CN2699712Y - Badge manufacturing installation - Google Patents

Abstract

The utility model relates to a badge manufacturing device. The badge manufacturing device (1) comprises a base table (2), a sliding table (100) which can reciprocally moved on the base table, the first and the second bearing moulds (110) and (140) which are arranged on the both sides of the reciprocate direction of the sliding table (100), an extrude screw shaft (30), a pressure mould (40) which is arranged on the lower end of the extrusion screw shaft (30) and is used for engaging with the first bearing mould (110) or the second bearing mould (140), and an operating handle (32) which is arranged on the upper part of the extrusion screw shaft (30). The extrusion screw shaft is combined with a female thread part (17b) which is fixed on a fixed part (20) through the thread, and also is upwards moved on a shaft, and the fixed part is fixed on the upper part of the base table through the supporting columns (16) and (17). The utility model has the technical effects of safety, light weight, small operating space, and firmness. The badge manufacturing device can be operated on the unstable place, and unwanted load is not applied on the badge manufacturing device after the moulding is finished.

Description

Badge manufacturing device

Technical field

The utility model relates to badge and badge manufacturing device, and this badge comprises the badge main body of signs such as having literal, pattern, pattern and badge can be worn on dismountable locking pin on the adornments such as clothes, cap etc. wears mechanism.

Background technology

The badge of prior art is shown in Figure 21 (a), Figure 21 (b), this badge comprise the badge main body 200a that has sign such as literal, pattern, pattern 215 and can be worn on clothes, cap etc. by the dismountable locking pin on the adornment such wear mechanism 229.Badge main body 200a is made of bonnet 205 and protecgulum 201, and the edge of bristol paper 211 above the protecgulum 201 and transparent lid (lamellar body) 213 is inserted between the periphery 209 of the periphery 203 of protecgulum 201 and bonnet 205.Literal, pattern or the pattern etc. of the sign 215 of badge are printed onto on the bristol paper 211.Bonnet 205 is provided with installing mechanism 260, as pair of holes 261,261, be used to install and fix pin such wear mechanism 229.The badge of this prior art is made with disclosed manufacturing installation in the special public clear SHO61-32005 communique of Japan Patent.

This manufacturing installation comprises: console, be fixed on arm on the console, be installed in passing through die module that handle moves up and down, be located on the console rotating flat board and be located at first on this flat board on the front end of arm and hold membrane module and second and hold membrane module.Die module is by moving up and down by the pinion of handle rotation and with the tooth bar of pinion.In addition, on this badge pair of holes is arranged, the hole is installed in dismountable locking pin on the bonnet 205 by this.

Because the badge described in the prior art will be in advance is fixed on the such installing mechanism 260 of the pair of holes that forms on the bonnet 205 261,261 wearing mechanism 229, badge main body 200a with the direction position of wearing mechanism 229 such of sign 215 with being installed in locking pin on the used badge need pre-determine, so exist the problem that can not select to wear the position of mechanism 229 with respect to the directions that sign 215 needs.Use the badge manufacturing device that is used to make this badge of above-mentioned prior art, when making badge main body 200a, badge main body 200a with the direction of sign 215 and the position relation of the such installing mechanism 260 of the pair of holes on the bonnet 205 261,261 often improper, for example, the position of installing mechanism 260 is with respect to sign 215 direction inclination etc., see Figure 21 (c), in this case, the position of wearing mechanism 229 that is installed on the installing mechanism 260 also is not suitable for the direction that indicates 215.Wear mechanism 229 when being worn on any adornment as the clothing when utilization, the direction of the sign 215 of this badge front will not conform to the direction of needs.This just mean must an acknowledgement indicator 215 direction and position relation, the one side of installing mechanism 260 make badge main body 200a, so exist relatively more difficult, the cumbersome problem of badge main body 200a of making.In addition, the badge of prior art also exists such problem, because the mechanism 229 that wears that is installed on the badge main body 200a is predetermined, the mechanism that wears that therefore is not easy to otherwise replaces the mechanism that wears that this determines.

Because the badge manufacturing device of above-mentioned prior art has the problem on the intensity, each parts such as console, arm are made by casting respectively, problems such as final products weight is big, price height that this causes.Because need very big pressure to pressing down with arm, and this pressure all be applied on the console, so console position instability will be disturbed normal running.If carry out operation, may cause console landing and damage from the job platform with unsettled job platform.In addition, in the badge manufacturing device of prior art, exist and be difficult to one side and confirm to be installed on the direction of the bristol paper on the protecgulum with respect to the position of the pair of holes on the bonnet, the problem that one side is made badge.Therefore, when being installed to dismountable locking pin in the pair of holes, owing to do not conform to the position of locking pin, the bristol paper of the badge that manufactures will misplace.

The utility model content

The utility model is to form in view of the above problems, its purpose is to provide a kind of badge of novelty, to wear mechanism when being installed on the badge main body, this badge can change the position of wearing mechanism on demand, and the pattern of badge main body front surface, pattern sign are suited the requirements.Another purpose of the present utility model is to provide a kind of badge of novelty, this badge wear mechanism can be from locking pin, clip, magnetic etc. several wear the mechanism and select.In addition, in order to overcome above-mentioned defective, another purpose of the present utility model is to provide a kind of badge manufacturing device, this manufacturing installation is in light weight, solid, cost is low, institute takes up space little and can operate in unsettled installation site, this Design of device is reasonable, even child also can operate.Even of the present utility modelly be to provide a kind of when child operates on the other hand, the safe modified badge manufacturing device of accidents such as finger can not appear clamping yet.In addition, another aspect of the present utility model provides a kind of after the regulation processing of finishing badge, can remove the badge manufacturing device of the reliability raising of useless load.

Badge manufacturing device of the present utility model can be made a kind of badge of mainly being made up of protecgulum and bonnet, and this device comprises: a base station; Static cell, this static cell are arranged on this base station, and this protecgulum or bonnet are placed on this static cell; A dynamic element, this dynamic element are driven on this static cell badge are carried out mold pressing; An extrusion axis makes dynamic element move forward or backward with respect to static cell, so that the two is engaged with each other or separates; A fixed part is connected with this extrusion axis and assists it forward and motion backward, and links to each other with this substrate to bear contacting and the reaction force of generation when impacting from this dynamic element and static cell; A handle is positioned at the top of this extrusion axis, is used for controlling this extrusion axis forward and motion backward; This extrusion axis has pin thread, and the female thread on this pin thread and the fixed part is so that control advancing, retreat and pushing of extrusion axis according to the rotation of handle; The rotation of this handle is to the not influence of any other parts, when dynamic element and static cell engage extrusion axis is advanced further and the reaction force that produces remains in the scope of predetermined value.

Best, this handle is connected with extrusion axis by a clutch, and when the revolving force that applies surpassed predetermined value, this handle carried out rotation from this extrusion axis disengaging.

Best, this clutch comprises: the recess in a plurality of inner part that are arranged in this handle along radial direction; Be arranged on the spring members in this recess; Be connected the engaging part of the end of this spring; Be arranged on the other recess in the outside parts of this handle, be used for engaging with this engaging part.Under normal conditions, this engaging part remains in the recess of these outside parts of the rotation that is combined as a whole together and inner part, when the revolving force that applies surpasses predetermined value, because the effect of revolving force, engaging part in the inner part breaks away from from the recess of outside parts, and these outside parts are rotated separately.

This handle and outside parts also can form whole formation.

