CN210029074U - Automatic branching and conveying mechanism for pipe fittings - Google Patents

Abstract

The utility model discloses an automatic transport mechanism along separate routes of pipe fitting belongs to work piece conveying processing machinery equipment field. The utility model discloses an unloading pipe slope downward fixation sets up in the pipe support upside, and unloading pipe lower extreme both sides symmetry respectively intercommunication is provided with the pipe along separate routes, rotates the baffle and be T style of calligraphy structure, rotates the corner of baffle and rotates to be connected in unloading pipe downside, and fixed carrier plate top both sides are the fixed biography pipe support that is provided with of level respectively, and the biography pipe belt both sides are convoluteed respectively and are connected in the biography pipe commentaries on classics roller of biography pipe support both sides, and the coaxial fixed synchronous pivot that is provided with of level between two biography pipe commentaries on classics rollers of fixed carrier plate top both sides, the fixed spacing blend stop. The utility model has the advantages of reasonable design, can be with the steady smooth and easy just even unloading of shunting that carries on of pipe fitting to can keep the horizontal station with the pipe fitting to convey in proper order, improve pipe fitting conveying processing degree of automation, satisfy the needs that processing was used.

Description

Automatic branching and conveying mechanism for pipe fittings

Technical Field

The utility model belongs to work piece conveying processing machinery equipment field especially relates to an automatic transport mechanism along separate routes of pipe fitting, mainly is applied to the continuous conveying processing field of pipe fitting.

Background

The pipe fitting is a workpiece with a cylindrical structure, the variety of the pipe fitting is various, different pipe fittings are made of different materials, the quality of the pipe fitting is directly determined by the quality of the materials, the pipe fitting is a necessary material for building engineering and mechanical equipment, and the pipe fitting is a general name of parts playing roles in connection, control, diversion, sealing, supporting and the like in a mechanical system. The steel pipe fitting is the leading one in the pipe fitting, and the steel pipe fitting is the pressure-bearing pipe fitting, and according to the difference of processing technology, the steel pipe fitting can divide into: for butt welding pipe fittings, socket welding pipe fittings, threaded pipe fittings and flange pipe fittings, the pipe fittings can be classified according to the processing technology, and the pipe fittings can be classified according to purposes, connection modes and materials. In the production and processing process of the pipe fittings, the pipe fittings produced and processed by the previous process are required to be sequentially fed one by one to enable the subsequent process to be processed, in the automatic production and processing process of the existing pipe fittings, according to the difference of the production efficiency of each process, one feeder is required to supply the pipe fittings to two processing or assembly machines, the pipe fittings are conveyed in a shunting way, so that the automatic and efficient conveying and processing of the pipe fittings are realized, the existing pipe fittings are difficult to conveniently and stably convey the pipe fittings conveyed by one material pipe in a shunting way into two material pipes in a uniform shunting way for conveying, the shunting conveying efficiency of the pipe fittings is lower, the shunting conveying quality of the pipe fittings is poorer, the pipe fittings are often blocked in the shunting conveying process of the pipe fittings, the normal shunting conveying of the pipe fittings is influenced, the shunting process of the existing pipe fittings is difficult to be automatically realized in the guiding and blanking process of the pipe fittings, and an external, the use energy consumption of the shunting process is increased, and once the driving mechanism breaks down, the pipe fitting is difficult to be conveniently and smoothly conveyed in a shunting way, so that the processing and use requirements cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome the above-mentioned not enough that exists among the prior art, and provide a structural design reasonable, can be with the steady smooth and easy just even unloading of shunting that carries on of pipe fitting to can keep the horizontal station to convey in proper order with the pipe fitting, improve pipe fitting conveying and processing degree of automation, satisfy the automatic transport mechanism of shunting of pipe fitting that processing needs of use.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: an automatic branching and conveying mechanism for pipe fittings is characterized in that: the automatic branching conveying mechanism for the pipe fittings comprises a pipe support, a blanking guide pipe, a branching guide pipe, a rotating guide plate, a fixing bearing plate, a pipe conveying support, a pipe conveying rotating roller and a pipe conveying motor, wherein the blanking guide pipe is obliquely and downwards fixedly arranged on the upper side of the pipe support, the upper side of the blanking guide pipe is of an inclined structure, the lower side of the blanking guide pipe is of a vertical structure, the upper side of the blanking guide pipe and the lower side of the blanking guide pipe are in arc transition connection, an upper baffle pipe cylinder and a lower baffle pipe cylinder are sequentially and obliquely and downwards fixedly arranged on the upper end part of the blanking guide pipe, an upper lifting baffle rod is slidably arranged at the output end of the upper baffle pipe cylinder, a lower lifting baffle rod is slidably arranged at the output end of the lower baffle pipe cylinder, the two sides of the lower end of the blanking guide pipe, the rotary guide plate is rotatably arranged at the end part of the lower side of the blanking guide pipe, the rotary guide plate is of a T-shaped structure, the corner of the rotary guide plate is rotatably connected to the lower side of the blanking guide pipe, the two sides of the inner wall of the blanking guide pipe at the upper side of the rotary guide plate are symmetrically provided with upper buffering rubber strips, the two sides of the inner wall of the lower end of the shunt guide pipe are symmetrically provided with lower buffering rubber strips, the fixed bearing plate is horizontally and fixedly arranged on the guide pipe supports at the lower sides of the two shunt guide pipes, the two sides above the fixed bearing plate are respectively and horizontally and fixedly provided with a pipe transmission support, the pipe transmission supports are arranged at the lower sides of the shunt guide pipes, the two sides of the pipe transmission support are respectively and horizontally and rotatably connected with pipe transmission rotating rollers, the pipe transmission belt is horizontally arranged at the, the biography pipe motor drives the biography pipe and changes the roller and rotate, the coaxial fixed synchronous pivot that is provided with of level between two biography pipe commentaries on classics rollers of fixed carrier plate top both sides, the fixed spacing blend stop that is provided with of biography pipe belt bilateral symmetry, spacing blend stop is parallel to each other with the direction of delivery of biography pipe belt.

