CN117300182B

CN117300182B - Material receiving and dumping jig for turning copper pipe joint

Info

Publication number: CN117300182B
Application number: CN202311434535.5A
Authority: CN
Inventors: 陈焕炬; 金飞龙; 裘建平
Original assignee: Zhejiang Solerad Environment Technology Co ltd
Current assignee: Zhejiang Solerad Environment Technology Co ltd
Priority date: 2023-11-01
Filing date: 2023-11-01
Publication date: 2024-04-12
Anticipated expiration: 2043-11-01
Also published as: CN117300182A

Abstract

The invention relates to a material receiving dumping jig for turning a copper pipe joint, which comprises a material receiving hopper, wherein the material receiving hopper comprises a rear panel with a vertical rear side, an obliquely arranged upper baffle plate is formed on the upper side of the rear panel, an arc-shaped transition plate is formed on the lower side of the rear panel, an obliquely arranged guide plate is formed on the transition plate, a notch is formed in the middle of the guide plate, and arc-shaped outer curled edges are formed on the upper side edges of the guide plates on two sides of the notch in a bending mode; the notch interpolation of guide plate is equipped with the apron of putting to one side, and the left and right both sides of apron are supported respectively and are leaned on left shrouding and right shrouding, and left shrouding and right shrouding are pegged graft respectively and are fixed the left and right both ends that connect the hopper, and the lower side bending type of apron has convex interior turn-up, peg graft in the interior turn-up and be fixed with the articulated shaft, peg graft respectively at the both ends of articulated shaft and fix in outer turn-up. The jig is a receiving hopper, the feeding port of the receiving hopper is provided with a cover plate capable of replacing, copper scraps are poured, and the cover plate can prevent the copper scraps from spilling out of the feeding port of the receiving hopper and falling to the ground.

Description

Material receiving and dumping jig for turning copper pipe joint

Technical field:

the invention relates to the technical field of pipe fitting machining jigs, in particular to a receiving dumping jig for turning a copper pipe joint.

The background technology is as follows:

copper pipe joints are parts which are often required to be used when connecting pipelines, the copper pipe joints are generally formed by casting, and the copper pipe joints are also required to be processed by turning after casting; a large amount of copper scraps can be produced in the turning process, the rear side of a lathe body of a conventional lathe is provided with an obliquely arranged scrap discharge port, the copper scraps are discharged from the scrap discharge port, a receiving hopper of a dustpan structure is arranged at the scrap discharge port of the conventional lathe, the copper scraps are collected in the receiving hopper, then when the scrap turnover vehicle comes over, the copper scraps in the receiving hopper are conveyed into the scrap turnover vehicle through the receiving hopper, but because the scrap discharge port at the rear side of the lathe is a long and narrow outlet, the length of the receiving hopper is longer, the length of a feeding port on the receiving hopper is longer, when the copper scraps are poured from the receiving hopper, the copper scraps easily slide out from the feeding port of the receiving hopper and are scattered on the ground, a workshop is polluted, and the cleaning work of the workshop is increased

The invention comprises the following steps:

the invention aims at overcoming the defects of the prior art, and provides a receiving and dumping jig for turning copper pipe joints, which is a receiving hopper, wherein a cover plate capable of changing positions is arranged at a feed inlet of the receiving hopper, and copper scraps are dumped, and the cover plate can prevent the copper scraps from spilling out of the feed inlet of the receiving hopper and falling to the ground.

The utility model provides a tool is emptyd to material that connects lathe work to connect that copper, includes connects the hopper, connects the hopper and includes the vertical rear panel of rear side, and the upper side shaping of rear panel has the overhead gage, and the lower side shaping of rear panel has convex transition board, has the guide plate of putting to one side on the transition board, and the middle part shaping of guide plate has the notch, and the bending molding has convex outer turn-up on the guide plate of notch both sides; the notch of the guide plate is internally provided with an obliquely arranged cover plate, the left side and the right side of the cover plate respectively lean against the left sealing plate and the right sealing plate, the left sealing plate and the right sealing plate are respectively inserted and fixed at the left end and the right end of the connecting hopper, the lower side edge of the cover plate is bent and formed with an arc-shaped inner curled edge, a hinge shaft is inserted and fixed in the inner curled edge, and the two ends of the hinge shaft are respectively inserted and fixed in the outer curled edge;

the lower end face of the guide plate is fixedly provided with a plurality of groups of transversely-distributed support brackets, each support bracket comprises a front obliquely-arranged support leg, the middle part of each front support leg is fixedly provided with an obliquely-arranged support rod, and the support rods are distributed on the front side of the receiving hopper;