Description of drawings

Fig. 1 is the first overall elevation cross-sectional view of holding mould of expression badge manufacturing device of the present utility model;

Fig. 2 is the overall elevation cross-sectional view of the motion of key diagram 1;

Fig. 3 is the second overall elevation cross-sectional view of holding mould of expression badge manufacturing device of the present utility model;

Fig. 4 is the overall elevation cross-sectional view of the motion of key diagram 3;

Fig. 5 is the overall side cutaway view of badge manufacturing device of the present utility model;

Fig. 6 is the totally group of overlooking of Fig. 5;

Fig. 7 is the overall stereogram of observing from the top of the motion of explanation badge manufacturing device;

Fig. 8 is the overall stereogram of observing from the top of the motion of explanation badge manufacturing device;

Fig. 9 is the stereogram of state after unloading of badge manufacturing device covered;

Figure 10 is the stereogram of this badge manufacturing device different with Fig. 9 state;

Figure 11 is the overall exploded perspective view of expression the utility model badge;

Figure 12 is the overall stereogram of the assembling of Figure 11;

Figure 13 is the side cutaway view of Figure 12;

Figure 14 is the stereogram of an embodiment wearing mechanism of expression the utility model badge;

Figure 15 is that the stereogram under the state of wearing mechanism of Figure 14 has been installed in expression;

Figure 16 wears mechanism with Figure 15 to be installed in the overall side cutaway view of badge on the bonnet;

Figure 17 is the stereogram of the other embodiment of wearing mechanism of expression the utility model badge;

Figure 18 wears mechanism with Figure 17 to be installed in the overall side cutaway view of badge on the bonnet;

Figure 19 is the stereogram of the other embodiment of wearing mechanism of expression badge of the present utility model;

Figure 20 is that the mechanism that wears with Figure 19 is installed in the overall side cutaway view of badge on the bonnet;

Figure 21 is the schematic diagram of the badge of prior art;

Figure 22 is provided in a side of the exploded perspective view of the clutch on the handle;

Figure 23 is the profile of badge manufacturing device that comprises the utility model first preferred embodiment of clutch;

Figure 24 is the stereogram that the expression handle is provided with the moving-member of alarm mechanism;

Figure 25 is illustrated in the stereogram that fixed part is provided with the projection alarm mechanism;

Figure 26 is the schematic diagram of the action state of expression alarm mechanism.

The specific embodiment

Below in conjunction with Figure 11-Figure 20 an embodiment of badge of the present utility model is described.Badge 200 is made of badge main body 200a and arbitrary mechanism 229,237,246 that wears.Badge main body 200a is by constituting with the lower part: protecgulum 201, this protecgulum include the header board 202 of sub-circular and the protecgulum periphery 203 that extends from this header board 202 downwards; Be arranged on the lamellar body 213 on the header board 202 of above-mentioned protecgulum 201; Bonnet 205, it has the back plate 206 of sub-circular and the bonnet periphery 209 that extends upward from this back plate 206, and this bonnet 205 is embedded in the protecgulum 201, and the periphery of lamellar body 213 is clamped between bonnet periphery 209 and the protecgulum periphery 203 like this, and lamellar body 213 is closely contacted with header board 202.Wear mechanism 229,237,246 are used for badge is worn on clothing, cap, the such adornment of bag, and after above-mentioned protecgulum and bonnet are assembled into badge main body 200a, (for example wear mechanism for one that from wear mechanism 229,237 or 246, selects in the orientation of crossing above-mentioned back plate 206, directions X, Y direction or Z direction are with reference to Figure 11) go up and above-mentioned badge main body 200a binding.

Between the header board 202 of above-mentioned protecgulum 201 and above-mentioned lamellar body 213, be placed with bristol paper 211, the sign 215 that is printed with literal, pattern, pattern on this bristol paper or combines them, (for example wear direction that mechanism 229,237 or 246 crosses above-mentioned back plate 206, directions X, Y direction or Z direction, with reference to Figure 11) selection depend on, badge is being worn on the position of the such adornment of clothes the orientation that above-mentioned sign 213 needed when in will wearing mechanism 229,237,246 one was worn on the such adornment of clothes.

Except badge main body 200a, this badge main body has literal, pattern, pattern or the sign 215 that combines them and wear select the mechanism 229,237,246 a kind of from two or more and be used for badge is worn on the mechanism that wears on the adornments such as clothes, cap, handbag, badge 200 also has arbitrary connect mechanism 220,230,240, and this bindiny mechanism is used for wearing mechanism and above-mentioned badge main body 200a links up with selected.

This is worn mechanism and can select, and can be detachable locking pin 229, clip 237 or magnetic 246.The above-mentioned mechanism 229,237,246 that wears is fixed on the plate 206 of back respectively by the substantial middle position at back plate 206 installing hole 207 that forms and the protruding member 221,231,241 that is installed in the hole 207 respectively.

Detailed explanation will further be done to badge in the back.As shown in figure 11, badge 200 comprises: main body 200a, connect mechanism 220 and locking pin (wearing mechanism) 229.Main body 200a is made of protecgulum 201, bonnet 205, bristol paper 211, lid (lamellar body) 213.In advance, protecgulum 201 has crooked header board 202, and protecgulum periphery 203 is bent to approximate right angle so that extend from header board 202 downwards.And bonnet 205 has the back plate 206 that forms installing hole 207 in the approximate centre position, and bonnet periphery 209 bends to right angle nearly, extends upward from back plate 206, is formed with circular depressions 208 on the plate 206 in the back.

Bristol paper 211 is circular cardboards, the sign 215 that is printed with literal, pattern, pattern on it or combines them, it in addition can be the paper that shears off from magazine etc.Lid (lamellar body) the 213rd is formed by the thin slice with transparent synthetic resin.Badge main body 200a forms like this: by the upper surface that bristol paper 211 and lid (lamellar body) 213 are overlapped at protecgulum 201, and, the edge of bristol paper 211 and lid (lamellar body) 213 is sandwiched between the periphery 209 of the periphery 203 of protecgulum 201 and bonnet 205 with periphery 203 bendings of protecgulum 201.In addition, also can be without bristol paper 211, but literal, pattern, pattern or the sign 215 that combines them directly are printed on the lid (lamellar body) 213.A pair of card claw stop 210,210 respect to one another from the periphery of installing hole 207 to upper process.

As Figure 14～shown in Figure 16, connect mechanism 220 comprises: substrate 222, the grab 225, the protrusion-shaped that are formed at the roughly L font on the surface 223 of substrate 222 are formed in the protruding member 221 of rear surface 226 central authorities of substrate 222, and this protruding member in use cooperates with the installing hole 207 of the approximate centre position that is formed at bonnet 205.Substrate 222, grab 225 and protruding member 221 usefulness forming synthetic resins are as a whole, separate with above-mentioned badge main body 200a.Substrate 222 links to each other with locking pin (wearing mechanism) 229 by grab 225, and protruding member 221 inserts in the installing hole 207 of bonnet 205, and substrate 222 is entrenched in the recess 208 of bonnet 205.

Adopt such method, badge main body 200a and locking pin (wearing mechanism) 229 are coupled together with connect mechanism 220.Locking pin (wearing mechanism) 229 is installed on the direction (directions X for example shown in Figure 11, Y direction or Z direction) of crossing the inside plate 206.As required, one side confirm badge main body 200a with the direction of sign 215, one side is inserted protruding member 221 in the installing hole 207, thereby can be installed to locking pin (wearing mechanism) 229 on the badge, so just can select the installation direction (for example, shown in Figure 11 directions X, Y direction or Z direction) of locking pin (wearing mechanism) 229.

In a single day protruding member 221 inserts in the installing hole 207, and just card ends on the card claw stop 210,210 that is formed at installing hole 207 peripheries.Though locking pin (wearing mechanism) 229 can be with respect to badge main body 200a revolution, when the angle of revolution was too big, card claw stop 210,210 can damage protruding member 221, caused locking pin to break away from badge main body 200a, and in order only to finely tune, this revolution is the smaller the better.

