CN209857628U - Sintering tool for copper infiltrated material - Google Patents

Abstract

The utility model discloses a sintering frock of copper infiltration material, be provided with heating zone, high-temperature region and cooling zone in the fritting furnace, heating zone is provided with first conveyor and first heating mechanism, be provided with cooling mechanism and second transmission in the cooling zone, heating zone, high-temperature region and cooling zone are U type design, the feeding chamber of high-temperature region and the discharge chamber intracavity all are provided with baffle mechanism, the sliding is provided with the socket on the conveyer trough in feeding chamber, high-temperature chamber and the discharge chamber, be connected with drive unit on the socket, be provided with the drive and block on the first work position of conveyer trough in the high-temperature chamber; the sintering trolley is provided with a driving part, a plurality of material placing layers are arranged in the sintering trolley, each material placing layer is provided with at least one group of heating ports, and the heating pipes in the high-temperature cavity and the heating ports on the material placing layers are arranged in a one-to-one correspondence mode. The utility model provides a sintering frock, the furnace body drops into fewly, can carry out sintering treatment to the copper infiltration framework material in the sintering pallet in succession.

Description

Sintering tool for copper infiltrated material

Technical Field

The utility model relates to a copper infiltration material production technical field especially relates to a sintering frock of copper infiltration material.

Background

The sintering tool generally comprises a sintering furnace, wherein the sintering furnace is a furnace which enables solid particles of a material green body to be mutually bonded at high temperature, crystal grains grow up, gaps (air holes) and grain boundaries gradually decrease, the total volume of the furnace shrinks and the density of the furnace increases through the transfer of substances, and finally, the furnace becomes a compact polycrystalline sintering body with a certain microstructure.

The sintering process generally goes through the processes of heating, heat preservation and cooling, the sintering furnace in the prior art is generally discontinuous, the material to be sintered is put into a sintering mold, then the mold is sent into the sintering furnace, the sintering furnace is heated and kept at a high temperature so as to sinter the material, the sintering furnace is cooled after sintering is finished, then the mold and the sintering material are conveyed out, when the material is sintered by the sintering furnace, the processes of heating, heat preservation and cooling are needed to be carried out in the sintering furnace, continuous sintering of the material cannot be realized, meanwhile, the repeated heating and cooling also cause energy waste, a plurality of independent areas are designed in the sintering furnace in the prior art, the heating, heat preservation and cooling processes of the sintering process are respectively carried out, but the areas of the sintering furnace are continuously increased in parallel arrangement, and the investment of a furnace body is increased, meanwhile, the existing sintering furnace has poor heating effect on the sintering material in the die, and the sintering material in the die has the problem of uneven heating.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sintering frock of oozing copper material to solve the above-mentioned weak point among the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

a sintering tool for a copper infiltrated material comprises a sintering furnace, wherein an heating area, a high-temperature area and a cooling area are arranged in the sintering furnace, the heating area and the cooling area are arranged in parallel, a partition plate is arranged between the heating area and the cooling area, the high-temperature area, the heating area, the high-temperature area and the cooling area are vertically arranged, the high-temperature area comprises a feeding cavity, a high-temperature cavity and a discharging cavity which are connected, the feeding cavity is communicated with the heating area, the discharging cavity is communicated with the cooling area, a first conveying device is arranged in the heating area, first heating mechanisms are arranged on two sides of the first conveying device and comprise a plurality of heating sheets, the heating sheets are symmetrically arranged on two sides of the first conveying device, a cooling mechanism and a second transmission device are arranged in the cooling area, baffle mechanisms are arranged in the feeding cavity and the discharging cavity, the feeding cavity, the high-temperature cavity and the discharging cavity are internally provided with a conveying groove which is connected with each other, a bearing plate is arranged in the conveying groove in a sliding manner, the bearing plate is connected with a driving unit, the conveying groove in the high-temperature cavity is provided with a first working position, and a driving blocking piece is arranged on the first working position; still include conveying mechanism, conveying mechanism includes the sintering platform truck, be provided with the drive division on the sintering platform truck, first transmission and second transmission can drive the sintering platform truck is followed respectively heating zone and cooling zone motion, it places the layer to be provided with a plurality of materials in the sintering platform truck, be provided with the multiunit heating port on the lateral wall of sintering platform truck, each the material is placed and all is provided with at least a set of on the layer the heating port, be provided with second heating mechanism in the high temperature intracavity, second heating mechanism sets up first position both sides on the lateral wall in high temperature chamber, second heating mechanism includes a plurality of heating pipes, heating pipe and each the material is placed the heating port one-to-one setting on the layer, the upper and lower side of heating pipe all is provided with the heating guide piece.

