CN217527977U - Feeding and spraying device of automatic steel buckle pipe sleeving machine - Google Patents

Abstract

The utility model discloses a material loading atomizer of automatic machine of cup jointing of steel buckle pipe, it is including installing the feed mechanism on the frame and being used for spouting the spraying mechanism of oil mist to the inside wall of heat preservation pipe, spraying mechanism is including installing in the support of frame upper end, install on the support and be used for the spraying location module of centre gripping location heat preservation pipe and be used for spouting the spraying module of oil mist to the inside wall of heat preservation pipe, the spraying module includes the spraying stick and is used for driving the spraying stick back-and-forth movement in order to insert the inside of heat preservation pipe or withdraw from the inside first drive module of heat preservation pipe, spraying stick front end periphery is equipped with a plurality of orifices. The utility model discloses an automatic realization of feed mechanism carries out the material loading to the insulating tube to spout oil mist by spraying mechanism is automatic, and it need not artifical manually operation basically, and its low in labor strength, and work efficiency is high, and inside this spraying stick can realize once only accurately inserting the insulating tube, can not contact with the insulating tube inner wall, can not wear and tear the insulating tube promptly, guarantee the quality of insulating tube.

Description

Feeding and spraying device of automatic steel buckle pipe sleeving machine

The technical field is as follows:

the utility model relates to an automatic technical field refers in particular to a material loading atomizer of automatic machine of making perfect understanding of steel knot pipe.

Background art:

the heat preservation pipe is a short name of a heat insulation pipeline, is used for conveying liquid, gas and other media, and is used for heat preservation of heat insulation engineering of pipelines of petroleum, chemical engineering, aerospace, military, central heating, air conditioning, municipal administration and the like.

In order to realize stable connection between the heat preservation pipe and the equipment, a steel buckle is generally arranged at the end part of the heat preservation pipe, and the steel buckle is stably connected with a pipe joint of the equipment; before the steel buckle is sleeved, oil mist can be sprayed on the inner wall of the heat preservation pipe, however, in the prior art, the spraying rod is manually held and inserted into the inner wall of the heat preservation pipe, the spraying rod is manually controlled to spray, manual spraying is extremely hard, labor intensity is high, time and waste are wasted, and working efficiency is low. Furthermore, the spraying rod is manually held to be inserted into the inner wall of the heat preservation pipe, and the port of the heat preservation pipe is small (the diameter is generally 2-4 CM), so that the spraying rod is difficult to be inserted into the heat preservation pipe, high concentration is needed, the operation is very difficult, especially after long-time work, the spraying rod is difficult to be inserted into the heat preservation pipe, the spraying rod can be inserted for many times, the inserting times are more, the spraying rod can be in contact friction with the inner wall of the port of the heat preservation pipe, the abrasion of the inner wall of the port of the heat preservation pipe is easy to cause, the attractiveness of a product is influenced, and the quality of the product is reduced.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art's not enough, provide a material loading atomizer of automatic machine of cup jointing of steel knot pipe.

In order to solve the technical problem, the utility model adopts the following technical scheme: the feeding spraying device of the automatic steel buckle pipe sleeving machine comprises a feeding mechanism arranged on a base and a spraying mechanism used for spraying oil mist to the inner wall of a heat preservation pipe, wherein the spraying mechanism comprises a support arranged at the upper end of the base, a spraying positioning module arranged on the support and used for clamping and positioning the heat preservation pipe and a spraying module used for being inserted into the heat preservation pipe to spray oil mist to the inner wall of the heat preservation pipe, the spraying module comprises a spraying rod and a first driving module used for driving the spraying rod to move back and forth to be inserted into the heat preservation pipe or to exit from the heat preservation pipe, and a plurality of spray holes are formed in the periphery of the front end of the spraying rod.

