CN108454157A - A kind of intelligent temperature press forming device - Google Patents
A kind of intelligent temperature press forming device Download PDFInfo
- Publication number
- CN108454157A CN108454157A CN201810402480.2A CN201810402480A CN108454157A CN 108454157 A CN108454157 A CN 108454157A CN 201810402480 A CN201810402480 A CN 201810402480A CN 108454157 A CN108454157 A CN 108454157A
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B11/00—Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses
- B30B11/02—Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses using a ram exerting pressure on the material in a moulding space
- B30B11/04—Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses using a ram exerting pressure on the material in a moulding space co-operating with a fixed mould
- B30B11/06—Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses using a ram exerting pressure on the material in a moulding space co-operating with a fixed mould each charge of the material being compressed against the previously formed body
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B15/00—Details of, or accessories for, presses; Auxiliary measures in connection with pressing
- B30B15/32—Discharging presses
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The invention discloses a kind of intelligent temperature press forming devices, including body and the powder input magazine being arranged at the top of the body, working chamber is equipped in the body, shaping box and finished product collecting box are equipped in the working chamber, forming cavity is equipped in the shaping box, the forming cavity is equipped with charged piston, the forming cavity is equipped with heater, powdering inlet is equipped at the top of the shaping box, powder pre-treating case is equipped at the top of the powder input magazine, the powdering inlet is equipped with powder check valve structure, the shaping box top inner wall connection rotary shaft A, the ends the rotary shaft A are equipped with cam A, the ends the rotary shaft A are equipped with cam B, the body right end is equipped with motor, the shaping box and finished product collecting box perforation are equipped with low water under finished product, finished product placement plate is equipped in the finished product collecting box;The configuration of the present invention is simple, easy to operate, high degree of automation is highly practical, meanwhile, improve powder warm compaction molding efficiency and effect.
Description
Technical field
The present invention relates to warm compaction molding technical field, specifically a kind of intelligent temperature press forming device.
Background technology
With the development of science and technology, social progress, country promotes always high-tech development, in warm compaction molding technical field
In, a relatively difficult technical problem is always existed, is exactly powder input mostly manual control, the degree of automation is low, finished product
It is relatively complicated to take out program, and equipment is not compact enough, efficient, economy is very low, this device efficiently solves the problems, such as this.
Invention content
Technical problem to be solved by the invention is to provide a kind of intelligent temperature press forming devices, can solve above-mentioned present
The problems in technology.
The present invention is achieved through the following technical solutions:A kind of intelligent temperature press forming device of the present invention, including machine
Body and the powder input magazine being arranged at the top of the body, the powder input magazine is interior to be equipped with powder input cavity, the body
It is interior to be equipped with working chamber, it is equipped with shaping box and finished product collecting box in the working chamber successively from top to bottom, is equipped in the shaping box
Forming cavity is slidably connected in the forming cavity and is connected with charged piston, and the charged piston right end hinge connection, which has, stretches to the right
Piston push rod, forming cavity left end space wall insertion is equipped with heater, in the shaping box top inner wall body perforation set
There is powdering inlet, is stretched at the top of the powdering inlet in the powder input cavity and top end penetrates through powder input magazine top
Portion's inner wall, the powder input magazine top are equipped with the powder pre-treating case communicated with the powdering inlet, the powdering inlet
It is equipped with the powder check valve structure being located in the powder input cavity, is rotated in the shaping box top inner wall body and combines connection
There is the bottoms rotary shaft A, the rotary shaft A stretching, extension end for being located at the charged piston right end and stretching up and down to stretch into the molding
Intracavitary and it is equipped with the cam A of long section to the left in end, the cam A bottom ends connect with piston push rod right end end hinge
It connects, the piston push rod bottom end face is equipped with the protrusion positioned at the bottoms the cam A, and the rotary shaft A is equipped with positioned at described
At the top of the cam A and turbine inside the forming cavity, the tops the rotary shaft A stretching, extension end is stretched into the powder input cavity
And it is equipped with the cam B of the length section that is connect with the powder check valve structural dynamic to the right in end, on body right end end face
Equipped with the motor positioned at the shaping box right end, motor left end end power be connected to positioned at the front ends the rotary shaft A and
The rotary shaft B of left and right stretching, extension, rotary shaft B left ends stretching, extension end are stretched into the forming cavity and are fixedly connected in end useful
With the worm screw for the left and right stretching, extension being connect with the turbo-power, shaping box bottom left end and the finished product collecting box top left
End perforation is equipped with low water under finished product, be equipped in the finished product collecting box be fixedly connected with the pushing block left end and top with it is described
Low water insertion connects and the finished product placement plate for the connection that is slidably connected under finished product, in the finished product collecting chamber bottom stationary phase be connected to
The biasing springs A that finished product placement plate lower part is fixedly connected, finished product collecting chamber left side perforation are equipped with product outlet slot A,
Perforation is equipped with the product outlet slot B with the product outlet slot A flushes, the powder input magazine top on the left of the working chamber
End face is equipped with Intelligent cooling device.
