CN209851761U - Bar surface coating machine - Google Patents

Abstract

The utility model relates to a bar surface coating machine, which comprises a lever conveying line, a coating material discharging device and a pressing device, wherein the conveying line comprises conveying wheels which are distributed at intervals along the conveying direction, the discharging device comprises a discharging driving roller and a gluing mechanism, and the gluing mechanism is arranged on one side of a coating material; the pressing device comprises pressing wheels which are linearly distributed along the conveying direction and are circumferentially distributed along the center of the lever to be coated. The utility model discloses a transfer chain, discharging device, mutually supporting of closing device and wind, accomplish cladding material's rubber coating in the transportation process of treating the cladding lever, bar face cladding and winding action, realize continuous production, the production efficiency is greatly improved, and setting up of pinch roller can make cladding material paste on the bar face progressively, cladding material's deformation is along with the transport distance crescent, until the complete cladding on the bar face, avoid cladding material to break because of warping too greatly in cladding process, cladding quality has been improved.

Description

Bar surface coating machine

Technical Field

The utility model relates to a cladding equipment technical field, in particular to bar face cladding machine.

Background

In China, the lever of the high-low lever for gymnastics is made of a glass fiber reinforced plastic round tube and is manually coated with a wood veneer on the outside. The general manufacturing method is that the outer surface of the purchased glass fiber reinforced plastic round tube is cleaned firstly, the cleaning method comprises sanding, flattening and ash removing treatment, then glue is applied to one surface of the wood veneer in a rolling brush mode, and finally the wood veneer is manually adhered to the outer surface of the glass fiber reinforced plastic round tube.

Existing high and low bar facing equipment, for example: the utility model discloses a chinese utility model patent application No. 201720402414.6 discloses a height bar face processing equipment, including cladding device in advance, cladding device includes supporting platform in advance, be located the conveying mechanism and the cladding mechanism at supporting platform middle part, supporting platform includes the backup pad and sets up at the many pairs of first breach of backup pad both sides, cladding mechanism includes and organizes with many pairs of first breach one-to-one complex cladding actions, cladding action group includes a pair of clamping, when the afterbody of a pair of clamping is close to or the phase separation mutually, the head of a pair of clamping is to the separation or be close to mutually, its shortcoming lies in, the restriction of clamping length is received to the length of this equipment wainscot at every turn, and in every cladding action, the opening of clamping and being close to all can produce the process of interrupt, can not realize continuous cladding.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lever face cladding machine realizes the continuous cladding action of height lever pole, improves production efficiency.

The above object of the present invention can be achieved by the following technical solutions: a bar surface coating machine comprises a lever conveying line, a coating material discharging device and a pressing device, wherein the conveying line comprises conveying wheels, the conveying wheels are distributed at intervals along the conveying direction, the discharging device comprises a discharging transmission roller and a gluing mechanism, the discharging transmission roller is horizontally arranged, and the rotating direction of the discharging transmission roller is the same as that of the conveying wheels;

the glue coating mechanism is arranged on one side of the coating material and is used for coating glue on the coating surface of the coating material;

the discharging device conveys the coating material to the conveying line and enables the coating surface of the coating material to be in contact with the surface of the lever;

the pressing device comprises pressing wheels which are linearly distributed along the conveying direction and are circumferentially distributed along the center of the lever to be coated.

Preferably, the rubber coating mechanism includes glue spreader and glue case, the glue spreader setting is in glue case and be located the below of ejection of compact driving roller, ejection of compact driving roller and glue spreader setting are in the top of transfer chain, and both are synchronous and antiport.

Preferably, the upper end of glue tank has set firmly the deflector, the deflector sets up the rear at the glue spreader, the deflector is the slope setting, the relative rear end downward sloping of front end of deflector, the face of deflector with the roll surface of glue spreader is tangent.

Preferably, the glue tank is provided with a baffle which is arranged in front of the glue spreader and below the plane where the surface of the guide plate is located.

Preferably, the separation blades are distributed at intervals along the axis of the glue spreader and are arc-shaped, the front ends of the separation blades are fixedly connected to the glue tank, and the rear ends of the separation blades extend backwards to the surface of the glue spreader.

