WO2021243908A1 - Cutting machine having quick heat dissipation function - Google Patents

Abstract

A cutting machine having a quick heat dissipation function, comprising a cutting machine body. The cutting machine body comprises a headstock (1). The headstock (1) comprises: a liquid storage cavity (11) for storing cooling liquid, a first cooling cavity (12) for cooling a bearing on one end of a spindle, and a second cooling cavity (13) for cooling a bearing on the other end of the spindle. The cooling liquid for the cutting machine circulates in the headstock and contacts the spindle and the bearings, so as to quickly absorb heat and cool the spindle and the bearings, thereby accelerating the cooling and heat dissipation of the cutting machine.

Description

一种快速散热的切割机 A cutting machine with fast heat dissipation 技术领域Technical field

本发明涉及切割机领域，具体涉及的是一种快速散热的切割机。 The invention relates to the field of cutting machines, in particular to a cutting machine with fast heat dissipation.

背景技术Background technique

切割机主要用于在机械加工过程中，对板材进行切割分离。现有的切割机主要在主轴箱内设有转动连接的主轴，主轴上安装切割锯片，并且通过驱动装置驱动主轴转动，从而带动切割锯片进行切割。在切割过程中，由于主轴高速转动，会使得主轴和轴承的温度过高，从而使主轴和轴承膨胀，影响切割精度。The cutting machine is mainly used to cut and separate the plates in the machining process. The existing cutting machine is mainly provided with a rotatingly connected main shaft in the main shaft box, a cutting saw blade is installed on the main shaft, and the main shaft is driven to rotate through a driving device, thereby driving the cutting saw blade to perform cutting. During the cutting process, due to the high-speed rotation of the main shaft, the temperature of the main shaft and the bearing will be too high, which will cause the main shaft and the bearing to expand and affect the cutting accuracy.

为了解决上述主轴和轴承温度过高的问题，现有的切割机大多在主轴箱的侧壁上开通冷却液流槽，并向冷却液流槽内输送流动的冷却液，通过冷却液吸热的方式来对主轴箱进行散热冷却处理。但现有的冷却方式中，由于冷却液只能在主轴箱内循环流动，无法与主轴以及轴承直接接触，导致吸热效果较差，无法对主轴和轴承进行快速降温。In order to solve the above-mentioned problem of excessively high temperature of the spindle and bearing, most of the existing cutting machines have a coolant flow groove on the side wall of the spindle box, and convey the flowing coolant into the coolant flow groove, and the heat is absorbed by the coolant. Way to perform heat dissipation and cooling treatment on the spindle box. However, in the existing cooling method, because the coolant can only circulate in the spindle box and cannot directly contact the spindle and the bearing, the heat absorption effect is poor, and the spindle and the bearing cannot be quickly cooled.

有鉴于此，本申请人针对上述问题进行深入研究，遂有本案产生。In view of this, the applicant conducted in-depth research on the above-mentioned problems, and this case was born.

发明内容Summary of the invention

本发明的主要目的在于提供一种快速散热的切割机，使冷却液在主轴箱内循环流动并与主轴和轴承直接接触吸热，提高散热效率。The main purpose of the present invention is to provide a cutting machine with fast heat dissipation, so that the cooling liquid circulates in the main shaft box and directly contacts the main shaft and the bearing to absorb heat, thereby improving the heat dissipation efficiency.

为了达成上述目的，本发明的解决方案是：In order to achieve the above objective, the solution of the present invention is:

一种快速散热的切割机，包括切割机主体，所述切割机主体包括主轴箱；其中：所述主轴箱包括储存冷却液的储液腔，对主轴一端轴承进行冷却的第一冷却腔，以及对主轴另一端轴承进行冷却第二冷却腔。A cutting machine with rapid heat dissipation, comprising a cutting machine main body, the cutting machine main body including a headstock; wherein: the headstock includes a liquid storage cavity for storing coolant, a first cooling cavity for cooling a bearing at one end of the main shaft, and The second cooling cavity is used to cool the bearing at the other end of the main shaft.

进一步的，所述储液腔处于第一冷却腔和第二冷却腔之间。Further, the liquid storage cavity is located between the first cooling cavity and the second cooling cavity.

进一步的，所述储液腔的一端与第一冷却腔连通且另一端与第二冷却腔连通。Further, one end of the liquid storage cavity is in communication with the first cooling cavity and the other end is in communication with the second cooling cavity.

