CN209737067U - Gate valve and gate plate integrated machine - Google Patents

Abstract

The utility model relates to a gate valve and gate plate integrated machine, which comprises a machine tool main body, wherein a feeding system is arranged on one side of the machine tool main body, and the feeding system comprises a first conveying device and a second conveying device; the machine tool main body is rotatably provided with a synchronous clamp serial type auxiliary disc, the left side and the right side of the synchronous clamp serial type auxiliary disc are provided with a feeding cylinder system and a discharging cylinder system, and a discharging mechanism is formed on one side of the discharging cylinder system; a plurality of processing stations are formed on the synchronous clamp serial auxiliary disc, the first conveying device and the second conveying device are positioned on one side of each processing station, and a gate valve plate clamp and a gate valve body clamp are respectively arranged on each processing station; and a first power head and a second power head, and a third power head and a fourth power head which are correspondingly arranged at two sides of the synchronous clamp serial type auxiliary disc. The utility model aims at providing a gate valve flashboard all-in-one of gate valve flashboard and gate valve body process together and process out the precision height.

Description

Gate valve and gate plate integrated machine

Technical Field

The utility model belongs to the technical field of the gate valve lathe, refer in particular to a gate valve flashboard all-in-one.

Background

At present, the gate valve is an essential consumable product for modern industry, agriculture, chemical industry and daily life, and is mainly used for cutting off, throttling, regulating pressure, changing flow direction and the like of process pipeline media such as materials, water, steam, air, oil products and the like. The gate valve mainly comprises gate valve body and gate valve board, and traditional gate valve body and gate valve board are all processed through solitary gate valve board processing equipment and gate valve body processing equipment, and the gate valve board and the gate valve body that process out cooperate each other and form the gate valve. Because the gate valve plate and the gate valve body are matched with each other to realize sealing, the matching precision between the gate valve plate and the gate valve body is very high. Although an operator can control the machining precision of a single workpiece, each device has a positioning coordinate system, and after the machined gate valve body and the gate valve plate are assembled, the problems that the matching precision is insufficient due to different positioning coordinate systems, the assembly is not enough or the sealing performance is not enough are easily caused, so that the product is changed into waste, and the cost of an enterprise is lost.

Disclosure of Invention

The utility model aims at providing a gate valve flashboard all-in-one of gate valve flashboard and gate valve body process together and process out the precision height.

The purpose of the utility model is realized like this: a gate valve and gate plate integrated machine comprises a machine tool main body, wherein a feeding system is arranged on one side of the machine tool main body and comprises a first conveying device and a second conveying device;

The machine tool main body is rotatably provided with a synchronous clamp serial type auxiliary disc, the left side and the right side of the synchronous clamp serial type auxiliary disc are provided with a feeding cylinder system and a discharging cylinder system, and a discharging mechanism is formed on one side of the discharging cylinder system;

A plurality of processing stations are formed on the synchronous clamp serial auxiliary disc, the first conveying device and the second conveying device are positioned on one side of each processing station, and a gate valve plate clamp and a gate valve body clamp are respectively arranged on each processing station;

And a first power head and a second power head, and a third power head and a fourth power head which are correspondingly arranged at two sides of the synchronous clamp serial type auxiliary disc.

preferably, the feeding system comprises a vibration disc cabinet arranged on one side of the first conveying device and one side of the second conveying device, a gate valve body discharging vibration disc and a gate valve plate discharging vibration disc are arranged in the vibration disc cabinet, the feeding end of the gate valve body discharging vibration disc is connected with a valve body lifter, and the discharging end of the gate valve body discharging vibration disc is connected with the first conveying device; the gate valve plate discharging vibration disc feeding end is connected with a gate valve plate embedded type hoister, and the gate valve plate discharging vibration disc discharging end is connected with the second conveying device.

Preferably, the first conveying device and the second conveying device both comprise conveying belts, a first cylinder is arranged on one side of each conveying belt, a pushing block is arranged on the first cylinder in a telescopic mode, and the corresponding pushing blocks drive the gate valve plate and the gate valve body, which are conveyed out from the feed end of the gate valve body discharging vibration disc and the feed end of the gate valve plate discharging vibration disc, to be pushed to the corresponding conveying belts.