As Figure 17, shown in Figure 180, connect mechanism 230 is preferably by constituting with the lower part: substrate 232; Be formed at the bearing plate (bearing lug) 234,234 of a pairing approximation U font of the 233 substantial middle positions, a surface of substrate 232; Be formed at the protrusion member 231 of 235 centers, another side; The installing hole 207 that forms in the approximate centre position of bonnet 205, and the substrate 232 that has protruding member on trailing flank 235 supports at the end 237a of a relative side with clamping plate 237, these clamping plate can be around 236 rotations of a back shaft, and this back shaft clamps by pair of bearings sheet 234,239 with flexible member (as spring) 238.And in this case, substrate 232 and protruding member 231 usefulness synthetic resin form one, and separate with badge main body 200a.Clamping plate 237, one end 237a is pressed on the substrate 232 by elastomeric element, constitutes a clip.

Protruding member 231 inserts in the installing hole 207 of bonnet 205, and substrate 232 is chimeric with the recess 208 of bonnet 205 like this.Adopt such method, the mechanism that wears of the clip shape that constitutes with badge main body 200a with by clamping plate 237 and substrate 232 with connect mechanism 230 links up.Clamping plate (wearing mechanism) 237 are installed on the direction (for example, shown in Figure 11 directions X, Y direction or Z direction) of crossing the inside plate 206.One side confirm as required badge main body 200a with direction, the one side of sign 215 protruding member 231 is inserted in the installing holes 207, thereby clamping plate (wearing mechanism) 237 can be installed on the badge, can select the installation direction (for example, the x direction of Figure 11, Y direction or Z direction) of clamping plate (wearing mechanism) 237 like this.

In a single day protruding member 231 inserts in the installing hole 207, and just card ends on the card claw stop 210,210 that is formed on installing hole 207 peripheries.Clamping plate (wearing mechanism) though 237 can be with respect to badge main body 200a revolution, when the angle of revolution was too big, card claw stop 210,210 can damage protruding members 231, cause clamping plate 237 to break away from badge main body 200a, in order only to finely tune, this revolution is the smaller the better.

As Figure 19, shown in Figure 20, connect mechanism 240 also can be by constituting with the lower part: substrate 242; The protruding member 241 of trailing flank 243 middle positions of substrate 242, the installing hole 207 of bonnet 205 about centers, opposite face (surface) the 245 usefulness binding agents that the substrate 242 of protruding member is housed on the trailing flank 243 are bonded on the magnetic 246.In this case, substrate 242 and protruding member 241 also use forming synthetic resin as a whole, and separate with above-mentioned badge main body 200a.

Protruding member 241 is inserted in the installing hole 207 of bonnet 205, make substrate 242 chimeric with the recess 208 of bonnet 205.

Like this, with connect mechanism 240 badge main body 200a and tabular magnetic (wearing mechanism) 246 are linked up.In case protruding member 241 is inserted in the installing hole 207, and protruding member just blocks only on the card claw stop 210,210 that is formed on installing hole 207 peripheries.Adopt such method, badge 200 just can utilize connect mechanism 220,230,240, by wearing for example locking pin 229 of mechanism from two or more, and clip 237, a kind of mechanism that wears of selecting in the magnetic 246,200a is connected with the badge main body.

Below, according to Fig. 1-Figure 10 an embodiment of the badge manufacturing device of manufacturing the utility model badge is described.Badge manufacturing device 1 is used to make badge, this badge comprises: the bonnet 205 that periphery 209 extends towards the top, the protecgulum 201 that periphery 203 extends towards the below, and the lid (lamellar body) 213 that is placed on the bristol paper 211 above the protecgulum 201 and has the transparency, when the edge with bristol paper 211 and lid (lamellar body) 213 sandwiches between the periphery 209 of the periphery 203 of protecgulum 201 and bonnet 205, periphery 203 bendings of protecgulum 201.

Badge manufacturing device 1 is by constituting with the lower part: base station 2; The sliding stand 100 that can on the upper surface of base station 2, move back and forth; Along positioned opposite to each other first the holding mould (lower die) 110, second and hold mould 140 of the reciprocating track of sliding stand 100; The fixed part (crossbeam) 20 on the top that is fixed on pillar 16,17 on sliding stand 2; Be installed among the 17b of negative thread portion (23) of fixed part 20 by screw thread and the extruding (spiral) that can move up and down in the axial direction axle 30; Be located at the lower end of extruding screw axis 30, hold mould 110 and second and hold the pressure die (upper die) 40 that mould 140 engages with above-mentioned first; And the operating grip 32 that is located at extruding screw axis 30 tops.

This first holds mould 110 and comprises: first mounting table 111 that is used to place protecgulum 201, be used to place the bristol paper 211 that overlaps each other and the guide table 125 of lid (lamellar body) 213 around first mounting table 111 with being located at, guide table 125 can move up and down, and is promoted upward by an elastomeric element 113.

This second holds mould 140 and comprises: second mounting table 141 and the machine table 155 that are used to place bonnet 205, wherein this machine table is provided with around second mounting 141, be used for the periphery 203 of protecgulum 201 is bent to the periphery 209 of bonnet 205, the edge of bristol paper 211 and lid (lamellar body) 213 is sandwiched between the periphery 209 of the periphery 203 of protecgulum 201 and bonnet 205.Machine table 155 can move up and down, and is promoted upward by an elastomeric element 156.

This pressure die 40 comprises outer frame 42 and is located in the outer frame 42 and the internal layer frame 51 more shallow than outer frame.This internal layer frame 51 can rotate in the lower end of the extruding screw axis 30 of the opening 43 on the top of passing outer frame 42.

This pressure die 40 also includes converting member 80, and this converting member can hold the mould 110 or second position of holding mould 140 according to first, by the extruding of thread-rolling screw axle, is transformed into outer frame 42 or internal layer frame 51.When first hold mould 110 be positioned at pressure die 40 under the time, converting member 80 combines (locking) and is extruded helical axis 30 extruding with the upper end of outer frame 42, perhaps, hold mould 140 and on sliding stand 100, move when second, in the time of under the arrival pressure die 40, converting member 80 breaks away from the upper end of outer frame 42, and helical axis 30 extruding are not squeezed.

In badge manufacturing device 1, rotating operation handle 32, extruding screw axis 30 is moved downwards, the pressure that puts on the converting member 80 moves outer frame 42 downwards, with contact around first guide table 125 of holding mould 110, thereby the elasticity that overcomes elastomeric element 113 with guide table 125 to pressing down, up to bristol paper 211 and lid (lamellar body) 213 bendings top to the periphery 203 of protecgulum 201.On the contrary, when converting member 80 is not extruded helical axis 30 and pushes, internal layer frame 51 moves downwards, contact with second machine table 155 of holding mould 140, and the elasticity that overcomes elastomeric element 156 bends to the periphery 203 of machine table 155 downward straightenings to protecgulum 201 on the periphery 209 of bonnet 205, therefore make bristol paper 211 and lid (lamellar body) 213 around sandwich the periphery 203 of protecgulum 201 and the periphery 209 of bonnet 205.

Now badge manufacturing device 1 is described in further detail.Base station 2 usefulness synthetic resin are whole to be formed, and comprises upper wall 3 and the perisporium 5 of the bending that forms on the periphery of upper wall 3.Be formed with the gathering sill 6 of the approximate U-shaped shape that extends by preceding backward directions on the upper wall 3.Gathering sill 6 is limited by diapire 7, sidewall 9 and 10, and direction protrusion 9a, 10a form on the top of sidewall 9 and 10.

In addition, the substantial middle position, the inside at the upper wall 3 of base station 2 in the both sides of gathering sill 6, perpendicular to gathering sill 6 (left and right directions), is formed with diapire 7 lug bosses 11,12 in the roughly same height with gathering sill 6.Be formed with the through hole 11a that always extends to upper wall 3,12a on the lug boss 11,12.

