CN209139209U - A kind of detection components applied to axial workpiece - Google Patents

Abstract

The utility model embodiment discloses a kind of detection components applied to axial workpiece, when for solving the existing progress parameter detecting to axial workpiece, needs to detect transferred product into different detection devices, thus the technical problem for causing detection efficiency not high.The present embodiment includes workbench and conveyer belt；Product jig is placed on conveyer belt；Conveyer belt includes feed end and discharge end；Workbench along the direction of motion of conveyer belt be disposed with for the aperture of testing product whether exceed preset maximum value the first Pore Diameter Detection mould group, for testing product aperture whether be lower than predetermined minimum the second Pore Diameter Detection mould group, for testing product chamfering chamfering detection mould group and for testing product hole depth hole depth detect mould group.In the present embodiment, it is provided with the mould group that can detecte axial workpiece parameters on the table, disposably automatically Shaft testing can be finished, substantially increase detection efficiency.

Description

A kind of detection components applied to axial workpiece

Technical field

The utility model relates to automation equipment design field more particularly to a kind of detections applied to axial workpiece Component.

Background technique

Existing axial workpiece needs to carry out the detection of parameters before shipment, for example, need to measure axis hole aperture, Depth and the chamfering on axis of axis hole etc., and measure parameters and need to examine transferred product to different equipment It surveys, this is undoubtedly the detection efficiency for affecting axial workpiece.

In order to solve the above technical problems, a kind of detection group applied to axial workpiece that detection efficiency can be improved is found Part becomes the important topic that those skilled in the art are studied.

Utility model content

The utility model embodiment discloses a kind of detection components applied to axial workpiece, existing to axis class for solving When part carries out parameter detecting, need to detect transferred product into different detection devices, to cause detection efficiency Not high technical problem.

The utility model embodiment provides a kind of detection components applied to axial workpiece, including workbench；The work Make to be fixedly installed with conveyer belt on platform；

Product jig is placed on the conveyer belt；The conveyer belt includes feed end and discharge end, the product jig Discharge end can be moved to from the feed end under the driving of conveyer belt；The workbench along the conveyer belt the direction of motion according to It is secondary to be provided with for whether the aperture of testing product to exceed the first Pore Diameter Detection mould group of preset maximum value, for testing product Aperture whether be lower than predetermined minimum the second Pore Diameter Detection mould group, for testing product chamfering whether meet preset value fall Whether angle detection mould group and the via depth for testing product meet the hole depth detection mould group of preset value.

Optionally, the first Pore Diameter Detection mould group is located at the first side of the conveyer belt；The first Pore Diameter Detection mould Group includes the first cylinder and the first regulating device；The output shaft of first cylinder is connected with the first testing needle；Described first surveys Test point can be extend into the through-hole of product with being driven carries out Pore Diameter Detection；

First regulating device is attached with first testing needle, and first regulating device is described for adjusting X-axis, Y-axis, the Z-direction of first testing needle.

Optionally, the second Pore Diameter Detection mould group is located at the first side of the conveyer belt；The second Pore Diameter Detection mould Group includes the second cylinder and the second regulating device；The output shaft of second cylinder is connected with the second testing needle；Described second surveys Test point can be extend into the through-hole of product with being driven carries out Pore Diameter Detection；

Second regulating device is attached with second testing needle, and second regulating device is described for adjusting X-axis, Y-axis, the Z-direction of second testing needle.

Optionally, first is provided on second side of conveyer belt position opposite with the first Pore Diameter Detection mould group Mandril；First mandril is connected with third cylinder；It is detected when product jig is moved to the first Pore Diameter Detection mould group When, first mandril can be fixed product under the driving of the third cylinder.

Optionally, second is provided on second side of conveyer belt position opposite with the second Pore Diameter Detection mould group Mandril, second mandril are connected with the 4th cylinder；It is detected when product jig is moved to the second Pore Diameter Detection mould group When, second mandril can be fixed product under the driving of the 4th cylinder.

Optionally, the chamfering detection mould group is located at second side of the conveyer belt；The chamfering detection mould group includes solid Reservation；Detection camera is installed in the fixing seat；The top surface of the fixing seat is connected with annular light source；The annular light source position In front of the camera lens of the detection camera；The side of the fixing seat is connected with third regulating device, the third regulating device For adjusting the X-axis, Y-axis, Z-direction of the fixing seat.