Preferably technical solution, the powder check valve structure include left and right perforation sliding rail slot, the sliding
It is slidably connected to be connected in track groove and only leads to block to the powder to connect with the cam B power, the powder, which only leads in block, to be set
There is powder only to thread a pipe, the powder is only threaded a pipe penetrates through the powder only logical block vertically, and powder input channel bottom is stretched
Exhibition end is stretched into the forming cavity, and the powder input magazine left end inner wall stationary phase is connected to only leads to block left end positioned at the powder
Fixed column, the fixed column and the powder are only equipped with biasing springs B between logical block.
Preferably technical solution, the motor upper and lower end face are equipped with and are arranged symmetrically in one's ear, the spiral shell interior in one's ear
Line, which combines, is connected with left and right stretching, extension screw, and screw left end stretching, extension end stretches into body and is screwed connection therewith.
Preferably technical solution, the Intelligent cooling device include being arranged in the powder input magazine top end surface
And symmetrical support carries block, two supports are equipped with suspension block between carrying block, opening are equipped in the suspension block bottom end face
Downward volume wind chamber, the volume wind top of chamber are equipped with inner cavity, are rotatably assorted between the inner cavity and the volume wind chamber and are connected with a left side
Rotation axis that is right symmetrical and extending up and down, rotation axis bottom extending end put in the volume wind intracavitary and are circumferentially set in end
There is volume air blade, rotation axis top extending end puts in the interior intracavitary and is equipped with the first related wheel in end, described interior
Kinetic pump is embedded in top of chamber inner wall, the kinetic pump bottom end be connected by power has the second related wheel, and described first is related
Be connected by power has plastic band between wheel and the second related wheel, is communicated equipped with symmetrical receipts in described volume wind chamber or so inner wall
Tracheae.
The beneficial effects of the invention are as follows:In the initial state, the cam A long sections are located at the rotation to the equipment of the present invention
Axis A center line left ends, at this point, the charged piston is located at the left end of its periodical stroke, the pushing block is utmostly stretched
Enter in the forming cavity, inner wall insertion and finished product collecting chamber Nell wall insertion close contact and institute in the finished product placement plate
It states finished product placement plate left hand projection to be partially submerged under the finished product in low water, the cam B long sections rotary shaft A center lines are right
End, at this point, the powder stops the right end that logical block is located at its shift motion, the powder input channel stops siphunculus with the powder
Road completely disengages, consequently facilitating the maintenance of device.
When carrying out warm compaction molding work with the equipment of the present invention, first by the powdering inlet and shaping powder needed for the external world
Last storage device is connected, and powder is pretreated after the powder pre-treating case, then pass through the powder input channel into
Enter in the forming cavity, carry out follow-up temperature-pressure processing, to simplify warm compaction molding operating procedure.
When warm compaction molding processing work need to be carried out, starts the motor and drives the rotary shaft B and worm screw rotation,
The worm screw drives the turbine rotation and the rotary shaft A rotates, and the rotary shaft A drives the cam A and cam B
Rotation, the cam A drive the charged piston periodically to move left and right, and the cam B drives the powder only to lead to block week
Phase property moves left and right, to improve device powder warm compaction molding working efficiency and effect.
When needing to input powder, the motor rotation, the cam A drives the charged piston to move right, at this point,
The cam B long sections are located at the rotary shaft A center line left ends, and the powder stops moving to left for logical block range, makes the powder
Last input channel is only threaded a pipe with the powder and is connected to, and powder is by the powder pre-treating case through the powder input channel and institute
It states powder only to thread a pipe and enter in the forming cavity, improves powder delivery efficiency and reduce waste of material.
