CN206034196U - Pressure adjustment mechanism of hot pressing plastic equipment - Google Patents

Abstract

The utility model discloses a pressure adjustment mechanism of hot pressing plastic equipment, including lower mould, die holder and adjusting device, the lower mould is installed on the die holder, and adjusting device includes regulating part and elastomeric element, and elastomeric element installs in the die holder, and elastomeric element's top connects in the bottom of lower mould, and elastomeric element's bottom cross -under is in the die holder, and this elastomeric element is used for providing an elastic stress who makes the lower mould upward movement, the cross -under of regulating part one end in the die holder, and form and to be used for upwards roof pressure elastomeric element's roof pressure portion, the other end of regulating part forms and stretches out in the bottom face of die holder and form regulation portion, and this regulation portion is used for driving the roof pressure elastomeric element that makes progress of roof pressure portion. The utility model discloses a pressure adjustment mechanism of hot pressing plastic equipment, its whole accommodation process need not to dismantle alright realization to the lower mould, and convenient operation is swift, has improved production efficiency.

Description

The pressure regulating mechanism of heat-pressing shaping equipment

Technical field

This utility model is related to mechanical equipment technical field, more particularly to a kind of pressure of heat-pressing shaping equipment adjusts machine Structure.

Background technology

The process of hot pressing shaping is that, by the downward mould of upper molding, the spring reaction of lower mould makes the wet of mold cavity in upper mould Embryo is heated, pressurized and molding, and is to make the pressurized equalization of each mold parting surface, with consistent, the uniform drying that ensures wet embryo wall thickness, therefore Amount of spring compression must be made consistent.The erection sequence that existing hot pressing shaping part of the lower die generally adopts is followed successively by lower mould, spring And die shoe, spring is located between lower mould and die shoe, so that lower mould heating plate is parallel with base, it is ensured that the height of spring-compressed Degree is consistent, and generally needs to adjust pressure according to the bright and clean degree of product surface in process of production, and this assembling structure has to Lower mould is pulled down, just can be with regulating bolt so as to be adjusted to the decrement of spring, operation is inconvenient and affects production efficiency.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of pressure of heat-pressing shaping equipment Governor motion, just can be adjusted to the decrement of elastomeric element without the need for dismounting to lower mould, easy to operate.

The purpose of this utility model employs the following technical solutions realization：

The pressure regulating mechanism of heat-pressing shaping equipment, including lower mould, die shoe and adjusting means, lower mould is installed on lower mould On seat, adjusting means includes regulating part and elastomeric element, and elastomeric element is installed in die shoe, and the top of elastomeric element connects The bottom of lower mould is connected to, the bottom of elastomeric element is worn and is connected in die shoe, the elastomeric element is used for offer one makes lower mould transport upwards Dynamic elastic stress；Regulating part one end is connected in die shoe, and form top splenium for elastomeric element described in top pressure upwards, The other end of regulating part stretches out in the bottom face of die shoe and forms adjustment portion, and the adjustment portion is used for driving the top splenium upwards Top pressure elastomeric element.

Preferably, mounting groove is offered on die shoe, through die shoe, elastomeric element is installed on the installation to the mounting groove In groove, the bottom of mounting groove is provided with top pressure block, and top pressure block is abutted to the bottom of elastomeric element, and top pressure block can be along the height of mounting groove Direction is moved, and the top splenium is screw-coupled in top pressure block.

Preferably, the regulating part is screw rod, and one end of screw rod is screw-coupled in top pressure block and forms the top splenium；Screw rod The other end stretch out in the bottom face of die shoe, screw rod stretches out in the screwing sections of the bottom face of die shoe a nut.

Preferably, the bottom of lower mould is installed with push rod, and the push rod is used for the top of elastomeric element described in downward top pressure.

Preferably, the outer surface of push rod is convexly equipped with limiting section, and die shoe is provided with and is connected with limiting plate, and the limiting plate is located at The top of limiting section for abutting to limiting section when the limiting section is moved upwards.

Preferably, lower mould includes heating plate, thermal insulation board and the installing plate from top to bottom installed successively, heating plate, heat-insulated Plate and installing plate are bolted to connection；Heating tube is provided with heating plate；The push rod is fixed in the bottom of installing plate.