进一步的，所述储液腔的侧壁设有与第一冷却腔连通的第一连通口，以及与第二冷却腔连通的第二连通口。Further, the side wall of the liquid storage cavity is provided with a first communication port communicating with the first cooling cavity and a second communication port communicating with the second cooling cavity.

进一步的，所述第一连通口包括供冷却液进入第一冷却腔的第一进液口，所述第二连通口包括供冷却液进入第二冷却腔的第二进液口。Further, the first communication port includes a first liquid inlet for cooling liquid to enter the first cooling cavity, and the second communication port includes a second liquid inlet for cooling liquid to enter the second cooling cavity.

进一步的，还包括第一分流管道和第二分流管道，所述第一分流管道连通第一进液口和所述储液腔；所述第二分流管道连通第二进液口和所述储液腔。Further, it also includes a first branch pipe and a second branch pipe, the first branch pipe communicates with the first liquid inlet and the liquid storage cavity; the second branch pipe communicates with the second liquid inlet and the storage chamber. Liquid cavity.

进一步的，所述第一连通口还具有供冷却液回流至储液腔的第一出液口，所述第二连通口还具有供冷却液回流至储液腔的第二出液口。Further, the first communication port further has a first liquid outlet for the cooling liquid to flow back to the liquid storage cavity, and the second communication port further has a second liquid outlet for the cooling liquid to flow back to the liquid storage cavity.

进一步的，所述第一进液口包括第一进液孔和第二进液孔，所述第一分流管道包括第一分流支管和第二分流支管，所述第一进液孔和第一分流支管连接，所述第二进液孔和第二分流支管连接。Further, the first liquid inlet includes a first liquid inlet and a second liquid inlet, the first branch pipeline includes a first branch pipe and a second branch pipe, the first liquid inlet and the first branch pipe The branch branch pipe is connected, and the second liquid inlet hole is connected with the second branch branch pipe.

进一步的，所述主轴箱还设有连通于所述储液腔和所述第一冷却腔之间的过渡腔。Further, the spindle box is also provided with a transition cavity connected between the liquid storage cavity and the first cooling cavity.

进一步的，所述过渡腔的侧壁设有连通所述储液腔的夹持孔，所述夹持孔固定第一分流支管与第二分流支管。Further, a side wall of the transition cavity is provided with a clamping hole communicating with the liquid storage cavity, and the clamping hole fixes the first branch branch pipe and the second branch branch pipe.

进一步的，所述第一冷却腔包括容置第一轴承的第一容置腔，和容置第二轴承的第二容置腔。Further, the first cooling cavity includes a first accommodating cavity for accommodating a first bearing, and a second accommodating cavity for accommodating a second bearing.

进一步的，所述第二容置腔对应所述第二进液孔设置。Further, the second accommodating cavity is provided corresponding to the second liquid inlet hole.

进一步的，所述第二容置腔设在第二进液孔的正下方。Further, the second accommodating cavity is provided directly below the second liquid inlet hole.

进一步的，所述第一冷却腔还包括将冷却液从第一进液口导向第一容置腔和第二容置腔的导油套。Further, the first cooling cavity further includes an oil guide sleeve that guides the cooling liquid from the first liquid inlet to the first accommodating cavity and the second accommodating cavity.

进一步的，所述导油套对应所述第一进液孔设置。Further, the oil guide sleeve is provided corresponding to the first liquid inlet hole.

进一步的，所述导油套设在第一进液孔的正下方。Further, the oil guide sleeve is arranged directly below the first liquid inlet hole.

进一步的，所述导油套包括套设在主轴上并抵顶于第一轴承和第二轴承内圈之间的内限位套，以及套设在内限位套外并抵顶于第一轴承和第二轴承外圈之间的外限位套。Further, the oil guide sleeve includes an inner limit sleeve sleeved on the main shaft and abutted between the inner ring of the first bearing and the second bearing, and sleeved outside the inner limit sleeve and abutted against the first bearing. The outer limit sleeve between the bearing and the outer ring of the second bearing.

进一步的，所述内限位套和外限位套之间具有导液间隙，所述外限位套形成有与所述间隙相连通的导液孔。Further, there is a liquid guide gap between the inner limit sleeve and the outer limit sleeve, and the outer limit sleeve is formed with a liquid guide hole communicating with the gap.