Preferably, the first conveying device and the second conveying device are both provided with a first groove; the feeding cylinder system comprises a pair of gate valve body feeding ejector rods driven by a second cylinder A and a pair of gate valve plate feeding ejector rods driven by a second cylinder B; the brake valve body feeding ejector rod, the brake valve body and the brake valve body clamp are arranged on the same axis; the gate valve plate feeding ejector rod, the gate valve plate and the gate valve plate clamp are on the same axis.

Preferably, the first conveying device and the second conveying device are both provided with a first inductive switch and a second inductive switch.

Preferably, one side of the gate valve plate clamp and one side of the gate valve body clamp are both provided with a third inductive switch.

Preferably, the blanking cylinder system comprises a pair of gate valve body blanking ejector rods driven by a third cylinder A and a pair of gate valve plate blanking ejector rods driven by a third cylinder B, and the gate valve body blanking ejector rods, the gate valve body and the gate valve body clamp are all arranged on the same axis; the gate valve plate blanking ejector rod, the gate valve plate and the gate valve plate clamp are all arranged on the same axis; the gate valve body blanking ejector rod and the gate valve plate blanking ejector rod are located above the conveying and blanking mechanism.

preferably, the blanking mechanism comprises a sorting conveyor belt, a separation plate is arranged in the sorting conveyor belt, and a gate valve plate channel and a gate valve body channel are formed on two sides of the separation plate.

preferably, one end of the sorting conveyor belt is communicated with an inclined slideway, one end of the inclined slideway is communicated with an aggregate conveyor belt, and a stop plate is arranged at the terminal of the aggregate conveyor belt.

Preferably, the inclined slide way and the material collecting conveyor belt are both provided with the isolation plates.

Compared with the prior art, the utility model outstanding and profitable technological effect is: this technical scheme gate valve board anchor clamps and gate valve body anchor clamps all be on same processing station, although they adopt not same set of anchor clamps, they are on synchronous clamp serial-type auxiliary disc, the benchmark of gate valve board and gate valve body is the same, along with the rotation of synchronous clamp serial-type auxiliary disc, through the processing of unit head, the precision of gate valve board and gate valve body can be very high, the gate valve board and the gate valve body that process out just can carry out the adaptation, the gate valve sealing performance that both assembled the formation can be very high.

Drawings

fig. 1 is one of the schematic structural diagrams of the present invention.

Fig. 2 is the structure schematic diagram of the feeding cylinder system and the discharging cylinder system of the utility model.

fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a schematic structural diagram of the feeding system of the present invention.

Fig. 5 is a schematic structural view of the vibration plate cabinet of the present invention.

Fig. 6 is a schematic structural view of the synchronous clamp serial auxiliary disc of the present invention.

Fig. 7 is a schematic structural diagram of the first conveying device of the present invention.

Fig. 8 is a schematic structural view of the discharging mechanism of the present invention.

Fig. 9 is a second schematic structural diagram of the present invention.

Fig. 10 is a third schematic structural diagram of the present invention.

Fig. 11 is the structure schematic diagram of the feeding system, the synchronous clamp serial auxiliary disc and the blanking cylinder system of the present invention.

The reference numerals in the figures denote the meanings:

1-a machine tool body; 2-a feeding system; 3-a second conveyor; 4-processing station; 5-a first conveying device; 6-synchronous clamp serial auxiliary disc; 7-a gate valve plate clamp; 8-a charging cylinder system; 9-a blanking cylinder system; 10-vibration plate cabinet; 11-a gate valve body discharge vibration disc; 12-a gate valve plate discharging vibration disc; 13-valve body elevator; 14-gate valve plate embedded elevator; 15-a conveyor belt; 17-a third inductive switch; 18-a second inductive switch; 19-a first inductive switch; 20-a first groove; 21-a first cylinder; 22-a pushing block; 23-a brake valve body feeding ejector rod; 24-a gate valve plate feeding ejector rod; 25A-second cylinder a; 25B-second cylinder B; 26-a gate valve body blanking ejector rod; 27-discharging ejector rods of gate valve plates; 28A-third cylinder a; 28B-third cylinder B; 32-a sorting conveyor belt; 33-inclined slideways; 34-an aggregate conveyor belt; 37-a baffle; 40-a blanking mechanism; 41-a separation plate; 42-a brake valve body clamp; 43-a first powerhead; 44-a second powerhead; 45-a third power head; 46-a fourth power head; 49-baffle.