Furthermore, in the above technical solution, the first driving module includes a protection cover plate fixed on the support, a first slide rail disposed on an upper inner wall of the protection cover plate, an L-shaped sliding frame slidably mounted on a lower end of the first slide rail through a first slider, and a first cylinder for driving the L-shaped sliding frame to move back and forth, the L-shaped sliding frame is disposed outside an outer side surface of the support, the spray rod is horizontally fixed in the L-shaped sliding frame, and a front end of the spray rod penetrates through a yielding hole on an outer side surface of the support and extends into the support.

Furthermore, in the above technical solution, one end of the protective cover plate further extends out of the outer side surface of the bracket and is blocked above the L-shaped sliding rack and the spray rod.

Further, in the above technical solution, a flange is integrally formed at the periphery of the spray rod; the L-shaped sliding frame is provided with a first mounting hole for the spray rod to penetrate through and a first through hole positioned on the periphery of the first mounting hole; the spraying stick is arranged in the first mounting hole in a penetrating mode, the flange abuts against the periphery of the first mounting hole and corresponds to the first through hole, and the bolt penetrates through the first through hole and the flange and then is fixed with the nut in a spiral mode so as to fix the spraying stick in the L-shaped sliding frame.

Further, in the above technical solution, a connecting plate is integrally formed on one side surface of the L-shaped sliding frame, a first forked connector is fixed to an end of a piston rod of the first cylinder, and the connecting plate and the first forked connector form a rotatable connection.

Furthermore, in the above technical solution, the spray positioning module includes a vertically installed pneumatic pipe clamp and a second driving module for driving the pneumatic pipe clamp to move back and forth, and the pneumatic pipe clamp is disposed in the bracket and located beside the spray rod.

Furthermore, in the above technical solution, the second driving module includes a second sliding seat slidably mounted on the lower end of the first sliding rail through a second sliding block and a second cylinder for driving the second sliding seat to move back and forth, and the upper end of the pneumatic pipe clamp is mounted on the lower end of the second sliding seat.

Furthermore, among the above-mentioned technical scheme, feed mechanism is including setting up the hopper on the frame, installing chain and many fixed mounting in this hopper on this chain and being used for driving this chain moving motor drive module, and this material loading strip both sides all are formed with the arc concave surface, make to be formed with the holding tank that holds the insulating tube between two adjacent material loading strips.

Furthermore, in the above technical scheme, still be provided with the striker plate in the hopper and be used for driving the striker plate drive module that this striker plate removed, this striker plate is arranged in hopper inner wall periphery.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses an automatic realization of feed mechanism carries out the material loading to the insulating tube to spout oil mist by spraying mechanism is automatic, its basically need not artifical manually operation, its low in labor strength, and work efficiency is high, and inside this spraying stick can realize once only accurately inserting the insulating tube, can not with the contact of insulating tube inner wall, can not wear and tear the insulating tube promptly, guarantee the quality of insulating tube.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the spraying mechanism of the present invention;

fig. 3 is a perspective view of another perspective of the present invention;

fig. 4 is a front view of the spraying mechanism of the present invention;

fig. 5 is a perspective view of the spraying mechanism of the present invention after the bracket is removed;

fig. 6 is a sectional view of the spraying mechanism of the present invention after the bracket is removed;

FIG. 7 is an internal structure view of the spraying mechanism of the present invention;

fig. 8 is a perspective view of a spray wand of the present invention;

fig. 9 is a perspective view of the middle spray positioning module of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1 to 9, the feeding and spraying device of the automatic steel buckle pipe sleeving machine comprises a feeding mechanism 21 and a spraying mechanism 22, wherein the feeding mechanism 21 and the spraying mechanism 22 are both installed on a machine base 1 of the automatic steel buckle pipe sleeving machine, the feeding mechanism 21 continuously feeds the heat preservation pipe 10, and the spraying mechanism 22 grabs and positions the heat preservation pipe 10 to spray oil mist on the inner wall of the heat preservation pipe 10.