进一步的，所述第一轴承和第二轴承的轴承游隙均与所述导液间隙连通。Further, the bearing clearances of the first bearing and the second bearing are both in communication with the liquid conducting gap.

进一步的，所述第一轴承和第二轴承的轴承游隙均与所述导液间隙相对应。Further, the bearing clearances of the first bearing and the second bearing both correspond to the liquid conducting gap.

进一步的，所述外限位套的周面形成有与所述导液孔连通的环形储液槽，所述环形储液槽与所述第一进液孔连通。Further, an annular liquid storage tank communicating with the liquid guide hole is formed on the peripheral surface of the outer limit sleeve, and the annular liquid storage tank is communicated with the first liquid inlet hole.

进一步的，所述环形储液槽与所述第一进液孔相对应。Further, the annular liquid storage tank corresponds to the first liquid inlet hole.

进一步的，所述环形储液槽设在所述第一进液孔的正下方。Further, the annular liquid storage tank is provided directly below the first liquid inlet hole.

进一步的，所述第二冷却腔设有安装第三轴承的安装槽。Further, the second cooling cavity is provided with a mounting groove for mounting a third bearing.

采用上述结构后，工作时，本发明切割机在固定主轴的主轴箱内设置了储液腔，储液腔内可用于储存冷却液，并且储液腔内的冷却液可与主轴接触对主轴进行冷却。此外，主轴箱还设有第一冷却腔以及第二冷却腔，所述第一冷却腔以及所述第二冷却腔用于安装及固定主轴的轴承。储液腔内的冷却液可输送至第一冷却腔和第二冷却腔内并与轴承接触吸热，从而对轴承进行散热降温处理。最后第一冷却腔和第二冷却腔内的冷却液再回流至储液腔内收集。与现有技术相比，有益效果在于，本发明切割机，冷却液在主轴箱内循环流动，并与主轴与轴承接触，能够快速对主轴和轴承进行吸热降温，大大提高散热降温效率，加速切割机冷却散热。并且冷却液只在主轴箱内进行循环流动，避免冷却液受到污染，进一步延长冷却液的实用寿命。并且能够有效防止冷却液外漏，使得本发明切割机工作时更加环保洁净。After adopting the above structure, when working, the cutting machine of the present invention is provided with a liquid storage chamber in the main shaft box of the fixed main shaft. The liquid storage chamber can be used to store the cooling liquid, and the cooling liquid in the liquid storage chamber can contact the main shaft to carry out the main shaft cool down. In addition, the spindle box is also provided with a first cooling cavity and a second cooling cavity, and the first cooling cavity and the second cooling cavity are used for mounting and fixing the bearing of the spindle. The cooling liquid in the liquid storage cavity can be transported to the first cooling cavity and the second cooling cavity and contact with the bearing to absorb heat, so as to perform heat dissipation and temperature reduction treatment on the bearing. Finally, the cooling liquid in the first cooling cavity and the second cooling cavity is returned to the liquid storage cavity for collection. Compared with the prior art, the beneficial effect of the cutting machine of the present invention is that the coolant circulates in the main shaft box and contacts the main shaft and the bearing, which can quickly absorb heat and reduce the temperature of the main shaft and the bearing, greatly improve the efficiency of heat dissipation and cooling, and accelerate The cutting machine cools and dissipates heat. In addition, the coolant only circulates in the spindle box to avoid contamination of the coolant and further extend the practical life of the coolant. In addition, the leakage of the cooling liquid can be effectively prevented, so that the cutting machine of the present invention is more environmentally friendly and cleaner during operation.

附图说明Description of the drawings

图1为切割主体的结构剖面侧视图。Figure 1 is a structural cross-sectional side view of the cutting body.

图2为图1中A区域的局部放大图。Fig. 2 is a partial enlarged view of area A in Fig. 1.

图3为切割主体的结构局部剖视立体图。Fig. 3 is a partial cut-away perspective view of the structure of the cutting body.

