CN207224493U - Shell injection mold on medical treatment detection capsule endoscope robot - Google Patents

Abstract

The utility model discloses shell injection mold on a kind of medical treatment detection capsule endoscope robot, including：Cover half component, including the first fixed mold core, the 3rd fixed mold core and it is set on the outer circumference surface of the first fixed mold core and is used to be oriented to the second fixed mold core of first fixed mold core, dynamic model component, first mavable module core and it is arranged and forms the cavity of spherical surface body with the second mavable module core on the outside of first mavable module core, the first fixed mold core and the first mavable module core.Shell injection mold is coordinated by mavable module core and fixed mold core to form the cavity of a complete spherical surface body on the medical treatment detection capsule endoscope robot of the utility model, so as to rapid shaping spherical surface body, further through in the first fixed mold core, cast gate is set, so that the trace of cast gate is not present in the outer surface of the formed in mould product of the utility model, so that the outer surface of product is very smooth.

Description

Shell injection mold on medical treatment detection capsule endoscope robot

Technical field

Mould applications are the utility model is related to, belong to shell injection mold on a kind of medical treatment detection capsule endoscope robot.

Background technology

Mould, in industrial production being molded, being blow molded, extruding, die casting or the methods of forging forming, smelting, punching press obtain The various moulds and instrument of required product.In brief, mould is the instrument for formed article, and this instrument is by various parts Form, different moulds is made of different parts, it mainly realizes article by the change of institute's moulding material physical state The processing of shape.Capsule, is a kind of special product of shape, it includes a sphere, but is used for being molded spherical surface body on the market The mould of product be generally all difficult to preferably be molded, product can remain rough outer surface, and security risk is brought to user Or leakproofness brings problem.

Utility model content

The purpose of this utility model is to provide one kind to be molded the preferable mould of sphere, can be used for industrial production.

To reach above-mentioned purpose, the utility model provides following technical solution：A kind of medical treatment detection capsule endoscope robot Upper shell injection mold, including：

Cover half component, including top clamping plate, be in turn secured to below the top clamping plate first draw flitch and second draw Flitch and the solid plate for being fixedly connected with the second drawing flitch, the side of the top clamping plate, which is equipped with, runs through the cover half seat The locating ring of plate, the solid plate are equipped with sprue channel corresponding with the locating ring, and described second draws flitch internally recessed Falling into has one first concave part, and the cover half component further includes the fixed mold core for being contained in first concave part, the fixed mold core bag Include the first fixed mold core and be set in and be used for the second cover half for being oriented to first fixed mold core on the outer circumference surface of the first fixed mold core Benevolence, offer on the solid plate cover half through hole penetrated easy to the first fixed mold core and the second fixed mold core and house with it is described fixed 3rd fixed mold core of mould through hole；

Dynamic model component, including Bottom clamp plate, the cushion block that is correspondingly arranged on the Bottom clamp plate and be fixedly connected described The moving platen of Bottom clamp plate and cushion block, the moving platen from the moving platen one laterally the inner recess of the moving platen second Concave part, the dynamic model component further include the mavable module core for being contained in second concave part, and the mavable module core includes being contained in institute State the first mavable module core of the second concave part and be arranged with the second mavable module core on the outside of first mavable module core, the first fixed mold core with First mavable module core forms the cavity of spherical surface body, and sprue channel is additionally provided with cast gate close to one end of the first mavable module core, and cast gate is positioned at the To weaken or eliminate the internal stress of capsule endoscope upper shell in one fixed mold core and towards the internal stretch of cavity；

Guidance set, including the first non-interference guidance set, the second guidance set and the 3rd guidance set.

Further, longer screw is fixed between the second drawing flitch and the solid plate, so that described second Draw flitch that relative displacement occurs with the solid plate.

Further, from the described first drawing flitch towards dynamic model component it is fixed with the first sprue puller and is fixedly connected with the Second sprue puller of one sprue puller.

Further, waterway channel is offered on the outer circumference surface of the 3rd fixed mold core.

Further, first guidance set includes the first guide post and the first guide sleeve being set on the first guide post.

Further, second guidance set includes the second guide post and the second guide sleeve being set on the second guide post.

Further, the 3rd guidance set includes the slide set along die sinking direction and is separately fixed at cover half First sliding members and the second sliding members on plate and moving platen.