Detailed Description

The invention will be further described with reference to specific embodiments below:

As shown in fig. 1-8, a gate valve and gate plate integrated machine comprises a machine tool body 1, a feeding system 2 is arranged on the machine tool body 1, the feeding system 2 comprises a first conveying device 5 and a second conveying device 3, a vibrating plate cabinet 10 is arranged on one side of the first conveying device 5 and the second conveying device 3, a gate valve body discharging vibrating plate 11 and a gate valve plate discharging vibrating plate 12 are arranged in the vibrating plate cabinet 10, the gate valve body discharging vibrating plate 11 is communicated with a valve body hoister 13, and the gate valve plate discharging vibrating plate 12 is communicated with a gate valve plate embedded hoister 14. Through in putting into valve body lifting machine 13 the floodgate valve body of treating processing, then carry the floodgate valve body to floodgate valve body through valve body lifting machine 13 in proper order and arrange the vibration dish 11 on, carry the floodgate valve body neatly arranged back to first conveyor 5 through floodgate valve body row material vibration dish 11 in proper order. Similarly, the gate valve plate embedded type elevator 14 is in the vibrating tray cabinet 10, the gate valve plate to be processed is placed into the gate valve plate embedded type elevator 14, the gate valve plate is sequentially conveyed to the gate valve plate discharging vibration tray 12 through the gate valve plate embedded type elevator 14, and then the gate valve plate is sequentially arranged in order through the gate valve plate discharging vibration tray 12 and then conveyed to the second conveying device 3. Through the cooperation of valve body lifting machine 13 and the gate valve body discharging vibration disc 11 and the cooperation of the gate valve plate embedded lifting machine 14 and the gate valve plate discharging vibration disc 12, the automatic material clamping of the gate valve plate and the gate valve body is realized, and manual clamping is replaced.

As shown in fig. 4 and 7, preferably, the first conveyor 5 and the second conveyor 3 each include a conveyor belt 15, the conveyor belt 15 is provided with a conveying passage, and the gate valve body and the gate valve plate are conveyed between the conveyor belt 15 and the conveying passage. One side of conveyer belt 15 is provided with first cylinder 21, and flexible on the first cylinder 21 has promoted piece 22, and the back is carried out from the discharge end of the material vibration dish 11 of sluice valve body row, and at this moment first inductive switch 19 on the first conveyer 5 will sense, and at this moment first cylinder 21 will promote flexible promotion piece 22, promote the sluice valve body on conveyer belt 15. After the gate valve plate is conveyed out of the discharge end of the gate valve plate discharging vibration disc 12, the first inductive switch 19 on the second conveying device 3 senses the gate valve plate, and at this time, the first cylinder 21 pushes the telescopic pushing block 22 to push the gate valve plate onto the conveying belt 15. This technical scheme promotes floodgate valve plate and floodgate valve body to conveyer belt 15 respectively through the cylinder, and prevention floodgate valve plate and floodgate valve body card are defeated and are carried between conveyer belt 15 at the vibration dish.

The machine tool main body 1 is rotatably provided with a synchronous clamp serial type auxiliary disc 6, the left side and the right side of the synchronous clamp serial type auxiliary disc 6 are provided with a feeding cylinder system 8 and a discharging cylinder system 9, and a discharging mechanism 40 is formed on one side of the discharging cylinder system 9. A plurality of processing stations 4 are formed on the synchronous clamp serial auxiliary disc 6, the number of the processing stations 4 is four, the first processing station is used for feeding, the second processing station is used for processing a gate valve body, the third processing station is used for processing a gate valve plate, and the fourth processing station is used for discharging.

The feeding cylinder system 8 comprises a pair of gate valve body feeding ejector rods 23 driven by a second cylinder A25A and a pair of gate valve plate feeding ejector rods 24 driven by a second cylinder B25B, because the gate valve plate feeding ejector rods 24, the gate valve plate and the gate valve plate clamp 7 are on the same axis, and the gate valve plate feeding ejector rods 24, the gate valve plate and the gate valve plate clamp 7 are on the same axis.