图中：In the picture:

主轴箱-1；储液腔-11；第一冷却腔-12；第一进液口-121；Spindle box-1; liquid storage cavity-11; first cooling cavity-12; first liquid inlet-121;

第一进液孔-1211；第二进液孔-1212；第一出液口-122；The first liquid inlet-1211; the second liquid inlet-1212; the first liquid outlet-122;

第一容置腔-123；第二容置腔-124；导油套-125；The first accommodating cavity-123; the second accommodating cavity-124; the oil guide sleeve-125;

内限位套-1251；外限位套-1252；导液间隙-1253；Inner limit sleeve-1251; Outer limit sleeve-1252; Liquid guide gap-1253;

环形储液槽-1254；导液孔-1255；第二冷却腔-13；Annular liquid storage tank-1254; liquid guide hole-1255; second cooling cavity-13;

第二进液口-131；第二出液口-132；安装槽-133；The second liquid inlet-131; the second liquid outlet-132; the installation groove-133;

过渡腔-14；夹持孔-141；第一分流管道-21；第一分流支管-211；Transition cavity-14; clamping hole-141; first branch pipe-21; first branch branch pipe-211;

第二分流支管-212；第二分流管道-22；第一轴承-31；The second branch pipe-212; the second branch pipe-22; the first bearing-31;

第二轴承-32；第三轴承-33。The second bearing -32; the third bearing -33.

具体实施方式detailed description

为了进一步解释本发明的技术方案，下面通过具体实施例来对本发明进行详细阐述。In order to further explain the technical solution of the present invention, the present invention will be described in detail below through specific embodiments.

如图1-3所示，一种快速散热的切割机，包括切割机主体，切割机主体包括主轴箱1；其中，主轴箱1包括储存冷却液的储液腔11，对主轴一端轴承进行冷却的第一冷却腔12，以及对主轴另一端轴承进行冷却第二冷却腔13。As shown in Figure 1-3, a cutting machine with fast heat dissipation includes a main body of the cutting machine. The main body of the cutting machine includes a headstock 1; wherein, the headstock 1 includes a liquid reservoir 11 for storing coolant to cool a bearing at one end of the main shaft The first cooling cavity 12, and the second cooling cavity 13 for cooling the bearing at the other end of the main shaft.

采用上述结构后，工作时，储液腔11内可用于储存冷却液，并且储液腔11内的冷却液可与主轴接触对主轴进行吸热冷却。此外，主轴箱1还设有第一冷却腔12以及第二冷却腔13，第一冷却腔12以及第二冷却腔13用于安装及固定主轴的轴承。储液腔11内的冷却液可输送至第一冷却腔12和第二冷却腔13内并与轴承接触吸热，从而对轴承进行散热降温处理。最后第一冷却腔12和第二冷却腔13内的冷却液再回流至储液腔11内收集。与现有技术相比，有益效果在于，本发明切割机，冷却液在主轴箱1内循环流动，并与主轴与轴承接触，能够快速对主轴和轴承进行吸热降温，大大提高散热降温效率。With the above structure, during operation, the liquid storage cavity 11 can be used to store cooling liquid, and the cooling liquid in the liquid storage cavity 11 can contact the spindle to cool the spindle by absorbing heat. In addition, the spindle box 1 is further provided with a first cooling cavity 12 and a second cooling cavity 13, and the first cooling cavity 12 and the second cooling cavity 13 are used for mounting and fixing the bearing of the spindle. The cooling liquid in the liquid storage cavity 11 can be transported to the first cooling cavity 12 and the second cooling cavity 13 and contact with the bearing to absorb heat, so as to perform heat dissipation and temperature reduction treatment on the bearing. Finally, the cooling liquid in the first cooling cavity 12 and the second cooling cavity 13 is returned to the liquid storage cavity 11 and collected. Compared with the prior art, the beneficial effect of the cutting machine of the present invention is that the coolant circulates in the main shaft box 1 and contacts the main shaft and the bearing, which can quickly absorb heat and cool down the main shaft and the bearing, and greatly improve the heat dissipation and cooling efficiency.

优选的，由于主轴贯穿主轴箱1设置，主轴的一端设有第一轴承31和第二轴承32，主轴的另一端设有第三轴承，因此第一冷却腔12和第二冷却腔13对应轴承的安装位置分布在主轴箱1的两端，储液腔11处于第一冷却腔12和第二冷却腔13之间。Preferably, since the main shaft is installed through the main shaft box 1, one end of the main shaft is provided with a first bearing 31 and a second bearing 32, and the other end of the main shaft is provided with a third bearing. Therefore, the first cooling cavity 12 and the second cooling cavity 13 correspond to the bearings. The installation positions are distributed at both ends of the spindle box 1, and the liquid storage cavity 11 is located between the first cooling cavity 12 and the second cooling cavity 13.