On the diapire 7 of the gathering sill 6 of base station 2, on the direction (left and right directions) vertical, be formed with roughly the take the shape of the letter U strengthening part 15 of shape of section with gathering sill 6.These strengthening part 15 usefulness steel are made.Strengthening part 15 contacts with lug boss 11,12, is forming porose 15a, 15b respectively with the through hole 11a of lug boss 11,12, the both sides that 12a is in same position.Erect on the base station 2 be provided with that section is circular lean on 16,17. Pillar 16,17 usefulness steel are made.

In the inserting hole 11a of the pin thread 16a insertion lug boss 11 of pillar 16 bottoms of one side and the hole 15a of strengthening part 15, fixing with nut 18, this pillar is vertically fixed on lug boss 11 and the strengthening part 15 substantially.Among the inserting hole 12a of the pin thread 17a insertion lug boss 12 of pillar 17 bottoms of opposite side and the hole 15b of strengthening part 15, fixing with nut 19, this pillar is basically perpendicular to lug boss 12 and strengthening part 15 is fixing.

The fixed part that section roughly is square (crossbeam) 20 is horizontally fixed on the pillar 16,17 on base station 2.The pin thread 16b that be processed on pillar 16 tops of one side is inserted in the hole 20a of fixed part 20 1 ends, and fixes with nut 21, thereby fixed part 20 is fixed.The pin thread 17b on pillar 17 tops of opposite side is inserted in the hole 20b of the other end of fixed part 20, and fixes with nut 22, thereby fixed part 20 is carried out further fixing.

Fixed part 20 is formed with through hole 23 in the position of approximate centre, and female threaded part 25 is fixedly mounted in the position roughly coaxial with this through hole 23.Certainly, also can on through hole 23, directly form negative thread.Extruding screw axis 30 passes through hole 23 stubborn being combined on the female threaded part of being located on this fixed part 20 25, therefore can move in the axial direction.The hard resin material monolithic that these extruding screw axis 30 usefulness polycarbonate etc. have durability, abrasion resistance forms.The top of extruding screw axis 30 is formed with connecting portion 31, useful screw 33 hard-wired operating grips 32 on this connecting portion 31.

Pressure die 40 is positioned at the lower end of extruding screw axis 30, and with first hold mould or second and hold mould and closely cooperate, as mentioned below.Pressure die 40 comprises the vertical slide unit 41 of approximate rhombus, outer frame 42 and be located in the outer frame 42 and the internal layer frames 51 more shallow than outer frame.Outer frame 42 comprises the vertically sliding excurvation pars convoluta 45 of a downward opening U-shaped, be formed at the external collar 46 on excurvation pars convoluta 45 tops, be formed at the perisporium 47 on the lower rim of excurvation pars convoluta 45, with the compressed part 50 that is formed at perisporium 47 lower ends, be formed with pilot hole 49 on the external collar 46, this pilot hole 49 is communicated with opening 43 on being located at external collar 46 upper ends 48.

Internal layer frame 51 is by constituting with the lower part: the interior bend 52 that engages with the excurvation pars convoluta 45 of outer frame 42; In being formed on the lower rim of bend 52, with the contact edge 53 that the periphery 203 of the protecgulum 201 of badge contact, back detailed description; The internal collar 55 on the top of bend 52 in being formed at, be imported into the pilot hole 49 of external collar 46 slidably, and have a upper end 58, if interior bend 52 and 45 combinations of excurvation pars convoluta, this upper end is located in the 48 essentially identical positions, upper end with external collar 46; Be formed at the projection 57 of approximate centre position of upper end 58 of the upper wall 56 of internal collar 55; Through hole 59 is formed at the approximate centre position of the upper wall of internal collar 55, extends to the upper end 60 of projection 57 always.

Extruding screw axis 30, the approximate centre position of its lower end is formed with fulcrum (spindle) 35, and the lower end of this fulcrum 35 is formed with screwed hole 36.The bottom of extruding screw axis 30 is provided with compacting part 61.Compacting part 61 is made of diapire 62, the annular projection portion 65 that is located at the perisporium 63 around the diapire 62 and is located at perisporium 63 tops, the center of diapire 62 is formed with through hole 66, fulcrum 35 rotatably is connected on the extruding screw axis 30 by through hole 66, is covered with the bottom of extruding screw axis 30.

Further, by the fulcrum 35 of extruding screw axis 30 being inserted into the through hole 59 of internal layer frame 51, and screw 69 is screwed into the lower ends that in the screwed hole 36 of fulcrum 35 51 rotations of internal layer frame are installed in freely extruding screw axis 30.Compacting part 61 is to form like this, and the internal collar 55 of the external diameter of its perisporium 63 and internal layer frame 51 is roughly the same, can be inserted in the pilot hole 49 from the opening 43 that is formed at outer frame 42 tops like this.Therefore, internal layer frame 51 is installed in the lower end of extruding screw axis 30 with freely rotating by the opening 43 on outer frame 42 tops.

Vertical slide unit 41 is tabular, has guiding recess 71,72 to engage with above-mentioned pillar 16,17 at two ends, the left and right sides, and can only carry out above-below direction by guiding recess 71,72 guiding and move.Integrally be formed with the indicator board 73 that positions of being used to confirm these guiding recesses are used at the right-hand member of vertical slide unit 41.In addition, pressure die 40 is provided with converting member 80, and it is according to being first to hold mould or second and hold mould under the extruding screw axis, and conversion being extruded outer frame 42 or the internal layer frame 51 that helical axis 30 compresses.

(or vertical moving-member 41) is provided with bearing portion 75 on the outer frame 42 of pressure die 40, with screw 76 converting member 80 is installed on this bearing 75 rotationally.Converting member 80 is by constituting with lower member: be installed in lug boss 81 in the bearing portion 75 rotationally with screw 76; Be located at the first arm parts 82 on the lug boss 81; Be located on the first arm parts 82 the Semicircular holding section 83 that engages with the projection 57 of above-mentioned internal layer frame 51; Be located on lug boss 81 locational second arm member, 85, the second arm members 85 with the roughly opposite side of the first arm parts 82 and be formed with slotted hole shape slot 86.

On the pillar 16 of a side, swing is provided with the tilting member 90 that can move up and down together with pressure die 40 freely.Tilting member 90 is by being installed in a lug boss 91 of leaning on 16, and the spring carrier arm 93 that is located at the arm 92 on the side of lug boss 91 and is located at lug boss 91 opposite sides constitutes.Vertically be provided with engaging axle 95 on the arm 92.Engaging axle 95, its top 95a engages with the slot 86 of above-mentioned converting member 80, and bottom 95b is outstanding from the slotted hole 44 that forms at vertical slide unit 41.

The rear portion of vertical slide unit 41 is provided with spring carrier arm 96, be provided with spring 97 between the spring carrier arm 93 of this spring carrier arm 96 and tilting member 90, utilize the elasticity of this spring 97, also pass through tilting member 90, the holding section 83 of converting member 80 just contacts with the projection 57 of internal layer frame 51.

The gathering sill 6 of base station 2 is provided with sliding stand 100, can move back and forth ground.Sliding stand 100 can only carry out sliding on the fore-and-aft direction by projection 9a, 10a on the sidewall 9,10 that is located at gathering sill 6.The front end of sliding stand 100 is provided with antetheca 101, and antetheca 101 is provided with (tab) 102 that handle knob.There is rear wall 103 rear end of sliding stand 100, and rear wall 103 is provided with handles knob 104.

First holds mould 110 and second holds mould 140 and is oppositely arranged along the track that the reciprocating direction of sliding stand 100 moves.First holds mould 110 by first mounting table 111 of placing protecgulum 201 be centered around the guide table 125 that is provided with around first mounting table 111 and constitute, the latter is used to support bristol paper 211 and the lid (lamellar body) 213 that overlaps each other, and guide table 125 can move up and down when upwards being pushed away by elastomeric element 113.First mounting table 111 comprises: Wan Qu upper wall 115 slowly is formed at the perisporium 116 of upper wall 115 periphery bottoms and the tubular fixed axis 117 of the substantial middle position that upper wall 115 lower surfaces form.