Specifically, the spraying mechanism 22 includes a bracket 221 mounted on the upper end of the base 1, a spraying positioning module 222 mounted on the bracket 221 and used for clamping and positioning the heat preservation pipe 10, and a spraying module 223 inserted into the heat preservation pipe 10 to spray mist on the inner wall of the heat preservation pipe 10, the spraying module 223 includes a spraying rod 2231 and a first driving module 2232 used for driving the spraying rod 2231 to move back and forth to be inserted into the heat preservation pipe 10 or to exit from the heat preservation pipe 10, and a plurality of spray holes 2230 are formed in the periphery of the front end of the spraying rod 2231. During operation, the feeding mechanism 21 continuously feeds the heat preservation pipe 10, the spraying mechanism 22 clamps and positions the heat preservation pipe 10 through the spraying positioning module 222, the first driving module 2232 of the spraying module 223 drives the spraying rod 2231 to move forward so as to drive the spraying rod 2231 to be inserted into the heat preservation pipe 10, and the spraying rod 2231 sprays oil mist on the inner wall of the heat preservation pipe 10; after the operation is completed, the first driving module 2232 drives the spray bar 2231 to move backward to drive the spray bar 2231 to exit from the inside of the thermal insulation pipe 10, thereby completing the operation of spraying the oil mist. To sum up, the utility model discloses an automatic realization of feed mechanism 21 carries out the material loading to insulating tube 10 to spout oil mist by spraying mechanism 22 is automatic, and it basically need not artifical manually operation, and its low in labor strength, and work efficiency is high, and inside this spraying stick 2231 can realize once only accurately inserting insulating tube 10, can not contact with insulating tube 10 inner wall, can not wear and tear insulating tube 10 promptly, guarantees the quality of insulating tube 10.

The first driving module 2232 includes a protective cover 2201 fixed on the support 221, a first sliding rail 2202 disposed on an upper inner wall of the protective cover 2201, an L-shaped sliding rack 2204 slidably mounted on a lower end of the first sliding rail 2202 through a first slider 2203, and a first cylinder 2205 for driving the L-shaped sliding rack 2204 to move back and forth, wherein the L-shaped sliding rack 2204 is disposed outside an outer side of the support 221, the spray rod 2231 is horizontally fixed in the L-shaped sliding rack 2204, and a front end of the spray rod 2231 passes through an abdicating hole 2211 on the outer side of the support 221 and extends into the support 221. In operation, the first cylinder 2205 drives the L-shaped sliding rack 2204 to move back and forth on the lower end of the first sliding rack 2202, thereby driving the spray bar 2231 to horizontally extend into the insulating tube 10 or horizontally exit the insulating tube 10.

A flange 2200 is integrally formed on the periphery of the spray rod 2231; the L-shaped sliding rack 2204 has a first mounting hole 2206 for the spray bar 2231 to pass through and a first through hole 2207 located at the periphery of the first mounting hole 2206; the spray rod 2231 is inserted into the first mounting hole 2206, the flange 2200 abuts against the periphery of the first mounting hole 2206 and corresponds to the first through hole 2207, a bolt passes through the first through hole 2207 and the flange 2200 and is screwed with a nut to fix the spray rod 2231 in the L-shaped sliding frame 2204, so that the stability of the assembly structure of the spray rod 2231 and the L-shaped sliding frame 2204 is ensured, and the spray rod 2231 is provided with the flange 2200, so that excessive parts are not needed for connection, the product structure can be simplified, the assembly is more convenient, and the structure is firmer.

The assembly structure of the L-shaped sliding frame 2204 and the first cylinder 2205 is as follows: a connecting plate 2208 is integrally formed on one side surface of the L-shaped sliding frame 2204, a first fork-shaped connector 2209 is fixed at the end of a piston rod of the first cylinder 2205, and the connecting plate 2208 and the first fork-shaped connector 2209 form a rotatable connection, so that the L-shaped sliding frame 2204 can be ensured to run more stably relative to the first sliding rail 2202.

Specifically, the connection plate 2208 has a second perforation; the connecting plate 2208 is inserted into the slot of the first forked connector 2209, and the shaft body riveted and fixed to the first forked connector 2209 also passes through the second through hole of the connecting plate 2208, so that the first forked connector 2209 and the connecting plate 2208 form a rotatable connection, and the assembly structure is simple.

