CN115070491B

CN115070491B - Manual feeding device on bar cutting machine for core

Info

Publication number: CN115070491B
Application number: CN202210829780.5A
Authority: CN
Inventors: 蒋林华
Original assignee: Zhuji Lingyu Fitness Machinery Manufacturing Co ltd
Current assignee: Zhuji Lingyu Fitness Machinery Manufacturing Co ltd
Priority date: 2022-07-14
Filing date: 2022-07-14
Publication date: 2023-11-03
Anticipated expiration: 2042-07-14
Also published as: CN115070491A

Abstract

The manual feeding device comprises a bearing frame and a pushing mechanism, wherein the bearing frame comprises two groups of side supporting frames, a bearing notch is formed between the upper ends of the two groups of side supporting frames, a vertical falling channel is formed at the lower end of the bearing notch, the falling channel is positioned between the two groups of side supporting frames, an obliquely arranged material blocking channel is formed at the lower end of the falling channel, the material blocking channel is positioned between the side supporting frames and the material blocking support, and the material blocking support is fixed on the side supporting frames; the lower part that keeps off the material support is equipped with the support material support, holds in the palm the both ends of material support upper portion and fixes respectively on two sets of side support frames, holds in the palm the lower extreme of material support and fixes on the crossbeam, and the both ends of crossbeam are fixed respectively on two sets of side support frames, are fixed with the crossbeam on the two sets of side support frames of crossbeam downside. The feeding device is simple in structure, small in occupied space and convenient to operate, and can assist workers in inputting bars into the blanking machine, so that the labor intensity of the workers can be effectively reduced.

Description

Manual feeding device on bar cutting machine for core

Technical field:

the invention relates to the technical field of electromagnetic valve core bodies, in particular to a manual feeding device on a bar stock cutting machine for a core body.

The background technology is as follows:

the core body of the current electromagnetic valve is also called core iron, which is a main component in the electromagnetic valve, the core iron in some current air-conditioning refrigeration four-way electromagnetic valves is cylindrical and is mainly formed by turning after cutting off the bar stock, the bar stock before cutting is generally longer in length and heavier in weight, the cutting of the bar stock is completed by a blanking machine, and the blanking machine is generally not provided with a corresponding feeding device, namely the bar stock is required to be manually installed on the blanking machine; however, because the bar is heavy, the manual feeding labor intensity is high; therefore, some manufacturers propose an automatic feeding device, but the automatic feeding device has a complex structure and large volume, occupies a larger factory space, and has higher cost; for small manufacturers, firstly, a large-size automatic bar feeding device is arranged without enough factory space, secondly, necessary equipment for producing core iron only needs a blanking machine and a lathe, and auxiliary equipment cannot be purchased at high cost; therefore, a bar auxiliary feeding device which has a simple structure, small occupied space and low cost and can lighten labor intensity is needed.

The invention comprises the following steps:

the invention aims at overcoming the defects of the prior art, and provides a manual feeding device on a bar cutting machine for a core body, which has the advantages of simple structure, small occupied space, low manufacturing cost and convenience in operation in the use process, can assist workers to input bars into a blanking machine, and can effectively reduce the labor intensity of the workers.

The manual feeding device comprises a bearing frame and a pushing mechanism, wherein the bearing frame comprises two groups of side supporting frames, a bearing notch is formed between the upper ends of the two groups of side supporting frames, a vertical falling channel is formed at the lower end of the bearing notch, the falling channel is positioned between the two groups of side supporting frames, an obliquely arranged material blocking channel is formed at the lower end of the falling channel, the material blocking channel is positioned between the side supporting frames and the material blocking support, and the material blocking support is fixed on the side supporting frames; the lower part of the material blocking support is provided with a material supporting support, two ends of the upper part of the material supporting support are respectively fixed on two groups of side supporting frames, the lower end of the material supporting support is fixed on a transverse middle beam, two ends of the transverse middle beam are respectively fixed on the two groups of side supporting frames, a transverse bottom beam is fixed on the two groups of side supporting frames on the lower side of the transverse middle beam, and two longitudinal supporting beams are fixed on the transverse bottom beam;