When needing warm compaction molding to work, start the heater make the molding cavity temperature maintain to powder temperature and pressure at
Type required temperature, at this time the motor continue to rotate, the cam B long sections are gradually moved into the rotary shaft A center line right ends,
The powder input channel and the powder stop disconnection of threading a pipe, and the cam A drives the charged piston to be moved to the left, described
It is molded cavity pressure to increase, under the effect of suitable temperature and pressure, powder warm compaction molding improves warm compaction molding effect at finished product
Rate and effect.
When the completion of powder warm compaction molding needs to take out finished product, the motor continues to rotate, at this point, the cam A drives
The protrusion is in close contact with the pushing block, and the pushing block drives the finished product placement plate to move down, when the protrusion
When lowest point is in close contact with the pushing block, the finished product placement plate is moved down into extreme lower position, at this time can be by described
The product outlet slot A and product outlet slot B takes out the finished product in the finished product placement plate, easy to operation, improves the reality of device
The property used.
When taking out finished product and needing to restore initial position, the motor continues to rotate, the cam A drive the protrusion by
It is gradually detached with the pushing block, the finished product placement plate and the pushing block are moved upwards up under biasing springs A effects
Extreme higher position, easily operated, high degree of automation.
The present invention device structure it is simple, it is easy to operate, by using under closed environment carry out warm compaction molding work,
Warm compaction molding efficiency and effect of the device to powder are improved, it is real further through use same mechanism during road is changed in backhaul
It now automatically enters powder and finished product can rationally be placed, easy to operation, high degree of automation, be applicable in series and enrich, meanwhile, also carry
High device practical performance.
Description of the drawings
The present invention is described in detail by following specific embodiment and attached drawing for ease of explanation,.
Inside overall structure diagram when Fig. 1 is a kind of intelligent temperature press forming device powder warm compaction molding of the present invention.
Fig. 2 is inside overall structure diagram when a kind of intelligent temperature press forming device finished product of the present invention takes out.
Fig. 3 is inside overall structure diagram when a kind of intelligent temperature press forming device powder of the present invention automatically enters.
Specific implementation mode
As shown in Figure 1-Figure 3, a kind of intelligent temperature press forming device of the invention, including body 100 and setting are described
The powder input magazine 146 at 100 top of body, the powder input magazine is interior to be equipped with powder input cavity 147, is set in the body 100
There is working chamber 149, shaping box 102 and finished product collecting box 108, the molding are equipped with successively from top to bottom in the working chamber 149
It is equipped with forming cavity 103 in case 102, is slidably connected in the forming cavity 103 and is connected with charged piston 101, the charged piston 101
Right end hinge connection has the piston push rod 104 stretched to the right, the insertion of 103 left end space wall of the forming cavity to be equipped with heater
106, the interior perforation of the shaping box top inner wall body is equipped with powdering inlet 138, and the powder is stretched at 138 top of the powdering inlet
In input cavity 147 and top end penetrates through the 146 top inner wall body of powder input magazine, and 146 top of the powder input magazine is set
There are the powder pre-treating case 137 communicated with the powdering inlet 138, the powdering inlet 138 to be equipped with defeated positioned at the powder
Enter the powder check valve structure in chamber 147, in 102 top inner wall body of the shaping box rotation be located at the supercharging in conjunction with being connected with
101 right end of piston and the bottoms rotary shaft A133, the rotary shaft A133 stretched up and down stretch end and stretch into the forming cavity 103
It is interior and be equipped with the cam A126 of long section to the left, the cam A126 bottom ends and the piston push rod 104 right end end in end
Hinge connection, 104 bottom end face of the piston push rod is held to be equipped with the protrusion 125 positioned at the bottoms the cam A126, the rotation
Axis A133, which is equipped with, is located at the tops the cam A126 and the turbine 132 inside the forming cavity 103, the rotary shaft A133
Top stretching, extension end is stretched into the powder input cavity 147 and is equipped in end and connect with the powder check valve structural dynamic
The cam B134 of long section to the right, 100 right end end face of the body are equipped with the motor 129 positioned at 102 right end of the shaping box, institute
It states 129 left end end power of motor and is connected to rotary shaft B130 positioned at the front ends the rotary shaft A133 and left and right stretching, extension, it is described
Rotary shaft B130 left ends stretching, extension end stretch into the forming cavity 103 and end be fixedly connected have to the turbine 132
The worm screw 131 of the left and right stretching, extension of be connected by power, shaping box bottom left end and 108 top left of finished product collecting box perforation
Be equipped with equipped with low water under finished product 112, in the finished product collecting box 108 be fixedly connected with 124 left end of the pushing block and top with
The insertion of low water 105 connects and the finished product placement plate 105 for the connection that is slidably connected under the finished product, bottom in the finished product collecting chamber 108
Portion's stationary phase is connected to the biasing springs A being fixedly connected with 105 lower part of finished product placement plate, 107 left side of the finished product collecting chamber
Perforation is equipped with product outlet slot A111, and 149 left side perforation of the working chamber is equipped with and the product outlet slot A111 flushes
Product outlet slot B110,146 top end surface of powder input magazine are equipped with Intelligent cooling device.
