CN217346883U - Graphite mold protective sleeve structure - Google Patents

Abstract

The utility model discloses a graphite mold protective sleeve structure, which comprises a sleeve body, wherein an equipment layer, a heating layer, a heat preservation layer, a reinforcing layer and a drying layer are arranged on the sleeve body, the heating layer is arranged at the outer side of the equipment layer, the heat preservation layer is arranged at the outer side of the heating layer, a placing clamping groove is arranged at the bottom of the equipment layer in the sleeve body, the reinforcing layer is arranged at the outer side of the heat preservation layer, an inclined inserting abdominal wire is arranged between the reinforcing layer and the heat preservation layer, a heating wire is arranged inside the heating layer, the heat preservation layer is arranged inside the heat preservation layer, the drying layer is arranged at the bottom of the sleeve body, a ventilating layer is also arranged at the bottom of the equipment layer, the drying layer is fixed with the sleeve body through a thread structure, the graphite mold protective sleeve structure with a heating function, a heat preservation function, a reinforcing function and a drying function is designed, the stability of a graphite mold is comprehensively improved, and the temperature insufficiency of the graphite mold is avoided, a common problem of vulnerability.

Description

Graphite mold protective sleeve structure

Technical Field

The invention belongs to the technical field of graphite mold equipment, and particularly relates to a graphite mold protective sleeve structure.

Background

The mould is basic technological equipment widely used in industrial production, and the mould industry is the basic industry of national economy. In modern industrial production, product parts are widely processed by stamping, forging, die-casting, extrusion, plastic injection or other forming methods, and are matched with forming dies to form blanks into parts meeting the product requirements. Various tools and products used in daily production and life are large as a base and a machine body shell of a machine tool and small as a shell of a head screw, a button and various household appliances, and have no close relation with a die. The shape of the mould determines the appearance of the products, the processing quality and precision of the mould also determine the quality of the products, but the prior art lacks the design of a graphite mould protection device, and only some protection sleeve structures have poor functionality.

Disclosure of Invention

In order to achieve the purpose, the technical scheme of the invention is as follows: the utility model provides a graphite mould protective sheath structure, protective sheath structure is including the cover body, is provided with equipment layer, zone of heating, heat preservation, back up coat and dry layer on the cover body, and the zone of heating sets up the outside at equipment layer, the heat preservation sets up the outside at the zone of heating, and the bottom of the internal equipment layer of cover is provided with places the draw-in groove, and the back up coat sets up the outside at the heat preservation, is provided with between back up coat and the heat preservation and inserts the abdominal silk to one side, and the inside heater strip that is provided with of zone of heating, the inside heated board that is provided with of heat preservation, dry layer setting are in the bottom of the cover body, and the bottom on equipment layer still is provided with ventilative layer, and dry layer and the cover body pass through the helicitic texture fixed.

Based on above-mentioned scheme, through having designed a graphite jig protective sheath structure that has heating function, heat preservation function, reinforcement function and drying function, promoted graphite jig's stability comprehensively, avoided graphite jig to appear the temperature not enough, common problems such as easy damage.

As an improvement of the utility model, the drying structure includes the drying chamber, and the drying intracavity is provided with the drier and places hole and thru hole, and the downthehole drier that is provided with is placed to the drier, and the thru hole setting is just to the position of equipment layer bottom at the top of drying chamber.

Based on the scheme, the drying agent can generate a drying effect on the equipment layer through the through holes and the air-permeable layer.

As an improvement of the utility model, the drying structure is U type structure, and the inner wall both sides of drying structure are provided with the external screw thread, the cover body with the outer wall part of drying structure contact be provided with the internal thread that outer screw thread matches.

Based on above-mentioned scheme, through threaded connection between the dry structure and the cover body, can dismantle the dry structure with the cover body, conveniently change the drier, threaded connection also can improve its leakproofness of connecting simultaneously.

As an improvement of the utility model, one end of the oblique inserting abdominal thread is connected with the other end in the reinforcing layer and is connected in the heat preservation layer.