the pushing mechanism is positioned at the rear side of the bearing frame and distributed between the side supporting frames, and comprises an annular V-shaped conveying belt, and the upper end of the V-shaped conveying belt is positioned at the lower side of the upper opening of the material supporting bracket; the V-shaped conveying belt is inserted and sleeved on the upper guide wheel, the lower guide wheel and the driving wheel, the driving wheel is positioned right below the upper guide wheel, and the lower guide wheel is positioned behind and below the upper guide wheel; the upper guide wheel, the lower guide wheel and the driving wheel are respectively provided with a transverse shaft, the transverse shafts on the upper guide wheel, the lower guide wheel and the driving wheel are respectively inserted into a front supporting rod, a rear supporting rod and a lower supporting rod, the front supporting rod is obliquely arranged and fixed on a transverse middle beam, the lower ends of the rear supporting rod and the lower supporting rod are respectively fixed on a transverse supporting beam, and the transverse supporting beams are fixed on a longitudinal supporting beam; the transverse shaft of the driving wheel is fixedly connected with a transverse transmission shaft in an inserting mode, and the tail end of the transmission shaft extends out of the bearing frame to be fixedly provided with a hand wheel in an inserting mode.

Preferably, the side support frame comprises a vertical outer support rod, a horizontal lower support rod is formed at the lower end of the outer support rod, an inclined bearing support rod is formed at the upper end of the outer support rod, a vertical side stop rod is formed at the lower end of the bearing support rod, an inclined support rod is formed at the lower end of the side stop rod, and the lower ends of the inclined support rod and the end parts of the lower support rod are formed together; the bearing notch be located between the bearing branch, the whereabouts passageway is located between the side bar, keeps off the material passageway and is located between oblique branch and the fender material support, the fender material support include the oblique pin that parallels with oblique branch, the upper and lower extreme shaping of oblique pin has horizontal connecting rod, the tip of connecting rod is fixed on the oblique branch of side support frame.

Preferably, the inclination angle of the bearing support rod is opposite to that of the inclined support rod, a vertical beam is fixedly inserted between the bearing support rod and the inclined support rod, an inclined support beam is fixedly arranged on the vertical beam, and the lower end of the inclined support beam is fixedly arranged on the longitudinal support beam.

Preferably, a vertical auxiliary rod is fixedly inserted between the bearing support rod and the inclined support rod, a limit bolt is screwed on the auxiliary rod, and the tail end of the limit bolt penetrates through the inclined support rod and is inserted at the upper end of the material blocking channel.

Preferably, the lower end surface of the lower strut of the side support frame is flush with the lower end surface of the longitudinal support beam.

Preferably, a transverse rolling pin is inserted into the upper opening of the material supporting bracket, and two ends of the rolling pin are inserted into the material supporting bracket.

Preferably, the transmission shaft is hinged with a bearing seat, the bearing seat is fixed on the side supporting frame, and a plurality of anti-slip convex strips are formed on the outer surface of the V-shaped conveying belt.

The invention has the beneficial effects that:

the feeding device is simple in structure, small in occupied space and low in manufacturing cost, is convenient to operate in the use process, can assist workers in inputting bars into the blanking machine, and can effectively reduce the labor intensity of the workers.

Description of the drawings:

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

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

FIG. 3 is a schematic perspective view of the present invention with bar stock loaded;

fig. 4 is a schematic side view of the present invention with bar stock loaded.