Valuably, the powder check valve structure includes left and right perforation sliding rail slot 136, the sliding rail slot 136
It is inside slidably connected to be connected with and only leads to block 141 to the powder to connect with the cam B134 power, the powder is only in logical block 141
Only 135 are threaded a pipe equipped with powder, and the powder is only threaded a pipe 135 penetrates through the powder only logical block 141, the powder input vertically
145 bottom of pipeline stretching, extension end is stretched into the forming cavity 103, and 146 left end inner wall stationary phase of the powder input magazine is connected to position
Stop the fixed column 144 of logical 141 left end of block in the powder, the fixed column 144 and the powder are only equipped between logical block 141 and push away
Pressing spring B143.
Valuably, 129 upper and lower end face of the motor is equipped in one's ear 128 be arranged symmetrically, the 128 internal thread knot in one's ear
Conjunction is connected with left and right stretching, extension screw 127, and 127 left end of screw stretching, extension end stretches into body 100 and is screwed connection therewith.
Valuably, the Intelligent cooling device include be arranged in 146 top end surface of powder input magazine and left and right pair
The support of title carries block 200, and two supports are equipped with suspension block 200 between carrying block 200, are equipped in 200 bottom end face of the suspension block
Open downward volume wind chamber 210,210 top of the volume wind chamber are equipped with inner cavity 203, the inner cavity 203 and the volume wind chamber 210 it
Between be rotatably assorted and be connected with rotation axis 208 that is symmetrical and extending up and down, 208 bottom extending end of the rotation axis puts in institute
It states in volume wind chamber 210 and is circumferentially with volume air blade 209 in end, 208 top extending end of the rotation axis is put in described
It is equipped with the first related wheel 207 in chamber 203 and in end, kinetic pump 204 is embedded in 203 top inner wall of the inner cavity, it is described dynamic
Power, which pumps 204 bottom end be connected by powers, the second related wheel 205, the first related wheel 207 and the described second related wheel 205 it
Between be connected by power have plastic band 206, communicated equipped with symmetrical getter pipe 201 in 210 or so the inner wall of volume wind chamber.
In the initial state, the cam A126 long sections are located at a rotary shaft A133 center lines left side to the equipment of the present invention
End, at this point, the charged piston 101 is located at the left end of its periodical stroke, the pushing block 124 utmostly stretches into described
In forming cavity 103, inner wall insertion and 107 Nell wall of finished product collecting chamber insertion close contact in the finished product placement plate 105
And 105 left hand projection of finished product placement plate is partially submerged under the finished product in low water 105, the cam B134 long sections rotation
Shaft A133 center line right ends, at this point, the powder stops the right end that logical block 141 is located at its shift motion, the powder input
Pipeline 145 and the powder, which are only threaded a pipe, 135 to be completely disengaged.
When carrying out warm compaction molding work with the equipment of the present invention, first by the powdering inlet 138 with it is extraneous required at
Type powder storage device is connected, and powder is pretreated after the powder pre-treating case 137, is then inputted by the powder
Pipeline 145 enters in the forming cavity 103, carries out follow-up temperature-pressure processing.