The bottom of the perisporium 116 of first mounting table 111 is chimeric with the ring-type direction protrusion 118 that is located on the sliding stand 100, the lower end of fixed axis 117 is chimeric with the recess 120 that is formed at the lug boss 119 on the sliding stand 100, from sliding stand 100 opposite sides and by being located at the through hole on the sliding stand 100, screw 122 is tightened on the fixed axis 117, thereby is fixed on the sliding stand 100.

Guide table 125 is annular, and is formed with ring-type mounting portion 126 and guide wall 127, and wherein mounting portion is piled up mounting with bristol paper 211 and lid (lamellar body) 213; Guide wall forms around mounting portion 126, to the edge of bristol paper 211 and lid (lamellar body) 213 leading.The compressed part 50 of outer frame 42 is chimeric with the guide wall 127 of guide table 125, and compressed part 50 is pressed in the mounting portion 126, and tube portion 129 slides up and down and from the inboard extension downwards of mounting portion 126 along the perisporium 116 of first mounting table 111.

The guiding cylindrical shell 132 that guide table 125 moves up and down in the perisporium 116 of above-mentioned first mounting table 111 in addition.Guiding cylindrical shell 132 is formed with the lug boss 131 with pilot hole 130, and the fixed axis 117 by above-mentioned first mounting table 111 of this pilot hole can slide.The lower end of guiding cylindrical shell 132 and the lower end of tube portion 129 link together by linking sheet 133.This binding sheet 133 is inserted in the elongated slot 135, and this elongated slot forms to otch towards upper and lower on the perisporium 116 of first mounting table 111.

The upper wall 115 of above-mentioned first mounting table 111 is equal highly substantially with the mounting portion 126 of guide table 125, is formed with gap 136 between upper wall 115 and the mounting portion 126, is used to insert the periphery 203 of protecgulum 201 bendings.The spring (elastomeric element) 113 that guide table 125 is wound onto on the fixed axis 117 of first mounting table 111 pushes away upward.

Second holds mould 140 constitutes by second mounting table 141 of placing bonnet 205 with around the processing platform 155 of second mounting table 141, machine table 155 is pushed away upward and can move up and down by elastomeric element 156, be used for the periphery 203 of protecgulum 201 is bent to the periphery 209 of bonnet 205, so that the edge clamping of bristol paper 211 and lid (lamellar body) 213 is between the periphery 209 of the periphery 203 of protecgulum 201 and bonnet 205.Second mounting table 141 is by the upper wall 143 that is formed with circular depressions 142, is formed at the perisporium 145 of periphery bottom of upper wall 143 and the tubular fixed axis 146 that is formed at the following middle position of upper wall 143 and constitutes.

Second mounting table 141 makes the bottom of perisporium 145 chimeric with the ring-type direction protrusion 148 that is located on the sliding stand 100, the lower end of fixed axis 146 is chimeric with the recess 150 that is formed at the lug boss 149 on the sliding stand 100, from sliding stand 100 opposite sides and by being located at the through hole on the sliding stand 100, screw 152 is tightened on the fixed axis 146, thereby is fixed on the sliding stand 100.

Machine table 155 forms ring-types, and top is formed with engaging stage portion 157, and usefulness becket 159 engages stage portion 157 with this chimeric.Be formed with inclination edge 160 on this becket 159, in the time of between the periphery 209 of periphery 203 that the edge of bristol paper 211 and lid (lamellar body) 213 is folded into protecgulum 201 and bonnet 205, this inclination edge is used for the periphery 203 of protecgulum 201 is bent to the periphery 209 of bonnet 205.In addition, also can directly be processed into inclination edge 160 on the top of machine table 155.

The top of inclination edge 160 is formed with the recess 161 of chimeric compressed part 50 usefulness.The bottom of engaging stage portion 157 is formed with the tube portion 162 that slides up and down along the upper wall 145 of second mounting table 141.Processing platform 155 also has the guiding cylindrical shell 163 that moves both vertically in the perisporium of above-mentioned second mounting table 141.

Guiding cylindrical shell 163 forms the lug boss 166 with pilot hole 165, and the fixed axis 146 of putting platform 141 by above-mentioned second load-carrying of this pilot hole can slide.The lower end of guiding cylindrical shell 163 and the lower end of tube portion 162 link together with linking sheet 167.This binding sheet 167 is inserted in the elongated slot 169, and this elongated slot forms to otch towards upper and lower on the perisporium 145 of second mounting table 141.Processing platform 155, the spring (elastomeric element) 156 that is wound onto on the fixed axis 146 of second mounting table 141 pushes away upward.

Base station 2 is provided with the positioning element 170 to sliding stand 100 location usefulness.Positioning element 170 has one to be installed near the gathering sill 6 elastic plate 172 with screw 173, is formed with engaging protrusion 175 at the lower surface of elastic plate 172.Sliding stand 100 is formed with first engaging recessed part 176 and second engaging recessed part 177 that engages with the engaging protrusion 175 of elastic plate 172.If the engaging protrusion 175 of elastic plate 172 engages with first engaging recessed part 176 of sliding stand 100, first hold mould 110 be located substantially on pressure die 40 under, if when the engaging protrusion 175 of elastic plate 172 engages with second engaging recessed part 177 of sliding stand 100, second hold mould 140 be positioned at substantially pressure die 40 under.

Second side of holding the processing platform 155 of mould 140 is provided with the engaging protrusion 158 that engages with the bottom 95b that engages axle 95 of above-mentioned converting member 80.If second hold mould 140 be positioned at pressure die 40 under the time, engaging protrusion 158 engages with the bottom 95b that engages axle 95 of converting member 80, Semicircular holding section 83 overcomes the elasticity of spring 97, be center steering with bearing portion 75, break away from the projection 57 of the internal layer frame 51 of pressure die 40.

Reference numeral 180 is one (protection) covers; cover 180 usefulness screws etc. are installed on the base station 2; in order not hinder the slip of sliding stand 100; forwardly be provided with first and second openings 181,182 with the rear portion; first holds mould 110 comes in and goes out from first opening 181, and second holds mould 140 comes in and goes out from second opening 182.Be formed with the slotted hole of the indicator board 73 that can see vertical slide unit 41 on the cover 180, see indicator board 73, just can confirm the position of pressure die 40 from this slotted hole.Reference numeral 190 be provided in a side of base station 2 opposite sides cover, be used to cover strengthening part 15.

Operation to badge manufacturing device 1 of the present utility model now describes.Be positioned in pulling and handle knob 102 on the antetheca 101 of sliding stand 100, thereby hold mould 110 after cover 180 first opening 181 and pull out with first, protecgulum 201 is placed on above the upper wall 115 of first mounting table 111, then, in the gap 136 between the periphery 203 insertion upper walls 115 of protecgulum and the mounting portion 126.Then, coincide with lid (lamellar body) 213 on the bristol paper 211 after, bristol paper 211 is placed in the mounting portion 126 of guide table 125.

Promote on the wall 101 handle knob 102 sliding platform 100 is return after, the engaging protrusion 175 of elastic plate 172 engages with first engaging recessed part 176 of sliding stand 100, first hold mould 110 be positioned at pressure die 40 under, simultaneously second hold mould 140 and stretch out from covering 180 second opening 182.Lever 32 is rotated to a direction, and extruding screw axis 30 clockwise rotates, and this extruding screw axis 30 moves downwards.The holding section 83 that the compacting part 61 that is located at extruding screw axis 30 bottoms promotes the converting member 80 that blocks comprises whole pressure die 40 that outer frame 42 and internal layer frame 51 depress together downwards.Meanwhile, vertical slide unit 41 also moves downwards.

