CN219880408U - Automatic gluing device for glass fiber reinforced plastic pipe - Google Patents

Abstract

The utility model relates to an automatic gluing device for glass reinforced plastic pipes, which belongs to the field of glass reinforced plastic pipe preparation equipment and comprises a frame, wherein the frame is provided with two clamping assemblies which are arranged at intervals in a horizontal plane, and a brushing assembly and a glue dripping assembly are also arranged on the frame; the brushing assembly comprises a rotating mechanism movably arranged on the frame, the rotating mechanism is connected with a driving piece arranged on the frame, the rotating mechanism is also connected with a brush head, and the brush head can spread out glue on the glass reinforced plastic pipe on the outer wall of the glass reinforced plastic pipe; through setting up autogiration's brush head and glue dripping subassembly, glue dripping subassembly will glue the water droplet at glass steel pipe's outer wall, and autogiration's brush head is evenly smeared glue on glass steel pipe's outer wall, realizes glass steel pipe's automatic rubber coating, and this kind of automatic rubber coating's mode is not only smeared efficiently, smears evenly moreover.

Description

Automatic gluing device for glass fiber reinforced plastic pipe

Technical Field

The utility model relates to the field of glass reinforced plastic pipe preparation equipment, in particular to an automatic gluing device for glass reinforced plastic pipes.

Background

Glass fiber reinforced plastic pipes are generally applied to environments such as power and communication cables, and metal protection pipes with certain mechanical strength are widely applied to the infrastructure construction fields such as power, communication, traffic and civil aviation because of the excellent performances such as simple construction and high strength in order to prevent cable damage and laying on the outer layer of the cable. In the manufacturing process of the glass fiber reinforced plastic pipe, glue is generally required to be coated between the glass fiber reinforced plastic paper and the bare steel pipe, and the purpose of glue coating is to enable the glass fiber reinforced plastic pipe and the bare steel pipe to be tightly attached, so that the glass fiber reinforced plastic pipe is prevented from falling off from the bare steel pipe. The current gluing mode is generally performed manually, namely, a bare steel pipe is placed on a frame, and then glue is manually smeared on the bare steel pipe, so that the gluing mode has low efficiency and high dependence on manual smearing effect, and the smearing uniformity is difficult to ensure.

Disclosure of Invention

The existing glass fiber reinforced plastic pipe gluing is generally performed manually, the smearing mode is low in efficiency and strong in artificial dependence, and because of manual smearing, the smearing uniformity is difficult to ensure, and the utility model designs an automatic glass fiber reinforced plastic pipe gluing device which adopts the following specific technical scheme:

the automatic gluing device for the glass reinforced plastic pipes comprises a frame, wherein the frame is provided with two clamping assemblies, the two clamping assemblies are arranged at intervals in a horizontal plane and used for clamping the glass reinforced plastic pipes, a brushing assembly and a glue dripping assembly are further arranged on the frame, the brushing assembly is positioned on the outer sides of the two clamping assemblies and is arranged in line with the two clamping assemblies, and the glue dripping assembly drips glue onto the glass reinforced plastic pipes;

the brushing assembly comprises a rotating mechanism movably arranged on the frame, the rotating mechanism is connected with a driving piece arranged on the frame, the rotating mechanism is also connected with a brush head, and the brush head can spread out glue on the glass reinforced plastic pipe on the outer wall of the glass reinforced plastic pipe.

Preferably, the rotating mechanism comprises a rotary drum, two fixed rings are arranged on the machine frame at intervals, guide grooves are formed in the fixed rings, two annular guide bars are arranged on the outer circumference of the rotary drum, the rotary drum is rotatably arranged in the guide grooves of the fixed rings through the annular guide bars, an inner hole of the rotary drum is used for penetrating through a glass reinforced plastic pipe, meshing teeth are arranged on the outer circumference of the rotary drum, corresponding to the space between the two fixed rings, meshing teeth are meshed with a worm, the worm is connected with a driving piece, and the brush head is arranged on the end face of the rotary drum.

