CN207695497U - A kind of necking equipment - Google Patents

Abstract

The utility model is related to a kind of necking equipment, including：Benchmark bottom plate, necking mechanism, feed mechanism and cutting agency, necking mechanism includes necking die and mold driving motor, mold driving motor is drivingly connected with necking die, necking die is rotatably dispose on benchmark bottom plate, necking die offers a necking slot, the width of necking slot is gradually reduced from the surface of necking die to the direction of the bottom of necking slot, necking mechanism and feed mechanism may be contained on benchmark bottom plate, necking slot is oppositely arranged towards feed mechanism and with feed mechanism, and cutting agency is set to the lower section of feed mechanism.Setting in this way, enable necking die high speed rotation under the driving of motor, tubing one end that necking is processed is needed to be inserted into necking slot, necking processing is realized under high speed rotation, extruding, and by the cooperation of feed mechanism and cutting agency, the transmission, necking processing and collection of tubing raw material is made to realize that automation, production efficiency are high, necking quality of finished product good, low noise.

Description

A kind of necking equipment

Technical field

The utility model is related to a kind of pipe fitting process equipment, more particularly to a kind of necking equipment.

Background technology

In many production and processings, need to carry out necking processing to tubing raw material such as steel pipe etc. so that the one of tubing raw material End reduces nozzle diameter, currently, necking equipment mostly uses greatly beating shock mode carries out necking processing, but this contracting to tubing raw material Not only processing efficiency is low for jaws equipment, also will produce a large amount of noise, influences the quantization production of necking processing, and needs adding Manually add necking finished product to unload from feed mechanism after work process to be collected, high labor cost can not be realized automatic well Metaplasia is produced.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of necking equipment.

What the embodiment of the utility model was realized in：

A kind of necking equipment, including：Including：Benchmark bottom plate, necking mechanism, feed mechanism and cutting agency；

The necking mechanism includes necking component, and the necking component includes necking die and mold driving motor, described Mold driving motor is drivingly connected with the necking die, and the necking die is rotatably arranged on the benchmark bottom plate, institute It states necking die and offers a necking slot, the width of the necking slot is from the surface of the necking die to the bottom of the necking slot The direction in portion is gradually reduced；

The necking mechanism and the feed mechanism may be contained on the benchmark bottom plate, and the necking slot is described in Feed mechanism, and be oppositely arranged with the feed mechanism；

The cutting agency is set to the lower section of at least partly described feed mechanism.

Further, the necking mechanism further includes motor fixing seat, and the mold driving motor is fixed with the motor Seat is fixedly connected, and the motor fixing seat is provided with sliding block, and guide rail, the sliding block sliding setting are provided on the benchmark bottom plate In on the guide rail.

Further, the necking mechanism further includes the linear guide driving cylinder, the linear guide driving cylinder and institute State motor mount drive connection.

Further, the quantity of the necking component is two.

Further, the feed mechanism includes the first delivery sheet, the second delivery sheet, clamp assembly and delivery sheet driving electricity Machine；

First delivery sheet and second delivery sheet offer several chute feeders respectively；

First delivery sheet is opposite with second delivery sheet and is arranged in parallel, and the delivery sheet driving motor and institute It states the first delivery sheet and second delivery sheet respectively drives connection, first delivery sheet and second delivery sheet activity It is set on benchmark bottom plate；

The clamp assembly includes the first cylinder, upper clamping element and lower clamping element, the lower clamping element and the benchmark bottom Plate connects, and first cylinder is drivingly connected with the upper clamping element, and the upper clamping element is oppositely arranged with the lower clamping element, The upper clamping element is abutted with the lower clamping element activity, and the upper clamping element offers on one side towards the lower clamping element One arc groove, the lower clamping element offer the second arc groove, and first arc groove on one side towards the upper clamping element Setting is aligned with second arc groove, first arc groove is connected to form fixing groove with second arc groove；

The clamp assembly is oppositely arranged with first delivery sheet and second delivery sheet.

Further, the feed mechanism further includes positioning component, and the positioning component includes positioning base driving cylinder And positioning base, the positioning base driving cylinder are drivingly connected with the positioning base；

The end face of the positioning base towards one end of the clamp assembly offers locating slot, the locating slot with it is described Fixing groove is correspondingly arranged, and the positioning base is used in the side that positioning base drives the driving lower edge of cylinder to be parallel to benchmark bottom plate To movement, and the positioning base drives the driving lower edge of cylinder to be moved towards the direction of the fixing groove in positioning base.

Further, the cutting agency includes blanking driving cylinder, lower hopper and at least one rising push rod；

The lower hopper has a blanking groove, and the bottom of the blanking groove offers at least one through-hole, it is each it is described on Push rod is risen to be actively located in a through-hole；

The blanking driving cylinder is drivingly connected with each rising push rod.

Further, each described one end for rising push rod offers arc groove.

Further, the through-hole is set to the lower hopper close to the side of the benchmark bottom plate.

The utility model has the beneficial effects that：

Necking die is combined with motor, and necking die opens up one from the end face necking that internally width is gradually reduced Slot so that necking die can under the driving of motor high speed rotation, need necking process tubing one end be inserted into necking slot in, Enable the necking under the high-speed extrusion of necking die of tubing raw material, i.e., one end of tubing is squeezed in high speed rotation, necking slot Pressure realize necking processing, by necking mechanism, feed mechanism and cutting agency combine, by necking mechanism, feed mechanism and under The cooperation for expecting mechanism makes the transmission, necking processing and collection of tubing raw material realize automation, and production efficiency is high, and necking is at quality It measures, low noise.

Description of the drawings

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is the structural schematic diagram of necking equipment in one embodiment of the utility model；

Fig. 2 is the structural schematic diagram of necking component in one embodiment of the utility model；

Fig. 3 is the structural schematic diagram of necking mechanism in one embodiment of the utility model；

Fig. 4 is the structural schematic diagram of feed mechanism in one embodiment of the utility model；

Fig. 5 is the close-up schematic view at A in Fig. 4；

Fig. 6 is the close-up schematic view at B in Fig. 4；

Fig. 7 is the structural schematic diagram of clamp assembly in one embodiment of the utility model；

Fig. 8 is the structural schematic diagram of cutting agency in one embodiment of the utility model；

Fig. 9 is the side view of cutting agency in one embodiment of the utility model.