Optionally, the hole depth detection mould group is located at second side of the conveyer belt；The hole depth detection mould group includes position Displacement sensor；The side of institute's displacement sensors is fixedly connected with horizontal supporting plate；The level board slidably connects vertical supporting plate； The horizontal supporting plate is force-appliedly along vertical supporting plate close to or far from the conveyer belt.

Optionally, the detection components further include the material returned mould group for rejecting detection substandard product；

The material returned mould group includes the 5th cylinder and sliding slot；5th cylinder is set to the first side of the conveyer belt, And the output end of the 5th cylinder is connected with scraping wings；

One end of the sliding slot is set on second side position opposite with the 5th cylinder of the conveyer belt, another It holds and is connected with the recycling box being set on the workbench；

Detection substandard product on the conveyer belt can be pushed into the recycling box along the sliding slot by the scraping wings Inside.

Optionally, there are four the material returned mould group includes；

The material returned mould group is provided between the first Pore Diameter Detection mould group and the second Pore Diameter Detection mould group；

The material returned mould group is provided between the second Pore Diameter Detection mould group and chamfering detection mould group；

The material returned mould group is provided between the chamfering detection mould group and hole depth detection mould group；

The material returned mould group is provided between the hole depth detection mould group and the discharge end of the conveyer belt.

Optionally, the product jig includes bottom plate；

The both ends of the bottom plate are fixedly installed the V-shape limited block of the displacement for limiting the product.

As can be seen from the above technical solutions, the utility model embodiment has the advantage that

The utility model embodiment provides a kind of detection components applied to axial workpiece, including workbench；The work Make to be fixedly installed with conveyer belt on platform；Product jig is placed on the conveyer belt；The conveyer belt includes feed end and discharging End, the product jig can be moved to discharge end from the feed end under the driving of conveyer belt；The workbench is along the biography Send the direction of motion of band is disposed with the first Pore Diameter Detection mould for whether exceeding preset maximum value for the aperture of testing product Whether group is lower than the second Pore Diameter Detection mould group of predetermined minimum, for the chamfering of testing product for the aperture of testing product Chamfering detection mould group and for testing product hole depth hole depth detect mould group.In the present embodiment, it is provided on the table It can detecte the mould group of axial workpiece parameters, disposably automatically Shaft testing can be finished, substantially increase detection Efficiency.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is that a kind of overall structure of the detection components applied to axial workpiece provided in the utility model embodiment is shown It is intended to；

Fig. 2 is that a kind of overall structure of the detection components applied to axial workpiece provided in the utility model embodiment is another One angle schematic diagram；

Fig. 3 is the first aperture in a kind of detection components applied to axial workpiece provided in the utility model embodiment Detect the structural schematic diagram of mould group；

Fig. 4 is the second aperture in a kind of detection components applied to axial workpiece provided in the utility model embodiment Detect the structural schematic diagram of mould group；

Fig. 5 is the chamfering detection in a kind of detection components applied to axial workpiece provided in the utility model embodiment The structural schematic diagram of mould group；

Fig. 6 is the hole depth detection in a kind of detection components applied to axial workpiece provided in the utility model embodiment The structural schematic diagram of mould group；

Fig. 7 is the first mandril in a kind of detection components applied to axial workpiece provided in the utility model embodiment With the structural schematic diagram that third cylinder combines；

Fig. 8 is the second mandril in a kind of detection components applied to axial workpiece provided in the utility model embodiment With the structural schematic diagram that the 4th cylinder combines；

Fig. 9 is the material returned mould group in a kind of detection components applied to axial workpiece provided in the utility model embodiment Structural schematic diagram；

Figure 10 is the product mould in a kind of detection components applied to axial workpiece provided in the utility model embodiment The structural schematic diagram of tool；

Figure 11 is a kind of structural schematic diagram of the structural schematic diagram of the product provided in the utility model embodiment；