In the sintering tool for the copper infiltrated material, the heating sheets are arranged on two sides of the first conveying device, and the number of the heating sheets is gradually increased from the heating area to the high-temperature area.

Foretell sintering frock of oozing copper material, the conveyer trough includes first arc spout in the feed cavity vertical chute in the high temperature intracavity with second arc spout in the ejection of compact intracavity, first arc spout, vertical chute and second arc spout homogeneous phase intercommunication, the bottom of accepting the board is provided with the sliding part, the sliding part can be followed first arc spout, vertical chute and second arc spout slide.

According to the sintering tool for the copper infiltrated material, the driving blocking piece comprises a blocking plate, a control unit and an inductor, the blocking plate and the inductor are both connected with the control unit, and the inductor is arranged on the side part of the vertical sliding groove and is positioned on the movement stroke of the bearing plate moving along the vertical sliding groove; the barrier plate is provided with a plurality of detection rods, the detection rods are arranged in a one-to-one correspondence manner with the material placing layers, and the detection rods can be inserted into the heating ports.

The baffle mechanism comprises an isolation frame arranged on the upper wall of the sintering furnace, the isolation frame is provided with a lifting device, the lifting device is connected with a baffle, a supplied material detection piece is arranged on the baffle, and the lifting device can drive the baffle to open or close the high-temperature area.

Foretell copper infiltration material's sintering frock, the lateral wall of cooling zone is provided with the cooling chamber, cooling mechanism sets up the cooling intracavity, all be provided with the mouth of blowing on the lateral wall of cooling zone and the diapire, the mouth of blowing with the cooling chamber is linked together, the mouth of blowing on the cooling zone lateral wall with the heating mouth corresponds the setting, be provided with the air outlet on the roof of cooling chamber.

In the above technical solution, the utility model provides a sintering frock of copper infiltration material, including the fritting furnace and the sintering platform truck of the copper infiltration skeleton material that needs to carry out the sintering, the fritting furnace is inside to be provided with the heating zone, high temperature region and cooling zone, be provided with first conveyer and first heating mechanism in the heating zone, be provided with the feeding chamber in the high temperature region, high temperature chamber and discharge chamber, be provided with baffle mechanism in feeding chamber and the discharge chamber, accept board and second heating mechanism, be provided with second transmission and cooling mechanism in the cooling zone, through heating zone, high temperature region and cooling zone can heat the material that needs sintering in the sintering platform truck in proper order and heat up, high temperature sintering and cooling treatment, realize that continuous carries out different processes respectively to the material in a plurality of sintering platform trucks, increase the efficiency of sintering process, heating zone, high temperature region and cooling zone are the design of U-shaped, thereby reduce the volume of fritting furnace, reduce the input of furnace body, be provided with a plurality of materials simultaneously and place the layer on the sintering pallet, all be provided with a set of heating mouth on each material is placed the layer, second heating mechanism includes and places the heating pipe that the layer corresponds the setting with each material to make the sintering material in the sintering pallet can even heating, increase the effect of sintering.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic structural diagram of a sintering tool for a copper infiltrated material according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a sintering pallet according to an embodiment of the present invention.