Specific implementation mode

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.Below with reference to the attached drawing of the utility model embodiment, the technical solution of the utility model is done and is further retouched It states, the utility model is not limited only to detailed description below.

As shown in Figure 1, Figure 2 and Figure 3, it is the necking equipment in an embodiment, including：Benchmark bottom plate 100, necking machine Structure 400, feed mechanism 300 and cutting agency 200；The necking mechanism 400 includes necking component 401, the necking group Part 401 includes necking die 420 and mold driving motor 410, and the mold driving motor 410 drives with the necking die 420 Dynamic connection, the necking die 420 are rotatably arranged on the benchmark bottom plate 100, and the necking die 420 offers a contracting Mouth slot 421, the width of the necking slot 421 is from the surface of the necking die 420 to the direction of the bottom of the necking slot 421 It is gradually reduced, the necking mechanism 400 and the feed mechanism 300 may be contained on the benchmark bottom plate 100, and the necking Slot 421 is oppositely arranged towards the feed mechanism 300, and with the feed mechanism 300, and the cutting agency 200 is set to institute State the lower section of feed mechanism 300.

Specifically, the necking equipment includes for installing the rack for fixing other mechanisms, the necking processed for necking Mechanism processes the feed mechanism of front and back tubing and for the cutting agency of blanking for transmitting.The rack includes benchmark bottom Plate 100 and several rack support legs, each rack support leg are connect with the benchmark bottom plate 100 and to benchmark bottom plate 100 It plays a supportive role, the benchmark bottom plate 100 is for installing and being arranged necking mechanism 400, feed mechanism 300 and other assemblies, example Such as, the benchmark bottom plate 100 is horizontally disposed, for example, the benchmark bottom plate 100 is parallel to ground setting.

The necking mechanism 400 includes necking component 401, and the necking component 401 includes necking die 420 and mold Driving motor 410, for the necking die 420 for realizing necking process, the mold driving motor 410 is described for driving Necking die 420 operate, for example, the mold driving motor 410 be high speed water cooled motors, the mold driving motor 410 with The necking die 420 is drivingly connected, and the necking die 420 is rotatably dispose on the benchmark bottom plate 100, that is to say, that The necking die 420 is set in being rotated by for mold driving motor 410 on the benchmark bottom plate 100, that is to say, that The necking die 420 is set on the benchmark bottom plate 100, and rotation is realized under the driving of mold driving motor 410, For example, the mold driving motor 410 is set on the benchmark bottom plate 100, the necking die 420 is installed on the mold On driving motor 410 so that necking die 420 can turn under the driving of mold driving motor 410 on the benchmark bottom plate 100 It is dynamic.The necking die 420 offers a necking slot 421, for example, one end of the necking die 420 drives with the mold Motor 410 connects, and the end face of the other end offers necking slot 421, the table of the width of the necking slot 421 from necking die 420 The direction of bottom towards the necking slot 421 is gradually reduced, that is to say, that the width of the necking slot 421 is from necking die 420 end face is internally gradually reduced, and the width of necking slot 421 increases with the depth of necking slot 421 and reduced.It contracts Tubing raw material one end of mouth processing is inserted into the necking slot 421 of necking die 420, is contracted under the driving of mold driving motor 410 Mouth mold has 420 high speed rotations, the setting being gradually reduced by 421 width of necking slot, and tubing raw material is inserted in the one of necking slot 421 End is extruded under the high speed rotation of necking die 420, realizes the necking processing of tubing raw material.The side squeezed using high speed rotation Formula carries out necking processing, and production efficiency is high, and the necking quality of finished product good of production, noise is small, and quantization production can be better achieved.

The feed mechanism 300 is used to transmit the tubing raw material for needing necking to process, and cutting agency 200 is for adding necking Necking finished product after work is collected.Tubing raw material is sent to necking mechanism 400 by feed mechanism 300, and after necking manufacturing procedure, Finished product is sent to cutting agency 200, unloaded necking finished product from feed mechanism 300 by cutting agency 200 and concentrates receipts Collection.It should be understood that the necking slot 421 is oppositely arranged towards the feed mechanism 300, and with the feed mechanism 300, That is, one end that the necking die 420 offers necking slot 421 is arranged towards 300 structure of the feeder so that pipe Material raw material can be sent to position corresponding with necking die 420 by feed mechanism 300, and realize that necking is processed.

In order to more preferably, more efficiently carry out necking processing to tubing raw material, in one embodiment, the mold driving electricity Machine 410 is slideably positioned on the benchmark bottom plate 100, that is to say, that the mold driving motor 410 is set to the benchmark bottom On plate 100, and the mold driving motor 410 is movably arranged on the benchmark bottom plate 100, in one embodiment, institute It further includes motor fixing seat 430 to state necking mechanism 400, and the mold driving motor 410 is fixed with the motor fixing seat 430 to be connected It connects, that is to say, that the mold driving motor 410 is fixedly installed in the motor fixing seat 430, the motor fixing seat 430 are provided with sliding block, and guide rail (not shown) is provided on the benchmark bottom plate 100, and the guide rail is the linear guide, the sliding block It is slideably positioned on the guide rail, that is to say, that the motor fixing seat 430 is slideably positioned in the benchmark bottom plate by sliding block On 100, that is to say, that the necking component 401 is slideably positioned in by sliding block on the benchmark bottom plate 100 so that necking group Part 401 can be moved by the sliding block of motor fixing seat 430 on guide rail.