Furthermore, the two sides of the inner wall of the blanking guide pipe on the upper side of the rotating guide plate are symmetrically provided with buffer baffles, the buffer baffles are arranged on the lower side of the upper buffer rubber strip, the upper ends of the buffer baffles are hinged to the blanking guide pipe, and buffer springs are arranged between the lower sides of the buffer baffles and the side wall of the blanking guide pipe.

Compared with the prior art, the utility model, have following advantage and effect: the utility model has reasonable structural design, the lower pipe is obliquely and downwards fixed on the upper side of the pipe bracket through the blanking pipe, the upper side of the upper end part of the blanking pipe is sequentially obliquely and downwards fixedly provided with the upper retaining pipe cylinder and the lower retaining pipe cylinder, the output end of the upper retaining pipe cylinder is slidably provided with the upper lifting retaining rod, the output end of the lower retaining pipe cylinder is slidably provided with the lower lifting retaining rod, the upper retaining pipe cylinder is used for pushing the upper lifting retaining rod and the lower retaining pipe cylinder for pushing the lower lifting retaining rod to alternately go on, so that the pipe fittings can sequentially roll down one by one along the blanking pipe, the two sides of the lower end of the blanking pipe are respectively and symmetrically communicated with the shunt pipe, the upper end of the shunt pipe and the lower end of the blanking pipe are in arc transition connection, the rotating guide plate is rotatably arranged at the lower end part of the blanking pipe, the rotating guide plate, the pipe fitting can push the rotating guide plate, the rotating guide plate can rotate under the push of the pipe fitting, so that the pipe fitting can smoothly roll and fall along the branch guide pipe, the rotating guide plate automatically swings under the pushing action of the falling process of the pipe fitting, the automatic reversing of the falling process of the pipe fitting is realized by the automatic swinging of the rotating guide plate, the pipe fitting falling along the blanking guide pipe can stably and uniformly carry out branch transmission, two branch guide pipes on two sides below the blanking guide pipe can alternately guide the pipe fitting to fall, upper buffer rubber strips are symmetrically arranged on two sides of the inner wall of the blanking guide pipe on the upper side of the rotating guide plate, lower buffer rubber strips are symmetrically arranged on two sides of the inner wall of the lower end of the branch guide pipe, so that the pipe fitting can be blocked, decelerated and buffered in the falling process, the pipe fitting can smoothly guide blanking, and the phenomenon that the pipe fitting falls at an, the pipe fitting conveying mechanism can ensure that the pipe fitting does not generate skew distortion in the impact process of falling and can also ensure that a shunt guide pipe mechanism does not generate noise and damage under the inertial impact of the pipe fitting, the two sides of the inner wall of a blanking guide pipe on the upper side of a rotating guide plate are symmetrically provided with buffer baffles, the upper ends of the buffer baffles are hinged to the blanking guide pipe, buffer springs are arranged between the lower sides of the buffer baffles and the side wall of the blanking guide pipe, the buffer baffles can be used for blocking and buffering the pipe fitting in the falling process to realize stable and orderly shunt guide conveying of the pipe fitting, pipe conveying supports on the two sides above a fixed bearing plate are arranged on the lower sides of the shunt guide pipe, the two sides of a pipe conveying belt are respectively wound around pipe conveying rotating rollers connected with the two sides of the pipe conveying supports, a pipe conveying motor is horizontally and fixedly arranged on the pipe conveying support on, the utility model has the advantages of reasonable structural design, smooth and even shunt blanking of the pipe fittings, sequential transmission of the pipe fittings at the horizontal stations, and improvement of the automation degree of pipe fitting transmission and processing, through the structure, the utility model can realize smooth and even shunt blanking of the pipe fittings, and can ensure that the pipe fittings are kept at the horizontal stations, the requirements of processing and use are met.

