component 43 further includes:

a plurality of compression bars 434 slidably connected in the first cylinder 431, and springs are arranged between the compression bars 434 and the first cylinder 431;

a plurality of first unidirectional transmission structures 435 which are connected with the compression bar 434 in a threaded manner, wherein the first unidirectional transmission structures 435 are rotationally connected with the first cylinder 431;

a second long barrel 436 rotatably connected to the circular shell, wherein the second long barrel 436 is driven by a plurality of first unidirectional driving structures 435 through a transmission belt;

the first support bar 437 is in threaded connection with the second long barrel 436, and a plurality of baffles are placed on the first support bar 437.

Specifically, when the T-shaped rod 421 is located in the ring 41, the round block 422 is extruded, when the round shell slides to the upper side of the first cylinder 431, the stop 432 located at the uppermost side in the first replacement component 43 is extruded, the whole first replacement component 43 is pushed to move downwards, when the round shell slides to the upper side of the first cylinder 431, the first replacement component 43 is recovered to the initial state under the action of elastic force, at the moment, the stop 432 is located in the round shell, and meanwhile, the round block 422 pops downwards under the action of the elastic force of the spring, drives the round shell to move downwards, the round shell contacts with the compression rod 434, and pushes the compression rod 434 to slide, at the moment, the stop 432 collides with the third special-shaped block 426 in the round shell, at the moment, the circular arc block 428 slides into the circular arc groove 433, the stop 432 is clamped by the round shell, when the T-shaped rod 421 slides upwards, the stop 434 is pushed to slide upwards under the action of the elastic force, the first unidirectional transmission structure is driven to rotate, the second cylinder 436 rotates, the first support rod 437 moves upwards by a designated distance, the stop 432 is located at the upper position of the stop 432, the stop 432 is pushed by the first replacement component, and the stop 432 is pushed by the second replacement component 43, and the stop is clamped by the new stop 43.

As shown in fig. 4, the gripping portion 4 further includes:

a first recovery case 413 fixedly connected to the ring 41, wherein purified water is contained in the first recovery case 413;

the protruding block 414 fixedly connected to the ring 41, and the protruding block 414 and the first recycling shell 413 are both located on a sliding track when the T-shaped rod 421 is retracted.

Specifically, when the used round shell of the stopper 432 is taken back, the used round shell is firstly contacted with the lug 414 on the round ring 41 and the stopper 432 is pushed upwards, when the round shell passes through the first recovery shell 413, the circular arc block 428 in the round shell rotates and slides out of the circular arc groove 433, at the moment, the stopper 432 falls from the round shell and enters the first recovery shell 413, the waterproof material on the stopper 432 is dissolved in purified water, and the stopper 432 on the round shell can be automatically taken down by arranging the lug 414.

As shown in fig. 5 and 9, the protection part 5 further comprises a protection part 5, the protection part 5 comprises a second replacement component 51, the second replacement component 51 comprises a second cylinder 511 and a plurality of protection sleeves 512, the second cylinder 511 is fixedly installed on the outer wall of the circular ring 41, a plurality of protection sleeves 512 are all located inside the second cylinder 511, and the second cylinder 511 is located on a sliding track extending out of the T-shaped rod 421.

Specifically, the protective sleeve 512 is sleeved on the round shell before the used stop 432 is clamped, so that the problem that the normal operation of the clamping assembly 42 is affected due to the fact that waterproof materials remain in the round shell can be avoided.

As shown in fig. 9, the second replacement component 51 further includes:

two rotating rods 513 rotatably connected to the inside of the second cylinder 511;

a second support rod 514 slidably connected to the second cylinder 511;

the second unidirectional transmission structure 515 is rotatably connected to the second support rod 514, the second unidirectional transmission structure 515 is rotatably connected to the second cylinder 511, and the second unidirectional transmission structure 515 and the rotating rod 513 are transmitted by a chain belt.

Specifically, the protection sleeve 512 includes two pull rings, the surface of the rotation rod 513 is provided with a thread groove, the thread pitch on the rotation rod 513 is greater than the thickness of one pull ring and is smaller than the thickness of the two pull rings, the pull rings are hung on the thread groove, when the round shell of the used stop block 432 needs to be clamped and taken through the second round cylinder 511, the round block 422 ejects out under the action of spring force to drive the round shell to eject out and contact with the protection sleeve 512, the second support rod 514 slides a certain distance away from the round shell to drive the second unidirectional structure to rotate, through chain belt transmission, the rotation rod 513 rotates by a specified angle, the pull ring of the protection sleeve 512 positioned closest to the round shell direction of the rotation rod 513 falls off from the rotation rod 513, the protection sleeve 512 on the outermost layer falls off from the second replacement assembly 51 and is sleeved outside the round shell, and the protection sleeve 512 can be sleeved with the protection sleeve 512 by setting the second replacement assembly 51 in the sliding process of the clamping assembly 42 in the round ring 41.

