CN209141467U - Efficient air pressure hot melt riveter - Google Patents
Efficient air pressure hot melt riveter Download PDFInfo
- Publication number
- CN209141467U CN209141467U CN201821850853.4U CN201821850853U CN209141467U CN 209141467 U CN209141467 U CN 209141467U CN 201821850853 U CN201821850853 U CN 201821850853U CN 209141467 U CN209141467 U CN 209141467U
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- Prior art keywords
- thermally conductive
- column
- fixed block
- conductive fixed
- block
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Abstract
The utility model provides a kind of efficient air pressure hot melt riveter, it includes workbench, control cabinet, cylinder and rivet hot component, wherein rivet hot component includes rivet hot column, thermally conductive fixed block, transfer block, heat-generating pipe and thermal insulation board, thermally conductive fixed block is connected by the telescopic rod of thermal insulation board and cylinder, heat-generating pipe is connected to the inside of thermally conductive fixed block, transfer block is slidably arranged in thermally conductive fixed block and glide direction is parallel to the table top of workbench, and one end of rivet hot column is connect with transfer block.The efficient air pressure hot melt riveter of the utility model in thermally conductive fixed block by sliding setting transfer block, and rivet hot column is connect with transfer block, while guaranteeing the heat transfer between thermally conductive fixed block and rivet hot column, the position of rivet hot column can also be made adjustable, so that multiple rivet hot columns can very easily process the product of the plurality of specifications with different riveting locations, the range of work is wide, high in machining efficiency.
Description
Technical field
The utility model relates to riveting machine field, in particular to a kind of efficient air pressure hot melt riveter.
Background technique
Hot riveting machine generally gives heating plate heat transfer to rivet hot column by electrical heating method, and rivet hot column heats the riveting column that need to be riveted
Make its melt molding, forms riveter, fixed product after cooling and solidifying;Heating power can be arranged according to different plastic sizes in it
And die size, realize the riveting of a variety of plastic workpieces, it is easy to operate, it is easy to use, it is applied to many industries, on circuit board
There is the riveting of various electronic components;
The spacing between multiple riveting locations on the product of two different sizes difference, therefore in the prior art,
The riveting machine for being fixedly installed multiple rivet hot columns can only rivet the bulk article of same specification, or be set by only fixation
Set a rivet hot column come the riveting location on the product to different size one by one carry out riveting processing, this makes in the prior art
Riveting machine there are the ranges of work it is limited, high production cost, time-consuming, processing efficiency is low the problems such as.
Therefore need to provide a kind of efficient air pressure hot melt riveter to solve above-mentioned technical problem.
Utility model content
The utility model provides a kind of efficient air pressure hot melt riveter, by sliding in setting in thermally conductive fixed block
Switch block, and rivet hot column is connect with transfer block, while guaranteeing the heat transfer between thermally conductive fixed block and rivet hot column, moreover it is possible to make
The position for obtaining rivet hot column is adjustable, and to solve riveting machine in the prior art, there are the ranges of work to be limited, high production cost, time-consuming
Long, the problems such as processing efficiency is low.
In order to solve the above technical problems, the technical solution of the utility model are as follows: a kind of efficient air pressure hot melt riveter,
Include:
Workbench, for placing product to be processed;
Control cabinet, positioned at the top of the workbench, including internal electrical control assembly;
Cylinder is arranged in the control cabinet and is electrically connected with the electrical control assembly, the telescopic rod of the cylinder
It is extended down to the bottom of the control cabinet outside;
Rivet hot component, including rivet hot column, thermally conductive fixed block, transfer block, heat-generating pipe and thermal insulation board, the thermally conductive fixed block
It is connect by the thermal insulation board with the telescopic rod of the cylinder, the heat-generating pipe is connected to the inside of the thermally conductive fixed block, institute
State that transfer block is slidably arranged in the thermally conductive fixed block and glide direction is parallel to the table top of the workbench, the rivet hot column
One end connect with the transfer block.