Drawings

Fig. 1 is a schematic view of the automatic pipe branching and conveying mechanism of the present invention.

Fig. 2 is an enlarged schematic view of a position a of the automatic branching transmission mechanism for pipe fittings of the present invention.

In the figure: 1. the device comprises a guide pipe support, a discharging guide pipe, a shunt guide pipe, a rotating guide plate, a fixing bearing plate, a conveying pipe support, a conveying pipe rotating roller, a conveying pipe motor, an upper retaining pipe cylinder, a lower retaining pipe cylinder, a lifting retaining rod 11, a lifting retaining rod 12, a lifting retaining rod 13, an upper buffer rubber strip 14, a lower buffer rubber strip 15, a conveying pipe belt 16, a synchronous rotating shaft 17, a limiting retaining strip 18, a buffer retaining plate 19 and a buffer spring.

Detailed Description

For further description of the present invention, the following detailed description will be further provided with reference to the accompanying drawings, which are used to explain the present invention and not to limit the present invention.

As shown in figure 1, the utility model relates to an automatic branching conveying mechanism for pipe fittings, which comprises a pipe bracket 1, a blanking pipe 2, a branching pipe 3, a rotating guide plate 4, a fixed bearing plate 5, a pipe transmission bracket 6, a pipe transmission rotating roller 7 and a pipe transmission motor 8, wherein the blanking pipe 2 is obliquely and downwards fixedly arranged at the upper side of the pipe bracket 1, the upper side of the blanking pipe 2 is of an inclined structure, the lower side of the blanking pipe 2 is of a vertical structure, the upper side of the blanking pipe 2 is connected with the lower side of the blanking pipe 2 by a circular arc transition, the upper side of the upper end part of the blanking pipe 2 is sequentially and obliquely and downwards fixedly provided with an upper retaining pipe cylinder 9 and a lower retaining pipe cylinder 10, the output end of the upper retaining pipe cylinder 9 is provided with an upper lifting retaining rod 11 in a sliding manner, the output end of the lower retaining pipe cylinder 10 is provided with a lower lifting retaining rod 12 in a sliding manner, the two sides of the, the lower side of the branch conduit 3 is of a vertical structure, a rotating guide plate 4 of the utility model is rotatably arranged at the end part of the lower side of the blanking conduit 2, the rotating guide plate 4 is of a T-shaped structure, the corner of the rotating guide plate 4 is rotatably connected to the lower side of the blanking conduit 2, the two sides of the inner wall of the blanking conduit 2 at the upper side of the rotating guide plate 4 are symmetrically provided with upper buffer rubber strips 13, the two sides of the inner wall at the lower end of the branch conduit 3 are symmetrically provided with lower buffer rubber strips 14, a fixing support plate 5 of the utility model is horizontally and fixedly arranged at the conduit support 1 at the lower side of the two branch conduits 3, two sides above the fixing support plate 5 are respectively and horizontally and fixedly provided with a conduit support 6, the conduit support 6 is arranged at the lower side of the branch conduit 3, two sides of the conduit support 6 are respectively and horizontally and rotatably connected with conduit rotating rollers 7, the fixed biography pipe motor 8 that is provided with of biography of fixed carrier plate 5 top one side pipe support 6 upper level, biography pipe motor 8 drive the biography pipe and change roller 7 and rotate, and the two biography pipes of fixed carrier plate 5 top both sides are changeed and are provided with synchronous pivot 16 between the roller 7 to the level coaxial fixed, and biography pipe belt 15 bilateral symmetry is fixed and is provided with spacing blend stop 17, and spacing blend stop 17 is parallel to each other with the direction of transfer of biography pipe belt 15. As shown in fig. 2, the utility model discloses the 2 inner wall bilateral symmetry of unloading pipe of 4 upsides of rotating guide are provided with buffer baffle 18, and buffer baffle 18 sets up in last cushion rubber strip 13 downside, and the hinge of buffer baffle 18 upper end is connected in unloading pipe 2, is provided with buffer spring 19 between buffer baffle 18 downside and the 2 lateral walls of unloading pipe, utilizes buffer baffle 18 to enable to block the buffering at the whereabouts in-process to the pipe fitting, realizes the transportation of the direction of the shut of the steady orderly branch of pipe fitting.