As shown in fig. 9, preferably, the first conveying device 5 and the second conveying device 3 are both provided with a first groove 20, the first groove 20 is located between the pair of gate valve body feeding push rods 23 or between the pair of gate valve plate feeding push rods 24, the gate valve bodies are conveyed to the corresponding first grooves 20, when the gate valve body feeding push rods 23 at the two ends of the gate valve body clamp 42 are sensed by the second sensing switch 18 on the first conveying device 5, the gate valve body feeding push rods 23 on the first grooves 20 are driven by the second air cylinder a25A to clamp the gate valve bodies, and after clamping, the second air cylinder a25A drives the gate valve body feeding push rods 23 to push forward and move to the gate valve body clamp 42 to stop. After the third inductive switch 17 at one side of the brake valve body clamp 42 senses the workpiece, the brake valve body clamp 42 clamps the brake valve body. The gate valve plate and the gate valve body are synchronously conveyed, when the gate valve body is conveyed, the gate valve plate can be conveyed to the corresponding first groove 20, the second induction switch 18 on the second conveying device 3 senses the gate valve plate, at the moment, the gate valve plate feeding ejector rods 24 at two ends of the gate valve plate clamp 7 can clamp the gate valve plate on the first groove 20 through the driving of the second air cylinder B25B, the second air cylinder 25 drives the gate valve plate feeding ejector rods 24 to push forwards after clamping and moves to the gate valve plate clamp 7 to stop, the third induction switch 17 on one side of the gate valve plate clamp 7 senses the gate valve plate, and then the gate valve plate clamp 7 clamps the gate valve plate.

As shown in fig. 10, after the gate valve plate and the gate valve body are machined, the gate valve body blanking ejector rods 26 at the two ends of the gate valve body clamp 42 are driven by the third air cylinder a28A to clamp the gate valve body on the gate valve body clamp 42, the gate valve body is loosened by the gate valve body clamp 42, and the third air cylinder a28A drives the gate valve body blanking ejector rods 26 to push forwards and move to the blanking mechanism 40; the gate valve plate and the gate valve body are synchronously blanked, when the gate valve body is blanked, gate valve plate blanking ejector rods 27 at two ends of a gate valve plate clamp 7 are driven by a third air cylinder B28B to clamp the gate valve plate on the gate valve plate clamp 7, the gate valve plate is loosened by the gate valve plate clamp 7, and the gate valve plate blanking ejector rods 27 are driven by a third air cylinder B28B to push forwards and move to a blanking mechanism 40; the ejector rods at the two ends prop against the brake valve plate and the brake valve body, manual clamping can be replaced, and clamping is carried out in a movable mode, and the clamping is more stable than manual clamping.

Preferably, a blanking mechanism 40 is formed on one side of the blanking cylinder system 9, the blanking mechanism 40 comprises a sorting conveyor belt 32, a partition plate 41 is arranged in the sorting conveyor belt 32, a baffle plate 49 is formed at the front end of the partition plate 41, one end of the baffle plate 49 abuts against the inner wall of the blanking mechanism 40 to form a gate valve plate channel and a gate valve body channel for conveying and processing, and a gate valve body blanking ejector rod 26 can convey the gate valve body to the gate valve body channel through a third cylinder 28; gate valve board unloading ejector pin 27 can carry the gate valve board through third cylinder 28 on the gate valve board passageway, adopts this kind of mode can put processed gate valve board and gate valve body on same drive belt and convey, not only can save the cost, can also separate the valve board and the gate valve body of opening a floodgate, and the operating personnel of being convenient for takes away.

Preferably, one end of the sorting conveyor belt 32 is communicated with an inclined slideway 33, one end of the inclined slideway 33 is communicated with an aggregate conveyor belt 34, a stop plate 37 is arranged at the terminal of the aggregate conveyor belt 34, and the partition plates 41 are arranged in the inclined slideway 33 and the aggregate conveyor belt 34; processed gate valve board and gate valve body can follow on the letter sorting conveyer belt 32 through oblique slide 33 landing to the conveyer belt 34 that gathers materials, give gate valve board and gate valve body through the arm-tie 37 on the conveyer belt 34 that gathers materials at last and block, prevent that gate valve board and gate valve body carry away, and this technical scheme is used for solving the problem of height, lets gate valve board and gate valve body carry down through oblique slide 33, and the operating personnel of being convenient for takes.

the above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a gate valve flashboard all-in-one, includes lathe main part (1), its characterized in that: a feeding system (2) is arranged on one side of the machine tool main body (1), and the feeding system (2) comprises a first conveying device (5) and a second conveying device (3);

The machine tool main body (1) is rotatably provided with a synchronous clamp tandem type auxiliary disc (6), the left side and the right side of the synchronous clamp tandem type auxiliary disc (6) are provided with a feeding cylinder system (8) and a discharging cylinder system (9), and a discharging mechanism (40) is formed on one side of the discharging cylinder system (9);

A plurality of processing stations (4) are formed on the synchronous clamp serial type auxiliary disc (6), the first conveying device (5) and the second conveying device (3) are positioned on one side of each processing station (4), and a gate valve plate clamp (7) and a gate valve body clamp (42) are respectively arranged on each processing station (4);

And a first power head (43), a second power head (44), a third power head (45) and a fourth power head (46) which are correspondingly arranged on two sides of the synchronous clamp serial type auxiliary disc (6).