One end of the protective cover plate 2201 extends out of the outer side surface of the support 221 and is blocked above the L-shaped sliding frame 2204 and the spray rod 2231, so that the protective cover plate 2201 can be used as a mounting carrier of the first sliding rail 2202, and the protective cover plate 2201 can also protect the spray rod 2231, thereby achieving an integrated double-acting effect.

The following is a detailed description of the specific structure of the spray positioning module 222: the spray positioning module 222 comprises a vertically installed pneumatic pipe clamp 2221 and a second driving module 2222 for driving the pneumatic pipe clamp 2221 to move back and forth, the pneumatic pipe clamp 2221 is disposed in the bracket 221 and beside the spray rod 2231, and the structure of the spray positioning module 222 is very simple.

The second driving module 2222 comprises a second sliding base 2302 slidably mounted on the lower end of the first sliding rail 2202 through the second sliding block 2301, and a second air cylinder 2303 for driving the second sliding base 2302 to move back and forth, wherein the upper end of the air tube clamp 2221 is mounted on the lower end of the second sliding base 2302.

The following is a detailed description of the specific structure of the feeding mechanism 21: the feeding mechanism 21 comprises a hopper 211 arranged on the base 1, a chain 213 arranged in the hopper 211, a plurality of feeding bars 212 fixedly arranged on the chain 213, and a motor driving module 214 for driving the chain 213 to rotate, wherein arc-shaped concave surfaces are formed on two sides of each feeding bar 212, so that a containing groove for containing the heat preservation pipe 10 is formed between every two adjacent feeding bars 212. During operation, put into this hopper 211 with many insulating tube 10 levels to the holding tank that forms between this two adjacent material loading strips 212 can hold insulating tube 10, and carries out the material loading with insulating tube 10, and this feed mechanism 21's simple structure, and can realize stabilizing the material loading.

The hopper 211 is further internally provided with a striker plate 215 and a striker driving module 216 for driving the striker plate 215 to move, and the striker plate 215 is arranged on the periphery of the inner wall of the hopper 211. Before putting into many insulating tubes 10, this striker plate 215 supports and leans on in hopper 211 inner wall, prevents that insulating tube 10 from falling down to there is the fender material drive module 216 drive backward in this striker plate 215 later stage, makes striker plate 215 and hopper 211 inner wall form the interval that supplies an insulating tube to pass through, can guarantee with this that only an insulating tube falls in the holding tank in, realize an insulating tube with this and stabilize the material loading, avoid appearing many insulating tubes crisscross arrange and can't realize stabilizing the phenomenon of material loading insulating tube.

To sum up, the utility model discloses an automatic realization of feed mechanism 21 carries out the material loading to insulating tube 10 to spout oil mist by spraying mechanism 22 is automatic, and it basically need not artifical manually operation, and its low in labor strength, and work efficiency is high, and inside this spraying stick 2231 can realize once only accurately inserting insulating tube 10, can not contact with insulating tube 10 inner wall, can not wear and tear insulating tube 10 promptly, guarantees the quality of insulating tube 10.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (9)

1. The feeding spraying device of the automatic steel buckle pipe sleeving machine is characterized in that: the spray mechanism (22) comprises a feeding mechanism (21) installed on a base (1) and a spray mechanism (22) used for spraying oil mist to the inner wall of a heat preservation pipe (10), wherein the spray mechanism (22) comprises a support (221) installed at the upper end of the base (1), a spray positioning module (222) installed on the support (221) and used for clamping and positioning the heat preservation pipe (10) and a spray module (223) used for being inserted into the heat preservation pipe (10) to spray the oil mist to the inner wall of the heat preservation pipe (10), the spray module (223) comprises a spray rod (2231) and a first driving module (2232) used for driving the spray rod (2231) to move back and forth to be inserted into the heat preservation pipe (10) or to exit from the heat preservation pipe (10), and a plurality of spray holes (2230) are formed in the periphery of the front end of the spray rod (2231).