In the present invention, it is provided with the first thread segment and primary optic axis section on the rivet hot column, in the transfer
It is provided with connection through-hole on block, is provided with the second screw thread corresponding with first thread segment on the hole wall of the connection through-hole
Section, and the second optical axis section corresponding with the primary optic axis section, when the rivet hot column is connect with the transfer block, described the
One optical axis section and the second optical axis section are in face contact, the rivet hot column by through the connection through-hole with it is described thermally conductive solid
The inner wall for determining block squeezes contact, and then the position of the fixed transfer block.
Further, the one end of the rivet hot column far from the transfer block is riveting end, and the primary optic axis section is located at remote
One end from the riveting end, the length of the primary optic axis section is greater than the length of the second optical axis section, when the rivet hot column
When inner wall extruding with the thermally conductive fixed block contacts, primary optic axis section described in the second optical axis Duan Junyu described in full section connects in face
Touching.
Wherein, the bottom side of the transfer block is provided with convex block, be provided on the bottom surface of the thermally conductive fixed block with
The corresponding bit-avoiding slot of the convex block, the convex block pass through the bit-avoiding slot and extend and protrude from the bottom of the thermally conductive fixed block
The inner wall of face, the side of the convex block and the bit-avoiding slot is in face contact, and the connection through-hole runs through the convex block.
In the present invention, the parallel sliding slot of a plurality of extending direction is provided in the thermally conductive fixed block, at every
One or more transfer blocks are slidably connected in the sliding slot.
In the present invention, multiple thermally conductive fixed blocks are slidably connected on the thermal insulation board, it is described thermally conductive solid
The glide direction for determining block is parallel to the table top of the workbench, and the glide direction of the thermally conductive fixed block is perpendicular to the transfer block
Glide direction.
In the present invention, the quadrangle of the thermal insulation board slidably connects a guide post, the thermal insulation board and described
It is slidably connected between guide post by linear bearing;
Connecting plate is connected on the telescopic rod of the cylinder, the connecting plate is connected to the top of the thermal insulation board, described
Thermally conductive fixed block is connected to the bottom of the thermal insulation board, and screw passes through the connecting plate, the thermal insulation board and described thermally conductive solid
Determine block to connect with nut.
Further, the end of telescopic rod is provided with limit end, when the connecting plate, the thermal insulation board and described
When thermally conductive fixed block is fixedly connected by screw, pressing plate by the limit end pressing on the thermal insulation board, and the pressing plate
At a distance of set distance between the thermal insulation board;
It is provided with positioning column on the thermal insulation board, is provided on the thermally conductive fixed block corresponding with the positioning column
Location hole, the aperture of through-hole corresponding with screw is greater than the diameter of axle of screw on the thermally conductive fixed block.
Further, the efficient air pressure hot melt riveter further includes pressing component, and the pressing component includes connection
Column, pressing column and spring;
The connecting column is fixedly connected on the middle part of the thermally conductive fixed block bottom surface, and the pressing column is slidably socketed described
On connecting column, the pressing column includes initial bit and pressing position on sliding trace;
The pressing column is provided with position limiting convex ring far from one end side of the thermally conductive fixed block, and the spring is socketed in institute
It states on pressing column and limit is between the thermally conductive fixed block and the position limiting convex ring, the spring squeezes the pressure for elasticity
Gu column is to initial bit, during rivet hot column pushes rivet hot, the pressing column is squeezed by product and slides into pressing by the initial bit
Position.
The utility model compared to the prior art, rivets it has the advantage that: the efficient air pressure of the utility model heats
Rivet hot column and connect by sliding setting transfer block in thermally conductive fixed block by machine with transfer block, the thermally conductive fixed block of guarantee with
While heat transfer between rivet hot column, moreover it is possible to so that the position of rivet hot column is adjustable, so that multiple rivet hot columns can be easily
Processing have different riveting locations plurality of specifications product, the range of work is wide, high in machining efficiency;
Wherein, it is provided with the first thread segment and primary optic axis section on rivet hot column, connection through-hole is provided in transfer block,
It connects and is provided with the second thread segment corresponding with the first thread segment on the hole wall of through-hole, and is corresponding with primary optic axis section
Second optical axis section, rivet hot column, which passes through, to be contacted through connection through-hole with the extruding of the inner wall of thermally conductive fixed block, and then fixed transfer block
Position, this enables rivet hot column very easily to connect with transfer block, while can guarantee have between transfer block and rivet hot column again
Preferable heat transfer also further ensures rivet hot 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 in embodiment
Required attached drawing is briefly described, and the accompanying drawings in the following description is only that the section Example of the utility model is corresponding
Attached drawing.