It illustrates: workbench 1；Conveyer belt 2；Product jig 3；Bottom plate 31；V-shape limited block 32；First Pore Diameter Detection Mould group 4；First cylinder 41；First regulating device 42；First testing needle 43；Second detection mould group 5；Second cylinder 51；Second adjusts Regulating device 52；Second testing needle 53；Chamfering detects mould group 6；Annular light source 61；Camera lens 62；Detect camera 63；Third regulating device 64；Hole depth detects mould group 7；Displacement sensor 71；Horizontal supporting plate 72；Vertical supporting plate 73；Material returned mould group 8；5th cylinder 81；Pusher Plate 82；Sliding slot 83；Recycling box 84；First mandril 9；Third cylinder 10；Second mandril 11；4th cylinder 12；Product 13；Through-hole 14；Chamfering 15；First side 16 of conveyer belt；Second side 17 of conveyer belt.

Specific embodiment

The utility model embodiment discloses a kind of detection components applied to axial workpiece, existing to axis class for solving When part carries out parameter detecting, need to detect transferred product into different detection devices, to cause detection efficiency Not high technical problem.

In order to make those skilled in the art better understand the scheme of the utility model, with reference to the accompanying drawing and specific implementation The utility model is described in further detail for mode.Obviously, described embodiment is only the utility model a part Embodiment, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing Every other embodiment obtained under the premise of creative work out, fall within the protection scope of the utility model.

Fig. 1 to Figure 11 is please referred to, a kind of detection components applied to axial workpiece provided in the utility model embodiment One embodiment include:

Workbench 1；Conveyer belt 2 is fixedly installed on workbench 1；Product jig 3 is placed on conveyer belt 2；Conveyer belt 2 wraps Feed end and discharge end are included, product jig 3 can be moved to discharge end from feed end under the drive of conveyer belt 2；Workbench 1 is along biography Send the direction of band 2 is disposed with the first Pore Diameter Detection mould group for whether exceeding preset maximum value for the aperture of testing product 13 4, whether it is lower than the second Pore Diameter Detection mould group 5 of predetermined minimum, for testing product 13 for the aperture of testing product 13 Chamfering 15 whether meet preset value chamfering detection mould group 6 and 14 depth of through-hole for testing product 13 whether meet it is default The hole depth of value detects mould group 7；

It should be noted that product 13 is axial workpiece 13, product 13 is laterally lain against on conveyer belt 2, and product 13 hangs down Directly in the two sides of conveyer belt 2；When product 13 is moved to the first Pore Diameter Detection mould group 4 along conveyer belt 2, the first Pore Diameter Detection mould The aperture of the through-hole 14 of 4 pairs of products 13 of group is detected, if exceeding preset pore size maxima, detection components determine the product 13 is fail, and continue to the second Pore Diameter Detection mould group 5, through-hole of the second Pore Diameter Detection mould group 5 to product 13 if qualified 14 aperture carries out secondary detection, if being lower than preset aperture minimum value, detection components determine that the product 13 is to fail, and closes The product 13 of lattice will continue to chamfering detection mould group 6, carry out chamfering 15 and detect, if meeting preset standard, detection components Determine that the product 13 is qualified, qualified product 13 finally reaches the depth detection that hole depth detection mould group 7 carries out through-hole 14, if logical The depth in hole 14 meets the requirements, and detection components then determine that the product 13 is qualified, is judged to closing by four detection mould group detections The product 13 of lattice is then considered as qualified products 13.

In the present embodiment, the mould group that can detecte 13 parameters of axial workpiece is provided on workbench 1, it can be primary Property automatically finishes Shaft testing, substantially increases detection efficiency.

The first Pore Diameter Detection mould group 4 in the present embodiment is set to the first side 16 of conveyer belt referring to FIG. 1 to FIG. 4, In the first Pore Diameter Detection mould group 4 include the first testing needle 43；The first cylinder 41 is connected on first testing needle 43；First cylinder 41 It drives the first testing needle 43 to extend into the through-hole 14 of product 13, the aperture of product 13 is detected, specifically, the first test Needle 43 and is inserted under the driving of the first cylinder 41 through-hole of product 13 perpendicular to the first side 16 of conveyer belt in the horizontal direction In 14.

Further, the first testing needle 43 is also connected with the first regulating device 42, before the work of the first testing needle 43, first Regulating device 42 can be adjusted the direction of the X, Y, Z axis of the first testing needle 43, to ensure to reach the first aperture when product 13 When detecting mould group 4, the first testing needle 43 can be properly inserted in the through-hole 14 of product 13.