Further, in another embodiment, as shown in figure 3, the necking mechanism 400 further includes guide rail mounting base 440, the guide rail is set in the guide rail mounting base 440, and the guide rail mounting base 440 is fixedly installed on the benchmark bottom plate On 100, that is to say, that the necking mechanism 400 further includes motor fixing seat 430 and guide rail mounting base 440, the mold driving Motor 410 is fixedly connected with the motor fixing seat 430, and the guide rail mounting base 440 is fixedly installed on the benchmark bottom plate 100 On, the motor fixing seat 430 is provided with sliding block 431, and guide rail (not shown), the sliding block are provided in guide rail mounting base 440 431 are slideably positioned on the guide rail, that is to say, that the motor fixing seat 430 is slideably positioned in guide rail by sliding block 431 and pacifies It fills on seat 440, that is to say, that the necking component 401 is slideably positioned in by sliding block 431 in guide rail mounting base 440 so that contracting Mouth component 401 can be moved by sliding block 431 on guide rail 441.In order to drive the necking component in the various embodiments described above 401 slide in guide rail mounting base 440, for example, the necking mechanism 400 further includes the linear guide driving cylinder 450, it is described straight Line guide rail drives cylinder 450 to be drivingly connected with the motor fixing seat 430 so that the linear guide driving cylinder 450 drives The motor fixing seat 430 moves on guide rail, that is, driving necking component 401 is moved on guide rail, for example, described Necking mechanism 400 further includes the linear guide driving cylinder 450, the linear guide driving cylinder 450 and mold driving electricity Machine 410 is drivingly connected so that the linear guide driving cylinder 450 drives necking component 401 by motor fixing seat 430 Sliding block 431 moves on guide rail.

In order to realize that necking component 401 is moved along guide rail direction, in one embodiment, the linear guide drives cylinder 450, the guide rail and the motor fixing seat 430 are arranged along same straight line, that is to say, that the linear guide drives cylinder 450, the guide rail and the motor fixing seat 430 are arranged along same center line so that necking component 401 can be along guide rail direction It is mobile.

The tubing raw material that necking is processed is needed to be transmitted by feed mechanism 300, the necking die of necking mechanism 400 420 towards the feed mechanism, that is, the necking slot 421, towards the feed mechanism, tubing raw material passes through feed mechanism 300 are sent to position corresponding with the necking slot 421, and the necking component 401 drives cylinder by the linear guide 450 driving and moved along guide rail direction so that the necking die 420 by 421 removable cover of necking slot be set to tubing On one end of raw material, that is to say, that one end activity of tubing raw material is inserted in the necking slot 421.When tubing raw material passes through Feed mechanism 300 is sent to position corresponding with necking slot 421, and necking component 401 drives the driving of cylinder 450 in the linear guide It is lower to be moved to close to the direction of tubing raw material so that necking die 420 is covered on one end of tubing raw material by necking slot 421, One end of namely tubing raw material is inserted in necking slot 421, and necking die 420 is high under the driving of mold driving motor 410 Speed rotation, the setting being gradually reduced by 421 width of necking slot, tubing raw material are inserted in one end of necking slot 421 in reducing die It is extruded under the high speed rotation of tool 420, realizes the necking processing of tubing raw material.By necking component 401, sliding block 431, guide rail and The linear guide drives the combination of the components such as cylinder 450 so that the necking processing of tubing raw material can realize automation, and improve The efficiency of necking processing.

In order to enable the necking processing of tubing raw material has higher reliability, that is, make necking processing quality steady Fixed, the precision of necking processing is high, in one embodiment, as shown in figure 3, the quantity of the necking component 401 is two, and example Such as, two necking components 401 are relatively arranged on the benchmark bottom plate 100, for example, two necking components 401 are flat It goes and is relatively arranged on the benchmark bottom plate 100, for example, two necking components 401 are relatively arranged on the benchmark bottom On plate 100, and in two necking components 401 necking die 420 necking slot 421 towards identical, that is to say, that two The necking die 420 of the necking component 401 is arranged both facing to the feed mechanism 300, and two 421 courts of necking slot It is arranged to the feed mechanism 300 so that each tubing raw material can carry out the processing of necking twice so that necking processing quality is more Add stabilization, and the precision higher of necking processing.

It should be understood that in order to realize being stably connected with for necking die 420 and the mold driving motor 410, also It is to say, in order to enable necking die 420 is installed on the mold driving motor 410, and the necking die under high speed rotation 420 without departing from the mold driving motor 410, in one embodiment, the necking die 420 and mold driving electricity Machine 410 is non-dismountable connection, for example, the necking die 420 is connected with the mold driving motor 410 by conical chuck It connects.

As a kind of expansion of the utility model, in order to realize the transmission of feed mechanism 300, in one embodiment, such as Shown in Fig. 4, Fig. 5, Fig. 7, the feed mechanism 300 includes the first delivery sheet 311, the second delivery sheet 312,330 and of clamp assembly Delivery sheet driving motor (not shown), first delivery sheet 311 and second delivery sheet 312 offer several send respectively Hopper 320, first delivery sheet 311 is opposite with second delivery sheet 312 and is arranged in parallel, and delivery sheet driving electricity Machine respectively drives and connect with first delivery sheet 311 and second delivery sheet 312, first delivery sheet 311 and institute It states the second delivery sheet 312 to be movably set on benchmark bottom plate 100, the clamp assembly 330 includes the first cylinder 336, upper clamping Part 331 and lower clamping element 333, the lower clamping element 333 are connect with the benchmark bottom plate 100, first cylinder 336 with it is described Upper clamping element 331 is drivingly connected, and the upper clamping element 331 is oppositely arranged with the lower clamping element 333, the upper clamping element 331 It is abutted with 333 activity of the lower clamping element, the upper clamping element 331 offers first on one side towards the lower clamping element 333 Arc groove 332, the lower clamping element 333 offer the second arc groove 334 on one side towards the upper clamping element 331, and described First arc groove 332 is aligned setting, first arc groove 332 and second arc groove 334 with second arc groove 334 Connection forms fixing groove 335, the clamp assembly 330 and first delivery sheet 311 and 312 phase of the second delivery sheet To setting.

Specifically, the transmission for the tubing raw material that the feed mechanism 300 is used to that necking to be needed to process, including it is used for dispatch tube The first delivery sheet 311 and the second delivery sheet 312 of material raw material, first delivery sheet 311 are opposite with second delivery sheet 312 And it is arranged in parallel, that is to say, that first delivery sheet 311 is set up in parallel with second delivery sheet 312, the first delivery sheet 311 and second delivery sheet 312 delivery sheet driving motor driving underdrive so that the first delivery sheet 311 and the second delivery sheet The 312 activity settings on benchmark bottom plate 100, that is to say, that the first delivery sheet 311 and the second delivery sheet 312 are in benchmark bottom plate 100 Upper transmission drives the raw material movement being positioned on the first delivery sheet 311 and the second delivery sheet 312.