The compressed part 50 of outer frame 42 engages and is crimped in the mounting portion 126 with the guide wall 127 of guide table 125, and the elasticity that overcomes elastomeric element 156 is depressed guide table 125.Because internal layer frame 51 is more shallow than outer frame 42, so do not accept 110 and contact with first.Coincidence is positioned in the edge of lid (lamellar body) 213 on the guide table 125 and bristol paper 211 to being bent downwardly, with the periphery 203 that is placed on the protecgulum 201 on first mounting table 111 and put.

Position after this pressure die 40 is driven can be seen by indicator board 73.When fixed part 20 is connected to substrate so that bear when bearing platform 110 or second and bear the reaction force that compresses and clash into of platform 140 from the pressure die 40 of dynamic element and first of static cell, support and help to compress the fixed part 20 that rotating shaft 30 screws on and screws off, owing to further move downward the level (numerical value) that makes reaction force reach a regulation at dynamic element and the stressed back of static cell extruding screw axis, and the generation displacement, thereby prevent that this reaction force from surpassing the level of this regulation.Specifically, fixed part 20 is made by Merlon.

Extruding screw axis 30 have with fixed part 20 on female threaded part 25 mating male threads, by the rotating operation of above-mentioned handle, to handle move up and down and stressed after the size of pressure control.Particularly, in case dynamic element or pressure die 40 collide static cell or hold 100,140 o'clock extruding screw axis 30 of mould and fixed part 20 can split away off from being threaded, and produce the excessive reaction force above prescribed level to prevent handle 32 from further moving down.For example,, further move down, surpass assigned position just can prevent extruding screw axis 30 as long as make extruding screw axis 30 not form screw thread more than the position predesignating.Like this, just, can prevent pressure die 40 and hold that mould 110 or 140 connects under undesirable high pressure and.

With lever 32 in the opposite direction or threadless direction when rotating, extruding screw axis 30 counter-rotation also are moved upward.Simultaneously, whole pressure die 40 is moved upward, and vertical slide unit 41 also slides upward.The edge of protecgulum 201, lid (lamellar body) 213 and bristol paper 211 is crooked downwards along the periphery 203 of protecgulum, and protecgulum and this lid and bristol paper are raised, and they still are placed in the perisporium 47 of outer frame 42 simultaneously, leave first then and hold mould 110.

When from covering outstanding second the holding on the upper wall 143 of second mounting table 141 of mould 140 of 180 second opening 182; when placing the upwardly extending bonnet 205 of periphery 209; the installing hole 207 that is used to install and fix pin 210 (protruding member 221) obtains the protection of recess 161, and the inner face guiding of the tube portion 162 that periphery is 209 processed 155 is the location also.

Handle knob 104 when making sliding stand 100 mobile backward when what promote rear wall 103, the engaging protrusion 175 of elastic plate 172 engages with second engaging recessed part 177 of sliding stand 100, second hold mould 140 be positioned at pressure die 40 roughly under, first to hold mould 110 outstanding from covering 180 first opening 181.When second hold mould 140 be positioned at pressure die 40 roughly under the time, engaging protrusion 158 engages with the bottom 95b that engages axle 95 of converting member 80, Semicircular holding section 83 overcomes the elasticity of spring 97, is center steering with bearing portion 75, leaves the projection 57 of the internal layer frame 51 of pressure die 40.

When a side rotated, extruding screw axis 30 clockwise rotated with lever 32, and extruding screw axis 30 moves downwards.The compacting part 61 that is located at extruding screw axis 30 bottoms is depressed the internal layer frame 51 of pressure die 40.The contact edge 53 of internal layer frame 51 contacts with the top edge of protecgulum 201, and protecgulum 201 is pressed downward.Be directed at the edge of lid (lamellar body) 213 of the periphery 203 that covers protecgulum 201 and bristol paper 211 and after inclination edge 160 bending to the inside of machine table 155, the periphery 203 of protecgulum 201 is pressed on this inclination edge 160, overcomes the elasticity of elastomeric element 156 and machine table 155 is depressed.In this case, in case when being placed between the contact edge 53 of dynamic element or internal layer frame 51 and static cell or the machine table 155, protecgulum 201 can move relative to the contact edge 53 of internal layer frame 51, with the vertical axial skew of compensation in the mold pressing operating process.

Specifically, internal layer frame 51 is partly made by plastic material, particularly the zone that contacts with protecgulum 201 (promptly contacting edge 53).Like this, when the periphery 203 of protecgulum 201 engaged with the inclination edge 160 of machine table 155, protecgulum 201 can slide on the contact edge 53 of internal layer frame 51, and off-centring is compensated.

This also is because the outer peripheral edges of protecgulum 201 are crooked and extend downwards, and the cause of the inner surface of the internal layer frame 51 of dynamic element and above-mentioned flexure plane shape complementarity.

When the lower end of machine table 155 is subjected to stopping of sliding stand 100 and no longer presses down, then the periphery 203 of protecgulum 201 can be further crooked to the inside along inclination edge 160, the edge of lid (lamellar body) 213 and bristol paper 211 is sandwiched between the periphery 203 of the periphery 209 of bonnet 205 and protecgulum 201, thereby finishes the manufacturing of badge main body 200a.

Lever 32 is rotated round about, and extruding screw axis 30 is moved upward counterclockwise.Meanwhile, whole pressure die 40 is moved upward, and vertical slide unit 41 also slides upward.Badge main body 200a still is arranged in second and holds mould 140.Handle knob 104 on the rear wall 103 of pulling sliding stand 100, pull out second and hold mould 140, just can hold from second simply and take out badge main body 200a the mould 140 from covering 180 second opening 182.

Above-mentioned badge manufacturing device 1 forms the framework of general square shape by fixed part 20, pillar 16 and 17, strengthening part 15, so improved intensity, can carry out stamping press in the framework that this has been strengthened.For this reason, other parts except that fixed part 20, pillar 16,17 and strengthening part 15 can form with synthetic resin is whole, can realize lightweight like this, and can reduce cost, boost productivity.

In addition, rotate extruding screw axis 30, pressure die 40 is moved down, first holds mould 110 or second holds mould 140 relatively to rising, utilizes pressure die 40 and first to hold mould 110 or second and holds both clamp pressures of mould 140 and make badge main body 200a.Therefore, carry out mold pressing, thereby do not need base station is placed on stable place, base station 2 is placed on unsettled place, even holds base station with hand and can operate without base station 2.And, again because of utilizing extruding screw axis 30 to push pressure die 40, so can reduce the operating space.

The protruding member 221 (or 231,241) of aforementioned connect mechanism 220 (or 230,240) is inserted in the installing hole 207 of badge main body 200a and they are linked up, just make badge 200.When the pocket that is worn on clothes, cap, handbag etc. during by the correct position of adornment, this connecting step can be on confirming badge main body 200a with the direction of sign 215 in carry out so that obtain correct direction.For this purpose, when mechanism is worn in connection to the back plate 206 of badge main body 200a, can change above-mentioned fixing needle 229, clamping plate 237 etc. and wear horizontal (crossing) direction of mechanism (for example, shown in Figure 11 directions X, Y direction or 2 directions).For this reason, just can under the situation of the direction of the sign 215 that is printed on the bristol paper 211 that is loaded on the protecgulum 201 without exactissima diligentia and the relativeness that is contained in the position of wearing mechanism 229,237,246 on the bonnet 205, make badge main body 200a.

With reference to Figure 22,23, represent the typical lever in the additional embodiments of the present utility model.