Description of reference numerals:

1. sintering furnace; 1.1, a partition board; 2. a temperature rising zone; 2.1, a first conveying device; 2.2, a first heating mechanism; 3. a high temperature zone; 3.1, a baffle mechanism; 3.2, a conveying groove; 3.3, bearing plates; 3.4, a second heating mechanism; 3.5, a feeding cavity; 3.6, a high-temperature cavity; 3.7, a discharge cavity; 3.8, driving the blocking piece; 3.8.1, a barrier plate; 4. a cooling zone; 4.1, a cooling mechanism; 4.2, a second transmission device; 4.3, an air blowing port; 5. sintering the trolley; 5.1, a driving part; 5.2, a material placing layer; 5.3, heating the opening.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in figure 1-2, a sintering tool for a copper infiltrated material comprises a sintering furnace 1, wherein an elevated temperature region 2, a high temperature region 3 and a cooling temperature region 4 are arranged in the sintering furnace 1, the elevated temperature region 2 and the cooling temperature region 4 are arranged in parallel, a partition plate 1.1 is arranged between the elevated temperature region 2 and the cooling temperature region 4, the high temperature region 3, the elevated temperature region 2, the high temperature region 3 and the cooling temperature region 4 are arranged vertically, the high temperature region 3 comprises a feeding cavity 3.5, a high temperature cavity 3.6 and a discharging cavity 3.7 which are connected, the feeding cavity 3.5 is communicated with the elevated temperature region 2, the discharging cavity 3.7 is communicated with the cooling temperature region 4, the elevated temperature region 2 is provided with a first conveying device 2.1, two sides of the first conveying device 2.1 are provided with a first heating mechanism 2.2, the first heating mechanism 2.2 comprises a plurality of heating sheets, the plurality of heating sheets are symmetrically arranged on two sides of the first conveying device 2.1, a cooling mechanism 4.1 and a second conveying device 4.2 are arranged in the cooling temperature region 4, a conveying trough 3.2 connected with each other is arranged in the feeding cavity 3.5, the high-temperature cavity 3.6 and the discharging cavity 3.7, a bearing plate 3.3 is arranged in the conveying trough 3.2 in a sliding manner, a driving unit is connected onto the bearing plate 3.3, a first working position is arranged on the conveying trough 3.2 in the high-temperature cavity 3.6, and a driving blocking piece 3.8 is arranged on the first working position; still include conveying mechanism, conveying mechanism includes sintering platform truck 5, be provided with drive division 5.1 on the sintering platform truck 5, first transmission and second transmission 4.2 can drive sintering platform truck 5 and follow heating-up area 2 and cooling area 4 motion respectively, be provided with a plurality of materials in the sintering platform truck 5 and place layer 5.2, be provided with a plurality of heating ports 5.3 on the lateral wall of sintering platform truck 5, all be provided with at least a set of heating port 5.3 on each material is placed layer 5.2, be provided with second heating mechanism 3.4 in the high temperature chamber 3.6, second heating mechanism 3.4 sets up on the lateral wall of the high temperature chamber 3.6 of first workstation both sides, second heating mechanism 3.4 includes a plurality of heating pipes, the heating pipe places the setting of heating port 5.3 one-to-one on the layer 5.2 with each material, the last downside of heating pipe all is provided with the heating guide piece.