In order to facilitate the movement of the position and limitation tubing raw material of fixed tubing raw material, first delivery sheet 311 and institute It states the second delivery sheet 312 and offers several chute feeders 320 respectively, tubing raw material is positioned over the first chute feeder 320 and the second feeding In the chute feeder 320 of slot 320, to limit tubing feed location and displacement.The feed mechanism 300 by tubing feedstock transportation extremely Necking mechanism 400 carries out necking processing, in order to enable the tubing raw material being placed on feed mechanism 300 is contracting to tubing raw material It is fixed in mouth process, the feed mechanism 300 includes clamp assembly 330, and lower clamping element 333 is set to benchmark bottom plate On 100, the first cylinder 336 is drivingly connected with upper clamping element 331, and upper clamping element 331 is oppositely arranged with lower clamping element 333, That is upper clamping element 331 is arranged with the lower clamping element 333 along same straight line, and upper clamping element 331 and the lower clamping element 333 are vertically arranged relative to benchmark bottom plate 100, for example, the transmission device further includes fixed top plate 341 and several support columns 342, fixed top plate 341 is oppositely arranged with benchmark bottom plate 100, and one end of each support column 342 is connect with benchmark bottom plate 100, separately One end is connect with fixed top plate 341, that is to say, that and fixed top plate 341 and benchmark bottom plate 100 are connected by each support column 342, the One cylinder 336 is fixedly installed on fixed top plate 341, and the first cylinder 336 is drivingly connected with upper clamping element 331, that is, on Clamping element 331 is fixedly connected with the piston rod of the first cylinder 336 so that upper clamping element 331 can be lived by the first cylinder 336 It is dynamic to be set on fixed top plate 341, and upper clamping element 331 is arranged towards lower clamping element 333, lower clamping element 333 is fixedly installed on On benchmark bottom plate 100, and lower clamping element 333 is arranged towards upper clamping element 331, the first cylinder 336, upper clamping element 331 and lower folder Tight part 333 is arranged along same rectilinear direction, and upper clamping element 331 carries out up and down under the driving of the first cylinder 336 so that 333 activity of upper clamping element 331 and lower clamping element abuts, and the of the first arc groove 332 of upper clamping element 331 and lower clamping element 333 Two arc grooves 334 are aligned and mobile communication, that is to say, that when upper clamping element 331 is abutted with lower clamping element 333, the first arc groove 332 are connected to the second arc groove 334, and form fixing groove 335 when the first arc groove 332 and the second arc groove 334 closure, described Tubing raw material is set in fixing groove 335, is clamped and fixed in clamp assembly 330 so that tubing raw material is processed in necking When be fixed.

It should be understood that in order to enable tubing raw material is fixed when necking is processed, the fixing groove 335 with The necking slot 421 of the necking die 420 is correspondingly arranged, that is to say, that the fixing groove 335 and the necking die 420 The alignment setting of necking slot 421 so that by tubing raw material can be consolidated when necking is processed by the clamping of clamp assembly 330 It is fixed.

In one embodiment, the clamp assembly 330 is set to first delivery sheet 311 and second delivery sheet Between 312, that is, the both sides of the clamp assembly 330 are correspondingly arranged on the first delivery sheet 311 and second feeding respectively Plate 312 so that tubing raw material can be moved to lower clamping element by the drive of the first delivery sheet 311 and the second delivery sheet 312 In 333 the second arc groove 334, when tubing raw material is driven by the first delivery sheet 311 and the second delivery sheet 312, upper clamping element 331 separate with lower clamping element 333 so that fixing groove 335 is split up into the first arc groove 332 and the second arc groove 334, upper clamping element 331 are set to the top of lower clamping element 333 by the first cylinder 336, and tubing raw material is in the first delivery sheet 311 and the second delivery sheet 312 drive is moved in the second arc groove 334 of lower clamping element 333, and upper clamping element 331 is pushed and even supported with lower clamping It connects, the first arc groove 332 is connected to the second arc groove 334, and tubing raw material is fixed on by upper clamping element 331 and lower clamping element 333 In fixing groove 335 so that when the necking die being aligned with clamp assembly 330 carries out necking processing to one end of tubing, tubing is former Material will not be moved and is detached from from chute feeder 320.

It is noted that the feed mechanism 300 is used for necking equipment, the quantity of the clamp assembly 330 should It is arranged according to the quantity of the necking mechanism of the necking equipment, in one embodiment, the necking equipment includes two neckings Mechanism 400, that is to say, that the processing of necking twice is carried out to tubing raw material, the quantity of the clamp assembly 330 is two so that Tubing raw material can be fixed by a clamp assembly 330 in necking process each time.

It should be understood that in order to enable the first delivery sheet 311 and the second delivery sheet 312 can drive tubing raw material to move Into the second arc groove 334, for example, the height of the lower clamping element 333 is sent with first delivery sheet 311 and described second The height of flitch 312 is equal so that the first delivery sheet 311 and the second delivery sheet 312 can drive tubing raw material to be moved to down In second arc groove 334 of clamping element 333.

In order to enable the transmission of tubing raw material is more stablized, in one embodiment, the feed mechanism 300 further includes Splicing component, the splicing component include the first splicing plate and the second splicing plate, and the first splicing plate and described second connect Flitch is opposite with first delivery sheet 311 and is arranged in parallel, and the first splicing plate is set to the clamp assembly 330 Side, and the first splicing plate is connect with the benchmark bottom plate 100, the second splicing plate is set to the clamp assembly 330 sides far from the first splicing plate, and the second splicing plate is connect with the benchmark bottom plate 100, described first connects Flitch and the second splicing plate offer splicing groove so that tubing raw material can be in the first splicing plate and the second splicing plate It is more steadily transmitted under support.

In order to enable the transmission of tubing raw material is more stablized, in one embodiment, the feed mechanism 300 further includes 4th delivery sheet and the 5th delivery sheet, first delivery sheet 311, second delivery sheet 312, the 4th delivery sheet and institute It is opposite and be arranged in parallel to state the 5th delivery sheet, the 4th delivery sheet is set to the side of the clamp assembly 330, and described 4th delivery sheet is connect with the benchmark bottom plate 100, and the 5th delivery sheet is set to the clamp assembly 330 far from described The side of four delivery sheets, and the 5th delivery sheet is connect with the benchmark bottom plate 100, the 4th delivery sheet and the described 5th Delivery sheet offers chute feeder 320 so that tubing raw material can be under the support of the 4th delivery sheet and the 5th delivery sheet more Steadily transmit.