2. The gate valve and gate plate all-in-one machine of claim 1, wherein: the feeding system (2) comprises a vibration disc cabinet (10) arranged on one side of the first conveying device (5) and one side of the second conveying device (3), a gate valve body discharging vibration disc (11) and a gate valve plate discharging vibration disc (12) are arranged in the vibration disc cabinet (10), the feeding end of the gate valve body discharging vibration disc (11) is connected with a valve body hoister (13), and the discharging end of the gate valve body discharging vibration disc (11) is connected with the first conveying device (5); the feeding end of the gate valve plate discharging vibration disc (12) is connected with a gate valve plate embedded type elevator (14), and the discharging end of the gate valve plate discharging vibration disc (12) is connected with the second conveying device (3).

3. The gate valve and gate plate all-in-one machine of claim 2, wherein: all including conveyer belt (15) on first conveyer (5) and second conveyer (3), one side of conveyer belt (15) is provided with first cylinder (21), and it has promotion piece (22) to stretch out and draw back on first cylinder (21), corresponds first cylinder (21) drive and corresponds promotion piece (22) and handle the floodgate valve plate and the floodgate valve body that floodgate valve body row material vibration dish (11) feed end and sluice valve plate row material vibration dish (12) feed end carried out promote on corresponding conveyer belt (15).

4. The gate valve and gate plate all-in-one machine of claim 1 or 3, wherein: the first conveying device (5) and the second conveying device (3) are both provided with a first groove (20); the feeding cylinder system (8) comprises a pair of gate valve body feeding ejector rods (23) driven by a second cylinder A (25A) and a pair of gate valve plate feeding ejector rods (24) driven by a second cylinder B (25B); the brake valve body feeding ejector rod (23), the brake valve body and the brake valve body clamp (42) are arranged on the same axis; the gate valve plate feeding ejector rod (24), the gate valve plate and the gate valve plate clamp (7) are on the same axis.

5. The gate valve and gate plate all-in-one machine of claim 4, wherein: the first conveying device (5) and the second conveying device (3) are respectively provided with a first inductive switch (19) and a second inductive switch (18).

6. The gate valve and gate plate all-in-one machine of claim 1, wherein: and a third inductive switch (17) is arranged on one side of each of the gate valve plate clamp (7) and the gate valve body clamp (42).

7. the gate valve and gate plate all-in-one machine of claim 1, wherein: the blanking air cylinder system (9) comprises a pair of gate valve body blanking ejector rods (26) driven by a third air cylinder A (28A) and a pair of gate valve plate blanking ejector rods (27) driven by a third air cylinder B (28B), and the gate valve body blanking ejector rods (26), the gate valve body and the gate valve body clamp (42) are all arranged on the same axis; the gate valve plate blanking ejector rod (27), the gate valve plate and the gate valve plate clamp (7) are all arranged on the same axis; the gate valve body blanking ejector rod (26) and the gate valve plate blanking ejector rod (27) are positioned above the conveying blanking mechanism (40).

8. The gate valve and gate plate all-in-one machine of claim 1 or 7, wherein: the blanking mechanism (40) is provided with a sorting conveyor belt (32), a separation plate (41) is arranged in the sorting conveyor belt (32), and a gate valve plate channel and a gate valve body channel are formed on two sides of the separation plate (41).

9. The gate valve and gate plate all-in-one machine of claim 8, wherein: one end of the sorting conveyor belt (32) is communicated with an inclined slide way (33), one end of the inclined slide way (33) is communicated with an aggregate conveyor belt (34), and a stop plate (37) is arranged at the terminal of the aggregate conveyor belt (34).

10. The gate valve and gate plate all-in-one machine of claim 9, wherein: the inclined slide way (33) and the material collecting conveyor belt (34) are internally provided with the isolation plate (41).