更优选的，储液腔11的一端与第一冷却腔12连通且另一端与第二冷却腔13连通。采用此结构，使得第一冷却腔12和第二冷却腔13内的冷却液在吸热冷却后可以向主轴箱1的中部回流至储液腔11内。More preferably, one end of the liquid storage cavity 11 is in communication with the first cooling cavity 12 and the other end is in communication with the second cooling cavity 13. With this structure, the cooling liquid in the first cooling cavity 12 and the second cooling cavity 13 can flow back into the liquid storage cavity 11 to the middle of the spindle box 1 after absorbing heat and cooling.

优选的，储液腔11的侧壁设有与第一冷却腔12连通的第一连通口，以及与第二冷却腔13连通的第二连通口，冷却液通过第一连通口流入和流出第一冷却腔12，冷却液通过第二连通口流入和连出第二冷却腔13。Preferably, the side wall of the liquid storage cavity 11 is provided with a first communication port communicating with the first cooling cavity 12 and a second communication port communicating with the second cooling cavity 13, and the cooling liquid flows in and out of the first communication port through the first communication port. A cooling cavity 12, the cooling liquid flows in and out of the second cooling cavity 13 through the second communication port.

优选的，第一连通口包括供冷却液进入第一冷却腔12的第一进液口121，第二连通口包括供冷却液进入第二冷却腔13的第二进液口131。Preferably, the first communication port includes a first liquid inlet 121 for cooling liquid to enter the first cooling cavity 12, and the second communication port includes a second liquid inlet 131 for cooling liquid to enter the second cooling cavity 13.

更优选的，还包括第一分流管道21和第二分流管道22，第一分流管道21连通第一进液口121和储液腔11；第二分流管道22连通第二进液口131和储液腔11。采用上述结构后，冷却液在储液腔11内通过第一分流管道21和第二分流管道22分别输送至第一进液口121和第二进液口131，从而使冷却液进入第一冷却腔12和第二冷却腔13内。采用管道柔性连接，连接结构简单，并且拆装更加方便。More preferably, it further includes a first branch pipe 21 and a second branch pipe 22. The first branch pipe 21 communicates with the first liquid inlet 121 and the liquid storage chamber 11; and the second branch pipe 22 communicates with the second liquid inlet 131 and the storage chamber 11.液室11。 Liquid cavity 11. After adopting the above structure, the cooling liquid is delivered to the first liquid inlet 121 and the second liquid inlet 131 through the first branch pipe 21 and the second branch pipe 22 in the liquid storage cavity 11, so that the cooling liquid enters the first cooling Inside the cavity 12 and the second cooling cavity 13. The flexible pipe connection is adopted, the connection structure is simple, and the disassembly and assembly are more convenient.

优选的，第一连通口还具有供冷却液回流至储液腔11的第一出液口122，第二连通口还具有供冷却液回流至储液腔11的第二出液口132。第一出液口122开设在第一冷却腔12的侧壁上，第一冷却腔12内的冷却液由第一出液口122流出回流至储液腔11；第二出液口132开设在第二冷却腔13的侧壁上第二冷却腔13内的冷却液由第二出液口132流出回流至储液腔11。Preferably, the first communication port further has a first liquid outlet 122 for the cooling liquid to flow back to the liquid storage cavity 11, and the second communication port further has a second liquid outlet 132 for the cooling liquid to flow back to the liquid storage cavity 11. The first liquid outlet 122 is opened on the side wall of the first cooling cavity 12, the cooling liquid in the first cooling cavity 12 flows out from the first liquid outlet 122 back to the liquid storage cavity 11; the second liquid outlet 132 is opened in The cooling liquid in the second cooling cavity 13 on the side wall of the second cooling cavity 13 flows out from the second liquid outlet 132 back to the liquid storage cavity 11.