In order to which the first delivery sheet 311 and the second delivery sheet 312 are set up on the benchmark bottom plate 100 so that first send The height of flitch 311 and the second delivery sheet 312 can be equal with the height of lower clamping element 333, in one embodiment, such as 4 Hes Shown in Fig. 5, the feed mechanism 300 further includes delivery sheet support base 360, first delivery sheet 311 and second feeding Plate 312 is movably set on the delivery sheet support base 360, that is to say, that the feeding plate bracing frame is used to support first and send Flitch 311 and the second delivery sheet 312 move under certain height, and the delivery sheet support base 360 is set to the benchmark bottom On plate 100, the first delivery sheet 311 and the work of the second delivery sheet 312 are movably set up in the benchmark by delivery sheet support column 342 On bottom plate 100.In order to which the 4th delivery sheet and the 5th delivery sheet are set up on the benchmark bottom plate 100 so that the 4th delivery sheet Can be equal with the height of lower clamping element 333 with the height of the 5th delivery sheet, in one embodiment, first delivery sheet 311 and second delivery sheet 312 be movably set on the delivery sheet support base 360, the 4th delivery sheet and the 5th delivery sheet It is fixedly installed on the delivery sheet support base 360, the delivery sheet support base 360 is set on the benchmark bottom plate 100, is sent First delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet are set up in the base by flitch support column 342 On quasi- bottom plate 100.

In order to adjust the position of the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet, one In a embodiment, the feed mechanism 300 further includes the second cylinder, and second cylinder drives with the delivery sheet support base 360 Dynamic connection, the delivery sheet support base 360 are used to be parallel to the benchmark bottom plate 100 in the driving lower edge of second cylinder Direction moves, and the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th can be adjusted by second cylinder The position of delivery sheet.

In order to adjust the height and position of the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet, In one embodiment, the feed mechanism 300 further includes third cylinder 361, the third cylinder 361 and the delivery sheet branch It supports seat 360 to be drivingly connected, the delivery sheet support base 360 is used for the driving lower edge in the third cylinder 361 perpendicular to described The direction of benchmark bottom plate 100 moves, by the third cylinder 361 can adjust the first delivery sheet 311, the second delivery sheet 312, The height of 4th delivery sheet and the 5th delivery sheet.

Further, in order to adjust the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet Position, in one embodiment, as shown in fig. 6, the feed mechanism 300 further includes delivery sheet support base 360, movable base plate 363, the second cylinder and third cylinder 361, first delivery sheet 311, second delivery sheet 312 are movably set in described send On flitch support base 360, the 4th delivery sheet and the 5th delivery sheet are fixedly installed on the delivery sheet support base 360 On, the third cylinder 361 is fixedly installed on the movable base plate 363, and the third cylinder 361 and the feeding Plate support base 360 is drivingly connected, and the third cylinder 361 can drive delivery sheet support base 360 along perpendicular to the benchmark bottom The direction of plate 100 moves, and then drives the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet edge It is moved perpendicular to the direction of the benchmark bottom plate 100, and third cylinder 361 is arranged on benchmark bottom plate 100, second cylinder It is drivingly connected with the movable base plate 363, second cylinder can drive movable base plate 363 along being parallel to the benchmark bottom plate 100 direction movement, to drive third cylinder 361 to be moved along the direction for being parallel to the benchmark bottom plate 100, and then drives the Four delivery sheets and the 5th delivery sheet are moved along the direction for being parallel to the benchmark bottom plate 100.In order to realize that the second cylinder can drive Dynamic movable base plate 363 is moved along the direction for being parallel to the benchmark bottom plate 100, for example, the movable base plate 363 is provided with movement 363 sliding block 364 of bottom plate, the benchmark bottom plate 100 are provided with sliding slot (not shown), and the sliding of 363 sliding block 364 of the movable base plate is set It is placed in the sliding slot；The sliding slot is opposite with first delivery sheet 311 and is arranged in parallel.By the various embodiments described above, make Obtaining the position of the first delivery sheet 311, the second delivery sheet 312, the 4th delivery sheet and the 5th delivery sheet can be adjusted.

In order to enable delivery sheet can be transmitted the tubing raw material of different length, in one embodiment, the feed mechanism 300 further include third delivery sheet, and the third delivery sheet is opposite with first delivery sheet 311 and is arranged in parallel, the third Delivery sheet is set to side of the benchmark bottom plate 100 far from first delivery sheet 311 and second delivery sheet 312, For example, the distance between third delivery sheet and the first delivery sheet 311 are more than between the second delivery sheet 312 and the first delivery sheet 311 Distance, and the delivery sheet driving motor and the third delivery sheet are drivingly connected, that is to say, that tubing raw material passes through first Delivery sheet 311, the second delivery sheet 312 and third delivery sheet drive and move, and third delivery sheet is set to benchmark bottom plate 100 Position far from the first delivery sheet 311 and the second delivery sheet 312 so that the larger tubing raw material of length can also be fed mechanism 300 are transmitted.

In order to enable the tubing raw material being placed on feed mechanism 300 is fixed in necking process, In one embodiment, as shown in Figure 4 and Figure 6, shown feed mechanism 300 further includes positioning component 370, the positioning component 370 Cylinder 372 and positioning base 371, the positioning base driving cylinder 372 and the positioning base 371 are driven including positioning base It being drivingly connected, the end face of the positioning base 371 towards one end of the clamp assembly 330 offers locating slot (not shown), The locating slot is correspondingly arranged with the fixing groove 335, that is to say, that locating slot is aligned setting with the fixing groove 335, also It is to say, locating slot is arranged with the fixing groove 335 along same straight line, and the positioning base 371 is used to drive in positioning base Take offence cylinder 372 driving lower edge be parallel to benchmark bottom plate 100 direction movement, and the positioning base 371 positioning base drive Take offence cylinder 372 driving lower edge towards the fixing groove 335 direction move.Tubing raw material is in the first delivery sheet 311 and second Enter the second arc groove 334 under the drive of delivery sheet 312, after upper clamping element 331 pushes, tubing raw material and to be fixed slot 335 solid Fixed, setting circle pedestal is moved to the direction of fixing groove 335, that is, is moved to the direction of tubing raw material, and the tubing raw material is remote From one end be inserted in the locating slot so that tubing raw material is fixed by positioning base 371.