Specifically, the sintering trolley 5 is used for placing a copper infiltrated framework material to be subjected to sintering treatment, the sintering furnace 1 is used for sintering the material in the sintering trolley 5, an elevated temperature region 2, a high temperature region 3 and a cooling temperature region 4 are arranged in the sintering furnace 1, the elevated temperature region 2, the high temperature region 3 and the cooling temperature region 4 are designed in a U shape, so that the space of the sintering furnace 1 is saved, the elevated temperature region 2 is used for performing elevated temperature treatment on the copper infiltrated framework material in the sintering trolley 5 to realize heating treatment on the sintering material, a first conveying device 2.1 is arranged in the elevated temperature region 2, the first conveying device 2.1 is used for conveying the sintering trolley 5, the first conveying device 2.1 can be a conveying belt structure arranged in the elevated temperature region 2 or other structures, first heating mechanisms 2.2 are arranged on two sides of the first conveying device 2.1, and the material in the sintering trolley 5 can be subjected to heating treatment through the first heating mechanisms 2.2, the first heating mechanism 2.2 comprises a plurality of heating sheets which are symmetrically arranged at two sides of the first conveying device 2.1, materials to be sintered in the sintering trolley 5 of the temperature rising area 2 can be heated and heated through the heating sheets, the high-temperature area 3 is perpendicular to the temperature rising area 2, the temperature rising area 2 of the temperature reducing area 4 is arranged in parallel, the high-temperature area 3 comprises a feeding cavity 3.5, a high-temperature cavity 3.6 and a discharging cavity 3.7 which are connected, the feeding cavity 3.5 is communicated with the temperature rising area 2, the discharging cavity 3.7 is communicated with the temperature reducing area 4, the temperature rising area 2, the high-temperature area 3 and the temperature reducing area 4 are sequentially connected in such a way, the sintering trolley 5 sequentially passes through the temperature rising area 2, the high-temperature area 3 and the temperature reducing area 4 to respectively carry out the processes of temperature rising, high-temperature sintering and temperature reducing, a partition plate 1.1 is arranged between the temperature rising area 2 and the temperature reducing area 4, and the temperature rising area 2 and the temperature, the feeding cavity 3.5 and the discharging cavity 3.7 are both provided with a baffle plate mechanism 3.1, the baffle plate mechanism 3.1 can be a baffle plate, the high temperature region 3 and the heating region 2 as well as the high temperature region 3 and the cooling region 4 are mutually separated through the baffle plate mechanism 3.1 so as to form the heating region 2, the high temperature region 3 and the cooling region 4 which are mutually independent, a conveying trough 3.2 is arranged in the high temperature region 3, conveying troughs 3.2 are arranged in the feeding cavity 3.5, the high temperature cavity 3.6 and the discharging cavity 3.7, the feeding cavity 3.5, the high temperature cavity 3.6 and the discharging cavity 3.7 are communicated, the conveying trough 3.2 is arranged along the length direction of the feeding cavity 3.5, the high temperature cavity 3.6 and the discharging cavity 3.7, a bearing plate 3.3 is arranged on the conveying trough 3.2, a driving unit is connected on the bearing plate 3.3, the driving unit can be a driving motor and matched with the driving rod, and can also be other driving mechanisms, under the driving of the driving unit, the driving unit can make the bearing plate 3.2 move along the conveying trough 3.2, so that the receiving plate 3.3 can receive the sintering trolley 5 output from the temperature rising area 2, the sintering trolley 5 is conveyed in the feeding cavity 3.5, the high temperature cavity 3.6 and the discharging cavity 3.7, a first working position is arranged on the conveying groove 3.2 in the high temperature cavity 3.6, a driving blocking piece 3.8 is arranged on the first working position, the receiving plate 3.3 and the sintering trolley 5 can be temporarily stopped at the first working position by the driving blocking piece 3.8, so that the high temperature sintering treatment of the materials to be sintered in the sintering trolley 5 is realized, finally the sintering trolley 5 after the sintering treatment is conveyed to the temperature lowering area 4, a second conveying device is arranged in the temperature lowering area 4, the second conveying device receives the sintering trolley 5 output from the high temperature area 3, the sintering trolley 5 is conveyed in the temperature lowering area 4, a temperature lowering mechanism 4.1 is arranged in the temperature lowering area 4, and the temperature lowering mechanism 4.1 can be a mechanism or a blowing mechanism arranged at two sides of the second conveying device, for example, a plurality of heat exchange tubes are arranged on two sides of the second transmission device 4.2, so that the sintering trolley 5 is cooled, and the sintering furnace 1 can continuously sinter materials in the sintering trolley 5 through the arrangement of the heating area 2, the high temperature area 3 and the cooling area 4, so that the generation efficiency is improved.

