CN112720953B

CN112720953B - Glass fiber reinforced plastic electrolytic tank forming device

Info

Publication number: CN112720953B
Application number: CN202011353022.8A
Authority: CN
Inventors: 王成友
Original assignee: Tongling Sitong Environmental Technology Co ltd
Current assignee: Tongling Sitong Environmental Technology Co ltd
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2022-07-26
Anticipated expiration: 2040-11-26
Also published as: CN112720953A

Abstract

A glass steel electrolysis trough forming device is characterized by comprising: the device comprises a gantry hanging frame, a forming frame and a forming box, wherein a discharge conveying track is arranged at the lower part of the gantry hanging frame, and a conveying vehicle is arranged on the discharge conveying track; the forming frame is arranged at the lower part of the gantry hanging frame, and two parallel positioning discs are fixed on the forming frame; mounting grooves are respectively formed in two sides of the forming box, the positioning disc is located inside the mounting grooves, a vibration motor is fixedly mounted on the outer side wall of the forming box, an upper die cover is arranged on the upper portion of the forming box, and a lower die cover is arranged on the lower portion of the forming box; utilize the supporting spring who sets up between pedestal and the step seat to keep apart into the mould case and one-tenth moulding frame, become the mould case and after producing vibrations, supporting spring can cushion vibrations, reduces the vibrations conduction between one-tenth moulding case and the one-tenth moulding frame, and sets up stand and bracing piece, can prevent that one-tenth moulding case from taking place the skew.

Description

Glass fiber reinforced plastic electrolytic tank forming device

Technical Field

The invention relates to the field of glass fiber reinforced plastic electrolytic tank production equipment, in particular to a glass fiber reinforced plastic electrolytic tank forming device.

Background

The glass fiber Reinforced plastic is known as Fiber Reinforced Plastic (FRP), i.e., fiber Reinforced composite plastic. The fiber is classified into glass fiber reinforced composite plastic (GFRP), carbon fiber reinforced composite plastic (CFRP), boron fiber reinforced composite plastic, and the like according to the difference of the adopted fiber. It is a composite material using glass fibre and its products (glass cloth, band, felt and yarn, etc.) as reinforcing material and synthetic resin as base material. The fiber reinforced composite material is composed of reinforced fibers and a matrix. The glass fiber reinforced plastic is a good corrosion-resistant material and has good resistance to atmosphere, water, acid, alkali, salt with common concentration and various oils and solvents. The electrolytic cell prepared by the glass fiber reinforced plastics has strong corrosion resistance, and the service life of the electrolytic cell is greatly prolonged.

Glass steel electrolysis trough is in the forming process, through pouring into the shaping raw materials into the mould, treat to carry out the drawing of patterns operation after the shaping, for guaranteeing the evenly distributed of glass steel raw materials in the forming process, need install shock dynamo additional at the forming die outside, utilize vibrations to make the raw materials fully sneak into to the mould in, in the forming process, because shock dynamo vibrations conduction, make the mould support frame produce a large amount of noises, and long-time vibration effect can make support frame and ground be connected and take place not hard up, cause the skew of mould support frame.

Disclosure of Invention

The invention aims to solve the problem that the fixing of a mold supporting frame is influenced by the fact that the vibration of a forming mold is transmitted to the mold supporting frame in the vibration process, and the forming device of the glass fiber reinforced plastic electrolytic tank is provided.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a glass steel electrolysis trough forming device is characterized by comprising:

the lower part of the gantry hanger is provided with a discharge conveying track, and a conveying vehicle is arranged on the discharge conveying track;

the forming frame is arranged at the lower part of the gantry hanging frame, and two parallel positioning discs are fixed on the forming frame;

the device comprises a forming box, a positioning disc, a vibration motor, an upper die cover, a lower die cover and a positioning disc, wherein mounting grooves are respectively formed in two sides of the forming box;

the equidistant dashpot that is equipped with on the mounting groove inside wall, the positioning disk lateral part articulates there is the bracing piece, the buffering wheel is installed to bracing piece one end, the buffering wheel is located inside the dashpot, and the dashpot setting of two spinal branch vaulting poles correspondence is connected with traction spring between the inside two spinal branch vaulting poles of same dashpot, the positioning disk is close to the inside one side of mounting groove and is equipped with the step seat, the inside pedestal that is equipped with of mounting groove, the pedestal lower part is fixed with the stand, the stand slides and passes the step seat, the stand between pedestal and the step seat is fitted with a contraceptive ring and is overlapped there is supporting spring.