Fig. 1 is the structural schematic diagram of the preferred embodiment of the efficient air pressure hot melt riveter of the utility model.
Fig. 2 is the enlarged partial sectional view at the A of the efficient air pressure hot melt riveter in Fig. 1.
Fig. 3 is partial sectional view made by the D-D cutting line in Fig. 2.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those skilled in the art are obtained without making creative work
The every other embodiment obtained, fall within the protection scope of the utility model.
In the prior art, the riveting machine for being fixedly installed multiple rivet hot columns can only carry out riveting to the bulk article of same specification
It connects, or is added by the way that a rivet hot column is only fixedly installed come the riveting that carries out of the riveting location on the product to different size one by one
Work, this makes riveting machine in the prior art there are the ranges of work limited, high production cost, time-consuming, processing efficiency is low etc. to ask
Topic.
It the following is a kind of efficient air pressure hot melt riveter that can solve the above technical problem provided by the utility model
Preferred embodiment.
Fig. 1 is please referred to, wherein Fig. 1 is the structure of the preferred embodiment of the efficient air pressure hot melt riveter of the utility model
Schematic diagram.
The similar unit of structure is to be given the same reference numerals in the figure.
A kind of preferred embodiment of efficient air pressure hot melt riveter provided by the utility model are as follows: efficient air pressure hot melt
Riveting machine comprising workbench 11, control cabinet 12, cylinder 13 and rivet hot component
Wherein, workbench 11 is for placing product to be processed;
Control cabinet 12 is located at the top of workbench 11, the electrical control assembly including inside, the control cabinet in the present embodiment
Be provided on 12 air gauge, crawl lifting key, crawl depressed key, auto-manual switch key, power supply indicator, push stopwatch,
It preheats stopwatch, upper mold temperature control button and pushes the components such as speedometer;
Cylinder 13 is arranged in control cabinet 12 and is electrically connected with electrical control assembly, 131 extension of telescopic rod of cylinder 13
To the bottom of control cabinet 12;
Rivet hot component includes rivet hot column 14, thermally conductive fixed block 15, transfer block 1B, heat-generating pipe 1C and thermal insulation board 16, thermally conductive
Fixed block 15 is connect by thermal insulation board 16 with the telescopic rod 131 of cylinder 13, and heat-generating pipe 1C is connected to the interior of thermally conductive fixed block 15
Portion, transfer block 1B is slidably arranged in thermally conductive fixed block 15 and glide direction is parallel to the table top of workbench 11, rivet hot column 14
One end is connect with transfer block 1B, so that rivet hot column 14 can pass through the sliding adjusting position of transfer block 1B;
Wherein the bottom end of rivet hot column 14 is provided with type chamber, and rivet hot column 14, which heats the riveting column that need to be riveted, makes it melt and fill type
Chamber forms riveter after cooling and solidifying, thus fixed product.
Referring to figure 2. and Fig. 3, wherein Fig. 2 is that the partial enlargement at the A of efficient air pressure hot melt riveter in Fig. 1 cuts open
View, Fig. 3 are partial sectional view made by the D-D cutting line in Fig. 2, and are non-cutting at A in Fig. 1, and Fig. 2 is in Fig. 1
Amplify and carried out section view at A, carries out ladder along the axis of rivet hot column again along the turnover of 171 axis of screw and cut open to form Fig. 2, in Fig. 3
It is not drawn into thermal insulation board 16 and pressing plate 17.
Specifically, being provided with the first thread segment 141 and primary optic axis section 142 on rivet hot column 14, set on transfer block 1B
It is equipped with connection through-hole, connects and is provided with second thread segment corresponding with the first thread segment 141 on the hole wall of through-hole, and with
The corresponding second optical axis section of one optical axis section 142;
When rivet hot column 14 is connect with transfer block 1B, primary optic axis section 142 and the second optical axis section are in face contact, can guarantee transfer
Between block 1B and rivet hot column 14 have preferable heat transfer, rivet hot column 14 pass through through connection through-hole with thermally conductive fixed block 15
Inner wall squeezes contact, contacts so that transfer block 1B forms to squeeze with the inner wall of sliding slot 151, and then fixed transfer block 1B
Position, the connection and fixation of rivet hot column 14 are very simple and convenient.