Further, the slide includes corresponding first sliding members and the first slide of the second sliding members and the second cunning Rail.

Further, it is described medical treatment detection capsule endoscope robot on shell injection mold further include be fixedly connected it is described fixed The fixation kit of membrane module and dynamic model component.

Further, the fixation kit includes fixed strip and the mounting hole being arranged on the fixed strip.

The beneficial effects of the utility model are：Shell injection mold passes through on the medical treatment detection capsule endoscope robot First mavable module core and the second mavable module core coordinate to form dynamic model cavity jointly, and the first fixed mold core and the 3rd fixed mold core coordinate to be formed Cover half cavity, dynamic model cavity coordinate the cavity that can be molded a complete spherical surface body with cover half cavity, so as to fast rapid-result Type spherical surface body, cast gate is set further through in the first fixed mold core so that the outer surface of the formed in mould product of the utility model There is no the trace of cast gate, so that the outer surface of product is very smooth.

Described above is only the general introduction of technical solutions of the utility model, in order to better understand the skill of the utility model Art means, and being practiced according to the content of specification, with the preferred embodiment of the utility model and coordinate attached drawing detailed below Describe in detail bright as after.

Brief description of the drawings

Fig. 1 is the overall diagram of the utility model.

Fig. 2 is the first local schematic perspective view of mould.

Fig. 3 is the second local schematic perspective view of mould.

Fig. 4 is the 3rd local schematic perspective view of mould.

Fig. 5 is the 4th local schematic perspective view of mould.

Fig. 6 draws flitch schematic perspective view for second.

Fig. 7 is the schematic perspective view of solid plate.

Fig. 8 is the first fixed mold core, the second fixed mold core, the schematic perspective view of the 3rd fixed mold core.

Fig. 9 is the schematic perspective view of moving platen.

Figure 10 is the first mavable module core, the schematic perspective view of the second mavable module core.

Figure 11 is the schematic perspective view that cast gate and the first mavable module core, the second mavable module core coordinate.

Figure 12 is the sectional view at a certain visual angle of Figure 11.

Embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is used to illustrate the utility model, but is not intended to limit the scope of the present invention.

The utility model discloses shell injection mold on a kind of medical treatment detection capsule endoscope robot.Such as Fig. 1 to Figure 12 Shown, shell injection mold includes cover half component 1, dynamic model component 2, fixation kit on the medical treatment detection capsule endoscope robot 3 and guidance set 4, the cover half component 1 is opposite with 2 position of dynamic model component, described to lead to synthesis type spherical surface body It is used for the relative position for being oriented to the dynamic model component 2 and cover half component 1 to component 4, it is ensured that deviation does not occur to ensure spherical surface body Quality.When shell injection mold needs to be put in storage storage on this medical treatment detection capsule endoscope robot, fixed group can be passed through Part 3 fixes the cover half component 1 and the dynamic model component 2 so that both closes mutually, can ensure the assembling essence of mould The inside original paper of mould is avoided to be damaged while spending.

Specifically, the cover half component 1 includes top clamping plate 10, the first of the lower section of top clamping plate 10 is in turn secured to Draw flitch 12 with the second drawing flitch 13 and be fixedly connected with the solid plate 11 of the second drawing flitch 13.Described first draws flitch 12 It is fixedly connected with the top clamping plate 10, is fixedly connected between the second drawing flitch 13 and the solid plate 11.It should be noted herein , fix the second drawing flitch 13 and the solid plate 11 screw 19 it is longer, thus can cause the second drawing flitch 13 with Relative displacement can occur for the solid plate 11, so that the product in solid plate 11 can be in the situation of no material jacking mechanism Under, carry out automatic material separator using the relative displacement.From the described first drawing flitch 12 the first drawing material is fixed with towards dynamic model component 2 Bar 15 and the second sprue puller 16 for being fixedly connected with the first sprue puller 15.First sprue puller, 15 and second sprue puller, 16 phase It is right, it is respectively limited by the first drawing flitch 12 and second and draws flitch 13.Since the first sprue puller 15 and the second sprue puller 16 are long and narrow, because And length between the two is to represent that first draws flitch 12 and second to draw the maximum displacement between flitch 13.The utility model is such as This setting is to produce a big spacing between the first drawing drawing flitch 13 of flitch 12 and second so that draws material positioned at first Plate 12 and second draws the material head 18 between flitch 13 to stretch into taking-up by manipulator.