When warm compaction molding processing work need to be carried out, starts the motor 129 and drive the rotary shaft B130 and the snail
Bar 131 rotates, and the turbine 132 is driven to rotate for the worm screw 131 and the rotary shaft A133 rotates, the rotary shaft A133 bands
The cam A126 and cam B134 rotations are moved, the cam A126 drives the charged piston 101 periodically to the left and right
Mobile, the cam B134 drives the powder, and only logical block 141 periodically moves left and right.
When needing to input powder, the motor 129 rotates, and the cam A126 drives the charged piston 101 to the right
Mobile, at this point, the cam B134 long sections are located at the rotary shaft A133 center line left ends, only logical block 141 is maximum for the powder
Stroke moves to left, and so that the powder input channel 145 and the powder is only threaded a pipe and 135 is connected to, powder by the powder in advance
Reason case 137 135 enters in the forming cavity 103 through the powder input channel 145 and only threading a pipe with the powder.
When needing warm compaction molding to work, starting the heater 106 makes temperature in the forming cavity 103 maintain to powder
Warm compaction molding required temperature, at this time the motor 129 continue to rotate, the cam B134 long sections are gradually moved into the rotary shaft
A133 center line right ends, the powder input channel 145 and the powder stop 135 disconnections of threading a pipe, and the cam A126 drives
The charged piston 101 is moved to the left, and pressure increases in the forming cavity 103, under the effect of suitable temperature and pressure, powder
Warm compaction molding is at finished product.
When the completion of powder warm compaction molding needs to take out finished product, the motor 129 continues to rotate, at this point, the cam
A126 drives described raised 125 to be in close contact with the pushing block 124, and the pushing block 124 drives the finished product placement plate 105
It moves down, when raised 125 lowest point and the pushing block 124 are in close contact, the finished product placement plate 105 is to moving down
Extreme lower position is moved, can take out the finished product by the product outlet slot A111 and product outlet slot B110 at this time places
Finished product on plate 105.
When taking-up finished product needs to restore initial position, the motor 129 continues to rotate, described in the cam A126 drives
Protrusion 125 is gradually detached with the pushing block 124, the finished product placement plate 105 and described is pushed away under biasing springs A effects
Briquetting 125 is moved upwards up to extreme higher position.
The beneficial effects of the invention are as follows:In the initial state, the cam A long sections are located at the rotation to the equipment of the present invention
Axis A center line left ends, at this point, the charged piston is located at the left end of its periodical stroke, the pushing block is utmostly stretched
Enter in the forming cavity, inner wall insertion and finished product collecting chamber Nell wall insertion close contact and institute in the finished product placement plate
It states finished product placement plate left hand projection to be partially submerged under the finished product in low water, the cam B long sections rotary shaft A center lines are right
End, at this point, the powder stops the right end that logical block is located at its shift motion, the powder input channel stops siphunculus with the powder
Road completely disengages, consequently facilitating the maintenance of device.
When carrying out warm compaction molding work with the equipment of the present invention, first by the powdering inlet and shaping powder needed for the external world
Last storage device is connected, and powder is pretreated after the powder pre-treating case, then pass through the powder input channel into
Enter in the forming cavity, carry out follow-up temperature-pressure processing, to simplify warm compaction molding operating procedure.
When warm compaction molding processing work need to be carried out, starts the motor and drives the rotary shaft B and worm screw rotation,
The worm screw drives the turbine rotation and the rotary shaft A rotates, and the rotary shaft A drives the cam A and cam B
Rotation, the cam A drive the charged piston periodically to move left and right, and the cam B drives the powder only to lead to block week
Phase property moves left and right, to improve device powder warm compaction molding working efficiency and effect.
When needing to input powder, the motor rotation, the cam A drives the charged piston to move right, at this point,
The cam B long sections are located at the rotary shaft A center line left ends, and the powder stops moving to left for logical block range, makes the powder
Last input channel is only threaded a pipe with the powder and is connected to, and powder is by the powder pre-treating case through the powder input channel and institute
It states powder only to thread a pipe and enter in the forming cavity, improves powder delivery efficiency and reduce waste of material.
When needing warm compaction molding to work, start the heater make the molding cavity temperature maintain to powder temperature and pressure at
Type required temperature, at this time the motor continue to rotate, the cam B long sections are gradually moved into the rotary shaft A center line right ends,
The powder input channel and the powder stop disconnection of threading a pipe, and the cam A drives the charged piston to be moved to the left, described
It is molded cavity pressure to increase, under the effect of suitable temperature and pressure, powder warm compaction molding improves warm compaction molding effect at finished product
Rate and effect.