Tubing raw material is sent to necking mechanism 400 by the feed mechanism 300, and realizes necking processing to tubing raw material Afterwards, necking finished product is sent to cutting agency by the feed mechanism 300.

As a kind of expansion of the utility model, in order to realize the blanking of cutting agency 200, in one embodiment, such as Shown in Fig. 8, the cutting agency 200 includes blanking driving cylinder 210, lower hopper 220 and at least one rising push rod 230, institute Stating lower hopper 220 has a blanking groove 221, and the bottom of the blanking groove 221 offers at least one through-hole (not shown), each The rising push rod 230 is actively located in a through-hole, the blanking driving cylinder 210 and each rising push rod 230 It is drivingly connected.

Specifically, the cutting agency 200 includes for housing the lower hopper 220 of the necking finished product after blanking, for will The rising push rod 230 that necking finished product imports in lower hopper 220 and the blanking driving cylinder for driving the lifting for rising push rod 230 210.The lower hopper 220 is set in the rack, and the bottom of blanking groove 221 offers at least one through-hole, that is, under The bottom of hopper 220 offers an at least through-hole, it is each rise push rod 230 be actively located in lower hopper 220 bottom it is one logical In hole, the blanking driving cylinder 210 is drivingly connected with each rising push rod 230, that is to say, that a rising push rod 230 are arranged in a through-hole, and each rising push rod 230 drives cylinder 210 to drive in corresponding through-hole by blanking Lower activity is worn, that is to say, that it is each rise push rod 230 can vertical ascent and decline in the through-hole, that is to say, that it is each described One end and the blanking driving cylinder 210 for rising push rod 230 are drivingly connected, and the other end is used for and the necking finished product that needs blanking It contacts and imports necking finished product in lower hopper 220.For example, the blanking driving cylinder 210 is set to the lower hopper 220 Lower section, and blanking driving cylinder 210 is fixedly installed in rack.For example, the cutting agency 200 is used for necking equipment, institute It states the one end of necking equipment for raw materials such as tubing and carries out necking operation, produce necking finished product, the necking equipment is also set Feed mechanism 300 is set, the necking finished product produced by necking is sent to 220 top of lower hopper through feed mechanism 300, and Necking finished product is imported by the rising push rod 230 in blanking groove 221, specifically, rises push rod 230 when necking finished product is transmitted to Before, each push rod 230 that rises drives the lower section that the driving of cylinder 210 drops to feed mechanism 300 in blanking, when necking finished product It is transmitted to the top for rising push rod 230, each push rod 230 that rises drives the driving of cylinder 210 to rise to feeding by blanking 300 top of mechanism, to which necking finished product to be lifted from feed mechanism 300, the rising push rod 230 is driven by blanking The driving of cylinder 210 declines again so that necking finished product is fallen into blanking groove 221.

It should be understood that in order to enable the necking finished product on feed mechanism 300 can be unloaded and received by cutting agency 200 Collection, the cutting agency 200 are set to the lower section of the feed mechanism 300, further, in one embodiment, described logical Hole is set to the lower hopper close to the side of the benchmark bottom plate, that is to say, that each rising push rod is arranged in an institute It states through-hole and is set to the lower hopper close to the side of the benchmark bottom plate so that cutting agency 200 can be by feed mechanism 300 On necking finished product unload and collect.

In order to enable the necking finished product on feed mechanism 300 can be preferably lifted by rising push rod 230, and by necking finished product It is imported in lower hopper 220 from feed mechanism 300, in one embodiment, as shown in figure 8, the quantity for rising push rod 230 To be multiple, and each rising push rod 230 is arranged along same rectilinear direction, for example, each geometric center for rising push rod 230 It is arranged along same rectilinear direction, for example, each push rod 230 that rises is arranged along the axis direction of necking finished product, each rising Push rod 230 is lifted the different location of a necking finished product, for example, each both ends for rising push rod 230 and being lifted a necking finished product, example Such as, the quantity for rising push rod 230 is two, and two rising push rods 230 are arranged along same rectilinear direction, for example, It is described rise push rod 230 quantity be four, and four risings push rods 230 along same rectilinear direction setting, it is each it is described on The different location that push rod 230 is lifted a necking finished product is risen, for example, for example, each push rod 230 that rises is lifted a necking finished product Both ends, for example, for example, each both ends and middle part for rising push rod 230 and being lifted a necking finished product so that rise 230 energy of push rod It is enough it is more stable, more accurately the necking finished product lifting on feed mechanism 300 got up, and necking finished product is imported into lower hopper 220 In.

In order to enable the necking finished product on feed mechanism 300 can be preferably lifted by rising push rod 230, and by necking finished product It is imported in lower hopper 220 from feed mechanism 300, in one embodiment, the quantity for rising push rod 230 is multiple, and The rising push rod 230 is arranged in two rows of, for example, the quantity for rising push rod 230 is six, and the rising push rod 230 It is arranged in two rows, that is to say, that the quantity that a row rises push rod 230 is three, and the quantity that another row rises push rod 230 is three A, two rows rise push rod 230 relatively and are arranged in parallel, and two rows of the distance between push rods 230 that rise are according on feed mechanism 300 The setting of the distance between two necking finished products of transmission, each 230 component of rising push rod drive with blanking driving cylinder 210 Connection rises push rod 230 and makes it possible to two necking finished products being lifted simultaneously on feed mechanism 300 in two rows of settings, and makes two A necking finished product imports in the blanking groove 221 of lower hopper 220, for example, multiple chute feeders 320 are provided on feed mechanism 300, For placing necking finished product, it is placed equidistant between chute feeder 320, feed mechanism 300 moves two chute feeders to cutting agency 200 320 distance, the blanking driving driving of cylinder 210 rises push rod 230 and rises once, that is, blanking drives cylinder 210 can one It is secondary to import two necking finished products in the blanking groove 221 of lower hopper 220, for example, chute feeder 320 is provided on feed mechanism 300, For placing necking finished product, it is placed equidistant between chute feeder 320, feed mechanism 300 moves a feeding to cutting agency 200 The distance of slot 320, the blanking driving driving of cylinder 210 rise push rod 230 and rise once, that is to say, that the same chute feeder 320 The necking finished product of position rises the lifting of push rods 230 twice by two rows successively, prevent necking finished product by blanking groove 221 block it is main without Risen the lifting of push rod 230 and fallen into blanking groove 221 by first row, that is, ensure that the contracting in each chute feeder 320 Mouth finished product is all imported into blanking groove 221.