In the embodiment, the sintering device further comprises a conveying mechanism, the conveying mechanism comprises a sintering trolley 5, a driving portion 5.1 is arranged on the sintering trolley 5, the driving portion 5.1 on the sintering trolley 5 is matched with a first transmission device, a second transmission device 4.2 and a bearing plate 3.3, so that the first transmission device can drive the driving portion 5.1 to enable the sintering trolley 5 to move in an temperature rising area 2, the bearing plate 3.3 and the sintering trolley 5 of a driving unit can move along a feeding cavity 3.5, a high temperature cavity 3.6 and a discharging cavity 3.7, the second transmission device 4.2 can drive the sintering trolley 5 to move along a temperature falling area 4, a plurality of material placing layers 5.2 are arranged in the sintering trolley 5, materials to be sintered can be placed in a downward layered manner through the material placing layers 5.2, a plurality of heating ports 5.3 are arranged on the side wall of the sintering trolley 5, at least one group of heating ports 5.3 are arranged on each material placing layer 5.2, all be provided with a set of heating port 5.3 between the layer 5.2 is placed to two adjacent materials, a set of heating port 5.3 has a plurality ofly, a plurality of heating ports 5.3 set up along sintering platform truck 5 circumference, be provided with second heating mechanism 3.4 in the high temperature chamber 3.6, second heating mechanism 3.4 sets up on the lateral wall of the high temperature chamber 3.6 of first work position both sides, second heating mechanism 3.4 includes a plurality of heating pipes, the heating pipe sets up with each material places heating port 5.3 one-to-one on the layer 5.2, the height of heating pipe and the layer 5.2 of placing of a plurality of materials on the sintering platform truck 5 correspond the setting, make second heating mechanism 3.4 can place layer 5.2 to each material and all can carry out even heating, the upper and lower side of heating pipe all is provided with the heating guide piece, be equipped with the setting through heating guide piece and heating port 5.3 phase, can place the sintering material in the layer 5.2 to each material and heat.

The embodiment of the utility model provides a sintering frock of copper infiltration material, including sintering furnace 1 and the sintering platform truck 5 of the copper infiltration skeleton material of placing needs sintering, sintering furnace 1 is inside to be provided with heating-up area 2, high temperature region 3 and cooling zone 4, be provided with first conveyer 2.1 and first heating mechanism 2.2 in heating-up area 2, be provided with feeding chamber 3.5 in the high temperature region 3, high temperature chamber 3.6 and ejection of compact chamber 3.7, be provided with baffle mechanism 3.1 in feeding chamber 3.5 and ejection of compact chamber 3.7, accept board 3.3 and second heating mechanism 3.4, be provided with second conveyer 4.2 and cooling mechanism 4.1 in cooling zone 4, can heat up the material that needs sintering in sintering platform truck 5 in proper order through heating-up, high temperature sintering and cooling process, realize that continuous carries out different processes respectively to the material in a plurality of sintering platform trucks 5, increase the efficiency of sintering process, the heating area 2, the high temperature zone 3 and the cooling area 4 are designed in a U shape, so that the volume of the sintering furnace 1 is reduced, the investment of a furnace body is reduced, meanwhile, a plurality of material placing layers 5.2 are arranged on the sintering trolley 5, a group of heating ports 5.3 are arranged on each material placing layer 5.2, the second heating mechanism 3.4 comprises heating pipes which correspond to the material placing layers 5.2, so that the sintering materials in the sintering trolley 5 can be uniformly heated, and the sintering effect is improved.

In this embodiment, preferably, a plurality of heating sheets are arranged on both sides of the first conveying device 2.1, and the number of the heating sheets is gradually increased from the heating area 2 to the high-temperature area 3; the heating sheets are used for heating the sintering materials in the furnace body 5.1 conveyed by the first conveying device 2.1, the number of the heating sheets is gradually increased from the heating area 2 to the high-temperature area 3, so that the temperature of the heating area 2 is gradually increased from the heating area 2 to the high-temperature area 3, and the heating effect of the sintering materials in the furnace body 5.1 is gradually improved.