The separation blade can evenly paint the glue smeared on the surface of the cladding material, scrape off the redundant glue and flow the glue back into the glue tank.

Preferably, be provided with between glue spreader and the pinch roller that is located the place ahead and be used for pressing the cladding material level on treating the cladding lever compression roller, the compression roller is the level setting, the direction of delivery of the axis of rotation perpendicular to transfer chain of compression roller.

Preferably, the glue coating mechanism comprises a glue storage box, the glue storage box is provided with a glue dripping opening, the discharging transmission roller is arranged below the glue dripping opening, and the discharging transmission roller is positioned below the lever to be coated; the glue dripping opening is provided with a valve, a driving element for controlling the valve to open or close the glue dripping opening and an induction assembly, and the induction assembly is arranged at the glue dripping opening and is connected with the driving element through a control circuit.

Glue leads to the glue sclerosis very easily in the air contact time overlength and influences the bonding of cladding material, consequently deposit the glue drip of case at glue and set up the valve, the valve is controlled through drive element and response subassembly, when cladding material reachs the glue drip below, the response subassembly detects and controls drive element and valve and open the glue drip, makes glue drip cladding material, cladding material gets into the lever below under ejection of compact driving roller's transport and coats to minimize the contact time of glue and air. When the conveying of the coating material is finished, the sensing assembly detects that the coating material is not arranged below the sensing assembly, and then the glue dripping opening is closed through the valve.

Preferably, the bar-surface wrapping machine further comprises a winding device, the winding device is arranged at the output end close to the conveying line, the winding device comprises a support plate, a rotary plate and a wrapping belt mounting piece, the rotary plate is rotatably mounted on the support plate, the wrapping belt mounting piece is arranged at the eccentric position of the rotary plate and rotates around the wrapped lever when the rotary plate rotates, and a through hole enabling the wrapped lever to penetrate from one side of the rotary plate to the other side of the rotary plate is formed in the center of the rotary plate.

Because the lever after cladding passes through the transfer chain and moves forward, the winding area is around establishing on the lever spirally when the winding area installed part rotates round the lever to firmly tie up cladding material in the steel pipe surface, prevent just bonding the cladding material on the lever surface and drop.

Preferably, the pressing device further comprises a vertical rod, a suspension rod and a movable adjusting seat, the vertical rod is vertically arranged on the left side and the right side of the conveying line, the movable adjusting seat is fixedly arranged on the vertical rod, the suspension rod is inserted into the movable adjusting seat, and the pressing wheel is mounted at the end portion of the suspension rod and suspended above the conveying line.

Preferably, the conveying line further comprises reduction boxes, the conveying wheels are rotatably mounted on output shafts of the corresponding reduction boxes, and the two adjacent reduction boxes are connected through a transmission shaft to drive the conveying wheels to rotate synchronously.

The conveying line realizes the synchronous rotation of the front conveying wheel and the rear conveying wheel through the transmission shaft, and prevents the conveying wheels from generating friction with the surface of the coated lever to damage the coating surface of the lever due to the difference of rotation speeds.

The utility model has the advantages that: the utility model discloses a transfer chain, discharging device, mutually supporting of closing device and wind, accomplish cladding material's rubber coating in the transportation process of treating the cladding lever, bar face cladding and winding action, realize continuous production, the production efficiency is greatly improved, and setting up of pinch roller can make cladding material paste on the bar face progressively, cladding material's deformation is along with the transport distance crescent, until the complete cladding on the bar face, avoid cladding material to break because of warping too greatly in cladding process, cladding quality has been improved.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 2 is a front view of embodiment 1 of the present invention;

fig. 3 is a side view of embodiment 1 of the present invention;

FIG. 4 is a schematic structural view of a discharging device in embodiment 1 of the present invention;

fig. 5 is a schematic structural view of a discharging device in embodiment 2 of the present invention;

in the figure: 1-base, 2-conveying line, 21-conveying wheel, 22-reduction box, 23-transmission shaft, 3-discharging device, 31-discharging transmission roller, 32-glue coating roller, 33-glue tank, 34-guide plate, 35-baffle, 36-glue storage box, 361-glue dripping opening, 37-valve, 38-driving element, 39-induction component, 4-pressing device, 41-vertical rod, 42-suspension rod, 43-movable adjusting seat, 44-pressing wheel, 5-winding device, 51-support plate, 52-rotary table, 53-winding belt mounting piece and 54-through hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws within the scope of the claims of the present invention.