Wherein, the one end of rivet hot column 14 far from transfer block 1B is riveting end, i.e. bottom end in Fig. 2 is riveting end, the
One optical axis section 142 is located remotely from the one end at riveting end, and the length of primary optic axis section 142 is greater than the length of the second optical axis section, works as heat
When the extruding of the inner wall of riveting column 14 and thermally conductive fixed block 15 contacts, full section the second optical axis Duan Junyu primary optic axis section 142 is in face contact,
Guarantee heat transfer to greatest extent.
In addition, the bottom side of transfer block 1B is provided with convex block 1B1, be provided on the bottom surface of thermally conductive fixed block 15 with it is convex
The corresponding bit-avoiding slot of block 1B1, convex block 1B1 pass through bit-avoiding slot and extend and protrude from the bottom surface of thermally conductive fixed block 15, and convex block 1B1 is convex
It is provided with out and is conducive to stir the position for adjusting transfer block 1B, the side of convex block 1B1 and the inner wall of bit-avoiding slot are in face contact, are protected
Demonstrate,proving has preferable heat transfer between thermally conductive fixed block 15 and transfer block 1B, connection through-hole runs through convex block 1B1.
Optionally, it may be provided with the parallel sliding slot 151 of a plurality of extending direction in thermally conductive fixed block 15, in every sliding slot
One or more transfer block 1B are slidably connected in 151, can be used for that riveting location on product is more, and the feelings that distribution area is wider
Condition.
Optionally, the multiple thermally conductive fixed blocks 15 of slidable connection, the glide direction of thermally conductive fixed block 15 on thermal insulation board 16
It is parallel to the table top of workbench 11, the settable one or more rivet hot columns 14 of each thermally conductive fixed block 15;
The glide direction of thermally conductive fixed block 15 perpendicular to transfer block 1B glide direction so that rivet hot column 14 can be parallel
In in the plane of 11 table top of workbench, along two mutually perpendicular direction adjusting positions, so that the phase between multiple rivet hot columns 14
Stronger to the adjustability of position, such design cost is higher, therefore can be for product batches are more and diversified in specifications, rivet simultaneously
Position is more, and the wider situation of distribution area is designed.
The quadrangle of thermal insulation board 16 in this preferred embodiment slidably connects a guide post 18, thermal insulation board 16 and guide post
It is slidably connected between 18 by linear bearing 181;
Connecting plate is connected on the telescopic rod 131 of cylinder 13, connecting plate is connected to the top of thermal insulation board 16, thermally conductive fixed block
15 are connected to the bottom of thermal insulation board 16, and screw 171 passes through connecting plate, thermal insulation board 16 and thermally conductive fixed block 15 and connect with nut.
Wherein, the end of telescopic rod 131 is provided with limit end 132, when connecting plate, thermal insulation board 16 and thermally conductive fixation
Block 15 by screw 171 be fixedly connected when, pressing plate 17 will limit 132 pressing of end on thermal insulation board 16, and pressing plate 17 with it is heat-insulated
At a distance of set distance between plate 16, so that absolute guarantee limit end 132 is contacted on thermal insulation board 16 by pressing;
It is provided with positioning column on thermal insulation board 16, positioning corresponding with positioning column is provided on thermally conductive fixed block 15
Hole, the aperture of through-hole corresponding with screw 171 is greater than the diameter of axle of screw 171 on thermally conductive fixed block 15, to reduce thermally conductive solid
Determine the heat that block 15 is conducted through screw 171.
Efficient air pressure hot melt riveter in the present embodiment further includes pressing component 19, and pressing component 19 includes connecting column
191, pressing column 192 and spring 194;
Connecting column 191 is fixedly connected on the middle part of thermally conductive 15 bottom surface of fixed block, and pressing column 192 is slidably socketed in connecting column
On 191, pressing column 192 includes initial bit and pressing position on sliding trace;
Pressing column 192 is provided with position limiting convex ring 193 far from one end side of thermally conductive fixed block 15, and spring 194 is socketed in pressure
Gu on column 192 and limit is between thermally conductive fixed block 15 and position limiting convex ring 193, spring 194 squeezes pressing column 192 for elasticity
To initial bit, during rivet hot column 14 pushes rivet hot, pressing column 192 is squeezed by product and slides into pressing position, pressing by initial bit
Column 192 can carry out pressing to product, can guarantee the stabilization of product in entire riveting process prior to 14 contact product of riveting column
Property, and then guarantee riveting quality.