This typical lever 32 is not by being connected with extruding screw axis 30 with respect to the clutch 302 that extruding screw axis rotates.Clutch 302 comprises: be connected with extruding screw axis 30 but inner part 301 that can not rotate to it and the outside parts 303 that constitute the main operation portion of lever 32.Example as shown in figure 22, the holding section of the complementary shape that setting engages with the extruding screw axis 30 of hexagonal section on the axle center part of inner part 301, like this, inner part 301 just can not be rotated with respect to extruding screw axis 30.The central authorities of inner part 301 are fixed on the top of extruding screw axis 30 with Screw 316.And outside parts 303 just do not influence other element with respect to inner part 301 idle running when having applied the revolution operating physical force that surpasses setting.The central portion of outside parts 303 is provided with the circular depressions of regulation, and the lid 305 at inner part 302 and covering extruding screw axis 30 tops is installed in the above-mentioned recess.

As shown in figure 22, this clutch 302 comprises with the lower part: every 90 ° of 4 recesses 304 that are located at radially on the inner part 301; Receipts are contained in 4 springs 306 in this recess 304; Be located at 4 engaging blocks 307 of these spring 306 front ends, this link stopper front end has round-shaped; Be located at the inboard of above-mentioned outside parts 303, and with 4 engaging recessed parts 308 of the shape complementarity of above-mentioned holding section of only closing block 307.Every engaging block 307 is pushed away to foreign side by spring 306 separately.Therefore, under normal circumstances, when the leading section of engaging block 307 is outstanding from the outside of inner part 302, engage with above-mentioned recess 308 on the inner face that is located at outside parts 308.Though engaging recessed part 308 outwards is tapered,, engaging block 307 has the outstanding shoulder of inside part, and this shoulder engages with the restriction portion of engaging recessed part 308, limits it to the foreign side's displacement that surpasses restriction portion.As shown in figure 22, the recess opened upper end of inner part 301 disposes spring 306 and engaging block 307, under this state in it, inner part 301 is covered by outside parts 303, and is fixed on the parts 303 of the outside by Screw 318 with plate member (disk) 317.Therefore, when above-mentioned engaging link stopper 307 engages with the engaging recessed part 308 of outside parts 303, outside parts 303 and the rotation of inner part 301 one, revolving force are by outside parts 303, and the route of engaging block 307, inner part 301 and extruding screw axis 30 passes to extruding screw axis 30.When turning power surpasses setting, this is made every effort to overcome the elastic force of clothes spring 306 and will engage link stopper 307 and push to the inside, so, this excessive revolution operating physical force has been removed the fastening state of above-mentioned engaging block 307 and engaging recessed part 308, and outside parts 303 leave inner part 301 and extruding screw axis 30 turns round independently.

Therefore, the power that is applied on this rotary handle can exceedingly not be applied on this extruding screw axis 30, at dynamic element and static cell under the pressure at needs in conjunction with after, can effectively prevent extruding screw axis 30 and move forward again, can eliminate the excessive unfavorable condition that operating physical force caused.

As shown in figure 23, the badge manufacturing device of present embodiment is provided with and is used to prevent that (operator) enters the protective cover 180 of the working range of dynamic element (pressure die 40) and static cell (holding mould 140,110).When dynamic element and arbitrary static cell joint, this static cell obtains the protection of the cover 180 in the present embodiment, and other the static cell that does not engage with dynamic element can be near (operation).Like this, at one time first hold mould 110 and second hold have only in the mould 140 one can be close.

Can not be near the safety that mould can be guaranteed the operator of holding that in working range, engages with dynamic element, at this moment, another mould that holds in the protective cover outside can be approaching.Like this, the operator can be as required outside that carry out any operation near holding mould, for example placing component, take out parts etc.

Should be noted that,, can make first to hold mould 110 and second and hold mould 140 and alternately arrive the working range that engages with above-mentioned dynamic element by the reciprocating motion of sliding stand 100.

The such securing member of these cover 180 usefulness screws is installed on the base station 2, in order not hinder the slip of sliding stand 100, its front and rear is formed with first opening 181 and second opening 182, the first holds mould 110 from 181 discrepancy of first opening, and second holds mould 140 comes in and goes out from second opening 182.In addition, be formed with the slotted hole that to observe the indicator board 73 that slides up and down parts 41 on the cover 180, observe indicator board 73, just can confirm the position of pressure die 40 from this slotted hole.

With reference to Figure 24-Figure 26, the variation of embodiment of the present utility model is illustrated, this embodiment is provided with alarm mechanism, is used for reporting extruding screw axis 30 to the operator and has put in place, and dynamic element and static cell engage as required.

This alarm mechanism is located on the extruding screw axis 30, comprises horizontal direction movable part that extends and the jut that is located on the fixed part 20.When extruding screw axis 30 advances, this alarm mechanism give the alarm the report engage as required, this is to be determined by the mode that this movable part contacts with jut.

This moving-member includes: be fixed on the cylindric support member 311 on the extruding screw axis 30; From the leaf spring (spring members) 309 and the hammer parts 310 that are located at this leaf spring 309 front ends on of this support member 311 to the horizontal direction extension.Be located at jut on the fixed part 20 by constituting: extend to vertical direction from fixed part bar-shaped 312 with the lower part; Be located on this upper end of bar-shaped 312, and circumference is extended to thin and sharp keen roughly discoidal expansion section 313.In this case, expansion section 313 is made of a pair of cone 314 and 315 of clipping tip, and their a wide side is combined into the disk that extends to radial direction, and the first half and Lower Half diminish respectively up and down gradually.When extruding screw axis 30 travelled forward, hammer parts 310 (can be formed by screw) struck the inclined plane 314 of expansion section 313, along with being advanced further of extruding screw axis 30, making leaf spring 309 bendings and hammer parts 310 are slided on the inclined plane 315 of expansion section 313.Extruding screw axis 30 marches forward again, can cause the unexpected resilience of leaf spring to cause that hammer parts 310 bounce back on the upper surface of fixed part 20, and produce huge strike note.At this moment, place between the dynamic element of the badge processing and the static cell and reached the activating pressure that needs.So the operator learns according to sound and obtains suitable engage pressure.Like this, the operator hears that above-mentioned whop knows that mold pressing finishes, and just stops to apply extra power to handle.Because this device needn't bear unwanted load, thus negative consequence can be prevented effectively to device, for example to the damage of parts.

Engage fully each other by dynamic element and static cell finish mold pressing after, extruding screw axis 30 retreats, and leaf spring 309 is contacted on the inclined plane 315 of expansion section 313, the top of leaf spring from the replying state of bending to the edge of expansion section produces scrape.When hearing this sound, the operator just can know that dynamic element and static cell are separated from each other.

Industrial applicibility

As mentioned above, badge of the present utility model has such effect, promptly, wear the installation site of mechanism for being worn on locking pin on the adornments such as clothes, cap, handbag, clip etc., since can confirm on one side on the badge main body with the direction of signs such as literal, pattern, select on one side to cross the badge main body rear board direction and link up with the badge main body, so can with the badge main body on the direction of sign select to be worn on the installation site of being worn mechanism by the locking pin on the adornment etc. accordingly.For this reason, existing badge manufacturing device when making the badge main body, on one side must confirm on the badge main body with the direction and the position relation of wearing mechanism, manufacturing on one side of sign; And adopt the structure of badge of the present utility model, in manufacture process, can save the direction of acknowledgement indicator and the work of the cost cost of the position relation of wearing mechanism, thereby simplified production, and had the technique effect that direction that can not produce sign and the position of wearing mechanism concern inappropriate defective work.

Badge of the present utility model also has such effect, that is, owing to can select a kind of being installed on the badge main body, so can selection and the mounting means that is complementary of adornments such as clothes, cap, handbag from multiple wear the mechanism such as locking pin, clip, magnetic.

Badge manufacturing device of the present utility model has such effect, promptly, form the framework of general square shape with fixed part, pillar, strengthening part, improved intensity, can use the framework of this reinforcement to carry out the mold pressing operation, this means and to make the weight saving of device, cost reduce, and can boost productivity with synthetic resin formation other parts except fixed part, pillar, strengthening part.