优选的，由于第一冷却腔12内设有第一轴承31和第二轴承32，因此第一冷却腔12内需要较多的冷却液，第一进液口121包括设在第一冷却腔12上表面的第一进液孔1211和第二进液孔1212，第一分流管道21包括第一分流支管211和第二分流支管212，第一进液孔1211和第一分流支管211连接，第二进液孔1212和第二分流支管212连接。采用此结构，第一进液孔1211和第二进液孔1212可同时流入冷却液，可加速冷却液流入第一冷却腔12的流速同时增加冷却液的流量，使得对两个轴承的冷却更加高效。Preferably, since the first bearing 31 and the second bearing 32 are provided in the first cooling cavity 12, more cooling liquid is required in the first cooling cavity 12, and the first liquid inlet 121 includes the first cooling cavity 12 The first liquid inlet 1211 and the second liquid inlet 1212 on the upper surface, the first branch pipe 21 includes a first branch pipe 211 and a second branch pipe 212, the first liquid inlet 1211 is connected to the first branch pipe 211, The second liquid inlet 1212 is connected to the second branch pipe 212. With this structure, the first liquid inlet hole 1211 and the second liquid inlet hole 1212 can flow into the cooling liquid at the same time, which can accelerate the flow rate of the cooling liquid into the first cooling cavity 12 and increase the flow rate of the cooling liquid, so that the cooling of the two bearings is more effective. Efficient.

优选的，为了防止第一分流支管211和第二分流支管212在主轴箱1内窜动而相互打结，主轴箱1还设有连通于储液腔11和第一冷却腔12之间的过渡腔14，过渡腔14用于容置第一分流支管211和第二分流支管212。Preferably, in order to prevent the first branch pipe 211 and the second branch pipe 212 from moving in the headstock 1, the headstock 1 is also provided with a transition between the liquid storage chamber 11 and the first cooling chamber 12 The cavity 14 and the transition cavity 14 are used for accommodating the first branch branch 211 and the second branch branch 212.

更优选的，为了进一步固定第一分流支管211和第二分流支管212，过渡腔14的侧壁设有连通储液腔11的夹持孔141，夹持孔141固定第一分流支管211与第二分流支管212。More preferably, in order to further fix the first branch branch pipe 211 and the second branch branch pipe 212, the side wall of the transition cavity 14 is provided with a clamping hole 141 communicating with the liquid storage cavity 11, and the clamping hole 141 fixes the first branch branch pipe 211 and the second branch pipe 211. Two shunt branch pipe 212.

优选的，第一冷却腔12包括容置第一轴承31的第一容置腔123，和容置第二轴承32的第二容置腔124，第一容置腔123用于固定第一轴承31，第二容置腔124用于固定第二轴承32。Preferably, the first cooling cavity 12 includes a first accommodating cavity 123 for accommodating the first bearing 31, and a second accommodating cavity 124 for accommodating the second bearing 32, and the first accommodating cavity 123 is used for fixing the first bearing. 31. The second accommodating cavity 124 is used to fix the second bearing 32.

优选的，第二容置腔124对应第二进液孔1212设置，第二进液孔1212内的冷却液可流入第二容置腔124内对第二轴承32进行冷却。Preferably, the second accommodating cavity 124 is provided corresponding to the second liquid inlet hole 1212, and the cooling liquid in the second liquid inlet hole 1212 can flow into the second accommodating cavity 124 to cool the second bearing 32.

更优选的，第二容置腔124设在第二进液孔1212的正下方，此结构使得第二进液孔1212内的冷却液能够更快进入第二容置腔124，并快速与第二轴承32接触吸热，提高了散热效率。More preferably, the second accommodating cavity 124 is provided directly below the second liquid inlet 1212. This structure enables the cooling liquid in the second liquid inlet 1212 to enter the second accommodating cavity 124 more quickly and quickly interact with the second liquid inlet 1212. The second bearing 32 contacts and absorbs heat, which improves the heat dissipation efficiency.

优选的，第一冷却腔12还包括将冷却液从第一进液口121导向第一容置腔123和第二容置腔124的导油套125。导油套125的两个端面与第一轴承31和第二轴承32的端面抵顶，对第一轴承31和第二轴承32之间起到一定限位效果。同时，当冷却液进入导油套125后，导油套125可将冷却液直接分流至第一轴承31的端面和第二轴承32的端面，从第一轴承31的内部和第二轴承32的内部进行冷却，从而加速冷却，使得冷却更加高效。Preferably, the first cooling cavity 12 further includes an oil guide sleeve 125 that guides the cooling liquid from the first liquid inlet 121 to the first accommodating cavity 123 and the second accommodating cavity 124. The two end surfaces of the oil guide sleeve 125 abut against the end surfaces of the first bearing 31 and the second bearing 32, which has a certain limit effect on the first bearing 31 and the second bearing 32. At the same time, when the coolant enters the oil guide sleeve 125, the oil guide sleeve 125 can directly divert the coolant to the end surface of the first bearing 31 and the end surface of the second bearing 32, from the inside of the first bearing 31 and the second bearing 32 Cooling is performed internally to speed up the cooling and make the cooling more efficient.