Working principle of the utility model is: taking product that it is compared position with rivet hot column 14, first so as to by unscrewing
Rivet hot column 14, and slidable adjustment transfer block 1B carrys out adjusting position, so that the multidigit riveting on the position and product of multiple rivet hot columns 14
It is corresponding to connect position;
Then product is fixed on workbench 11, heat-generating pipe 1C is opened by the switch button on control cabinet 12, it can
Control the temperature of heat-generating pipe 1C by setting temperature sensor, and then control rivet hot column 14 and be heated to set temperature, then by
Cylinder 13 controls telescopic rod and extends so that the pushing of rivet hot column is riveted, and meeting stop in the riveting location of product in riveting process
Setting time is stayed, riveting column melt molding is made, cooling can be blowed by setting blowing apparatus here later, or in rivet hot column
The modes such as 14 riveting end coating adherent layer, so that riveter forming and hardening.
The riveting process of the efficient air pressure hot melt riveter of this preferred embodiment is completed in this way.
Transfer block is arranged by sliding in thermally conductive fixed block in the efficient air pressure hot melt riveter of this preferred embodiment, and
Rivet hot column is connect with transfer block, while guaranteeing the heat transfer between thermally conductive fixed block and rivet hot column, moreover it is possible to so that rivet hot
The position of column is adjustable, so that multiple rivet hot columns can very easily process the production of the plurality of specifications with different riveting locations
Product, the range of work is wide, high in machining efficiency;
Wherein, it is provided with the first thread segment and primary optic axis section on rivet hot column, connection through-hole is provided in transfer block,
It connects and is provided with the second thread segment corresponding with the first thread segment on the hole wall of through-hole, and is corresponding with primary optic axis section
Second optical axis section, rivet hot column, which passes through, to be contacted through connection through-hole with the extruding of the inner wall of thermally conductive fixed block, and then fixed transfer block
Position, this enables rivet hot column very easily to connect with transfer block, while can guarantee have between transfer block and rivet hot column again
Preferable heat transfer also further ensures rivet hot efficiency.
Although above preferred embodiment is not used in conclusion the utility model is disclosed above with preferred embodiment
To limit the utility model, those skilled in the art can make without departing from the spirit and scope of the utility model
It is various to change and retouch, therefore the protection scope of the utility model subjects to the scope of the claims.
Claims (9)
1. a kind of efficient air pressure hot melt riveter characterized by comprising
Workbench, for placing product to be processed;
Control cabinet, positioned at the top of the workbench, including internal electrical control assembly;
Cylinder is arranged in the control cabinet and is electrically connected with the electrical control assembly, the telescopic rod extension of the cylinder
To the bottom of the control cabinet;
Rivet hot component, including rivet hot column, thermally conductive fixed block, transfer block, heat-generating pipe and thermal insulation board, the thermally conductive fixed block pass through
The thermal insulation board is connect with the telescopic rod of the cylinder, and the heat-generating pipe is connected to the inside of the thermally conductive fixed block, it is described in
Switch block is slidably arranged in the thermally conductive fixed block and glide direction is parallel to the table top of the workbench, and the one of the rivet hot column
End is connect with the transfer block.
2. efficient air pressure hot melt riveter according to claim 1, which is characterized in that be provided on the rivet hot column
First thread segment and primary optic axis section are provided with connection through-hole in the transfer block, are arranged on the hole wall of the connection through-hole
There are the second thread segment corresponding with first thread segment, and the second optical axis section corresponding with the primary optic axis section,
When the rivet hot column is connect with the transfer block, the primary optic axis section and the second optical axis section are in face contact, the rivet hot
Column through the connection through-hole with squeezing with the inner wall of the thermally conductive fixed block by being contacted, and then the position of the fixed transfer block
It sets.