In addition, also have such technique effect, that is, if the rotation extruding screw axis descends pressure die, first holds mould or second holds relatively upwards rising of mould, utilizes pressure die and first to hold the clamp pressure manufacturing badge that mould or second holds mould.Therefore can under situation about base station not being fixed on the such platform of desktop, use this device, not need base station is arranged on stable place, and can for example hold base station and operate at the instability place with hand.In addition, because utilize extruding screw axis to push this pressure die, can reduce the operating space.Like this, the utility model provides a kind of in light weight, solid device that the operating space is little, even in unsettled place, does not need undue power also can carry out operation, this means that child also can use this device simply.In addition, the design of improved safety guiding of the present utility model makes operator (child) when operation, can clip finger yet, and safe.And the improvement design that reliability of the present utility model improves has been avoided after having finished predetermined badge processing, and unwanted unnecessary load is applied on the manufacturing installation, has therefore reduced the fault and the breakage of device, thereby has improved the reliability of device.

Symbol description

1: badge manufacturing device, 2: base station, 3: upper wall, 5: perisporium, 6: gathering sill, 7: diapire, 9: sidewall, 9a: direction protrusion, 10: sidewall, 10a: direction protrusion, 11: lug boss, 11a: through hole, 12: lug boss, 12a: through hole, 15: strengthening part, 15a: hole, 15b: hole, 16: pillar, 16a: pin thread, 16b: pin thread, 17: pillar, 17a: pin thread, 17b: pin thread, 18: nut, 19: nut, 20: fixed part, 20a: hole, 20b: hole, 21: nut, 22: nut, 23: through hole, 25: female threaded part, 30: extruding screw axis, 31: connecting portion, 32: operating grip, 33: screw, 35: fulcrum, 36: screwed hole, 40: pressure die, 41: vertical slide unit, 42: outer frame, 43: opening, 44: slotted hole, 45: excurvation pars convoluta, 46: external collar, 47: perisporium, 48: upper end, 49: pilot hole, 50: compressed part, 51: internal layer frame, 52: interior bend, 53: contact edge, 55: internal collar, 56: upper wall, 57: projection, 58: upper end, 59: through hole, 60: upper end, 61: compacting part, 62: diapire, 63: perisporium, 65: jut, 66: through hole, 69: screw, 71: guiding recess, 72: the guiding recess, 73: indicator board, 75: bearing portion, 76: screw, 80: converting member, 81: jut, 82: the first arm parts, 83: holding section, 85: the second arm members, 86: slot, 90: tilting member, 91: jut, 92: arm, 93: spring carrier arm, 95: engaging axle, 95a: top, 95b: bottom, 96: spring carrier arm, 97: spring, 100: sliding stand, 101: antetheca, 102: handle knob 103: rear wall, 104: handle knob, hold mould at 110: the first, 111: the first mounting tables, 113: elastomeric element, 115: upper wall, 116: perisporium, 117: fixed axis, 118: direction protrusion, 119: jut, 120: recess, 122: screw, 125: guide table, 126: mounting portion, 127: guide wall, 129: tube portion, 130: pilot hole, 131: jut, 132: the guiding cylindrical shell, 133: link sheet, 135: elongated slot, 136: the gap, 140: the mat woven of fine bamboo strips 2 holds mould, 141: the second mounting tables, 142: recess, 143: upper wall, 145: perisporium, 146: fixed axis, 148: direction protrusion, 149; Jut, 150: recess, 152: screw, 155: machine table, 156: elastomeric element (spring), 157: the engaging stage portion, 159: becket, 160: inclination edge, 161: recess, 162: tube portion, 163: guiding cylindrical shell, 165: pilot hole, 166: jut, 167: link sheet, 169: elongated slot, 170: positioning element, 172: elastic plate, 173: screw, 175: engaging protrusion, 176: the first engaging recessed parts, 177: the second engaging recessed parts, 180: cover, 181: the mat woven of fine bamboo strips 1 opening, 182: the second openings, 190: cover, 200: badge, 200a: badge main body, 201: protecgulum, 202: header board, 203: periphery, 205: bonnet, 206: back plate, 207: installing hole, 208: recess, 209: periphery, 210: the card claw stop, 211: bristol paper, 213: lid (lamellar body), 215: sign, 220: connect mechanism, 221: protruding member, 222: substrate, 223: surface, 225: grab, 226: the rear surface, 227: fastener, 228: pin, 229: steady pin (wearing mechanism), 230: connect mechanism, 231: protruding member, 232: substrate, 233: surface, 234: bearing plate, 235: trailing flank, 236: back shaft, 237: clip (wearing mechanism), 237a a: end, 238: elastomeric element, 239: bearing plate, 240: bindiny mechanism, 241: protruding member, 242: substrate, 243: trailing flank, 245: surface, 246: magnetic (wearing mechanism), 260: installing mechanism, 261: hole, X: transverse direction, Y: transverse direction, Z: transverse direction, 301: inner part, 302: clutch, 303: outside parts, 304: recess, 305 lids, 306: spring, 307: the engaging block, 308: engaging recessed part, 309: leaf spring, 310: hammer parts, 311: supporting member, 312: bar-shaped portion, 313: expansion section, 314: cone (inclined plane), 315: cone (inclined plane), 317: plate member, 318: Screw.

Claims (8)

1. badge manufacturing device that is used to make badge, described badge mainly comprises protecgulum and bonnet, it is characterized in that, described device comprises:

Base station;

Static cell, described static cell are arranged on the described base station, and described protecgulum or bonnet are placed on the described static cell;

Dynamic element, described dynamic element are driven on the described static cell badge are carried out mold pressing;

Extrusion axis makes dynamic element move forward or backward with respect to static cell, so that the two is engaged with each other or separates;

Fixed part is connected with described extrusion axis and assists it forward and motion backward, and links to each other with described substrate to bear contacting and the reaction force of generation when impacting from described dynamic element and static cell;

Handle is positioned at the top of described extrusion axis, is used for controlling described extrusion axis forward and motion backward;

Described extrusion axis has pin thread, and the female thread on described pin thread and the fixed part is so that control advancing, retreat and pushing of extrusion axis according to the rotation of handle;

The rotation of described handle is to the not influence of any other parts, when dynamic element and static cell engage extrusion axis is advanced further and the reaction force that produces remains in the scope of predetermined value.

2. device according to claim 1 is characterized in that, described handle is connected with extrusion axis by a clutch, and after the revolving force that applies above predetermined value, described handle carries out rotation from described extrusion axis disengaging.

3. device according to claim 2 is characterized in that, described clutch comprises: an inner part and the outside parts as the main operating portion of operating grip that are connected with described extrusion axis but do not rotate with respect to described extrusion axis; When the revolving force on being applied to described outside parts surpassed setting, described outside parts rotated with respect to inner part, and do not influence miscellaneous part.

4. according to claim 2 or 3 described devices, it is characterized in that described clutch comprises: the recess in a plurality of inner part that are arranged in described handle along radial direction; Be arranged on the spring members in the described recess; Be connected the engaging part of the end of described spring; Be arranged on the other recess in the outside parts of described handle, be used for engaging with described engaging part, under normal conditions, described engaging part remains in the recess of the described outside parts of the rotation that is combined as a whole together and inner part, when the revolving force that applies surpasses predetermined value, because the effect of revolving force, the engaging part in the inner part breaks away from from the recess of outside parts, and described outside parts are rotated separately.

5. device according to claim 4 is characterized in that the top of described engaging part is circular, and the recess of described outside parts and the complementation of described engaging part part.

6. according to claim 4 or 5 described devices, it is characterized in that described inner part has four engaging parts, described outside parts have eight recesses.

7. according to each described device in the claim 3 to 6, it is characterized in that described inner part is covered by described outside parts and fixes by a disk and described outside parts.

8. according to each described device in the claim 2 to 7, it is characterized in that described handle and described outside parts are integrally formed.

Images