By adopting the technical scheme, when the automatic branching conveying mechanism for the pipe fittings is used, the automatic branching conveying mechanism is fixedly arranged on the upper side of a pipe bracket 1 by the inclined downward direction of a blanking pipe 2, the upper side of the upper end part of the blanking pipe 2 is fixedly provided with an upper baffle pipe cylinder 9 and a lower baffle pipe cylinder 10 by the inclined downward direction in sequence, the output end of the upper baffle pipe cylinder 9 is slidably provided with an upper lifting baffle rod 11, the output end of the lower baffle pipe cylinder 10 is slidably provided with a lower lifting baffle rod 12, the upper baffle pipe cylinder 9 is used for pushing the upper lifting baffle rod 11 and the lower baffle pipe cylinder 10 are used for pushing the lower lifting baffle rod 12 to alternately, so that the pipe fittings can sequentially roll down one by one along the blanking pipe 2, the branching pipes 3 are respectively and symmetrically communicated on the two sides of the lower end part of the blanking pipe 2, the upper end of the branching pipe 3 is, the rotary guide plate 4 is of a T-shaped structure, the corner of the rotary guide plate 4 is rotatably connected to the lower side of the blanking guide pipe 2, a pipe fitting which slides down along the blanking guide pipe 2 can push the rotary guide plate 4 in the blanking process, the rotary guide plate 4 can rotate under the pushing of the pipe fitting, so that the pipe fitting can smoothly roll and fall down along the shunt guide pipe 3, the rotary guide plate 4 automatically swings under the pushing action of the falling process of the pipe fitting, the automatic reversing of the falling process of the pipe fitting is realized by the automatic swinging of the rotary guide plate 4, the shunt transmission of the pipe fitting which falls along the blanking guide pipe 2 can be stably and uniformly carried out, two shunt guide pipes 3 at two sides below the blanking guide pipe 2 can alternately guide the pipe fitting to fall down, upper buffer rubber strips 13 are symmetrically arranged at two sides of the inner wall of the blanking guide pipe 2 at the upper side of the rotary guide plate 4, lower buffer rubber strips 14, the pipe fitting can be blocked and decelerated for buffering in the falling process, the pipe fitting can be ensured to be guided to fall smoothly and stably, larger inertia impact caused by too high falling speed of the pipe fitting is avoided, the pipe fitting can not be inclined and twisted in the falling impact process, and the shunt conveying mechanism can also be ensured not to generate noise and damage under the inertia impact of the pipe fitting, the buffering baffle plates 18 are symmetrically arranged on two sides of the inner wall of the blanking conduit 2 on the upper side of the rotating guide plate 4, the upper ends of the buffering baffle plates 18 are hinged to the blanking conduit 2, the buffering springs 19 are arranged between the lower sides of the buffering baffle plates 18 and the side wall of the blanking conduit 2, the buffering baffle plates 18 can be used for blocking and buffering the pipe fitting in the falling process, the stable and orderly shunt guiding conveying of the pipe fitting is realized, the pipe fitting is arranged on the lower sides of the shunt conduit 3 through the pipe transmission supports 6 on two sides above the fixed bearing plate 5, and the two sides, a pipe conveying motor 8 is horizontally and fixedly arranged on the pipe conveying bracket 6 at one side above the fixed bearing plate 5, a synchronous rotating shaft 16 is horizontally and coaxially fixedly arranged between the two pipe conveying rotating rollers 7 at two sides above the fixed bearing plate 5, the pipe conveying motor 8 is utilized to drive the pipe conveying rotating rollers 7 to rotate, so that the two pipe conveying belts 15 on the two sides above the fixed bearing plate 5 can synchronously rotate and convey, so that the pipe falling along the branch duct 3 can fall onto the conveyor belt 15 horizontally and smoothly, make the pipe fitting can convey with the steady accuracy of horizontal station, utilize the fixed spacing blend stop 17 that is provided with of 15 bilateral symmetry of biography pipe belt, spacing blend stop 17 is parallel to each other with the direction of transfer of biography pipe belt 15, the messenger can utilize spacing blend stop 17 to carry out spacing the blockking to the pipe fitting of 15 upsides of biography pipe belt, ensure that the pipe fitting can be steady fixed place in 15 upsides of biography pipe belt, realize that the steady accurate edge horizontal direction of pipe fitting conveys. Through such structure, the utility model has the advantages of reasonable design, can be with the steady smooth and easy just even unloading along separate routes that carries on of pipe fitting to can keep the horizontal station with the pipe fitting to convey in proper order, improve pipe fitting conveying processing degree of automation, satisfy the needs that processing was used.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (2)