Furthermore, the conveying vehicle is provided with a lifting platform, the lower die cover is positioned on the upper part of the lifting platform, and the upper die cover is suspended on the gantry hanging bracket.

Further, install lifting screw on the shaping frame, lifting screw is equipped with four and is located four corners of shaping case respectively, installs on every lifting screw and removes the seat, it installs drive gear to rotate on the removal seat, drive gear passes through the screw thread go-between cover on lifting screw, installs driving motor on the removal seat on one of them lifting screw, and drive gear passes through driving motor drive and rotates, be equipped with spacing draw-in groove on the removal seat, slidable mounting has the support ring in the spacing draw-in groove, support ring outer lane and drive gear meshing, support ring inner circle side upper portion is equipped with spacing bulge loop, support ring inner circle side lower part articulates there is the telescopic link, be equipped with first tension spring between telescopic link and spacing bulge loop inner circle side, the wax roller is installed to the telescopic link end.

Furthermore, a baffle ring is fixedly mounted at the upper end of the lifting screw, a sleeve is fixed to the inner ring of the baffle ring, the outer diameter of the sleeve is smaller than the inner diameter of the limiting convex ring, and when the movable base rises to the uppermost end of the lifting screw, the lower end of the sleeve presses the telescopic rod.

Furthermore, the telescopic link includes outer tube and inner tube, inside the inner tube sliding insertion to the outer tube, the cavity in the inner tube, the inner tube lateral wall is equipped with the spout along the axis direction, outer tube end department is fixed with the projection, the projection sliding insertion is to the spout inside, the inner tube stretches into to be connected with second tension spring between inside one end of outer tube and projection.

Further, inner tube one end is fixed with the mount pad, the waxing roller is installed on the mount pad, the mount pad lower part is equipped with the direction slide, the direction slide sets up along telescopic rod axis direction, the inside magnet seat of direction slide, the direction slide is close to waxing roller one end and is fixed with the electro-magnet, be fixed with the side lever on the magnet seat, be fixed with the brush board on the side lever, the brush board is passed through the pipe connection respectively with the waxing roller and is annotated the wax pump export, annotate the import of wax pump and pass through the pipe connection wax case.

The beneficial effects of the invention are:

the invention has simple structure, the support spring arranged between the pedestal and the step seat is used for isolating the forming box from the forming frame, the support spring can buffer the vibration after the forming box generates the vibration, the vibration conduction between the forming box and the forming frame is reduced, and the upright post and the support rod are arranged, so the forming box can be prevented from deviating.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a view of the mounting structure of the movable base of the present invention;

FIG. 3 is a connection view a of the positioning plate of the present invention in the mounting groove;

FIG. 4 is a connection diagram b of the positioning plate of the present invention in the mounting groove;

FIG. 5 is a view of the structure of the telescopic rod of the present invention;

in the figure: 1. a gantry crane; 2. forming a frame; 3. forming a box; 12. a discharge conveying track; 13. a delivery wagon; 14. positioning a plate; 15. mounting grooves; 16. a vibration motor; 17. putting a mold cover; 18. a lower die cover; 21. a buffer tank; 22. a support bar; 23. a buffer wheel; 24. a traction spring; 25. a step base; 26. a pedestal; 27. a column; 28. a support spring; 29. a lifting platform; 31. a lifting screw; 32. a movable seat; 33. a transmission gear; 34. a drive motor; 35. a limiting clamping groove; 36. a support ring; 37. a limit convex ring; 38. a telescopic rod; 39. a first tension spring; 40. waxing rollers; 51. an outer sleeve; 52. an inner tube; 53. a chute; 54. a convex column; 55. a second tension spring; 61. a mounting seat; 62. a guide slide way; 63. a magnet base; 64. an electromagnet; 65. a side lever; 66. a brush plate; 67. a wax injection pump; 68. a wax box.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1, 3, 4; a glass steel electrolysis trough forming device is characterized by comprising:

the device comprises a gantry hanger 1, wherein a discharge conveying rail 12 is arranged at the lower part of the gantry hanger 1, and a conveying vehicle 13 is arranged on the discharge conveying rail 12;