In the figure: 1. a carrier; 11. a side support; 111. an outer strut; 112. a lower support rod; 113. supporting the supporting rod; 114. a side stop lever; 115. an inclined strut; 116. a vertical beam; 117. a diagonal beam; 12. a material blocking bracket; 13. a material supporting bracket; 14. a transverse center sill; 15. a transverse bottom beam; 16. a longitudinal support beam; 17. an auxiliary lever; 18. a limit bolt; 19. needle roller; 2. a pushing mechanism; 21. a V-shaped conveyor belt; 22. an upper guide wheel; 23. a lower guide wheel; 24. a driving wheel; 25. a front support bar; 26. a rear support bar; 27. a lower support rod; 28. a transverse strut beam; 29. a transmission shaft; 210. a hand wheel; 211. a bearing seat; 3. a bar stock; a. a supporting notch; b. a falling channel; c. and a material blocking channel.

The specific embodiment is as follows:

examples: referring to fig. 1 to 4, a manual feeding device on a bar cutting machine for a core body comprises a bearing frame 1 and a pushing mechanism 2, wherein the bearing frame 1 comprises two groups of side supporting frames 11, a V-shaped bearing notch a is formed between the upper ends of the two groups of side supporting frames 11, a vertical falling channel b is formed at the lower end of the bearing notch a, the falling channel b is positioned between the two groups of side supporting frames 11, an inclined material blocking channel c is formed at the lower end of the falling channel b, the material blocking channel c is positioned between the side supporting frames 11 and a material blocking support 12, and the material blocking support 12 is fixed on the side supporting frames 11; a Y-shaped material supporting bracket 13 is arranged below the material blocking bracket 12, two ends of the upper part of the material supporting bracket 13 are respectively fixed on two groups of side supporting brackets 11, the lower end of the material supporting bracket 13 is fixed on a transverse middle beam 14, two ends of the transverse middle beam 14 are respectively fixed on two groups of side supporting brackets 11, a transverse bottom beam 15 is fixed on two groups of side supporting brackets 11 at the lower side of the transverse middle beam 14, and two longitudinal supporting beams 16 are fixed on the transverse bottom beam 15;

the pushing mechanism 2 is positioned at the rear side of the bearing frame 1 and distributed among the side supporting frames 11, the pushing mechanism 2 comprises an annular V-shaped conveying belt 21, and the upper end of the V-shaped conveying belt 21 is positioned at the lower side of the upper opening of the material supporting bracket 13; the V-shaped conveying belt 21 is inserted and sleeved on the upper guide wheel 22, the lower guide wheel 23 and the driving wheel 24, the driving wheel 24 is positioned right below the upper guide wheel 22, and the lower guide wheel 23 is positioned behind and below the upper guide wheel 22; the upper guide wheel 22, the lower guide wheel 23 and the driving wheel 24 are respectively provided with a transverse shaft, the transverse shafts on the upper guide wheel 22, the lower guide wheel 23 and the driving wheel 24 are respectively inserted into a front supporting rod 25, a rear supporting rod 26 and a lower supporting rod 27, the front supporting rod 25 is obliquely arranged and fixed on the transverse middle beam 14, the lower ends of the rear supporting rod 26 and the lower supporting rod 27 are respectively fixed on a transverse supporting beam 28, and the transverse supporting beam 28 is fixed on the longitudinal supporting beam 16; a transverse transmission shaft 29 is fixedly inserted on the transverse shaft of the driving wheel 24, the tail end of the transmission shaft 29 extends out of the bearing frame 1 and is fixedly sleeved with a hand wheel 210 (the hand wheel 210 can be replaced by a motor, and the operation of the V-shaped conveying belt 21 can be automatically controlled by the motor); the upper guide wheel 22, the lower guide wheel 23 and the driving wheel 24 are respectively composed of a middle cylindrical wheel body and conical guide wheels at two ends of the wheel body.

Preferably, the side supporting frame 11 includes a vertical outer supporting rod 111, a horizontal lower supporting rod 112 is formed at the lower end of the outer supporting rod 111, an inclined supporting rod 113 is formed at the upper end of the outer supporting rod 111, a vertical side blocking rod 114 is formed at the lower end of the supporting rod 113, an inclined supporting rod 115 is formed at the lower end of the side blocking rod 114, and the lower end of the inclined supporting rod 115 and the end part of the lower supporting rod 112 are formed together; the bearing notch a is positioned between the bearing support rods 113, the falling channel b is positioned between the side stop rods 114, the material blocking channel c is positioned between the inclined support rods 115 and the material blocking support 12, the material blocking support 12 comprises inclined stop rods parallel to the inclined support rods 115, horizontal connecting rods are formed at the upper ends and the lower ends of the inclined stop rods, and the end parts of the connecting rods are fixed on the inclined support rods 115 of the side support frames 11.