Example 1: as shown in fig. 1 to 4, a bar surface wrapping machine comprises a base 1, a lever conveyor line 2, a wrapping material discharging device 3, a pressing device 4 and a winding device 5, wherein the lever conveyor line 2, the wrapping material discharging device 3, the pressing device 4 and the winding device 5 are all arranged on the base 1 below. Wherein the lever is made of glass fiber reinforced plastic, and the coating material is made of wood (such as wood sheet, wood veneer, etc.).

As shown in fig. 1, the conveyor line 2 includes conveying wheels 21 and reduction boxes 22, the conveying wheels 21 are distributed at intervals along the conveying direction, each conveying wheel 21 is rotatably mounted on an output shaft of the corresponding reduction box 22, the reduction boxes 22 are fixed on the base 1, and two adjacent reduction boxes 22 in the front and back are connected through a transmission shaft 23 to drive the conveying wheels 21 to rotate synchronously. The rotation axis of the conveying wheel 21 is arranged horizontally, and the outer circumference of the conveying wheel 21 is provided with an arc-shaped groove matched with the lever.

As shown in fig. 1 and 4, the discharging device 3 is disposed at the input end of the conveying line 2, the discharging device 3 includes a discharging driving roller 31 and a glue coating mechanism, the discharging driving roller 31 is disposed horizontally, and the rotating direction of the discharging driving roller 31 is the same as the rotating direction of the conveying wheel 21. The discharging device 3 conveys the coating materials to the conveying line 2 and enables the coating surfaces of the coating materials to be in contact with the surfaces of the levers, and the glue coating mechanism is arranged on one side of the coating materials and coats glue on the coating surfaces of the coating materials.

The glue spreader includes glue spreader 32 and glue tank 33, and glue spreader 32 supports in the base top, and glue spreader 32 sets up in glue tank 33 and is located ejection of compact driving roller 31's below, and ejection of compact driving roller 31 and glue spreader 32 set up in the top of transfer chain 2, and both are synchronous and reverse rotation.

The upper end of the glue tank 33 is fixedly provided with a guide plate 34, and the guide plate 34 is arranged behind the glue spreader 32. The guide plate 34 is obliquely arranged, the front end of the guide plate 34 is inclined downwards relative to the rear end, and the surface of the guide plate 34 is tangent to the surface of the glue spreader 32. The coating material enters between the discharging driving roller 31 and the glue coating roller 32 along the guide plate 34 and is clamped by the discharging driving roller and the glue coating roller 32 to be conveyed forwards, glue is coated on the lower surface of the coating material by the glue coating roller 32, and the coating material is conveyed to the position above the lever to be coated on the conveying line.

The glue tank 33 is provided with a baffle 35, and the baffle 35 is arranged in front of the glue roller 32 and below the plane of the surface of the guide plate 34. The baffle plates 35 are distributed at intervals along the axis of the glue spreader 32, the baffle plates 35 are arc-shaped, the front ends of the baffle plates 35 are fixedly connected to the glue tank 33, and the rear ends of the baffle plates extend backwards to the surface of the glue spreader 32.

As shown in fig. 2, a pressing roller for horizontally pressing the coating material on the lever to be coated is arranged between the glue spreader 32 and the pressing wheel 44 located in front, the pressing roller is horizontally arranged, and the rotation axis of the pressing roller is perpendicular to the conveying direction of the conveying line 2.