the forming frame 2 is arranged at the lower part of the gantry hanging bracket 1, and two parallel positioning discs 14 are fixed on the forming frame 2;

the device comprises a forming box 3, wherein mounting grooves 15 are respectively formed in two sides of the forming box 3, a positioning disc 14 is positioned inside the mounting grooves 15, a vibration motor 16 is fixedly mounted on the outer side wall of the forming box 3, an upper die cover 17 is arranged at the upper part of the forming box 3, and a lower die cover 18 is arranged at the lower part of the forming box;

equidistant buffer slot 21 that is equipped with on 15 inside walls of mounting groove, 14 lateral parts of positioning disk articulate there is the bracing piece 22, the buffer wheel 23 is installed to bracing piece 22 one end, buffer wheel 23 is located inside the buffer slot 21, two bracing pieces 22 correspond a buffer slot 21 setting, be connected with traction spring 24 between two inside bracing pieces 22 of same buffer slot 21, positioning disk 14 is close to inside one side of mounting groove 15 and is equipped with step seat 25, inside being equipped with of mounting groove 15 is provided with pedestal 26, pedestal 26 lower part is fixed with stand 27, stand 27 slides and passes step seat 25, stand 27 cover between pedestal 26 and the last ring seat 25 has supporting spring 28.

The carrier 13 is lifted on a lift table 29, the lower mold cover 18 is positioned above the lift table 29, and the upper mold cover 17 is suspended from the gantry crane 1.

A glass steel electrolysis trough forming device, theory of operation:

when the forming operation of the glass fiber reinforced plastic electrolytic tank is carried out, the upper mold cover 17 is hoisted to the upper part of the forming box 3 by using the gantry hanger 1, the upper mold cover 17 is fixedly connected with the forming box 3 by using the connecting nail, the lower mold cover 18 is conveyed to the lower part of the forming box 3 by using the conveying vehicle 13, the lower mold cover 18 is jacked by using the lifting platform 29, the lower mold cover 18 is covered on the lower part of the forming box 3, the lower mold cover 18 is fixedly connected with the forming box 3 by using the connecting nail, after the fixing is finished, the forming raw materials are injected into the forming box 3 through the injection port on the forming box 3, the vibration motor 16 on the forming box 3 is started to carry out the forming operation of the glass fiber reinforced plastic electrolytic tank, after the forming is finished, the connecting nail between the upper mold cover 17 and the forming box 3 is taken down, the upper mold cover 17 is hoisted by using the gantry hanger 1, then the connecting nail between the lower mold cover 18 and the forming box 3 is taken down, the lifting platform 29 descends, the glass fiber reinforced plastic electrolytic tank formed in the forming box 3 is sleeved on the lower mold cover 18 and discharged from the bottom of the forming box 3, finally, the conveying vehicle 13 is used for conveying the lower loading mould cover 18 and the formed electrolytic tank out together for discharging the electrolytic tank; utilize the supporting spring 28 that sets up between pedestal 26 and the step seat 25 to keep apart forming box 3 and forming frame 2, forming box 3 is after producing vibrations, and supporting spring 28 can cushion vibrations, reduces the vibrations conduction between forming box 3 and the forming frame 2, and sets up stand 27 and bracing piece 22, can prevent that forming box 3 from taking place the skew.

Example 2

On the basis of example 1, as shown in FIGS. 1-5; before forming, the glass fiber reinforced plastic electrolytic tank needs to coat paraffin on the inner wall of a mold to prevent forming raw materials from being adhered to the inner side wall of the mold, in the prior art, when waxing is carried out on the inner side wall of a forming box 3 and an upper mold cover 17, the forming box 3 and the upper mold cover 17 need to be detached, and waxing is carried out by adopting a manual waxing mode, the operation is complicated and labor is wasted, through installing a lifting screw 31 on a forming frame 2, the lifting screw 31 is provided with four lifting screws 31 which are respectively positioned at four corners of the forming box 3, a moving seat 32 is installed on each lifting screw 31, a transmission gear 33 is rotatably installed on each moving seat 32, the transmission gear 33 is sleeved on the lifting screw 31 through a threaded connecting ring, a driving motor 34 is installed on the moving seat 32 on one lifting screw 31, the transmission gear 33 is driven to rotate through the driving motor 34, and a limit clamping groove 35 is arranged on the moving seat 32, a supporting ring 36 is slidably mounted in the limiting clamping groove 35, the outer ring of the supporting ring 36 is meshed with the transmission gear 33, a limiting convex ring 37 is arranged on the upper portion of the inner ring side of the supporting ring 36, a telescopic rod 38 is hinged to the lower portion of the inner ring side of the supporting ring 36, a first tension spring 39 is arranged between the telescopic rod 38 and the inner ring side of the limiting convex ring 37, and a waxing roller 40 is mounted at the end head of the telescopic rod 38. The extension pole 38 can only deflect in the radial direction of the support ring 36, and the plane formed by the deflection is perpendicular to the plane of the support ring 36.