As shown in fig. 4, the guard 5 further includes:

a second recovery shell 52 fixedly connected to the side wall of the circular ring 41, wherein a suction pump is arranged in the second recovery shell 52, and the second recovery shell 52 is positioned on a sliding track when the T-shaped rod 421 is retracted;

the two switches 53 for controlling the start and the stop of the suction pump are arranged on the inner wall of the circular ring 41, the two switches 53 are symmetrically distributed on the upper side and the lower side of the second recovery shell 52, and the two switches 53 are positioned on the sliding track when the T-shaped rod 421 is retracted.

Specifically, when the round shell without the stopper 432 and with the protective cover 512 is in contact with the switch 53 below the second recovery shell 52, the suction pump is started, when the round shell passes through the second recovery shell 52, the protective cover 512 is sucked into the second recovery shell 52, and when the round shell is in contact with the switch 53 above the second recovery shell 52, the suction pump is turned off, so that the protective cover 512 can be automatically taken off without manual operation.

Embodiment two: as shown in fig. 2, in comparative example one, another embodiment of the present invention is: two fixing seats 6 are fixedly connected to the frame body 1, threaded rods 7 are connected to the fixing seats 6 in a rotating mode, and the threaded rods 7 penetrate through the square shell 3 and are in threaded connection with the square shell 3.

Specifically, rotating the threaded rod 7 can make the square shell 3 on the threaded rod 7 act on and move, and the square shell 3 moves to drive the clamping part 4 and the protecting part 5 to move together, so that the position of the stop 432 can be controlled by arranging the threaded rod 7.

The working steps are as follows: firstly, placing the reflective cloth on the frame body 1 during working, placing one surface to be sprayed with a waterproof material above, placing the stop block 432 at a position where the waterproof material is not required to be sprayed, and starting to spray the waterproof material on the reflective cloth;

after the spraying is finished, a new stop 432 is arranged in the round shell below the T-shaped rod 421 in the initial state, the stop 432 is not arranged in the round shell above the T-shaped rod 421, the electric telescopic rod 44 extends out to drive the T-shaped rod 421 and the short rod 45 to move towards the direction close to the reflective cloth, the short rod 45 slides along the arc-shaped groove in the moving process and drives the T-shaped rod 421 to rotate, when the T-shaped rod 421 rotates in the arc, when the round shell without the stop 432 passes through the second recovery shell 52, the round block 422 ejects under the action of spring force to drive the round shell to eject and contact with the protective sleeve 512, the second support rod 514 slides for a certain distance towards the direction far away from the round shell, the second unidirectional structure is driven to rotate, the protective sleeve 512 positioned in the direction closest to the round shell of the rotary rod 513 is separated from the rotary rod 513 by a specified angle through chain belt transmission, and the protective sleeve 512 positioned on the outermost layer is separated from the second replacement assembly 51 and sleeved outside the round shell;

step three, the electric telescopic rod 44 continues to extend, when the short rod 45 slides in the straight groove, the round shell is positioned above the stop block 432, the second ball rod 415 is in contact with the first ball rod 411 and pushes the first ball rod 411 to move upwards to drive the V-shaped plate 410 to rotate, the V-shaped plate 410 rotates to drive the connecting rod 412 to rotate and move to push the clamping component 42 to move downwards, when the round shell is pressed down towards the stop block 432, the circular arc block 428 is pushed by the stop block 432 to slide towards the direction close to the inner wall of the round shell, the third special-shaped block 426 is stressed to slide along the direction of the first special-shaped block 424, in the sliding process, the second special-shaped block 425 contacts with the second special-shaped block 425 and pushes the second special-shaped block 425 to move away from the direction close to the inner wall of the round shell until the second special-shaped block 425 is positioned at the topmost end, at the moment, the second special-shaped block 425 is pushed by the elastic force of the spring to rotate along the inclined surface of the third special-shaped block 426, when the round shell is lifted upwards, the second special-shaped block 425 is pushed by the elastic force of the spring to slide along the inclined surface of the first special-shaped block 424 and rotate to drive the straight angle rod and the circular arc block 428 to rotate 90 degrees along the inclined surface of the first special-shaped block 428, and the circular arc block 433 is pushed by the circular arc 433 to slide along the elastic groove 433 and finally move into the circular arc groove 433;