The second Pore Diameter Detection mould group 5 in the present embodiment is set to the first side 16 of conveyer belt, wherein the second Pore Diameter Detection Mould group 5 includes the second testing needle 53；The second cylinder 51 is connected on second testing needle 53；Second cylinder 51 drives the second testing needle 53 extend into the through-hole 14 of product 13, detect to the aperture of product 13, and specifically, the second testing needle 53 is perpendicular to transmission Second side 17 of band, and in the through-hole 14 for being inserted in product 13 in the horizontal direction under the driving of the second cylinder 51.

Further, the second testing needle 53 is also connected with the second regulating device 52, before the work of the second testing needle 53, second Regulating device 52 can be adjusted the direction of the X, Y, Z axis of the second testing needle 53, to ensure to reach the second aperture when product 13 When detecting mould group 5, the second testing needle 53 can be properly inserted in the through-hole 14 of product 13.

Fig. 7 and Fig. 8 are please referred to, second side 17 of the conveyer belt in this implementation position opposite with the first Pore Diameter Detection mould group 4 It sets and is provided with the first mandril 9；First mandril 9 is connected with third cylinder 10；Specifically, the first mandril 9 is perpendicular to the transmission Second side 17 of band, and can be moved in the horizontal direction under the driving of third cylinder 10；

When product 13, which is moved to the first Pore Diameter Detection mould group 4, to be detected, driving of first mandril 9 in third cylinder 10 Under, product 13 is fixed, to facilitate the first testing needle 43 that can more accurately be inserted into the through-hole 14 of product 13.

Is provided on second side 17 of conveyer belt in the present embodiment position opposite with the second Pore Diameter Detection mould group 5 Two mandrils 11；Second mandril 11 is connected with the 4th cylinder 12；Specifically, the second mandril 11 perpendicular to conveyer belt second side 17, And it is moved in the horizontal direction under the driving of the 4th cylinder 12；

When product 13, which is moved to the second Pore Diameter Detection mould group 5, to be detected, drive of second mandril 11 in the 4th cylinder 12 Under dynamic, product 13 is fixed, to facilitate the second testing needle 53 that can more accurately be inserted into the through-hole 14 of product 13.

Referring to Fig. 5, chamfering detection mould group 6 is located at second side 17 of conveyer belt in the present embodiment；Chamfering detects mould group 6 and wraps Include fixing seat；Detection camera 63 is installed in fixing seat, is connected with annular light source 61 in the top surface of fixing seat；Annular light source 61 In 62 front of camera lens of detection camera 63；

The chamfering 15 that detection camera 63 is aligned on product 13 is taken pictures, and whether obtains chamfering 15 by control system analysis Meet scheduled standard.

Further, the side of fixing seat is also connected with third regulating device 64, and third regulating device 64 similarly can be with Control the direction of the X, Y, Z axis of fixing seat.

It should be noted that by the direction for suitably adjusting fixing seat, to ensure that detection camera 63 can be accurately to production Chamfering 15 on product 13 is detected.

Referring to Fig. 6, the hole depth detection mould group 7 in the present embodiment is located at the first side 16 of conveyer belt, which detects mould Group 7 specifically includes displacement sensor 71, the horizontal supporting plate 72 for being connected to displacement sensor 71, is fixedly installed on workbench 1 Vertical supporting plate 73；

Horizontal supporting plate 72 is slidably connected to above-mentioned vertical supporting plate 73, and horizontal supporting plate 72 is leaned on along vertical supporting plate 73 force-appliedly Close or remote from conveyer belt 2.

Referring to Fig. 9, the detection components in the present embodiment further include the material returned having for rejecting detection substandard product 13 Mould group 8；

The material returned mould group 8 includes the 5th cylinder 81 and sliding slot 83；Wherein, the 5th cylinder 81 is fixedly installed on workbench 1, And it is located at the first side 16 of conveyer belt, the output end of the 5th cylinder 81 is connected with scraping wings 82；

The first end of sliding slot 83 is set on the position opposite with the 5th cylinder 81 of second side 17 of conveyer belt, the other end It is connected with the recycling box 84 being set on workbench 1；

It should be noted that detecting unqualified when product 13 is detected mould group, underproof product 13 is sent by conveyer belt 2 When to the material returned mould group 8, the 5th cylinder 81 drives scraping wings 82 that underproof product 13 is pushed into sliding slot 83 from conveyer belt 2 Interior, product 13 is slipped in recycling box 84 from sliding slot 83, is then recovered.