As shown in fig. 1 and 3, the pressing device 4 includes a pressing wheel 44, an upright rod 41, a suspension rod 42 and a movable adjusting seat 43, wherein the pressing wheel 44 is linearly distributed along the conveying direction and circumferentially distributed along the center of the lever to be coated. The upright rod 41 is vertically arranged at the left side and the right side of the conveying line 2, the movable adjusting seat 43 is fixedly arranged on the upright rod 41, the suspension rod 42 is inserted into the movable adjusting seat 43, and the pressing wheel 44 is arranged at the end part of the suspension rod 42 and suspended above the conveying line 2. When the cladding material enters the upper part of the lever, the cladding material is tightly pressed on the surface of the lever by the pressing wheels 44, and the flat cladding material is wrapped on the surface of the lever from top to bottom step by the groups of pressing wheels 44 distributed around the circumference of the lever, so that the cladding of the lever is completed.

The movable adjusting seat 43 is a split structure and includes a first part and a second part which can rotate relatively, the first part is sleeved on the upright 41 and can move up and down relative to the upright 41, the suspension rod 42 is inserted into the second part and can move axially relative to the second part, and the relative angle between the suspension rod 42 and the upright 41 can be adjusted by rotating the second part up and down.

As shown in fig. 1 and 3, the winding device 5 is provided near the output end of the feed line 2, the winding device 5 includes a support plate 51, a turntable 52, and a winding tape mounting piece 53, the turntable 52 is rotatably mounted on the support plate 51, the winding tape mounting piece 53 is provided at an eccentric position of the turntable 52 and rotates around the coated lever when the turntable 52 rotates, and the center of the turntable 52 is provided with a through hole 54 through which the coated lever passes from one side to the other side of the turntable 52. The winding tape is mounted on the winding tape mounting member 53 and is wound on the surface of the coated lever when the turntable 52 rotates.

The working principle is as follows:

when the lever enters the lever conveying line 2, the coating material starts to enter the glue coating mechanism and is output towards the lever direction by the discharging transmission roller 31 and the glue coating roller 32, and at the moment, the glue coating roller 32 coats glue on the lower surface of the coating material. When the coating material contacts the lever, the lower surface of the coating material begins to adhere to the surface of the lever. As the lever continues to be conveyed, the pressing wheel 44 gradually wraps the coating material on the lever surface until the coating material is completely wrapped, and then the winding device 5 winds the winding belt on the lever surface after the coating is completed through the rotation of the turntable 52.

Example 2: as shown in fig. 5, the difference from embodiment 1 is that the glue coating mechanism includes a glue storage box 36, the glue storage box 36 is provided with a glue dripping opening 361, the discharging transmission roller 31 is arranged below the glue dripping opening 361, and the discharging transmission roller 31 is located below the lever to be coated. The glue dripping opening 361 is provided with a valve 37, a driving element 38 for controlling the valve 37 to open or close the glue dripping opening 361 and a sensing component 39, and the sensing component 39 is arranged at the glue dripping opening 361 and is connected with the driving element 38 through a control circuit. The driving element 38 is a cylinder or an electric push rod, and the sensing component 39 is a photoelectric sensor. The size of the glue dripping opening 361 is matched with the width of the coating material, and a scraping plate is arranged in front of the glue dripping opening 361 to scrape the glue dripped on the coating material evenly.

When the photoelectric sensor detects that the coating material passes through the glue dripping opening 361, the photoelectric sensor transmits a signal to the PLC controller through the control circuit, the PLC controller controls the driving element 38 to operate to open the glue dripping opening 361, glue is dripped to the upper surface of the coating material from the glue dripping opening 361, the coated coating material is transmitted to the lower part of the lever to be coated through the discharging driving roller 31, and the coating material is gradually wrapped on the surface of the lever to be coated from the lower part of the lever to be coated to the upper part through the pressing device 4.