Compared to existing technology, the beneficial effects of the utility model are：The top splenium that its regulating part has is worn and is connected on lower mould In seat and can top pressure elastomeric element upwards, the adjustment portion of regulating part then stretches out in die shoe bottom to be used for making drive top splenium top pressure Elastomeric element, so as to be adjusted to the decrement of elastomeric element, as adjustment portion stretches out in die shoe, thus entirely adjusts Section process is just capable of achieving without the need for dismantling to lower mould, convenient to operation, improves production efficiency.

Description of the drawings

Fig. 1 is cross-sectional view of the present utility model；

Fig. 2 is dimensional structure diagram of the present utility model.

In figure：10th, lower mould；11st, heating plate；12nd, thermal insulation board；13rd, installing plate；20th, die shoe；31st, regulating part；32nd, bullet Property part；40th, push rod；41st, limiting section；50th, limiting plate；60th, top pressure block.

Specific embodiment

Below, with reference to accompanying drawing and specific embodiment, this utility model is described further：

The pressure regulating mechanism of heat-pressing shaping equipment as shown in Figure 1 and Figure 2, including lower mould 10, die shoe 20 and Adjusting means, lower mould 10 are installed on die shoe 20, and concrete adjusting means includes regulating part 31 and elastomeric element 32, by elasticity Part 32 is installed in die shoe 20, and makes the top of elastomeric element 32 be connected to the bottom of lower mould 10, and elastomeric element 32 Bottom is worn and is connected in die shoe 20, and elastomeric element 32 is used for the elastic stress that offer one makes lower mould 10 move upwards；In addition, above-mentioned 31 one end of regulating part is connected in die shoe 20, and this is worn the part being connected in die shoe 20 and can be formed for bullet described in top pressure upwards Property part 32 top splenium, accordingly, the other end of regulating part 31 stretches out in the bottom face of die shoe 20 and forms adjustment portion, should Adjustment portion is used for driving top splenium top pressure elastomeric element 32 upwards.

On the basis of said structure, during using pressure regulating mechanism of the present utility model, can directly by adjusting regulating part Adjustment portion on 31 drives the bottom of the top splenium above-mentioned elastomeric element of top pressure 32 upwards, due to top and the lower mould of elastomeric element 32 10 plates connect, thus upwards the bottom of top pressure elastomeric element 32 when, elastomeric element 32 can be compressed, lower 10 plate of mould can be in elastic The effect of the elastic stress provided by part 32 is with certain trend moved upwards such that it is able to the upper mould one being given on mould Individual counteracting force.As adjustment portion stretches out in die shoe 20, thus whole regulation process is without the need for dismantling to lower mould 10 Just it is capable of achieving, it is convenient to operation, improve production efficiency.

In the present embodiment, multiple adjusting meanss are provided with the die shoe 20 of above-mentioned whole mould, for mould under monoblock 10 pieces each face carries out pressure regulation, and on the basis of said structure, operator only needs to carry out multiple adjustment portions one by one manually The regulated quantity for adjusting i.e. achievable each adjusting means is consistent, and the pressure of 10 plate of lower mould is depending on the compression of elastomeric element 32 The size of amount, as long as the decrement of i.e. all elastic part 32 is consistent, each position of lower 10 plate of mould is pressurized just uniform.

Preferably, mounting groove can be offered on above-mentioned die shoe 20, the mounting groove through die shoe 20, by elastomeric element 32 are installed in the mounting groove, and such elastomeric element 32 can be pressed in the short transverse of the restriction lower edge mounting groove of mounting groove Contracting, track are more steady.Specifically top pressure block 60 is provided with the bottom of mounting groove, the top pressure block 60 can be abutted to elastomeric element 32 Bottom, top pressure block 60 can be moved along the short transverse of mounting groove, and the top splenium is screw-coupled in top pressure block 60, thus by rotation Adjustment portion just can drive top splenium precession or back-out top pressure block 60, so as to realize that the decrement of elastomeric element 32 is adjusted Section.Certainly, top splenium also can be directly that top pressure block 60 is fixedly connected, and just can directly drive top upwards or downwards by adjustment portion Briquetting 60 upwards or downwards, equally can also be realized being adjusted the decrement of elastomeric element 32.