In this embodiment, preferably, the conveying chute 3.2 includes a first arc-shaped chute arranged in the feeding cavity 3.5, a vertical chute in the high-temperature cavity 3.6, and a second arc-shaped chute in the discharging cavity 3.7, the first arc-shaped chute, the vertical chute, and the second arc-shaped chute are all communicated, and the bottom of the bearing plate 3.3 is provided with a sliding portion which can slide along the first arc-shaped chute, the vertical chute, and the second arc-shaped chute; the first arc-shaped chute is communicated with the temperature rising area 2 and the high-temperature cavity 3.6, the vertical chute is communicated with the feeding cavity 3.5 and the discharging cavity 3.7, the second arc-shaped chute is communicated with the high-temperature cavity 3.6 and the temperature lowering area 4, and the receiving plate 3.3 can receive the sintering trolley 5 and sequentially and continuously convey the sintering trolley 5 from the temperature rising area 2 to the feeding cavity 3.5, the high-temperature cavity 3.6, the discharging cavity 3.7 and the temperature lowering area 4 through the connection of the first arc-shaped chute, the vertical chute and the second arc-shaped chute.

In this embodiment, preferably, the driving blocking member 3.8 includes a blocking plate 3.8.1, a control unit and a sensor, the blocking plate 3.8.1 and the sensor are both connected to the driving rod, and the sensor is disposed at a side portion of the vertical sliding slot and located on a sliding stroke of the receiving plate 3.3 along the vertical sliding slot; be provided with a plurality of measuring poles on the baffle 3.8.1, a plurality of measuring poles place layer 5.2 one-to-one with a plurality of materials and set up, and the measuring pole can imbed in the heating mouth 5.3. The inductor can respond to the motion of blockking board 3.8.1 along vertical spout, when blockking board 3.8.1 moves to first work position along vertical spout, detect down and carry the testing result to the control unit at the inductor, control unit control blockking board 3.8.1 blocks the loading board, be connected with the driving piece on the blockking board 3.8.1, the driving piece is connected with the control unit, be located the position of blockking through driving piece drive blockking board 3.8.1, detect the pole on the blockking board 3.8.1 this moment and insert respectively in the heating port 5.3 that each material placed layer 5.2, place the sintering condition of the sintering material in the layer 5.2 to each material through the detection pole and detect, move to the initial position from blockking the position through control unit control blockking board 3.8.1 after the sintering is accomplished, sintering platform truck 5 can continue the motion, move to ejection of compact chamber 3.7 and cooling area 4 from high temperature chamber 3.6.

In this embodiment, preferably, the baffle mechanism 3.1 includes an isolation frame disposed on the upper wall of the sintering furnace 1, the isolation frame is provided with a lifting device, the lifting device is connected with a baffle, the baffle is provided with a material detecting member, and the lifting device can drive the baffle to open or close the high temperature region 3. The baffle mechanism 3.1 is used for isolating the high-temperature area 3 to form an independent heating area 2, a high-temperature area 3 and a cooling area 4, when the furnace body 5.1 is conveyed from the heating area 2 to the heating area 3, the lifting mechanism at the joint of the high-temperature area 3 and the heating area 2 drives the baffle to be opened at the moment, so that the furnace body 5.1 is conveyed to the high-temperature area 3, the lifting device at the joint of the high-temperature area 3 and the heating area 2 and the lifting device at the joint of the high-temperature area 3 and the cooling area 4 drives the baffle to be closed at the moment, so that the high-temperature area 3 forms an independent space, the sintering framework material in the furnace body 5.1 of the high-temperature area 3 is sintered, and after the sintered material is treated, the baffle mechanism 3.1 between the high-temperature area 3 and the.