the right sealing plate consists of an inner sealing plate, a middle sealing plate and an outer sealing plate, wherein a notch is formed at the lower rear end of the outer sealing plate, a first pouring opening and a second pouring opening which are opposite to the transition plate and are arc-shaped are formed at the lower rear ends of the inner sealing plate and the middle sealing plate respectively, a valve plate for covering the first pouring opening is inserted between the inner sealing plate and the middle sealing plate, and the valve plate is abutted against the inner wall of the transition plate; a slot is formed on the rear panel between the inner sealing plate and the middle sealing plate, a connecting rod is formed on the rear end surface of the valve plate, and a T-shaped pin shaft is inserted in the connecting rod through the slot of the receiving hopper; the two sides of the rear end face of the rear panel are respectively and fixedly connected with a -shaped handle, a supporting lug is formed in the handle on the right side of the rear panel, and the pin shaft is fixedly connected to the supporting lug in an inserting mode.

Preferably, the lower end of the valve plate is arc-shaped, and the arc radius of the lower end of the valve plate is equal to the arc radius of the inner wall of the transition plate; the inner wall of the transition plate, the inner wall of the first pouring opening and the inner wall of the second pouring opening are positioned in the same cylindrical surface.

Preferably, the rear end faces of the two sides of the cover plate are respectively fixed with longitudinal balancing weights, limiting insertion holes are formed in the balancing weights, three left sealing plates on the left side of the receiving hopper are arranged, the balancing weights on the left side of the cover plate are respectively inserted between the left sealing plates, the balancing weights on the right side of the cover plate are inserted between the middle sealing plates and the outer sealing plates, T-shaped lock pins which are transverse and opposite to the limiting insertion holes on the balancing weights are inserted between the inner sealing plates and the middle sealing plates and between the left sealing plates, and the lock pins are respectively inserted on the middle sealing plates and the left sealing plates.

Preferably, the middle sealing plate is provided with a guide groove which is arc-shaped and opposite to the second pouring opening, the guide groove is positioned in the notch of the outer sealing plate and is inserted with a positioning screw, the positioning screw is in threaded connection with the valve plate, and the circle center of the arc of the guide groove is positioned on the central axis of the pin shaft.

Preferably, the upper side edge of the cover plate is propped against the front side edge of the upper baffle plate, the upper baffle plate is parallel to the guide plate, and the inclination direction of the guide plate is opposite to that of the cover plate.

Preferably, an elastic sealing thin pad is inserted between the rear end face of the cover plate and the bottom face of the notch on the guide plate, and the rear side edge of the elastic sealing thin pad is fixed on the upper end face of the guide plate and the front side edge is fixed on the outer wall of the inner curled edge;

the center distance from the rear end face of the cover plate to the hinge shaft is equal to the center distance from the upper end face of the guide plate to the hinge shaft.

Preferably, the lower ends of the front support legs and the outer wall of the transition plate are in the same horizontal plane, the inclination direction of the front support legs is opposite to that of the supporting rods, the rear ends of the front support legs are provided with inclined connecting rods, and the connecting rods are fixed on the lower end surfaces of the guide plates; and a longitudinal reinforcing rod is fixedly connected between the connecting rod and the front support leg.

The invention has the beneficial effects that:

the jig is a receiving hopper, the feeding port of the receiving hopper is provided with a cover plate capable of replacing, copper scraps are poured, and the cover plate can prevent the copper scraps from spilling out of the feeding port of the receiving hopper and falling to the ground.

Description of the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic diagram of the front view of the present invention;

FIG. 4 is a schematic cross-sectional view of the structure at A-A in FIG. 3;

FIG. 5 is a schematic cross-sectional view of the structure at B-B in FIG. 3;

FIG. 6 is a schematic perspective view of a coverless structure of the present invention;

fig. 7 is a schematic diagram of the front view of the invention without cover plate.

In the figure: 1. a receiving hopper; 2. a cover plate; 3. a right sealing plate; 4. a left sealing plate; 5. a hinge shaft; 6. a support bracket; 7. a valve plate; 8. a handle; 9. balancing weight; 10. a locking pin; 20. an elastic sealing thin pad; 30. a pin shaft; 40. and (5) positioning a screw.