When the completion of powder warm compaction molding needs to take out finished product, the motor continues to rotate, at this point, the cam A drives
The protrusion is in close contact with the pushing block, and the pushing block drives the finished product placement plate to move down, when the protrusion
When lowest point is in close contact with the pushing block, the finished product placement plate is moved down into extreme lower position, at this time can be by described
The product outlet slot A and product outlet slot B takes out the finished product in the finished product placement plate, easy to operation, improves the reality of device
The property used.
When taking out finished product and needing to restore initial position, the motor continues to rotate, the cam A drive the protrusion by
It is gradually detached with the pushing block, the finished product placement plate and the pushing block are moved upwards up under biasing springs A effects
Extreme higher position, easily operated, high degree of automation.
The present invention device structure it is simple, it is easy to operate, by using under closed environment carry out warm compaction molding work,
Warm compaction molding efficiency and effect of the device to powder are improved, it is real further through use same mechanism during road is changed in backhaul
It now automatically enters powder and finished product can rationally be placed, easy to operation, high degree of automation, be applicable in series and enrich, meanwhile, also carry
High device practical performance.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection domain should be determined by the scope of protection defined in the claims.
Claims (4)
1. a kind of intelligent temperature press forming device, including body and the powder input magazine that is arranged at the top of the body, feature
It is:It is equipped with powder input cavity in the powder input magazine, is equipped with working chamber in the body, in the working chamber from top to bottom
It is equipped with shaping box and finished product collecting box successively, forming cavity is equipped in the shaping box, is slidably connected and is connected in the forming cavity
Charged piston, the charged piston right end hinge connection have the piston push rod stretched to the right, the forming cavity left end space wall
It is embedded to be equipped with heater, it is penetrated through in the shaping box top inner wall body and is equipped with powdering inlet, institute is stretched at the top of the powdering inlet
State in powder input cavity and top end penetrate through the powder input magazine top inner wall body, be equipped at the top of the powder input magazine with
The powder pre-treating case that the powdering inlet communicates, the powdering inlet, which is equipped with the powder being located in the powder input cavity, to be stopped
Port valve structure, rotation is in conjunction with being connected with positioned at the charged piston right end and stretch up and down in the shaping box top inner wall body
The bottoms rotary shaft A, rotary shaft A stretching, extension end is stretched into the forming cavity and is equipped with the cam A of long section to the left, institute in end
Cam A bottom ends and piston push rod right end end hinge connection are stated, the piston push rod bottom end face, which is equipped with, is located at institute
The protrusion of the bottoms cam A is stated, the rotary shaft A, which is equipped with, is located at the tops the cam A and the turbine inside the forming cavity,
Stretching, extension end is stretched into the powder input cavity and is equipped in end dynamic with the powder check valve structure at the top of the rotary shaft A
The cam B of the length section of power connection to the right, body right end end face is equipped with the motor positioned at the shaping box right end, the horse
It is connected to the rotary shaft B positioned at the front ends the rotary shaft A and left and right stretching, extension up to left end end power, the rotary shaft B left ends are stretched
Exhibition end is stretched into the forming cavity and is fixedly connected to have in end controls the snail stretched to what is connect with the turbo-power
Bar, shaping box bottom left end and finished product collecting box top left perforation are equipped with low water under finished product, and the finished product is collected
It is equipped in case and is fixedly connected with the pushing block left end and top is embedded in connect and be slidably connected and connect with low water under the finished product
Finished product placement plate, bottom stationary phase is connected to the pushing being fixedly connected with finished product placement plate lower part in the finished product collecting chamber
Spring A, on the left of the finished product collecting chamber perforation be equipped with product outlet slot A, on the left of the working chamber perforation be equipped with and the finished product
The product outlet slot B of outlet slot A flushes, the powder input magazine top end surface are equipped with Intelligent cooling device.