Preferably, the inclination angle of the supporting strut 113 is opposite to that of the inclined strut 115, a vertical beam 116 is inserted and fixed between the supporting strut 113 and the inclined strut 115, an inclined strut 117 is fixed on the vertical beam 116, and the lower end of the inclined strut 117 is fixed on the longitudinal support beam 16.

Preferably, a vertical auxiliary rod 17 is inserted and fixed between the supporting strut 113 and the inclined strut 115, a limit bolt 18 is screwed on the auxiliary rod 17, and the tail end of the limit bolt 18 passes through the inclined strut 115 and is inserted at the upper end of the material blocking channel c.

Preferably, the lower end surface of the lower strut 112 of the side support 11 is flush with the lower end surface of the longitudinal support beam 16.

Preferably, a transverse needle roller 19 is inserted into the upper opening of the material supporting bracket 13, and two ends of the needle roller 19 are inserted into the material supporting bracket 13.

Preferably, the transmission shaft 29 is hinged with a bearing seat 211, the bearing seat 211 is fixed on the side supporting frame 11, and a plurality of anti-slip convex strips are formed on the outer surface of the V-shaped conveying belt 21.

Working principle: the invention relates to a manual feeding device on a bar cutting machine for a core body, which consists of a bearing frame 1 and a pushing mechanism 2, wherein the bearing frame 1 is used for placing bars, the bars can be placed on the bearing frame 1 in an inclined mode, the upper parts of the bars are arranged in bearing notches a of the bearing frame 1, the lower ends of the bars are abutted against the ground, the bars at the lower ends of the bearing notches a fall into a falling channel b and are placed on a blocking support 12, the bars placed on the blocking support 12 are transversely moved into the blocking channel c by removing a limiting bolt 18, the bars enter the upper notch of the supporting support 13 through the blocking channel c, namely, the force separation of the single bars from the whole bars is realized, the bars falling on the supporting support 13 are pressed on a V-shaped conveying belt 21 of the pushing mechanism 2, the V-shaped conveying belt 21 is driven by a rotary hand wheel 210, the bars are driven to move forward and upward by friction force, when the lengths of the bars at the front sides of the bearing frame 1 are larger than the lengths at the rear sides of the bearing frame 1, the bars enter the guide wheel of the machine under the action of the gravity, the bars at the rear ends of the falling ends of the bar can not interfere with each other, and the bars enter the guide wheel of the machine.

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 used bar cutting material machine of core is last manual feed device, includes carrier (1) and pushing mechanism (2), its characterized in that: the bearing frame (1) comprises two groups of side supporting frames (11), a V-shaped bearing notch (a) is formed between the upper ends of the two groups of side supporting frames (11), a vertical falling channel (b) is formed at the lower end of the bearing notch (a), the falling channel (b) is positioned between the two groups of side supporting frames (11), an inclined material blocking channel (c) is formed at the lower end of the falling channel (b), the material blocking channel (c) is positioned between the side supporting frames (11) and a material blocking support (12), and the material blocking support (12) is fixed on the side supporting frames (11); the lower part of the material blocking support (12) is provided with a Y-shaped material supporting support (13), two ends of the upper part of the material supporting support (13) are respectively fixed on two groups of side supporting frames (11), the lower end of the material supporting support (13) is fixed on a transverse middle beam (14), two ends of the transverse middle beam (14) are respectively fixed on the two groups of side supporting frames (11), two groups of side supporting frames (11) on the lower side of the transverse middle beam (14) are respectively fixed with a transverse bottom beam (15), and two longitudinal supporting beams (16) are fixed on the transverse bottom beam (15);