In this embodiment, preferably, the side wall of the cooling region 4 is provided with a cooling cavity, the cooling mechanism 4.1 is arranged in the cooling cavity, the side wall and the bottom wall of the cooling region 4 are both provided with an air blowing port 4.3, the air blowing port 4.3 is communicated with the cooling cavity, the air blowing port 4.3 on the side wall of the cooling region 4 is arranged corresponding to the heating port 5.3, and the top wall of the cooling cavity is provided with an air outlet. The lateral wall and the bottom of cooling zone 4 all are provided with blowing port 4.3 to strengthen the effect of cooling, and blowing port 4.3 on the cooling zone 4 lateral wall corresponds with heating port 5.3, make the inside that layer 5.2 was placed to each material to the air conditioning that blowing port 4.3 blew off can be carried, increase the effect of cooling.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. A sintering tool for a copper infiltrated material comprises a sintering furnace, wherein an heating area, a high-temperature area and a cooling area are arranged in the sintering furnace, and is characterized in that the heating area and the cooling area are arranged in parallel, a partition plate is arranged between the heating area and the cooling area, the high-temperature area, the heating area, the high-temperature area and the cooling area are vertically arranged, the high-temperature area comprises a feeding cavity, a high-temperature cavity and a discharging cavity which are connected, the feeding cavity is communicated with the heating area, the discharging cavity is communicated with the cooling area, the heating area is provided with a first conveying device, first heating mechanisms are arranged on two sides of the first conveying device, each first heating mechanism comprises a plurality of heating sheets, the heating sheets are symmetrically arranged on two sides of the first conveying device, and a cooling mechanism and a second conveying device are arranged in the cooling area, baffle mechanisms are arranged in the feeding cavity and the discharging cavity, conveying troughs connected with each other are arranged in the feeding cavity, the high-temperature cavity and the discharging cavity, bearing plates are arranged in the conveying troughs in a sliding mode, driving units are connected onto the bearing plates, a first working position is arranged on the conveying trough in the high-temperature cavity, and driving blocking pieces are arranged on the first working position;

still include conveying mechanism, conveying mechanism includes the sintering platform truck, be provided with the drive division on the sintering platform truck, first transmission and second transmission can drive the sintering platform truck is followed respectively heating zone and cooling zone motion, it places the layer to be provided with a plurality of materials in the sintering platform truck, be provided with the multiunit heating port on the lateral wall of sintering platform truck, each the material is placed and all is provided with at least a set of on the layer the heating port, be provided with second heating mechanism in the high temperature intracavity, second heating mechanism sets up first position both sides on the lateral wall in high temperature chamber, second heating mechanism includes a plurality of heating pipes, heating pipe and each the material is placed the heating port one-to-one setting on the layer, the upper and lower side of heating pipe all is provided with the heating guide piece.

2. The tool for sintering the copper infiltrated material as claimed in claim 1, wherein a plurality of heating sheets are arranged on both sides of the first conveying device, and the number of the heating sheets is gradually increased from the temperature rising region to the high temperature region.

3. The sintering tool for the copper infiltrated material according to claim 1, wherein the conveying trough comprises a first arc-shaped chute in the feeding cavity, a vertical chute in the high-temperature cavity and a second arc-shaped chute in the discharging cavity, the first arc-shaped chute, the vertical chute and the second arc-shaped chute are communicated, and a sliding part is arranged at the bottom of the bearing plate and can slide along the first arc-shaped chute, the vertical chute and the second arc-shaped chute.

4. The copper infiltration material sintering tool according to claim 3, wherein the driving blocking piece comprises a blocking plate, a control unit and a sensor, the blocking plate and the sensor are both connected with the control unit, and the sensor is arranged on the side of the vertical chute and located on the movement stroke of the bearing plate along the vertical chute;

the barrier plate is provided with a plurality of detection rods, the detection rods are arranged in a one-to-one correspondence manner with the material placing layers, and the detection rods can be inserted into the heating ports.

5. The sintering tool for the copper infiltrated material according to claim 1, wherein the baffle mechanism comprises an isolation frame arranged on the upper wall of the sintering furnace, a lifting device is arranged on the isolation frame, a baffle is connected to the lifting device, a material incoming detection piece is arranged on the baffle, and the lifting device can drive the baffle to open or close the high-temperature zone.

6. The sintering tool for the copper infiltrated material according to claim 1, wherein a cooling cavity is arranged on the side wall of the cooling region, the cooling mechanism is arranged in the cooling cavity, air blowing ports are arranged on the side wall and the bottom wall of the cooling region, the air blowing ports are communicated with the cooling cavity, the air blowing ports on the side wall of the cooling region are arranged corresponding to the heating ports, and an air outlet is arranged on the top wall of the cooling cavity.