Claims (10)

1. The utility model provides a bar face cladding machine, includes lever transfer chain (2), cladding material discharging device (3) and closing device (4), transfer chain (2) are including delivery wheel (21), delivery wheel (21) are along direction of delivery interval distribution, its characterized in that: the discharging device (3) comprises a discharging driving roller (31) and a gluing mechanism, the discharging driving roller (31) is horizontally arranged, and the rotating direction of the discharging driving roller (31) is the same as that of the conveying wheel (21);

the glue coating mechanism is arranged on one side of the coating material and is used for coating glue on the coating surface of the coating material;

the discharging device (3) conveys the coating material to the conveying line (2) and enables the coating surface of the coating material to be in contact with the surface of the lever;

the pressing device (4) comprises pressing wheels (44), and the pressing wheels (44) are linearly distributed along the conveying direction and are circumferentially distributed along the center of the lever to be coated.

2. The bar-surface cladding machine according to claim 1, wherein: the glue spreader comprises a glue spreader (32) and a glue tank (33), the glue spreader (32) is arranged in the glue tank (33) and is positioned below a discharging transmission roller (31), the discharging transmission roller (31) and the glue spreader (32) are arranged above the conveying line (2), and the glue spreader and the discharging transmission roller are synchronously and reversely rotated.

3. The bar-surface cladding machine according to claim 2, wherein: the upper end of glue tank (33) has set firmly deflector (34), deflector (34) set up the rear at glue spreader (32), deflector (34) set up for the slope, the relative rear end downward sloping of front end of deflector (34), the face of deflector (34) with the roll surface of glue spreader (32) is tangent.

4. The bar-surface cladding machine according to claim 3, wherein: be provided with separation blade (35) on gluewater tank (33), separation blade (35) set up in the place ahead of glue spreader (32), and are located the planar below at the face place of deflector (34).

5. The bar-surface cladding machine according to claim 4, wherein: separation blade (35) are followed the axis interval distribution of glue spreader (32), separation blade (35) are the arc, the front end rigid coupling of separation blade (35) is on gluewater tank (33), and its rear end extends to the surface of glue spreader (32) to the rear.

6. The bar-surface cladding machine according to claim 2, wherein: be provided with between glue spreader (32) and pinch roller (44) that are located the place ahead and be used for pressing the coating material level on treating the cladding lever compression roller, the compression roller is the level setting, the direction of delivery of the axis of rotation perpendicular to transfer chain (2) of compression roller.

7. The bar-surface cladding machine according to claim 1, wherein: the glue coating mechanism comprises a glue storage box (36), the glue storage box (36) is provided with a glue dripping opening (361), the discharging transmission roller (31) is arranged below the glue dripping opening (361), and the discharging transmission roller (31) is positioned below the lever to be coated; the drive element (38) and the sensing component (39) are arranged at the position of the glue dripping opening (361), the valve (37) is controlled to open or close the glue dripping opening (361), and the sensing component (39) is arranged at the position of the glue dripping opening (361) and is connected with the drive element (38) through a control circuit.

8. The bar-surface cladding machine according to claim 1, wherein: the bar-surface coating machine further comprises a winding device (5), the winding device (5) is arranged at the output end close to the conveying line (2), the winding device (5) comprises a support plate (51), a rotary plate (52) and a winding belt mounting piece (53), the rotary plate (52) is rotatably mounted on the support plate (51), the winding belt mounting piece (53) is arranged at the eccentric position of the rotary plate (52) and rotates around a coated lever when the rotary plate (52) rotates, and a through hole (54) enabling the coated lever to penetrate to the other side from one side of the rotary plate (52) is formed in the center of the rotary plate (52).

9. The bar-surface cladding machine according to claim 1, wherein: the pressing device (4) further comprises a vertical rod (41), a suspension rod (42) and a movable adjusting seat (43), the vertical rod (41) is vertically arranged on the left side and the right side of the conveying line (2), the movable adjusting seat (43) is fixedly arranged on the vertical rod (41), the suspension rod (42) is inserted into the movable adjusting seat (43), and the pressing wheel (44) is installed at the end part of the suspension rod (42) and suspended above the conveying line (2).

10. The bar-surface cladding machine according to claim 1, wherein: the conveying line (2) further comprises reduction boxes (22), the conveying wheels (21) are rotatably mounted on output shafts of the corresponding reduction boxes (22), and the two adjacent reduction boxes (22) in the front and the back are connected through a transmission shaft (23) to drive the conveying wheels (21) to synchronously rotate.