The specific embodiment is as follows:

examples: as shown in fig. 1 to 7, a receiving and dumping jig for turning copper pipe joints comprises a receiving hopper 1, wherein the receiving hopper 1 comprises a rear panel 11 with a vertical rear side, an inclined upper baffle 14 is formed on the upper side of the rear panel 11, a circular arc-shaped transition plate 12 is formed on the lower side of the rear panel 11, an inclined guide plate 13 is formed on the transition plate 12, a notch 131 is formed in the middle of the guide plate 13, and circular arc-shaped outer curled edges 132 are formed on the upper side edges of the guide plates 13 on two sides of the notch 131 in a bending mode; the notch 131 of the guide plate 13 is internally provided with an obliquely arranged cover plate 2, the left side and the right side of the cover plate 2 respectively lean against the left sealing plate 4 and the right sealing plate 3, the left sealing plate 4 and the right sealing plate 3 are respectively inserted into and fixed with the left end and the right end of the receiving hopper 1, the left sealing plate 4, the right sealing plate 3, the guide plate 13 and the upper baffle 14 are surrounded and formed with a feed inlet of the receiving hopper 1, and the cover plate 2 covers the feed inlet of the receiving hopper 1; the lower side edge of the cover plate 2 is bent and formed with an arc-shaped inner curled edge 21, a hinge shaft 5 is fixedly inserted into the inner curled edge 21, and two ends of the hinge shaft 5 are respectively inserted and fixed in the outer curled edge 132;

the lower end face of the guide plate 13 is fixed with a plurality of groups of transversely distributed support brackets 6, each support bracket 6 comprises a front inclined support leg 61, the middle part of each front support leg 61 is fixed with an inclined support rod 62, and the support rods 62 are distributed on the front side of the receiving hopper 1; when the cover plate 2 is turned over, the front end surface of the cover plate 2 can be abutted against the supporting rod 62, so that the cover plate 2 is obliquely arranged and used as an extension plate of the guide plate 13;

the right sealing plate 3 is composed of an inner sealing plate 31, a middle sealing plate 32 and an outer sealing plate 33, the lower rear ends of the outer sealing plate 33 are provided with notches, the lower rear ends of the inner sealing plate 31 and the middle sealing plate 32 are respectively provided with a first pouring opening 311 and a second pouring opening 321 which are opposite to the transition plate 12 and are arc-shaped, a valve plate 7 covering the first pouring opening 311 is inserted between the inner sealing plate 31 and the middle sealing plate 32, and the valve plate 7 is abutted against the inner wall of the transition plate 12; a slot 111 is formed on the rear panel 11 between the inner sealing plate 31 and the middle sealing plate 32, a connecting rod 71 is formed on the rear end surface of the valve plate 7, and the connecting rod 71 penetrates through the slot 111 of the receiving hopper 1 and is inserted with a T-shaped pin shaft 30; the two sides of the rear end surface of the rear panel 11 are respectively and fixedly connected with a -shaped handle 8, a supporting lug 81 is formed in the handle 8 on the right side of the rear panel 11, and the pin shaft 30 is fixedly inserted into the supporting lug 81.

The lower end of the valve plate 7 is arc-shaped, and the arc radius of the lower end of the valve plate 7 is equal to the arc radius of the inner wall of the transition plate 12; the inner wall of the transition plate 12, the inner wall of the first pouring spout 311 and the inner wall of the second pouring spout 321 are in the same cylindrical surface.

The rear end surfaces of two sides of the cover plate 2 are respectively fixed with a longitudinal balancing weight 9, limiting jacks 91 are formed in the balancing weight 9, three left sealing plates 4 on the left side of the receiving hopper 1 are arranged, the balancing weight 9 on the left side of the cover plate 2 is respectively inserted between the left sealing plates 4, the balancing weight 9 on the right side of the cover plate 2 is inserted between the middle sealing plate 32 and the outer sealing plate 33, T-shaped lock pins 10 which are transverse and opposite to the limiting jacks 91 on the balancing weight 9 are inserted between the inner sealing plate 31 and the middle sealing plate 32 and between the left sealing plates 4, and the lock pins 10 are respectively inserted on the middle sealing plate 32 and the left sealing plate 4; the balancing weight 9 can drive the cover plate 2 to press against the left sealing plate 4 and the right sealing plate 3 based on gravity, as shown in fig. 1, when the receiving hopper 1 inclines to the right, the lock pin 10 can move right under the action of gravity, and the lock pin 10 moving right can respectively pass through the middle sealing plate 32 and the left sealing plate 4 to be inserted into the limiting jack 91 of the balancing weight 9, so that the cover plate 2 can be opened when the receiving hopper 1 is limited to pour copper scraps, and the copper scraps are prevented from being scattered on the ground from the discharge of the feed inlet of the receiving hopper 1.