The second drawing flitch 13 is internally recessed and has one first concave part 131, is fixed with thereon and first groove Corresponding first cover board 132 in portion.The first fixed mold core 133 is contained in first concave part 131 and is set in first and is determined It is used for the second fixed mold core 134 for being oriented to first fixed mold core 133 on the outer circumference surface of mode 133, the cover board is used for spacing First fixed mold core, 133 and second fixed mold core 134, prevents them from departing from described second and drawing flitch 13.First fixed mold core 133 and second fixed mold core 134 stretch into the solid plate 11 to coordinate with the dynamic model component 2 with shaped article.The solid plate The cover half through hole 111 penetrated easy to the first fixed mold core 133 and the second fixed mold core 134 is offered on 11 and is housed and the cover half 3rd fixed mold core 135 of through hole 111.Waterway channel 136 is installed with the outer circumference surface of 3rd fixed mold core 135.It is described The side of top clamping plate 10 be equipped with through the top clamping plate 10 locating ring 14, the solid plate 11 be equipped with it is described fixed The position corresponding sprue channel 17 of ring 14, the locating ring 14 and the fort position correspondence on injection molding machine, for being oriented to the fort Injection molding machine is accurately injected sizing material in mould, the sprue channel 17 is used to guide injection sizing material to enter in mould Portion.

The dynamic model component 2 include Bottom clamp plate 20, the cushion block 21 for being correspondingly arranged at the lower section of the Bottom clamp plate 20 and The moving platen 22 of the Bottom clamp plate 20 and cushion block 21 is fixedly connected with, the cushion block 21 and Bottom clamp plate 20, moving platen 22 are common It is fixed together.The moving platen 22 is recessed from the second of the inner recess of the lateral moving platen 22 of the moving platen 22 1 Groove portion 23, the dynamic model component 2 further include the first mavable module core 24 for being contained in second concave part 23 and be arranged with it is described Second mavable module core 25 in the outside of the first mavable module core 24.The Bottom clamp plate 20, cushion block 21, moving platen 22 are set successively from bottom to top Put, the top clamping plate 10, first draws flitch 12, second to draw flitch 13, solid plate 11 to set gradually from top to bottom so that described Cover half component 1 can be with relative engagement with dynamic model component 2.

In the utility model, all fixed mold cores and all mavable module cores coordinate the type that can be molded a complete product Chamber.Specific first fixed mold core, 133 one end is in convex spherical shape, which stretches into foregoing first mavable module core 24, and described first is dynamic 24 sunken inside of mode has the concave spherical surface that the sphere with first fixed mold core 133 is adapted, therefore the first fixed mold core 133 and first Mavable module core 24 forms the cavity of spherical surface body.Particularly, sprue channel 17 is arranged in the first fixed mold core 133, and dynamic close to first One end of mode 24 is additionally provided with cast gate 19, and the cast gate 19 is located at the inside of cavity, and in other words, cast gate 19 is located at the first fixed mold core To weaken or eliminate the internal stress of capsule endoscope upper shell in 133 and towards the internal stretch of cavity so that the utility model Formed in mould product outer surface be not present cast gate trace so that the outer surface of product is very smooth.When fort will be molded When material injects cavity by sprue channel 17, cast gate 19, the spherical surface body can be molded, then by second draw flitch 13 with it is described The ejecting spherical surface body of relative displacement between solid plate 11, so far completes whole injection moulding process.

It is mutual that the guidance set 4 includes the first guidance set 41, the second guidance set 42 and the 3rd guidance set 43, three Do not interfere.First guidance set 41 includes the first guide post 410 and the first guide sleeve being set on the first guide post 410.It is described First guidance set 41 is arranged to 6, is evenly distributed on the moving platen 22 and solid plate 11, for being oriented between the two Relative motion.Second guidance set 42 includes the second guide post 420 and the second guide sleeve being set on the second guide post 420.Institute State the second guidance set 42 and be arranged to 4, be evenly distributed on 4 corners of cover half component 1, dynamic model component 2, for being oriented to two Relative motion between person.When mould molds, the second guide post 420 departs from out of second guide sleeve, i.e., dynamic model component 2 is away from described Cover half component 1, when mould mold closing, the second guide post 420 penetrates second guide sleeve, and dynamic model component 2 is formed with cover half component 1 and used In the cavity of shaping spherical surface body.