In order to realize that blanking driving cylinder 210 drives each lifting for rising push rod 230, in one embodiment, such as Shown in Fig. 9, the cutting agency 200 further includes rising push rod mounting base 240, and each rising push rod 230 may be contained within described Rising in push rod mounting base 240, the blanking driving cylinder 210 is drivingly connected with the rising push rod mounting base 240, for example, The blanking driving cylinder 210 includes cylinder body and piston rod, and the rising push rod mounting base 240 is fixed with the piston rod to be connected It connects, each rising push rod 230 is set in the rising push rod mounting base 240 so that the blanking drives cylinder 210 Each rising push rod 230 can be driven to be lifted in corresponding through-hole simultaneously by rising push rod mounting base 240.

In order to enable the necking finished product on feed mechanism 300 can be preferably lifted by rising push rod 230, and by necking finished product It is imported in lower hopper 220 from feed mechanism 300, in one embodiment, each described one end for rising push rod 230 offers Arc groove, that is to say, that each push rod 230 that rises drives one end of cylinder 210 to offer arc groove far from the blanking, That is, the one end of each rising push rod 230 far from the rising push rod mounting base 240 offers arc groove, (figure is not Show), for example, the arc groove is used for and the necking inventory matching so that rising push rod 230 can be more convenient, more accurately Necking finished product lifting on feed mechanism 300 is got up, and necking finished product is imported in lower hopper 220.

It should be understood that the distance between each rising push rod 230 being arranged along same rectilinear direction, according to necking Situations such as physical length of finished product, is arranged, it should be understood that along the number of the rising push rod 230 of same rectilinear direction setting Situations such as measuring the physical length according to necking finished product is arranged.

In one embodiment, the cutting agency 200 is used for blanking pipe-type necking finished product, in order to import lower hopper Pipe-type necking finished product in 220 be centrally placed and arrange it is more neat, in one embodiment, as shown in figure 9, the blanking Mechanism 200 further includes stock guide 250, and the stock guide 250 favours the bottom of the blanking groove 221, and the stock guide 250 From far from described one end for rising push rod 230 to close to described one end for rising push rod 230 towards the bottom of the blanking groove 221 Tilt, i.e., the stock guide 250 from far from described one end for rising push rod 230 to close to described one end for rising push rod 230 to Lower inclination, the stock guide 250 are connect with the side wall of the blanking groove 221.The stock guide 250 will be for that will fall into lower hopper Pipe-type necking finished product in 220 focuses on the side of bottom plate, and the necking finished product is raised push rod 230 and is lifted and falls into down It in hopper 221, that is, falls on stock guide 250, the pipe-type necking finished product rolls down to bottom along inclined stock guide 250 Plate so that the necking finished product fallen into lower hopper 220 can be centrally placed and arrange more neat.

As a kind of improvement of the utility model, as shown in figure 8, in order to different to importing the length in lower hopper 220 Necking finished product realizes sub-material operation, and the cutting agency 200 further includes positioning baffle 260, and the positioning baffle 260 is set to institute It states in blanking groove 221 and is vertically arranged with the bottom of the blanking groove 221, the positioning baffle 260 and the blanking groove 221 Side wall and bottom abut, for example, the two side walls opposite with the blanking groove 221 of the positioning baffle 260 abut, and it is described Positioning baffle 260 is abutted with the bottom of blanking groove 221, that is to say, that the positioning baffle 260 separates the blanking groove 221 For two parts, in one embodiment, the cutting agency 200 is used for necking equipment, and the necking equipment production is two kinds long The necking finished product of degree, for example, cripetura mouth finished product and long necking finished product, by the way that the position of the positioning baffle 260 is arranged, will under Hopper 220 is separated into the smaller blanking portion of a width and the larger blanking portion of a width, and necking finished product passes through same feeding Mechanism 300 is sent to the top of lower hopper 220, cripetura mouth finished product be lifted by rising push rod 230 and fall into width it is smaller under In material portion, long necking finished product is lifted by rising push rod 230, because of length limitation, cannot fall into the smaller blanking portion of width It is interior, it eventually falls into the larger blanking portion of width, to realize the sub-material operation of the different necking finished product of length.

It should be understood that in order to realize that positioning baffle 260 is set in the blanking groove 221, that is, make positioning Baffle 260 is fixedly installed in blanking groove 221, and blanking groove 221 is divided into two parts, for example, the positioning baffle 260 With the sidewall weld of the blanking groove 221, for example, the side wall of the positioning baffle 260 and the blanking groove 221 rivets, example Such as, the positioning baffle 260 and the side wall of the blanking groove 221 are spirally connected so that positioning baffle 260 can be fixedly installed on down In hopper 221.

As a kind of improvement of the utility model, the positioning baffle 260 offers locating slot (not shown), the blanking The side wall of slot 221 is inserted in the locating slot, that is to say, that the positioning baffle 260 by the locating slot movably It is set in blanking groove 221, and positioning baffle 260 and the side wall of blanking groove 221 are clamped, that is, positioning baffle 260 and blanking 220 clamping of bucket so that movement can be realized while positioning baffle 260 is set in blanking groove 221, so as to adjust blanking The width in two blanking portions that bucket 220 is separated into, and then can realize the sub-material of the necking finished product of different length, it is worth mentioning It is that in order to enable positioning baffle 260 is fixed in blanking groove 221 while mobile setting, that is, positioning baffle 260 exists Can be fixed on the position of adjustment behind adjustment position in blanking groove 221, in one embodiment, the positioning baffle 260 with The lower hopper 220 is detachably connected, for example, as shown in figure 8, the positioning baffle 260 offers threaded hole (not shown), institute State and be provided with bolt 261 in threaded hole, one end of the bolt 261 be arranged in the threaded hole and with the lower hopper 220 Side wall abut, the bolt 261 and the side wall of the threaded hole are spirally connected, that is to say, that the positioning baffle 260 passes through positioning Slot is clamped with the lower hopper 220, and is fixedly connected with lower hopper 220 by the bolt 261.Enable positioning baffle 260 Enough adjustment positions mobile in blanking groove 221, and positioning baffle 260 can be fixed on adjustment position.