3. efficient air pressure hot melt riveter according to claim 2, which is characterized in that the rivet hot column is far from described
One end of switch block is riveting end, and the primary optic axis section is located remotely from the one end at the riveting end, the length of the primary optic axis section
Degree is greater than the length of the second optical axis section, when the extruding of the inner wall of the rivet hot column and the thermally conductive fixed block contacts, full section
Primary optic axis section described in the second optical axis Duan Junyu is in face contact.
4. efficient air pressure hot melt riveter according to claim 2, which is characterized in that the bottom side of the transfer block
It is provided with convex block, bit-avoiding slot corresponding with the convex block is provided on the bottom surface of the thermally conductive fixed block, the convex block is worn
Cross the bottom surface that the bit-avoiding slot extends and protrudes from the thermally conductive fixed block, the inner wall of the side of the convex block and the bit-avoiding slot
Face is in face contact, and the connection through-hole runs through the convex block.
5. efficient air pressure hot melt riveter according to claim 1, which is characterized in that set in the thermally conductive fixed block
It is equipped with the parallel sliding slot of a plurality of extending direction, one or more transfer blocks are slidably connected in the every sliding slot.
6. efficient air pressure hot melt riveter according to claim 1, which is characterized in that the company of sliding on the thermal insulation board
Multiple thermally conductive fixed blocks are connected to, the glide direction of the thermally conductive fixed block is parallel to the table top of the workbench, described to lead
Glide direction of the glide direction of heat fixation block perpendicular to the transfer block.
7. efficient air pressure hot melt riveter according to claim 1, which is characterized in that the quadrangle of the thermal insulation board is sliding
It is dynamic to be connected with a guide post, it is slidably connected between the thermal insulation board and the guide post by linear bearing;
Connecting plate is connected on the telescopic rod of the cylinder, the connecting plate is connected to the top of the thermal insulation board, described thermally conductive
Fixed block is connected to the bottom of the thermal insulation board, and screw passes through the connecting plate, the thermal insulation board and the thermally conductive fixed block
It is connect with nut.
8. efficient air pressure hot melt riveter according to claim 7, which is characterized in that be provided in the end of telescopic rod
End is limited, when the connecting plate, the thermal insulation board and the thermally conductive fixed block are fixedly connected by screw, pressing plate is by institute
Limit end pressing is stated on the thermal insulation board, and at a distance of set distance between the pressing plate and the thermal insulation board;
It is provided with positioning column on the thermal insulation board, it is corresponding with the positioning column fixed to be provided on the thermally conductive fixed block
Position hole, the aperture of through-hole corresponding with screw is greater than the diameter of axle of screw on the thermally conductive fixed block.
9. efficient air pressure hot melt riveter according to claim 1, which is characterized in that the efficient air pressure heats riveting
Picking further includes pressing component, and the pressing component includes connecting column, pressing column and spring;
The connecting column is fixedly connected on the middle part of the thermally conductive fixed block bottom surface, and the pressing column is slidably socketed in the connection
On column, the pressing column includes initial bit and pressing position on sliding trace;
The pressing column is provided with position limiting convex ring far from one end side of the thermally conductive fixed block, and the spring is socketed in the pressure
Gu on column and limit is between the thermally conductive fixed block and the position limiting convex ring, the spring squeezes the pressing column for elasticity
To initial bit, during rivet hot column pushes rivet hot, the pressing column is squeezed by product and slides into pressing position by the initial bit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821850853.4U CN209141467U (en) | 2018-11-09 | 2018-11-09 | Efficient air pressure hot melt riveter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821850853.4U CN209141467U (en) | 2018-11-09 | 2018-11-09 | Efficient air pressure hot melt riveter |
Publications (1)
Publication Number | Publication Date |
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CN209141467U true CN209141467U (en) | 2019-07-23 |
Family
ID=67285161
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821850853.4U Expired - Fee Related CN209141467U (en) | 2018-11-09 | 2018-11-09 | Efficient air pressure hot melt riveter |
Country Status (1)
Country | Link |
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CN (1) | CN209141467U (en) |
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2018
- 2018-11-09 CN CN201821850853.4U patent/CN209141467U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20190723 Termination date: 20201109 |