3rd guidance set 43 includes 4 slides set along die sinking direction and is separately fixed at solid plate 11 With the first sliding members 431 on moving platen 22 and the second sliding members 432.The slide includes corresponding first sliding members 431 With the first slide 433 and the second slide 434 of the second sliding members 432.During die sinking, moving platen 22 is moved to drive the second slip Element 432 is slided along the second slide 434, can when the second sliding members 432 slides into the extreme position of the second slide 434 To drive the first slide 433 to slide, when the first slide 433 slides into the extreme position of itself, the first slip can be driven first The movement of part 431 is so as to drive solid plate 11 to move, so as to drive the second drawing flitch 13 to occur relatively with the solid plate 11 Displacement, so that product can carry out automatic material separator using the relative displacement.In addition, should during, first draws flitch 12, the Distance is produced between two drawing flitch 13, manipulator can be allowd to take out material head 18.

The fixation kit 3 includes fixed strip 31, and the fixed strip 31 is equipped with mounting hole 32, and screw passes through mounting hole 32 Fixed strip 31 is also secured on cover half component 1 and dynamic model component 2, so as to ensure that the phase of cover half component 1 and dynamic model component 2 It is constant to position.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

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

Claims (10)

1. shell injection mold on a kind of medical treatment detection capsule endoscope robot, including：

Cover half component, including top clamping plate, be in turn secured to below the top clamping plate first draw flitch and second draw flitch And the described second solid plate for drawing flitch is fixedly connected with, the side of the top clamping plate is equipped with through the top clamping plate Locating ring, the solid plate are equipped with sprue channel corresponding with the locating ring, and the second drawing flitch is internally recessed and has One first concave part, the cover half component further include the fixed mold core for being contained in first concave part, and the fixed mold core includes the One fixed mold core and it is set on the outer circumference surface of the first fixed mold core and is used to be oriented to the second fixed mold core of first fixed mold core, institute State to offer the cover half through hole penetrated easy to the first fixed mold core and the second fixed mold core on solid plate and house and lead to the cover half 3rd fixed mold core in hole；

Dynamic model component, including Bottom clamp plate, the cushion block that is correspondingly arranged on the Bottom clamp plate and it is fixedly connected with the dynamic model The moving platen of seat board and cushion block, second groove of the moving platen from the lateral inner recess of the moving platen of the moving platen one Portion, the dynamic model component further include the mavable module core for being contained in second concave part, and the mavable module core includes being contained in described the First mavable module core of two concave parts and it is arranged and the second mavable module core on the outside of first mavable module core, the first fixed mold core and first Mavable module core forms the cavity of spherical surface body, and sprue channel is additionally provided with cast gate close to one end of the first mavable module core, and cast gate is fixed positioned at first To weaken or eliminate the internal stress of capsule endoscope upper shell in mode and towards the internal stretch of cavity；

Guidance set, including the first non-interference guidance set, the second guidance set and the 3rd guidance set.

2. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 1, it is characterised in that：Described Longer screw is fixed between two drawing flitch and the solid plate, so that described second draws flitch that phase occurs with the solid plate To displacement.

3. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 2, it is characterised in that：From described The first sprue puller is fixed with towards dynamic model component and be fixedly connected with the second sprue puller of the first sprue puller on first drawing flitch.

4. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 3, it is characterised in that：Described Waterway channel is offered on the outer circumference surface of three fixed mold cores.

5. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 4, it is characterised in that：Described One guidance set includes the first guide post and the first guide sleeve being set on the first guide post.

6. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 5, it is characterised in that：Described Two guidance sets include the second guide post and the second guide sleeve being set on the second guide post.

7. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 6, it is characterised in that：Described Three guidance sets include the slide set along die sinking direction and are separately fixed at the first slip member on solid plate and moving platen Part and the second sliding members.

8. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 7, it is characterised in that：The cunning Rail includes the first slide and the second slide of corresponding first sliding members and the second sliding members.

9. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 8, it is characterised in that：The doctor Treat shell injection mold on detection capsule endoscope robot and further include the fixation for being fixedly connected with the cover half component and dynamic model component Component.

10. shell injection mold on medical treatment detection capsule endoscope robot as claimed in claim 9, it is characterised in that：It is described Fixation kit includes fixed strip and the mounting hole being arranged on the fixed strip.