It should be understood that the necking equipment includes PLC controller, the feed mechanism, the cutting agency and institute Each driver for stating necking mechanism is controlled by PCL controllers, that is to say, that the mold driving motor, the linear guide are driven It takes offence cylinder, first cylinder, second cylinder, the third cylinder, the positioning base driving cylinder and blanking Driving cylinder is controlled by the PLC controller, to realize running.

Delivery sheet driving motor drives the first delivery sheet 311 and the movement of the second delivery sheet 312, and tubing raw material is by being positioned over It is transmitted in the chute feeder 320 of first delivery sheet 311 and the second delivery sheet 312, and is sent in the first delivery sheet 311 and second Enter in the second arc groove 334 of lower clamping element 333 under the drive of flitch 312, drive of the upper clamping element 331 in the first cylinder 336 Dynamic to push, upper clamping element 331 is abutted with lower clamping element 333, and the first arc groove 332 is connected to the second arc groove 334, formation Fixing groove 335, tubing raw material are clamped and are fixed in fixing groove 335, necking group by upper clamping element 331 and lower clamping element 333 Part 401 moves on benchmark bottom plate 100 towards the direction of clamp assembly 330 under the driving that the linear guide drives cylinder 450, It is exactly to be moved towards the direction of tubing raw material, necking die 420 is covered on one end of tubing raw material by necking slot 421, that is, Tubing raw material is inserted in necking slot 421, and necking die 420 is rotated by mold driving motor 410, tubing raw material The one end for being inserted in necking slot 421 is extruded under the high speed rotation of necking die 420, realizes the necking processing of tubing raw material, Upper clamping element 331 rises under the driving of the first cylinder 336, and upper clamping element 331 is separated with lower clamping element 333, that is, first Arc groove 332 and the second arc groove 334 separate, tubing raw material under the drive of the first delivery sheet 311 and the second delivery sheet 312 from It opens clamp assembly 330 and continues to move to, tubing raw material is sent to the top of cutting agency 200, and each push rod 230 that rises is in blanking It drives and rises under the driving of cylinder 210, by tubing raw material out of, the first delivery sheet 311 and the second delivery sheet 312 chute feeder 320 Lifting, each push rod 230 that rises decline under the driving that blanking drives cylinder 210, and tubing raw material falls into the blanking groove of lower hopper 220 In 221, completes the necking processing of tubing raw material and collect, it is the necking equipment necking process automation of the utility model, efficient, Quantization can be facilitated to produce.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (9)

1. a kind of necking equipment, which is characterized in that including：Benchmark bottom plate, necking mechanism, feed mechanism and cutting agency；

The necking mechanism includes necking component, and the necking component includes necking die and mold driving motor, the mold Driving motor is drivingly connected with the necking die, and the necking die is rotatably arranged on the benchmark bottom plate, the contracting Mouth mold tool offers a necking slot, and the width of the necking slot is from the surface of the necking die to the bottom of the necking slot Direction is gradually reduced；

The necking mechanism and the feed mechanism may be contained on the benchmark bottom plate, and the necking slot is towards the feeding Mechanism, and be oppositely arranged with the feed mechanism；

The cutting agency is set to the lower section of the feed mechanism.

2. necking equipment according to claim 1, which is characterized in that the necking mechanism further includes motor fixing seat, institute It states mold driving motor to be fixedly connected with the motor fixing seat, the motor fixing seat is provided with sliding block, the benchmark bottom plate On be provided with guide rail, the sliding block is slideably positioned on the guide rail.

3. necking equipment according to claim 2, which is characterized in that the necking mechanism further includes the linear guide driving gas Cylinder, the linear guide driving cylinder are drivingly connected with the motor mount.

4. necking equipment according to claim 1, which is characterized in that the quantity of the necking component is two.

5. necking equipment according to claim 1, which is characterized in that the feed mechanism includes the first delivery sheet, second Delivery sheet, clamp assembly and delivery sheet driving motor；

First delivery sheet and second delivery sheet offer several chute feeders respectively；

First delivery sheet is opposite with second delivery sheet and is arranged in parallel, and the delivery sheet driving motor and described the One delivery sheet and second delivery sheet respectively drive connection, first delivery sheet and the second delivery sheet activity setting In on benchmark bottom plate；

The clamp assembly includes the first cylinder, upper clamping element and lower clamping element, and the lower clamping element connects with the benchmark bottom plate It connects, first cylinder is drivingly connected with the upper clamping element, and the upper clamping element is oppositely arranged with the lower clamping element, described Upper clamping element is abutted with the lower clamping element activity, and the upper clamping element offers the first arc on one side towards the lower clamping element Shape slot, the lower clamping element offer the second arc groove, and first arc groove and institute on one side towards the upper clamping element The alignment setting of the second arc groove is stated, first arc groove is connected to form fixing groove with second arc groove；

The clamp assembly is oppositely arranged with first delivery sheet and second delivery sheet.

6. necking equipment according to claim 5, which is characterized in that the feed mechanism further includes positioning component, described Positioning component includes positioning base driving cylinder and positioning base, and the positioning base driving cylinder drives with the positioning base Connection；

The end face of the positioning base towards one end of the clamp assembly offers locating slot, the locating slot and the fixation Slot is correspondingly arranged, and the positioning base is used to transport in the direction that positioning base drives the driving lower edge of cylinder to be parallel to benchmark bottom plate It is dynamic, and the positioning base drives the driving lower edge of cylinder to be moved towards the direction of the fixing groove in positioning base.

7. necking equipment according to claim 1, which is characterized in that the cutting agency include blanking driving cylinder, under Hopper and at least one rising push rod；

There is the lower hopper blanking groove, the bottom of the blanking groove to offer at least one through-hole, and each rising pushes away Bar is actively located in a through-hole；

The blanking driving cylinder is drivingly connected with each rising push rod.

8. necking equipment according to claim 7, which is characterized in that each described one end for rising push rod offers arc Slot.

9. necking equipment according to claim 7, which is characterized in that the through-hole is set to the lower hopper close to described The side of benchmark bottom plate.