Based on above-mentioned scheme, the back up coat is used for the outside intensity of lifting means, inserts the binder fiber to one side and connects between back up coat and heat preservation for improve the stability between back up coat and the heat preservation, thereby improve the fastness of whole equipment.

As an improvement of the utility model, the outside of the sleeve body is also provided with a waterproof layer.

Based on above-mentioned scheme for carry out waterproofly to the cover body, thereby prevent that the ponding of outer wall from getting into in the equipment.

As an improvement of the utility model, a layer of microporous silica gel is arranged on the breathable layer.

Based on above-mentioned scheme, set up micropore silica gel on ventilative layer, the drier can produce drying effect to the equipment layer through thru hole and ventilative layer, and micropore silica gel also can play certain dustproof effect simultaneously, has guaranteed the equipment layer internal environment.

Compared with the prior art, the invention has the beneficial effects that: a graphite mold protective sleeve structure comprises a sleeve body, wherein an equipment layer, a heating layer, a heat preservation layer, a reinforcing layer and a drying layer are arranged on the sleeve body, the heating layer is arranged on the outer side of the equipment layer, the heat preservation layer is arranged on the outer side of the heating layer, a placing clamping groove is formed in the bottom of the equipment layer in the sleeve body, the reinforcing layer is arranged on the outer side of the heat preservation layer, oblique inserting abdominal wires are arranged between the reinforcing layer and the heat preservation layer, heating wires are arranged inside the heating layer, a heat preservation plate is arranged inside the heat preservation layer, the drying layer is arranged at the bottom of the sleeve body, a breathable layer is further arranged at the bottom of the equipment layer, the drying layer and the sleeve body are fixed through a threaded structure, the stability of a graphite mold is comprehensively improved through designing the graphite mold protective sleeve structure with a heating function, a heat preservation function, a reinforcing function and a drying function, and the occurrence of insufficient temperature of the graphite mold is avoided, easy damage and the like.

Drawings

Fig. 1 is a schematic view of the structure of the protective sheath of the present invention.

Fig. 2 is the schematic view of the structure of the oblique middle abdominal wire of the present invention.

List of reference symbols: 100-a sleeve body, 101-an equipment layer, 102-a heating layer, 103-a heat insulation layer, 104-a reinforcing layer, 105-a drying layer, 106-a placing clamping groove, 107-an inclined inserting abdominal wire, 108-a breathable layer, 109-a drying agent placing hole, 110-a through hole, 111-a drying agent, 112-a drying cavity, 113-a waterproof layer and 114-a heating wire.

Detailed Description

The present invention will be further illustrated with reference to the accompanying figures 1-2 and the following detailed description, which should be understood to be illustrative only and not to limit the scope of the invention.

The embodiment is as follows: referring to fig. 1 and 2, a graphite mold protective sleeve structure, protective sleeve structure includes cover body 100, is provided with equipment layer 101 on the cover body 100, heating layer 102, heat preservation 103, back up coat 104 and dry layer 105, and heating layer 102 sets up the outside at equipment layer 101, heat preservation 103 sets up the outside at heating layer 102, and the bottom of equipment layer 101 is provided with places draw-in groove 106 in the cover body 100, and back up coat 104 sets up the outside at heat preservation 103, is provided with between back up coat 104 and the heat preservation 103 and inserts abdominal wire 107 to one side, and the inside heater strip 114 that is provided with of heating layer 102, the inside heated board that is provided with of heat preservation 103, dry layer 105 set up the bottom at cover body 100, and equipment layer 101's bottom still is provided with ventilative layer 108, and dry layer 105 is fixed through the helicitic texture with cover body 100. Through designing a graphite mold protective sheath structure that has heating function, heat preservation function, reinforcement function and drying function, promoted graphite mold's stability comprehensively, avoided graphite mold to appear the temperature not enough, common problems such as easy damage.