The middle sealing plate 32 on the shaping have convex and with the relative guide way 322 of second pouring aperture 321, guide way 322 is located the notch of outer sealing plate 33 and pegged graft and have set screw 40, set screw 40 spiro union is on valve plate 7, the circular arc centre of a circle of guide way 322 is located the center pin of round pin axle 30, set screw 40 sets up and conveniently opens after the valve plate 7, can realize valve plate 7 location, and need not stir valve plate 7 always and realize opening of first pouring aperture 311.

The upper side edge of the cover plate 2 is propped against the front side edge of the upper baffle plate 14, the upper baffle plate 14 is parallel to the guide plate 13, and the inclination direction of the guide plate 13 is opposite to that of the cover plate 2.

The center distance from the rear end face of the cover plate 2 to the hinge shaft 5 is equal to the center distance from the upper end face of the guide plate 13 to the hinge shaft 5, when the cover plate 2 is turned over to serve as an extension plate of the guide plate 13, the upper surface of the cover plate 2 after the cover plate 2 is turned over is flush with the upper end face of the guide plate 13;

an elastic sealing thin pad 20 is inserted between the rear end face of the cover plate 2 and the bottom face of the notch 131 on the guide plate 13, and the rear side edge of the elastic sealing thin pad 20 is fixed on the upper end face and the front side edge of the guide plate 13 and on the outer wall of the inner curled edge 21; a gap may exist between the cover plate 2 and the guide plate 13 after the cover plate is turned over, so that the elastic sealing thin gasket 20 is arranged, and the elastic sealing thin gasket 20 can seal the gap between the cover plate and the guide plate, so that the copper scrap cylinder is prevented from falling off from the gap between the cover plate and the guide plate.

The lower end of the front support leg 61 and the lower end of the outer wall of the transition plate 12 are in the same horizontal plane, the inclination direction of the front support leg 61 is opposite to that of the supporting rod 62, the rear end of the front support leg 61 is formed with an inclined connecting rod 611, and the connecting rod 611 is fixed on the lower end face of the guide plate 13; a longitudinal reinforcing rod 63 is fixedly connected between the connecting rod 611 and the front leg 61.

Working principle: the invention relates to a material receiving and dumping jig for turning a copper pipe joint, wherein the main body of the material receiving and dumping jig is a material receiving hopper 1, a cover plate 2 is turned over to lean against a support bracket 6 when receiving materials, copper scraps slide down along the cover plate 2 into the material receiving hopper 1, and when the copper scraps need to be dumped;

the cover plate 2 can be turned over to be abutted against the material receiving hopper 1 to cover a material inlet of the material receiving hopper 1, then the handle 8 is held to realize the right tilting of the material receiving hopper 1, the right side of the material receiving hopper 1 is placed on a waste material transferring vehicle, then the connecting rod 71 on the valve plate 7 is stirred to drive the valve plate 7 to rotate, and copper scraps can be output from the first pouring opening 311 at the right end of the material receiving hopper 1; the caliber of the first pouring opening 311 is limited, so that copper scraps can be prevented from coming out at one time, and the copper scraps can be prevented from being scattered on the ground.

The examples are presented to illustrate the invention and are not intended to limit the invention. Modifications to the described embodiment may occur to those skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention is therefore set forth in the appended claims.

Claims

1. The utility model provides a tool is emptyd to receiving material that copper tubulation joint lathe work was used, includes receiving hopper (1), receiving hopper (1) including rear side vertical rear panel (11), and the upper side shaping of rear panel (11) has overhead gage (14), its characterized in that: the lower side edge of the rear panel (11) is formed with a circular arc-shaped transition plate (12), the transition plate (12) is formed with an inclined guide plate (13), the middle part of the guide plate (13) is formed with a notch (131), and the upper side edges of the guide plates (13) at two sides of the notch (131) are bent and formed with circular arc-shaped outer curled edges (132); the notch (131) of the guide plate (13) is internally provided with an obliquely arranged cover plate (2), the left side and the right side of the cover plate (2) are respectively abutted against the left sealing plate (4) and the right sealing plate (3), the left sealing plate (4) and the right sealing plate (3) are respectively fixedly connected with the left end and the right end of the hopper (1) in an inserting mode, the lower side edge of the cover plate (2) is bent to form an arc-shaped inner curled edge (21), the inner curled edge (21) is internally provided with a hinge shaft (5) in an inserting mode, and the two ends of the hinge shaft (5) are respectively fixedly connected in the outer curled edge (132) in an inserting mode;