Further, in this embodiment material returned mould group 8 include there are four；

First material returned mould group 8 is set between the first Pore Diameter Detection mould group 4 and the second Pore Diameter Detection mould group 5；

Second material returned mould group 8 is set between the second Pore Diameter Detection mould group 5 and chamfering detection mould group 6；

Third material returned mould group 8 is set between chamfering detection mould group 6 and hole depth detection mould group 7；

4th material returned mould group 8 is set between the discharge end of conveyer belt 2 and hole depth detection mould group 7；

Referring to Fig. 10, the product jig 3 in the utility model embodiment includes bottom plate 31；

The both ends of bottom plate 31 are fixedly installed the V-shape limited block 32 for limiting the displacement of product 13；

It should be noted that when product 13 is placed on product jig 3, since V-shape limited block 32 limits product 13 displacement, so that various detection mould groups can more accurately detect product 13.

Further, product 13 is specially axial workpiece.

Above-mentioned is to a kind of specific structure of the detection components applied to axial workpiece provided by the embodiment of the utility model It is described in detail, this detection components will be further detailed with a working principle below, the utility model is real The application examples of a kind of detection components applied to axial workpiece for applying example offer includes:

Assuming that the aperture acceptability limit of product 13 is set as 4.5cm to 4.7cm.

Product 13 is placed in the product jig 3 on conveyer belt 2, product jig 3 reaches first under the drive of conveyer belt 2 Pore Diameter Detection mould group 4, the first mandril 9, which is driven, is fixed product 13, and the testing needle of the first detection mould group, which is driven, to be protruded into Into the through-hole 14 of product 13, whether the aperture of detection current production 13 is more than upper limit value 4.7cm, and first is reached if being more than Material returned mould group 8, scraping wings 82 promotes underproof product 13 in sliding slot 83 from conveyer belt 2, if being less than or equal to upper limit value 4.7cm is then moved on, and reaches the second Pore Diameter Detection mould group 5, and the second mandril 11, which is driven, is fixed product 13, the The testing needle of two detection mould groups is driven in the through-hole 14 for extending into product 13, and whether the aperture of detection current production 13 is lower than lower limit Value 4.5cm, reaches the second material returned mould group 8 if being lower than, which is promoted sliding slot from conveyer belt 2 by scraping wings 82 It in 83, is being moved on if more than or equal to lower limit value, is reaching chamfering and detect mould group 6, chamfering detects mould group 6 and passes through detection camera The chamfering 15 of 63 pairs of current productions 13 is shot, by image analysis processing obtain product 13 chamfering 15 whether meet it is default Value, if not meeting, which will reach third material returned mould group 8, and scraping wings 82 pushes away underproof product 13 from conveyer belt 2 Into in sliding slot 83, if meeting, which is moved on, and is reached hole depth and is detected mould group 7, hole depth detects mould group 7 and passed by displacement Whether 14 depth of through-hole of 71 testing product 13 of sensor meets preset value, if not meeting, this product 13 reaches the 4th material returned Mould group 8 is left if meeting from the discharge end of conveyer belt 2, and next process is transferred to.

A kind of detection components applied to axial workpiece provided by the utility model are described in detail above, it is right In those of ordinary skill in the art, based on the idea of the embodiment of the present invention, in specific embodiments and applications There will be changes, in conclusion the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. a kind of detection components applied to axial workpiece, which is characterized in that including workbench；It is fixedly mounted on the workbench There is conveyer belt；

Product jig is placed on the conveyer belt；The conveyer belt includes feed end and discharge end, and the product jig can be Discharge end is moved to from the feed end under the driving of conveyer belt；The workbench is successively set along the direction of motion of the conveyer belt It is equipped with for whether the aperture of testing product to exceed the first Pore Diameter Detection mould group of preset maximum value, for the aperture of testing product Whether it is lower than the second Pore Diameter Detection mould group of predetermined minimum, whether meets the chamfering inspection of preset value for the chamfering of testing product It surveys mould group and whether the via depth for testing product meets the hole depth detection mould group of preset value.