step four, the short rod 45 continues to move, the first club 411 is not contacted with the second club 415, at this time, the clamping assembly 42 is restored to the original height, then the short rod 45 enters the circular groove from the straight groove and rotates by 90 degrees, then the electric telescopic rod 44 is contracted, when the short rod 45 slides along the straight groove again, the second club 415 is contacted with the first club 411 again, at this time, the clamping assembly 42 is pressed downwards again by the connecting rod 412, at this time, the new stop 432 is placed on the reflective cloth;

step five, the short rod 45 continues to move along the arc-shaped groove, when the T-shaped rod 421 is close to the circular ring 41, the circular shell with the used check block 432 clamped is positioned below, after the clamping assembly 42 enters the circular ring 41, the circular block 422 is extruded, the circular shell with the used check block 432 clamped is contacted with the convex block 414 on the circular ring 41, the check block 432 is pushed upwards, when the circular shell passes through the first recovery shell 413, the arc-shaped block 428 in the circular shell rotates and slides out of the arc-shaped groove 433, and at the moment, the check block 432 falls from the circular shell and enters the first recovery shell 413;

step six, the electric telescopic rod 44 continues to shrink, at this moment, the short rod 45 slides along the straight slot, when the round shell slides to the upper side of the first cylinder 431, the stop 432 positioned at the uppermost part in the first replacement component 43 is extruded, the whole first replacement component 43 is pushed to move downwards, when the round shell slides to the upper side of the first cylinder 431, the first replacement component 43 is recovered to the initial state under the action of elasticity, at this moment, the stop 432 is positioned in the round shell, meanwhile, the round block 422 pops downwards under the action of the spring elasticity, the round shell is driven to move downwards, the round shell contacts with the pressing rod 434, at this moment, the stop 432 collides with the third special-shaped block 426 in the round shell, at this moment, the circular arc block 428 slides into the circular arc groove 433, the stop 432 is clamped by the round shell, when the T-shaped rod 421 slides away, the stop 434 slides upwards under the action of elasticity, the first unidirectional transmission structure is driven to rotate, the second long cylinder 436 rotates, the first supporting rod moves upwards by a designated distance, at this moment, the stop 432 is positioned at the position of the upper stop 432, and a new stop 432 is installed;

step seven, the electric telescopic rod 44 continues to shrink, at this moment, the short rod 45 enters the circular groove, the T-shaped rod 421 is rotated to an initial state by the elasticity of the spring, in the rotating process, the circular shell without the stop block 432 and provided with the protective sleeve 512 is contacted with the switch 53 below the second recovery shell 52, the suction pump is started, when the circular shell passes through the second recovery shell 52, the protective sleeve 512 is sucked into the second recovery shell 52, and when the circular shell is contacted with the switch 53 above the second recovery shell 52, the suction pump is closed, and the protective sleeve 512 can be automatically removed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a surface coating equipment on glass bead layer, includes support body (1), still includes:

the spray head (2) is arranged on the frame body (1), and the spray head (2) is used for spraying waterproof paint;

a square shell (3) arranged at one side of the frame body (1);

the clamping part (4), the clamping part (4) comprises a circular ring (41), a clamping component (42) and a first replacement component (43), the clamping component (42) comprises a T-shaped rod (421), two round blocks (422) and two round shells, the T-shaped rod (421) is slidably mounted in Fang Ke (3), the two round blocks (422) are slidably connected with the T-shaped rod (421), springs are mounted between the round blocks (422) and the T-shaped rod (421), the circular ring (41) is fixedly connected in Fang Ke (3), the first replacement component (43) comprises a first cylinder (431) and a plurality of check blocks (432), the first cylinder (431) is slidably mounted at the bottom of the circular ring (41), the plurality of check blocks (432) are all placed in the first cylinder (431), and two circular arc grooves (433) are symmetrically formed in two sides of the check blocks (432).

2. The surface coating apparatus for glass bead layer according to claim 1, wherein: the gripping assembly (42) further comprises:

a first special-shaped block (424) fixedly connected inside the round shell;

the second special-shaped block (425) is rotatably connected inside the round shell, the second special-shaped block (425) is positioned outside the first special-shaped block (424), a spring is arranged at the joint of the second special-shaped block (425) and the round shell, and the spring is fixedly connected with the round shell;

the third special-shaped block (426) is connected to the outer wall of the first special-shaped block (424) in a sliding manner;

two right-angle rods (427) fixedly connected to the second special-shaped block (425);

and an arc block (428) which is connected to the right angle rod (427) in a sliding manner, wherein the shape of the arc block (428) is consistent with the shape of the arc groove (433).