the pushing mechanism (2) is positioned at the rear side of the bearing frame (1) and distributed among the side supporting frames (11), the pushing mechanism (2) comprises an annular V-shaped conveying belt (21), and the upper end of the V-shaped conveying belt (21) is positioned at the lower side of the upper opening of the material supporting bracket (13); the V-shaped conveying belt (21) is inserted and sleeved on the upper guide wheel (22), the lower guide wheel (23) and the driving wheel (24), the driving wheel (24) is positioned right below the upper guide wheel (22), and the lower guide wheel (23) is positioned behind and below the upper guide wheel (22); the upper guide wheel (22), the lower guide wheel (23) and the driving wheel (24) are respectively provided with a transverse shaft, the transverse shafts on the upper guide wheel (22), the lower guide wheel (23) and the driving wheel (24) are respectively inserted into the front support rod (25), the rear support rod (26) and the lower support rod (27), the front support rod (25) is obliquely arranged and fixed on the transverse middle beam (14), the lower ends of the rear support rod (26) and the lower support rod (27) are respectively fixed on the transverse support beam (28), and the transverse support beam (28) is fixed on the longitudinal support beam (16); a transverse transmission shaft (29) is fixedly inserted on the transverse shaft of the driving wheel (24), and a hand wheel (210) is fixedly inserted at the tail end of the transmission shaft (29) extending out of the bearing frame (1).

2. A manual feed device on a bar cutter for cores according to claim 1, wherein: the side support frame (11) comprises a vertical outer support rod (111), a horizontal lower support rod (112) is formed at the lower end of the outer support rod (111), an inclined bearing support rod (113) is formed at the upper end of the outer support rod (111), a vertical side stop rod (114) is formed at the lower end of the bearing support rod (113), an inclined support rod (115) is formed at the lower end of the side stop rod (114), and the lower ends of the inclined support rod (115) and the end part of the lower support rod (112) are formed together; the bearing notch (a) is located between the bearing support rods (113), the falling channel (b) is located between the side stop rods (114), the material blocking channel (c) is located between the inclined support rods (115) and the material blocking support (12), the material blocking support (12) comprises inclined stop rods parallel to the inclined support rods (115), horizontal connecting rods are formed at the upper ends and the lower ends of the inclined stop rods, and the end parts of the connecting rods are fixed on the inclined support rods (115) of the side support frames (11).

3. A manual feed device on a bar cutter for cores according to claim 2, wherein: the inclined angle of the bearing support rod (113) is opposite to that of the inclined support rod (115), a vertical beam (116) is fixedly inserted between the bearing support rod (113) and the inclined support rod (115), an inclined support beam (117) is fixedly arranged on the vertical beam (116), and the lower end of the inclined support beam (117) is fixedly arranged on the longitudinal support beam (16).

4. A manual feed device on a bar cutter for cores according to claim 2, wherein: a vertical auxiliary rod (17) is fixedly inserted between the supporting support rod (113) and the inclined support rod (115), a limit bolt (18) is connected to the auxiliary rod (17) in a threaded mode, and the tail end of the limit bolt (18) penetrates through the inclined support rod (115) to be inserted into the upper end of the material blocking channel (c).

5. A manual feed device on a bar cutter for cores according to claim 2, wherein: the lower end face of the lower supporting rod (112) of the side supporting frame (11) is flush with the lower end face of the longitudinal supporting beam (16).

6. A manual feed device on a bar cutter for cores according to claim 1, wherein: the upper opening of the material supporting bracket (13) is internally inserted with a transverse needle roller (19), and two ends of the needle roller (19) are inserted on the material supporting bracket (13).

7. A manual feed device on a bar cutter for cores according to claim 1, wherein: the transmission shaft (29) is hinged with a bearing seat (211), the bearing seat (211) is fixed on the side supporting frame (11), and a plurality of anti-slip convex strips are formed on the outer surface of the V-shaped conveying belt (21).