2. the detection components according to claim 1 applied to axial workpiece, which is characterized in that first Pore Diameter Detection Mould group is located at the first side of the conveyer belt；The first Pore Diameter Detection mould group includes the first cylinder and the first regulating device；Institute The output shaft for stating the first cylinder is connected with the first testing needle；First testing needle can extend into being driven in the through-hole of product into Row Pore Diameter Detection；

First regulating device is attached with first testing needle, and first regulating device is for adjusting described first X-axis, Y-axis, the Z-direction of testing needle.

3. the detection components according to claim 1 applied to axial workpiece, which is characterized in that second Pore Diameter Detection Mould group is located at the first side of the conveyer belt；The second Pore Diameter Detection mould group includes the second cylinder and the second regulating device；Institute The output shaft for stating the second cylinder is connected with the second testing needle；Second testing needle can extend into being driven in the through-hole of product into Row Pore Diameter Detection；

Second regulating device is attached with second testing needle, and second regulating device is for adjusting described second X-axis, Y-axis, the Z-direction of testing needle.

4. the detection components according to claim 2 applied to axial workpiece, which is characterized in that the second of the conveyer belt Side is provided with the first mandril on the position opposite with the first Pore Diameter Detection mould group；First mandril is connected with third gas Cylinder；When product jig, which is moved to the first Pore Diameter Detection mould group, to be detected, first mandril can be in the third gas Product is fixed under the driving of cylinder.

5. the detection components according to claim 3 applied to axial workpiece, which is characterized in that the second of the conveyer belt The second mandril is provided on the position opposite with the second Pore Diameter Detection mould group of side, second mandril is connected with the 4th gas Cylinder；When product jig, which is moved to the second Pore Diameter Detection mould group, to be detected, second mandril can be in the 4th gas Product is fixed under the driving of cylinder.

6. the detection components according to claim 1 applied to axial workpiece, which is characterized in that the chamfering detects mould group Positioned at second side of the conveyer belt；The chamfering detection mould group includes fixing seat；Detection camera is installed in the fixing seat； The top surface of the fixing seat is connected with annular light source；The annular light source is located in front of the camera lens of the detection camera；It is described solid The side of reservation is connected with third regulating device, and the third regulating device is used to adjust the X-axis, Y-axis, Z axis of the fixing seat Direction.

7. the detection components according to claim 1 applied to axial workpiece, which is characterized in that the hole depth detects mould group Positioned at second side of the conveyer belt；The hole depth detection mould group includes displacement sensor；The side of institute's displacement sensors is solid Surely it is connected with horizontal supporting plate；The level board slidably connects vertical supporting plate；The horizontal supporting plate is force-appliedly along vertical supporting plate Close to or far from the conveyer belt.

8. the detection components according to claim 1 applied to axial workpiece, which is characterized in that the detection components are also wrapped Include the material returned mould group for rejecting detection substandard product；

The material returned mould group includes the 5th cylinder and sliding slot；5th cylinder is set to the first side of the conveyer belt, and The output end of 5th cylinder is connected with scraping wings；

One end of the sliding slot is set on second side position opposite with the 5th cylinder of the conveyer belt, the other end with The recycling box linking being set on the workbench；

Detection substandard product on the conveyer belt can be pushed into the recycling box by the scraping wings along the sliding slot Portion.

9. the detection components according to claim 8 applied to axial workpiece, which is characterized in that the material returned mould group includes There are four；

The material returned mould group is provided between the first Pore Diameter Detection mould group and the second Pore Diameter Detection mould group；

The material returned mould group is provided between the second Pore Diameter Detection mould group and chamfering detection mould group；

The material returned mould group is provided between the chamfering detection mould group and hole depth detection mould group；

The material returned mould group is provided between the hole depth detection mould group and the discharge end of the conveyer belt.

10. the detection components according to claim 1 applied to axial workpiece, which is characterized in that the product jig packet Include bottom plate；

The both ends of the bottom plate are fixedly installed the V-shape limited block of the displacement for limiting the product.