The drying structure comprises a drying cavity 112, a drying agent 111 placing hole 109 and a through hole 110 are arranged in the drying cavity 112, a drying agent 111 is arranged in the drying agent 111 placing hole 109, and the through hole 110 is arranged at the position, opposite to the bottom of the device layer 101, of the top of the drying cavity 112. The desiccant 111 is capable of producing a desiccating effect on the device layer 101 through the through-holes 110 and the gas permeable layer 108. The drying structure is a U-shaped structure, external threads are arranged on two sides of the inner wall of the drying structure, and internal threads matched with the external threads are arranged on the outer wall part of the sleeve body 100 contacting with the drying structure. The drying structure and the sleeve body 100 are connected through the threads, the drying structure and the sleeve body 100 can be detached, the drying agent 111 is convenient to replace, and meanwhile, the threaded connection can also improve the connection tightness. One end of the inclined inserting abdominal wire 107 is connected in the reinforcing layer 104, and the other end is connected in the insulating layer 103. The reinforcing layer 104 is used for improving the external strength of the equipment, and the inclined inserting abdominal wires 107 are connected between the reinforcing layer 104 and the heat insulation layer 103 and used for improving the stability between the reinforcing layer 104 and the heat insulation layer 103, so that the firmness of the whole equipment is improved.

The exterior of the sheath body 100 is further provided with a waterproof layer 113. For waterproofing the jacket body 100 and thereby preventing water accumulated in the outer wall from entering the apparatus. A layer of microporous silica gel is disposed on the gas permeable layer 108. Microporous silica gel is arranged on the breathable layer 108, the drying agent 111 can dry the equipment layer 101 through the through holes 110 and the breathable layer 108, and meanwhile, the microporous silica gel can also play a certain dustproof role, so that the internal environment of the equipment layer 101 is ensured.

It should be noted that the above-mentioned contents only illustrate the technical idea of the present invention, and the protection scope of the present invention is not limited thereby, and it will be apparent to those skilled in the art that several modifications and embellishments can be made without departing from the principle of the present invention, and these modifications and embellishments fall within the protection scope of the claims of the present invention.

Claims (6)

1. A graphite mold protective sleeve structure is characterized by comprising a sleeve body (100), wherein an equipment layer (101), a heating layer (102), a heat preservation layer (103), a reinforcing layer (104) and a drying layer (105) are arranged on the sleeve body (100), the heating layer (102) is arranged on the outer side of the equipment layer (101), the heat preservation layer (103) is arranged on the outer side of the heating layer (102), a placing clamping groove (106) is formed in the bottom of the equipment layer (101) in the sleeve body (100), the reinforcing layer (104) is arranged on the outer side of the heat preservation layer (103), oblique inserting abdominal wires (107) are arranged between the reinforcing layer (104) and the heat preservation layer (103), heating wires (114) are arranged inside the heating layer (102), the heat preservation layer (103) is provided with a heat preservation plate, the drying layer (105) is arranged on the bottom of the sleeve body (100), and a ventilation layer (108) is further arranged at the bottom of the equipment layer (101), the drying layer (105) is fixed with the sleeve body (100) through a thread structure.

2. The mold protector structure for graphite molds according to claim 1, wherein the drying structure comprises a drying chamber (112), a desiccant (111) placing hole and a through hole (110) are provided in the drying chamber (112), the desiccant (111) placing hole is provided with the desiccant (111), and the through hole (110) is provided at a position where the top of the drying chamber (112) is opposite to the bottom of the device layer (101).

3. The graphite mold protective sleeve structure as claimed in claim 2, wherein the drying structure is a U-shaped structure, external threads are provided on both sides of the inner wall of the drying structure, and internal threads matching the external threads are provided on the outer wall portion of the sleeve body (100) contacting the drying structure.

4. The graphite mold protector structure of claim 1, wherein the oblique-insertion binder wires (107) are connected to the inside of the reinforcing layer (104) at one end and to the inside of the insulating layer (103) at the other end.

5. The graphite mold protector structure according to claim 1, wherein a waterproof layer (113) is further disposed on the exterior of the sheath body (100).

6. The graphite mold protective sleeve structure according to claim 1, wherein a layer of microporous silica gel is disposed on the gas permeable layer (108).

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