Preferably, two brush heads are arranged at intervals along the circumference of the rotary drum.

Preferably, the driving member is an electric motor or a hydraulic motor, and the driving member is arranged on the frame.

Preferably, the brush head is arranged on the end face of the rotary drum through a support, the support is provided with clamping jaws at one end far away from the rotary drum, the two clamping jaws are clamped through bolts, a clamping cavity is formed between the two clamping jaws, and the brush head is clamped in the clamping cavity.

Preferably, the clamping assembly comprises three clamping wheels which are arranged on the frame through connecting rods respectively, wherein the three clamping wheels are distributed in an inverted triangle shape, and the outer circumference of the glass fiber reinforced plastic pipe is simultaneously abutted with the three clamping wheels.

Preferably, the clamping wheel is a plastic waist drum wheel.

Preferably, each connecting rod is an electric telescopic rod.

Preferably, the glue dropping assembly comprises an oil tank and an oil delivery pipe, the oil tank is arranged on the frame, the oil delivery pipe is connected with the oil tank, the oil delivery pipe is provided with an oil dropping port, and the oil dropping port is positioned right above the glass fiber reinforced plastic pipe.

According to the utility model, the automatic rotary brush head and the glue dripping assembly are arranged, the glue dripping assembly drips the glue on the outer wall of the glass fiber reinforced plastic pipe, and the automatic rotary brush head uniformly coats the glue on the outer wall of the glass fiber reinforced plastic pipe, so that the automatic glue coating of the glass fiber reinforced plastic pipe is realized, and the automatic glue coating mode is high in coating efficiency and uniform in coating.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a left side view of the rotation mechanism;

FIG. 3 is a left side view of the clamping assembly;

FIG. 4 is a top view of a bracket for mounting a brush head;

fig. 5 is an enlarged view at I in fig. 1.

In the figure, 1, a frame, 2, a clamping assembly, 3, a glass fiber reinforced plastic pipe, 4, a rotating mechanism, 5, a glue dripping assembly, 6, an electric telescopic rod, 7, a clamping wheel, 8, a bracket, 9 and a bolt;

401. a fixed ring 402, a guide groove 403, a rotary drum 404, a brush head 405, an annular guide bar 406 and meshing teeth; 407. a driving member;

407a, a worm, 407b, a motor;

501. the oil tank, 502, the oil delivery pipe, 503 and the oil drop;

801. clamping jaw, 802, clamping cavity.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present utility model will be described in detail below with reference to the following detailed description and the accompanying drawings.

In addition, in the description of the present utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1-5, an automatic glass fiber reinforced plastic pipe gluing device comprises a frame 1, wherein the frame 1 is provided with two clamping assemblies 2, the two clamping assemblies 2 are arranged at left and right intervals in a horizontal plane, a glass fiber reinforced plastic pipe 3 is clamped between the two clamping assemblies 2, a painting assembly and a glue dripping assembly 5 are further arranged on the frame 1, the painting assembly is positioned on the left side of the left clamping assembly 2, the painting assembly and the two clamping assemblies 2 are arranged in a line in the horizontal plane, and the glue dripping assembly 5 drips glue onto the glass fiber reinforced plastic pipe 3.

The structure of the brushing assembly comprises a rotating mechanism 4 movably arranged on the frame 1, the rotating mechanism 4 is connected with a driving piece 407 arranged on the frame 1, the driving piece 407 drives the rotating mechanism 4 to rotate, the rotating mechanism 4 is connected with a brush head 404, the brush head 404 adopts a brush structure in the prior art, and after the glue dripping assembly 5 drips glue on the outer wall of the glass reinforced plastic pipe 3, the brush head 404 is utilized to uniformly spread the glue.

However, it should be understood that the brush head 404 needs to be pushed forward at intervals during the process of applying glue to the outer wall of the glass reinforced plastic tube 3, or continuously pushed forward, where the pushing forward of the glass reinforced plastic tube 3 can be performed manually or by using other mechanical devices for pushing forward.