A stop ring is fixedly arranged at the upper end of the lifting screw rod 31, a sleeve is fixed at the inner ring of the stop ring, the outer diameter of the sleeve is smaller than the inner diameter of the limiting convex ring 37, and when the movable base 32 rises to the uppermost end of the lifting screw rod 31, the lower end of the sleeve presses the telescopic rod 38.

The upper die cover 17 is lifted by using the gantry hanger 1, so that the upper die cover 17 is completely separated from the forming box 3, the upper die cover 17 is positioned inside the sleeve, the driving motor 34 is used for driving the transmission gear 33 to rotate, the transmission gear 33 moves along the axial direction of the lifting screw 31 due to the action of threads in the rotating process, and further drives the moving seat 32 to integrally move on the lifting screw 31, the moving seat 32 drives the support ring 36 to move when moving, the outer side of the support ring 36 is meshed with the transmission gear 33, and further drives the support ring 36 to rotate, because the support ring 36 is simultaneously meshed with the transmission gears 33 on the four lifting screws 31, the four transmission gears 33 simultaneously rotate, the horizontal rotating and lifting of the support ring 36 are realized, the support ring 36 drives the telescopic rod 38 to move in the rotating process, the waxing roller 40 arranged at the end of the telescopic rod 38 contacts with the side wall of the upper die cover 17, and waxing on the side wall of the upper die cover 17 is realized, when the supporting ring 36 moves to the uppermost part of the lifting screw 31, the lower end of the sleeve penetrates through the limiting convex ring 37 to press the telescopic rod 38, so that the telescopic rod 38 deflects, the waxing roller 40 is separated from the side wall of the upper mold cover 17, and the normal lifting of the upper mold cover 17 cannot be influenced by the waxing roller 40 at the moment.

The telescopic rod 38 comprises an outer sleeve 51 and an inner tube 52, the inner tube 52 is slidably inserted into the outer sleeve 51, the inner tube 52 is hollow, a sliding groove 53 is formed in the outer side wall of the inner tube 52 along the axial direction, a convex column 54 is fixed at the end of the outer sleeve 51, the convex column 54 is slidably inserted into the sliding groove 53, and a second tension spring 55 is connected between one end of the inner tube 52 extending into the outer sleeve 51 and the convex column 54.

Along with the rotation of support ring 36 drives telescopic link 38 and waxing roller 40 around the motion of upper die cover 17 lateral wall, in the motion process, along with the change of upper die cover 17 lateral wall appearance, can extrude waxing roller 40, through setting up telescopic link 38, can adapt to the irregular change on upper die cover 17 surface, guarantee support ring 36 when encircleing upper die cover 17, waxing roller 40 can hug closely on upper die cover 17 surface.

An installation seat 61 is fixed at one end of the inner pipe 52, the waxing roller 40 is installed on the installation seat 61, a guide slide way 62 is arranged at the lower portion of the installation seat 61, the guide slide way 62 is arranged along the axial direction of the telescopic rod 38, a magnet seat 63 inside the guide slide way 62, an electromagnet 64 is fixed at one end, close to the waxing roller 40, of the guide slide way 62, a side rod 65 is fixed on the magnet seat 63, a brush plate 66 is fixed on the side rod 65, the brush plate 66 and the waxing roller 40 are respectively connected with the outlet of a wax injection pump 67 through pipelines, and the inlet of the wax injection pump 67 is connected with a wax box 68 through a pipeline.