3. The surface coating apparatus for glass bead layer according to claim 2, wherein: the gripping part (4) further comprises:

an electric telescopic rod (44) for driving the T-shaped rod (421) to move, wherein the electric telescopic rod (44) is fixedly arranged in the Fang Ke (3);

a short rod (45) fixedly connected to the T-shaped rod (421);

the T-shaped rod (421) is driven to rotate, the first long barrel (46) is installed on the outer wall of the T-shaped rod (421), the first long barrel (46) is slidably installed in the Fang Ke (3), a sliding groove (47) is formed in the first long barrel (46), and the short rod (45) is slidably connected with the sliding groove (47).

4. A surface coating apparatus for glass bead layer as defined in claim 3, wherein: the gripping part (4) further comprises:

a round sleeve (48) connected to the T-shaped rod (421) in a rotating mode, and the round sleeve (48) is connected with the Fang Ke (3) in a sliding mode;

a second club (415) fixedly connected to the round sleeve (48);

a long rod (49) rotatably mounted in the Fang Ke (3);

a V-shaped plate (410) rotatably connected to the long rod (49);

a number one club (411) fixedly connected to one end of the V-shaped plate (410);

the connecting rod (412) is hinged to the first long cylinder (46), one end, away from the first long cylinder (46), of the connecting rod (412) is hinged to the V-shaped plate (410), and the first ball rod (411) and the connecting rod (412) are respectively located on two sides of the V-shaped plate (410).

5. The surface coating apparatus for glass bead layer according to claim 4, wherein: the replacement component (43) further includes:

a plurality of compression bars (434) which are connected in the first cylinder (431) in a sliding way, wherein springs are arranged between the compression bars (434) and the first cylinder (431);

a number one unidirectional transmission structure (435) which is connected with the compression bar (434) through threads, wherein the number one unidirectional transmission structure (435) is rotationally connected with the number one cylinder (431);

a second long barrel (436) rotatably connected to the circular shell, wherein the second long barrel (436) and a plurality of first unidirectional transmission structures (435) are transmitted by a transmission belt;

the first support rod (437) is in threaded connection in the second long barrel (436), and a plurality of baffles are placed on the first support rod (437).

6. The surface coating apparatus for glass bead layer according to claim 1, wherein: the gripping part (4) further comprises:

a first recovery shell (413) fixedly connected to the circular ring (41), wherein purified water is filled in the first recovery shell (413);

and the convex blocks (414) are fixedly connected to the circular ring (41), and the convex blocks (414) and the first recovery shell (413) are positioned on the sliding track when the T-shaped rod (421) is retracted.

7. The surface coating apparatus for glass bead layer according to claim 1, wherein: still include guard portion (5), guard portion (5) are including No. two replacement subassemblies (51), no. two replacement subassemblies (51) are including No. two drums (511) and a plurality of lag (512), no. two drums (511) fixed mounting are in on the outer wall of ring (41), a plurality of lag (512) all are located No. two drum (511) inside, no. two drum (511) are located on the sliding track that T word pole (421) stretched out.

8. The surface coating apparatus for glass bead layer according to claim 7, wherein: the replacement component No. two (51) further includes:

two rotating rods (513) rotatably connected in the second cylinder (511);

a second supporting rod (514) which is connected in the second cylinder (511) in a sliding way;

the second unidirectional transmission structure (515) is rotationally connected to the second support rod (514), the second unidirectional transmission structure (515) is rotationally connected with the second cylinder (511), and the two second unidirectional transmission structures (515) and the rotating rod (513) are in transmission through a chain belt.

9. The surface coating apparatus for glass bead layer according to claim 7, wherein: the guard (5) further comprises:

a second recovery shell (52) fixedly connected to the side wall of the circular ring (41), a suction pump is arranged in the second recovery shell (52), and the second recovery shell (52) is positioned on a sliding track when the T-shaped rod (421) is retracted;

the two switches (53) are used for controlling the starting and closing of the suction pump, the two switches (53) are arranged on the inner wall of the circular ring (41), the two switches (53) are symmetrically distributed on the upper side and the lower side of the second recovery shell (52), and the two switches (53) are both positioned on the sliding track when the T-shaped rod (421) is retracted.

10. The surface coating apparatus for glass bead layer according to claim 1, wherein: two fixing seats (6) are fixedly connected to the frame body (1), threaded rods (7) are rotatably connected to the fixing seats (6), and the threaded rods (7) penetrate through the Fang Ke (3) and are in threaded connection with the Fang Ke (3).