2. a kind of intelligent temperature press forming device according to claim 1, it is characterised in that:The powder check valve structure packet
Left and right perforation sliding rail slot is included, is slidably connected in the sliding rail slot and is connected with to connect with the cam B power
Only logical block, the powder stop the interior powder that is equipped with of logical block and only thread a pipe powder, and the powder stops threading a pipe penetrates through the powder vertically
Only lead to block, powder input channel bottom stretching, extension end is stretched into the forming cavity, and the powder input magazine left end inner wall is solid
Surely it is connected to the fixed column for only leading to block left end positioned at the powder, the fixed column and the powder are equipped with pushing between only leading to block
Spring B.
3. a kind of intelligent temperature press forming device according to claim 1, it is characterised in that:It is set on the motor upper and lower end face
It is arranged symmetrically in one's ear, the internal thread in one's ear, which combines, is connected with left and right stretching, extension screw, and screw left end stretching, extension end is stretched
Enter body and is screwed connection therewith.
4. a kind of intelligent temperature press forming device according to claim 1, it is characterised in that:The Intelligent cooling device includes
It is arranged in the powder input magazine top end surface and symmetrical support carries block, two supports is equipped with suspension between carrying block
Block, is equipped with open downward volume wind chamber in the suspension block bottom end face, and the volume wind top of chamber is equipped with inner cavity, the inner cavity with
It is rotatably assorted between the volume wind chamber and is connected with rotation axis that is symmetrical and extending up and down, rotation axis bottom extending end
It puts in the volume wind intracavitary and is circumferentially with volume air blade in end, extending end puts in the interior intracavitary at the top of the rotation axis
And it is equipped with the first related wheel in end, it is embedded with kinetic pump, the kinetic pump bottom end power in the inner cavity top inner wall
It is connected with the second related wheel, be connected by power has plastic band, the volume wind between the first related wheel and the second related wheel
It is communicated in chamber or so inner wall equipped with symmetrical getter pipe.
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CN201810402480.2A CN108454157A (en) | 2018-04-28 | 2018-04-28 | A kind of intelligent temperature press forming device |
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CN201810402480.2A CN108454157A (en) | 2018-04-28 | 2018-04-28 | A kind of intelligent temperature press forming device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112389004A (en) * | 2020-12-04 | 2021-02-23 | 兰州工业学院 | Hot-pressing forming mechanism and titanium alloy composite material processing die |
CN117067665A (en) * | 2023-09-18 | 2023-11-17 | 浙江德龙科技有限公司 | Temperature isostatic pressing machine |
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CN102873896A (en) * | 2012-09-28 | 2013-01-16 | 天津赛象科技股份有限公司 | Efficient triple-drum forming machine |
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CN105034437A (en) * | 2015-07-12 | 2015-11-11 | 四川海和风科技有限公司 | Biofuel particle normal-temperature forming machine |
CN206747588U (en) * | 2017-03-24 | 2017-12-15 | 上海家声汽车零部件有限公司 | A kind of powder warm compaction molding heating equipment special |
CN207058836U (en) * | 2017-08-03 | 2018-03-02 | 雅安远创陶瓷有限责任公司 | A kind of energy-saving cold isostatic pressing machine |
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CN102873896A (en) * | 2012-09-28 | 2013-01-16 | 天津赛象科技股份有限公司 | Efficient triple-drum forming machine |
CN102896320A (en) * | 2012-11-14 | 2013-01-30 | 曹艺 | Warm-pressing process of powder metallurgy |
CN105034437A (en) * | 2015-07-12 | 2015-11-11 | 四川海和风科技有限公司 | Biofuel particle normal-temperature forming machine |
CN206747588U (en) * | 2017-03-24 | 2017-12-15 | 上海家声汽车零部件有限公司 | A kind of powder warm compaction molding heating equipment special |
CN207058836U (en) * | 2017-08-03 | 2018-03-02 | 雅安远创陶瓷有限责任公司 | A kind of energy-saving cold isostatic pressing machine |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112389004A (en) * | 2020-12-04 | 2021-02-23 | 兰州工业学院 | Hot-pressing forming mechanism and titanium alloy composite material processing die |
CN117067665A (en) * | 2023-09-18 | 2023-11-17 | 浙江德龙科技有限公司 | Temperature isostatic pressing machine |
CN117067665B (en) * | 2023-09-18 | 2024-03-15 | 浙江德龙科技有限公司 | Temperature isostatic pressing machine |
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Application publication date: 20180828 |