1. An automatic branching and conveying mechanism for pipe fittings is characterized in that: the automatic branching conveying mechanism for the pipe fittings comprises a pipe support, a blanking guide pipe, a branching guide pipe, a rotating guide plate, a fixing bearing plate, a pipe conveying support, a pipe conveying rotating roller and a pipe conveying motor, wherein the blanking guide pipe is obliquely and downwards fixedly arranged on the upper side of the pipe support, the upper side of the blanking guide pipe is of an inclined structure, the lower side of the blanking guide pipe is of a vertical structure, the upper side of the blanking guide pipe and the lower side of the blanking guide pipe are in arc transition connection, an upper baffle pipe cylinder and a lower baffle pipe cylinder are sequentially and obliquely and downwards fixedly arranged on the upper end part of the blanking guide pipe, an upper lifting baffle rod is slidably arranged at the output end of the upper baffle pipe cylinder, a lower lifting baffle rod is slidably arranged at the output end of the lower baffle pipe cylinder, the two sides of the lower end of the blanking guide pipe, the rotary guide plate is rotatably arranged at the end part of the lower side of the blanking guide pipe, the rotary guide plate is of a T-shaped structure, the corner of the rotary guide plate is rotatably connected to the lower side of the blanking guide pipe, the two sides of the inner wall of the blanking guide pipe at the upper side of the rotary guide plate are symmetrically provided with upper buffering rubber strips, the two sides of the inner wall of the lower end of the shunt guide pipe are symmetrically provided with lower buffering rubber strips, the fixed bearing plate is horizontally and fixedly arranged on the guide pipe supports at the lower sides of the two shunt guide pipes, the two sides above the fixed bearing plate are respectively and horizontally and fixedly provided with a pipe transmission support, the pipe transmission supports are arranged at the lower sides of the shunt guide pipes, the two sides of the pipe transmission support are respectively and horizontally and rotatably connected with pipe transmission rotating rollers, the pipe transmission belt is horizontally arranged at the, the biography pipe motor drives the biography pipe and changes the roller and rotate, the coaxial fixed synchronous pivot that is provided with of level between two biography pipe commentaries on classics rollers of fixed carrier plate top both sides, the fixed spacing blend stop that is provided with of biography pipe belt bilateral symmetry, spacing blend stop is parallel to each other with the direction of delivery of biography pipe belt.

2. The automatic pipe branching and conveying mechanism of claim 1, wherein: the blanking guide pipe is characterized in that buffering baffle plates are symmetrically arranged on two sides of the inner wall of the blanking guide pipe on the upper side of the rotating guide plate, the buffering baffle plates are arranged on the lower sides of the upper buffering rubber strips, the upper ends of the buffering baffle plates are hinged to the blanking guide pipe, and buffering springs are arranged between the lower sides of the buffering baffle plates and the side wall of the blanking guide pipe.