When waxing, the electromagnet 64 is controlled to be close to one end of the magnet seat 63 and magnetic, the two are opposite in attraction, the magnet seat 63 moves towards one side of the upper wax roller 40 along the guide slide way 62, when the upper wax roller 40 contacts with the side wall of the upper die cover 17, the lifting screw 31 descends, when the lower end of the side rod 65 is inserted into the forming box 3, the electromagnet 64 is controlled to be close to one end of the magnet seat 63 and magnetic, the opposite in repulsion, the magnet seat 63 moves towards one side far away from the upper wax roller 40 along the guide slide way 62, in the moving process, the side rod 65 is driven to move towards the inner side wall of the forming box 3, the brush plate 66 on the side rod 65 can contact with the inner side wall of the forming box 3, along with the rotation of the support ring 36, the side rod 65 rotates along with the following, and the brush plate 66 can wax the inner side wall of the forming box 3. The operation is simple, and manual operation is reduced.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A glass steel electrolysis trough forming device, characterized by that includes:

the positioning device comprises a forming box, a positioning plate and a positioning plate, wherein two sides of the forming box are respectively provided with a mounting groove, the positioning plate is positioned in the mounting grooves, the outer side wall of the forming box is fixedly provided with a vibration motor, the upper part of the forming box is provided with an upper die cover, and the lower part of the forming box is provided with a lower die cover;

buffer grooves are formed in the inner side wall of the mounting groove at equal intervals, supporting rods are hinged to the side portion of the positioning plate, a buffer wheel is mounted at one end of each supporting rod and located inside the buffer groove, the two supporting rods correspond to one buffer groove, a traction spring is connected between the two supporting rods inside the same buffer groove, a step seat is arranged on one side, close to the inside of the mounting groove, of the positioning plate, a pedestal is arranged inside the mounting groove, an upright post is fixed to the lower portion of the pedestal and penetrates through the step seat in a sliding mode, and a supporting spring is sleeved on the upright post between the pedestal and the step seat in a ring fit mode;

the forming frame is provided with lifting screws, the lifting screws are provided with four lifting screws which are respectively positioned at four corners of the forming box, each lifting screw is provided with a moving seat, the moving seat is rotatably provided with a transmission gear, the transmission gear is sleeved on the lifting screws through a threaded connecting ring, the moving seat on one lifting screw is provided with a driving motor, the transmission gear is driven to rotate through the driving motor, the moving seat is provided with a limiting clamping groove, a supporting ring is slidably arranged in the limiting clamping groove, the outer ring of the supporting ring is meshed with the transmission gear, the upper part of the inner ring side of the supporting ring is provided with a limiting convex ring, the lower part of the inner ring side of the supporting ring is hinged with a telescopic rod, a first tension spring is arranged between the telescopic rod and the inner ring side of the limiting convex ring, and the end of the telescopic rod is provided with a waxing roller;

a stop ring is fixedly mounted at the upper end of the lifting screw, a sleeve is fixed on the inner ring of the stop ring, the outer diameter of the sleeve is smaller than the inner diameter of the limiting convex ring, and when the movable seat rises to the uppermost end of the lifting screw, the lower end of the sleeve presses the telescopic rod;

the telescopic rod comprises an outer sleeve and an inner tube, the inner tube is inserted into the outer sleeve in a sliding manner, the inner tube is hollow, a sliding groove is formed in the outer side wall of the inner tube along the axis direction, a convex column is fixed at the end of the outer sleeve, the convex column is inserted into the sliding groove in a sliding manner, and a second tension spring is connected between one end of the inner tube, which extends into the outer sleeve, and the convex column;

inner tube one end is fixed with the mount pad, the waxing roller is installed on the mount pad, the mount pad lower part is equipped with the direction slide, the direction slide sets up along telescopic rod axis direction, the inside magnet seat of direction slide, the direction slide is close to waxing roller one end and is fixed with the electro-magnet, be fixed with the side lever on the magnet seat, be fixed with the brush board on the side lever, the brush board is passed through the pipe connection respectively with the waxing roller and is annotated the wax pump export, annotate the import of wax pump and pass through the pipe connection wax case.

2. The apparatus as claimed in claim 1, wherein the transportation cart has a lifting platform, the lower mold cover is located on the lifting platform, and the upper mold cover is suspended from a gantry crane.