Preferably, above-mentioned regulating part 31 is specifically as follows screw rod, and one end of screw rod is screw-coupled in top pressure block 60 and forms institute Top splenium is stated, and the bottom face that the other end of screw rod stretches out in die shoe 20 just can form the adjustment portion, the concrete adjustment portion A nut can be bolted with after the decrement to having adjusted elastomeric element 32, be easy to the fixation of regulating part 31, it is to avoid in mould Occur loosening during matched moulds.

Preferably, also push rod 40 can be installed with the bottom of 10 plate of lower mould, the push rod 40 is used for elasticity described in downward top pressure The top of part 32, facilitates elastomeric element 32 to exert a force for 10 plate of lower mould that push rod 40 is fixedly connected.Further, can be in push rod 40 outer surface is convexly equipped with limiting section 41, is provided with accordingly and is connected with limiting plate 50 on die shoe 20, concrete limiting plate 50 In the top of limiting section 41, i other words when 10 plate of lower mould is moved upwards by elastic stress effect, can drive described spacing Portion 41 moves upwards, and above-mentioned limiting plate 50 can be abutted to limiting section 41, prevents the motion further up of 10 plate of lower mould so that The stress of lower 10 plate of mould is more steady.

Preferably, lower mould 10 includes heating plate 11, thermal insulation board 12 and the installing plate 13 from top to bottom installed successively, heating Plate 11, thermal insulation board 12 and installing plate 13 are bolted to connection；Heating tube is provided with heating plate 11, realizes being hot pressed into Shape, and thermal insulation board 12 is then for heating plate 11 and installing plate 13 are separated, it is to avoid on die shoe 20, each part is heated impaired.Install Plate 13 can specifically may be mounted at the bottom of installing plate 13 as an installation foundation, above-mentioned push rod 40.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of this utility model claim Within the scope of.

Claims (6)

1. the pressure regulating mechanism of heat-pressing shaping equipment, including lower mould, die shoe and adjusting means, lower mould is installed on die shoe On, it is characterised in that adjusting means includes regulating part and elastomeric element, and elastomeric element is installed in die shoe, and elastic The top of part is connected to the bottom of lower mould, and the bottom of elastomeric element is worn and is connected in die shoe, and the elastomeric element is used for offer one to be made The elastic stress that lower mould is moved upwards；Regulating part one end is connected in die shoe, and formed for elastic described in top pressure upwards The top splenium of part, the other end of regulating part stretch out in the bottom face of die shoe and form adjustment portion, and the adjustment portion is used for driving institute State top splenium top pressure elastomeric element upwards.

2. the pressure regulating mechanism of heat-pressing shaping equipment as claimed in claim 1, it is characterised in that offer peace on die shoe Tankage, through die shoe, elastomeric element is installed in the mounting groove mounting groove, and the bottom of mounting groove is provided with top pressure block, top Briquetting is abutted to the bottom of elastomeric element, and top pressure block can be moved along the short transverse of mounting groove, and the top splenium is screw-coupled to top pressure In block.

3. the pressure regulating mechanism of heat-pressing shaping equipment as claimed in claim 2, it is characterised in that the regulating part is spiral shell Bar, one end of screw rod are screw-coupled in top pressure block and form the top splenium；The other end of screw rod stretches out in the bottom face of die shoe, Screw rod stretches out in the screwing sections of the bottom face of die shoe a nut.

4. the pressure regulating mechanism of heat-pressing shaping equipment as claimed in claim 1, it is characterised in that the bottom of lower mould is installed with Push rod, the push rod are used for the top of elastomeric element described in downward top pressure.

5. the pressure regulating mechanism of heat-pressing shaping equipment as claimed in claim 4, it is characterised in that the outer surface projection of push rod Limited location portion, die shoe are provided with and are connected with limiting plate, and the limiting plate is located at the top of limiting section and in the limiting section Abut to limiting section when moving upwards.

6. the pressure regulating mechanism of heat-pressing shaping equipment as claimed in claim 4, it is characterised in that lower mould is included from top to bottom Heating plate, thermal insulation board and the installing plate installed successively, heating plate, thermal insulation board and installing plate are bolted to connection； Heating tube is provided with heating plate；The push rod is fixed in the bottom of installing plate.