Further, the structure of the rotating mechanism 4 specifically includes a rotating drum 403, a fixed ring 401 is disposed on the frame 1, two fixed rings 401 are disposed at left and right intervals, a cavity is reserved between the two fixed rings 401, a guide groove 402 is disposed on an inner wall of each fixed ring 401 along a circumferential direction of the inner wall, two annular guide strips 405 are disposed on an outer wall of the rotating drum 403, the two annular guide strips 405 are correspondingly and slidably disposed in the guide grooves 402 of the two fixed rings 401, an inner hole of the rotating drum 403 is used for penetrating through the glass reinforced plastic pipe 3, engaging teeth 406 are disposed on an outer circumferential surface of the rotating drum 403 corresponding to between the two fixed rings 401, a worm 407a is engaged and driven by the engaging teeth 406, the worm 407a is connected with the driving member 407, and the brush head 404 is disposed on an end surface of the rotating drum 403. The driving piece 407 drives the worm 407a to rotate, the worm 407a drives the rotary drum 403 to rotate, the rotary drum 403 rotates to drive the brush head 404 to rotate, and glue on the glass reinforced plastic pipe 3 is smeared through the rotation of the brush head 404.

Further, two brush heads 404 are disposed at intervals along the circumference of the drum 403, and the space between the two brush heads 404 is used for passing through the glass reinforced plastic pipe 3, and the two brush heads 404 are disposed to further improve the coating uniformity.

Further, the driving member 407 is an electric motor 407b or a hydraulic motor, and the driving member 407 is provided on the frame 1.

Further, the brush head 404 is disposed on the right end face of the drum 403 and extends to one side of the right end face through the support 8, the support 8 is provided with two clamping jaws 801 at one end far away from the drum 403, one ends of the two clamping jaws 801 are correspondingly hinged on the support 8, one end far away from the hinged end is correspondingly provided with a connecting hole, a clamping cavity 802 is formed between the two clamping jaws 801, a head handle used for clamping the brush head 404 in the clamping cavity 802 penetrates into the connecting hole through the bolt 9 and is screwed tightly so as to clamp the brush head 404. The position of the brush head 404 can be conveniently adjusted and replaced by the connecting mode, namely, the positions of the brush heads 404 are adjusted by unscrewing the bolts 9 so that the space between the brush heads 404 can be through a plurality of glass reinforced plastic pipes 3 with different diameters, and the brush heads 404 can be detached by unscrewing the bolts 9 so as to replace a new brush head 404.

Further, the structure of the clamping assembly 2 specifically comprises three clamping wheels 7, the three clamping wheels 7 are arranged on the frame 1 through connecting rods, the three clamping wheels 7 are arranged in an inverted triangle, namely, the two clamping wheels 7 are arranged front and back, the other clamping wheel is arranged below, the space between the three clamping wheels 7 is used for being connected with the three clamping wheels 7 in a butt mode through the glass reinforced plastic pipe 3, and the clamping wheels 7 can further guarantee that the glass reinforced plastic pipe 3 is movable in the clamping wheels on the basis of clamping.

Furthermore, the clamping wheel 7 is a plastic waist drum, the plastic material can reduce noise generated by friction between the clamping wheel and the glass reinforced plastic pipe 3, the waist drum wheel can improve the stability of the glass reinforced plastic pipe 3 clamped, and meanwhile, the stability of movement can be ensured due to the existence of the waist drum when the glass reinforced plastic pipe 3 moves.

Further, each connecting rod is an electric telescopic rod 6, and the electric telescopic rod 6 can change the space between the three clamping wheels 7 through the telescopic operation of the electric telescopic rod, so that the clamping of glass reinforced plastic pipes 3 with different diameters can be further satisfied.