2. The feeding spraying device of the automatic steel buckle pipe sleeving machine according to claim 1, characterized in that: the first driving module (2232) comprises a protective cover plate (2201) fixed on the support (221), a first slide rail (2202) arranged on the inner wall of the protective cover plate (2201), an L-shaped sliding frame (2204) arranged at the lower end of the first slide rail (2202) in a slidable manner through a first slider (2203), and a first cylinder (2205) used for driving the L-shaped sliding frame (2204) to move back and forth, wherein the L-shaped sliding frame (2204) is arranged outside the outer side surface of the support (221), the spray rod (2231) is horizontally fixed in the L-shaped sliding frame (2204), and the front end of the spray rod (2231) penetrates through an abdicating hole (2211) in the outer side surface of the support (221) and extends into the support (221).

3. The feeding and spraying device of the automatic steel buckle pipe sleeving machine according to claim 2, wherein the feeding and spraying device comprises: one end of the protective cover plate (2201) also extends out of the outer side face of the support (221) and is blocked above the L-shaped sliding frame (2204) and the spray rod (2231).

4. The feeding and spraying device of the automatic steel buckle pipe sleeving machine according to claim 2, wherein the feeding and spraying device comprises: a flange (2200) is integrally formed on the periphery of the spray rod (2231); the L-shaped sliding frame (2204) is provided with a first mounting hole (2206) for the spray rod (2231) to penetrate through and a first through hole (2207) positioned at the periphery of the first mounting hole (2206); the spray rod (2231) is arranged in the first mounting hole (2206) in a penetrating way, the flange (2200) is abutted against the periphery of the first mounting hole (2206) and corresponds to the first through hole (2207), and a bolt passes through the first through hole (2207) and the flange (2200) and then is fixed with a nut in a spiral way so as to fix the spray rod (2231) in the L-shaped sliding frame (2204).

5. The feeding spraying device of the automatic steel buckle pipe sleeving machine according to claim 4, wherein the feeding spraying device comprises: a connecting plate (2208) is integrally formed on one side face of the L-shaped sliding frame (2204), a first fork-shaped connector (2209) is fixed to the end portion of a piston rod of the first air cylinder (2205), and the connecting plate (2208) and the first fork-shaped connector (2209) form rotatable connection.

6. The feeding and spraying device of the automatic steel buckle pipe sleeving machine according to any one of claims 1 to 5, wherein: the spray positioning module (222) comprises a vertically-mounted pneumatic pipe clamp (2221) and a second driving module (2222) for driving the pneumatic pipe clamp (2221) to move back and forth, and the pneumatic pipe clamp (2221) is arranged in the bracket (221) and is positioned beside the spray rod (2231).

7. The feeding spraying device of the automatic steel buckle pipe sleeving machine according to claim 6, wherein the feeding spraying device comprises: the second driving module (2222) comprises a second sliding seat (2302) which is slidably mounted at the lower end of the first sliding rail (2202) through a second sliding block (2301) and a second air cylinder (2303) which is used for driving the second sliding seat (2302) to move back and forth, and the upper end of the pneumatic pipe clamp (2221) is mounted at the lower end of the second sliding seat (2302).

8. The feeding spraying device of the automatic steel buckle pipe sleeving machine according to claim 6, wherein the feeding spraying device comprises: feed mechanism (21) including set up hopper (211) on frame (1), install chain (213) and many fixed mounting in this hopper (211) on this chain (213) material loading strip (212) and be used for driving this chain (213) moving motor drive module (214), this material loading strip (212) both sides all are formed with the arc concave surface, make and be formed with the holding tank that holds insulating tube (10) between two adjacent material loading strips (212).

9. The feeding spraying device of the automatic steel buckle pipe sleeving machine according to claim 8, characterized in that: the material stopping device is characterized in that a material stopping plate (215) and a material stopping driving module (216) used for driving the material stopping plate (215) to move are further arranged in the hopper (211), and the material stopping plate (215) is arranged on the periphery of the inner wall of the hopper (211).

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