the lower end face of the guide plate (13) is fixedly provided with a plurality of groups of transversely distributed support brackets (6), each support bracket (6) comprises a front obliquely arranged support leg (61), an obliquely arranged support rod (62) is fixed in the middle of each front support leg (61), and the support rods (62) are distributed on the front side of the receiving hopper (1);

the right sealing plate (3) consists of an inner sealing plate (31), a middle sealing plate (32) and an outer sealing plate (33), wherein a notch is formed at the lower rear end of the outer sealing plate (33), a first pouring opening (311) and a second pouring opening (321) which are opposite to the transition plate (12) and are arc-shaped are formed at the lower rear ends of the inner sealing plate (31) and the middle sealing plate (32), a valve plate (7) covering the first pouring opening (311) is inserted between the inner sealing plate (31) and the middle sealing plate (32), and the valve plate (7) is abutted against the inner wall of the transition plate (12); a slot (111) is formed on the rear panel (11) between the inner sealing plate (31) and the middle sealing plate (32), a connecting rod (71) is formed on the rear end surface of the valve plate (7), and the connecting rod (71) passes through the slot (111) of the receiving hopper (1) and is inserted with a T-shaped pin shaft (30); the two sides of the rear end face of the rear panel (11) are respectively fixedly connected with a -shaped handle (8), lugs (81) are formed in the handle (8) on the right side of the rear panel (11), and the pin shafts (30) are fixedly connected to the lugs (81) in an inserting mode.

2. The receiving dumping jig for turning copper pipe joints according to claim 1, wherein: the lower end of the valve plate (7) is arc-shaped, and the arc radius of the lower end of the valve plate (7) is equal to the arc radius of the inner wall of the transition plate (12); the inner wall of the transition plate (12), the inner wall of the first pouring opening (311) and the inner wall of the second pouring opening (321) are positioned in the same cylindrical surface.

3. The receiving dumping jig for turning copper pipe joints according to claim 1, wherein: the utility model discloses a sealing device for the automatic feeding of the material, including apron (2), upper and lower sealing plates (4), longitudinal balancing weights (9) are fixed with respectively on the rear end face of apron (2) both sides, the shaping has spacing jack (91) on balancing weights (9), left shrouding (4) of receiving hopper (1) are equipped with three, balancing weights (9) on apron (2) left side are inserted respectively and are established between left shrouding (4), balancing weights (9) on apron (2) right side are inserted and are established between well shrouding (32) and outer shrouding (33), insert between interior shrouding (31) and well shrouding (32) and between left shrouding (4) and be equipped with T type transversely and with lockpin (10) that spacing jack (91) is relative on balancing weights (9), lockpin (10) are inserted respectively and are established on well shrouding (32) and left shrouding (4).

4. The receiving dumping jig for turning copper pipe joints according to claim 1, wherein: the middle sealing plate (32) is provided with a guide groove (322) which is arc-shaped and opposite to the second pouring opening (321), the guide groove (322) is positioned in a notch of the outer sealing plate (33) and is inserted with a positioning screw (40), the positioning screw (40) is in threaded connection with the valve plate (7), and the circle center of the arc of the guide groove (322) is positioned on the central axis of the pin shaft (30).

5. The receiving dumping jig for turning copper pipe joints according to claim 1, wherein: the upper side edge of the cover plate (2) is propped against the front side edge of the upper baffle plate (14), the upper baffle plate (14) is parallel to the guide plate (13), and the inclination direction of the guide plate (13) is opposite to that of the cover plate (2).

6. The receiving dumping jig for turning copper pipe joints as set forth in claim 5, wherein: an elastic sealing thin pad (20) is inserted between the rear end face of the cover plate (2) and the bottom face of the upper notch (131) of the guide plate (13), and the rear side edge of the elastic sealing thin pad (20) is fixed on the upper end face and the front side edge of the guide plate (13) and fixed on the outer wall of the inner curled edge (21);

the center distance from the rear end face of the cover plate (2) to the hinge shaft (5) is equal to the center distance from the upper end face of the guide plate (13) to the hinge shaft (5).

7. The receiving dumping jig for turning copper pipe joints according to claim 1, wherein: the lower end of the front support leg (61) and the lower end of the outer wall of the transition plate (12) are in the same horizontal plane, the inclination direction of the front support leg (61) is opposite to that of the supporting rod (62), the rear end of the front support leg (61) is provided with an inclined connecting rod (611), and the connecting rod (611) is fixed on the lower end face of the guide plate (13); a longitudinal reinforcing rod (63) is fixedly connected between the connecting rod (611) and the front support leg (61).