Further, to the concrete oil tank 501 and the oil delivery pipe 502 of structure of glue dripping subassembly 5, oil tank 501 sets up on frame 1, and oil delivery pipe 502 is the hose, and above-mentioned oil delivery pipe 502 connects oil tank 501, and oil delivery pipe 502 has the oil drip port 503, and oil drip port 503 is located the glass steel pipe 3 directly over, and oil drip port 503 is in the whole drip of downward oil drip on the outer periphery of glass steel pipe 3.

It should be noted that, the on-off of the oil delivery can be realized by manually binding the oil delivery pipe 502, or a valve is further arranged on the oil tank 501 or the oil delivery pipe 502, so as to control the on-off of the oil delivery.

The above embodiments are not to be taken as limiting the scope of the utility model, and any alternatives or modifications to the embodiments of the utility model will be apparent to those skilled in the art and fall within the scope of the utility model.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (9)

1. The automatic gluing device for the glass reinforced plastic pipes is characterized by comprising a frame, wherein the frame is provided with two clamping assemblies, the two clamping assemblies are arranged at intervals in a horizontal plane and used for clamping the glass reinforced plastic pipes, a brushing assembly and a glue dripping assembly are further arranged on the frame, the brushing assembly is positioned on the outer sides of the two clamping assemblies and is arranged in a line with the two clamping assemblies, and the glue dripping assembly is used for dripping glue on the glass reinforced plastic pipes;

the brushing assembly comprises a rotating mechanism movably arranged on the frame, the rotating mechanism is connected with a driving piece arranged on the frame, a brush head is further connected to the rotating mechanism, and the brush head can spread out glue on the glass reinforced plastic pipe on the outer wall of the glass reinforced plastic pipe.

2. The automatic glass fiber reinforced plastic pipe gluing device according to claim 1, wherein the rotating mechanism comprises a rotary drum, two fixing rings are arranged on the machine frame, the two fixing rings are arranged at intervals, a guide groove is formed in each fixing ring, two annular guide bars are arranged on the outer circumference of the rotary drum, the rotary drum is rotatably arranged in the guide groove of the fixing ring through the annular guide bars, an inner hole of the rotary drum is used for penetrating through the glass fiber reinforced plastic pipe, meshing teeth are arranged on the outer circumferential surface of the rotary drum, corresponding to the two fixing rings, and are in meshing transmission with a worm, the worm is connected with the driving piece, and the brush head is arranged on the end face of the rotary drum.

3. An automatic glass reinforced plastic pipe gluing device according to claim 2, wherein two brush heads are arranged at intervals along the circumference of the rotary drum.

4. A device for automatically coating a glass reinforced plastic pipe according to claim 1, 2 or 3, wherein the driving member is an electric motor or a hydraulic motor, and the driving member is disposed on the frame.

5. A device for automatically coating a glass reinforced plastic pipe according to claim 3, wherein the brush head is arranged on the end surface of the rotary drum through a bracket, the bracket is provided with clamping jaws at one end far away from the rotary drum, the two clamping jaws are clamped through bolts and form a clamping cavity therebetween, and the brush head is clamped in the clamping cavity.

6. The automatic gluing device for glass reinforced plastic pipes according to claim 1, wherein the clamping assembly comprises three clamping wheels, the three clamping wheels are respectively arranged on the frame through connecting rods, the three clamping wheels are distributed in an inverted triangle shape, and the outer circumference of the glass reinforced plastic pipe is simultaneously abutted with the three clamping wheels.

7. An automatic glue applicator for glass reinforced plastic pipes as defined in claim 6, wherein the clamping wheel is a plastic waist drum wheel.

8. An automatic glue spreader for glass reinforced plastic pipes according to claim 6 or 7, wherein each of the connecting rods is an electric telescopic rod.

9. The automatic gluing device for glass reinforced plastic pipes according to claim 1, wherein the glue dropping assembly comprises an oil tank and an oil delivery pipe, the oil tank is arranged on the frame, the oil delivery pipe is connected with the oil tank, the oil delivery pipe is provided with an oil dropping port, and the oil dropping port is positioned right above the glass reinforced plastic pipes.