优选的，导油套125对应第一进液孔1211设置。使得第一进液孔1211内的冷却液能够人流入导油套125并在导油套125的作用下导向第一轴承31和第二轴承32，从而进行冷却散热。Preferably, the oil guide sleeve 125 is provided corresponding to the first liquid inlet 1211. The cooling liquid in the first liquid inlet 1211 can flow into the oil guide sleeve 125 and be guided to the first bearing 31 and the second bearing 32 under the action of the oil guide sleeve 125 to perform cooling and heat dissipation.

更优选的，导油套125设在第一进液孔1211的正下方，加快冷却液流入导油套125的速度，从而加快冷却液导入第一轴承31和第二轴承32，进一步提高冷却效率。More preferably, the oil guide sleeve 125 is arranged directly below the first liquid inlet hole 1211 to speed up the flow of coolant into the oil guide sleeve 125, thereby speeding up the introduction of the coolant into the first bearing 31 and the second bearing 32, and further improving the cooling efficiency .

优选的，导油套125包括套设在主轴4上并抵顶于第一轴承31和第二轴承32内圈之间的内限位套1251，以及套设在内限位套1251外并抵顶于第一轴承31和第二轴承32外圈之间的外限位套1252。采用上述结构后，导油套125在主轴4转动时，对第一轴承31和第二轴承32的端面进行抵顶，从而限制第一轴承31和第二轴承32沿主轴4的轴线方向窜动，使第一轴承31和第二轴承32安装更加牢固。Preferably, the oil guide sleeve 125 includes an inner limit sleeve 1251 sleeved on the main shaft 4 and abutted between the inner rings of the first bearing 31 and the second bearing 32, and an inner limit sleeve 1251 sleeved outside and abutted against the inner ring of the first bearing 31 and the second bearing 32. Abutting the outer limit sleeve 1252 between the outer rings of the first bearing 31 and the second bearing 32. After adopting the above structure, when the main shaft 4 rotates, the oil guide sleeve 125 presses against the end surfaces of the first bearing 31 and the second bearing 32, thereby restricting the movement of the first bearing 31 and the second bearing 32 in the axial direction of the main shaft 4 , So that the first bearing 31 and the second bearing 32 are installed more firmly.

优选的，内限位套1251和外限位套1252之间具有导液间隙1253，外限位套形1252成有与间隙相连通的导液孔1255。采用上述结构后，第一进液孔1211内的冷却液通过导液孔1255进入导液间隙1253，并将冷却液从导液间隙1253导向第一轴承31与第二轴承32。Preferably, there is a liquid conducting gap 1253 between the inner limiting sleeve 1251 and the outer limiting sleeve 1252, and the outer limiting sleeve 1252 is formed with a liquid conducting hole 1255 communicating with the gap. After adopting the above structure, the cooling liquid in the first liquid inlet 1211 enters the liquid guiding gap 1253 through the liquid guiding hole 1255, and guides the cooling liquid from the liquid guiding gap 1253 to the first bearing 31 and the second bearing 32.

优选的，第一轴承31和第二轴承32的轴承游隙均与导液间隙1253连通，使得冷却液能够直接流入第一轴承31和第二轴承32内部并进行吸热冷却。Preferably, the bearing clearances of the first bearing 31 and the second bearing 32 are both in communication with the liquid guide gap 1253, so that the coolant can directly flow into the first bearing 31 and the second bearing 32 and perform heat absorption and cooling.

更优选的，第一轴承31和第二轴承32的轴承游隙位置均与导液间隙2553相对应，此结构可加快冷却液流入轴承游隙，从而加速轴承冷却。More preferably, the bearing clearance positions of the first bearing 31 and the second bearing 32 both correspond to the fluid-conducting clearance 2553. This structure can speed up the flow of coolant into the bearing clearance, thereby accelerating the cooling of the bearing.

优选的，由于导液孔1255孔径较小，冷却液流入导液间隙1253的速度较慢，为了防止第一冷却孔1211内的冷区液四处流动，外限位套1252的周面形成有与导液孔1255连通的环形储液槽1254，环形储液槽1254与第一进液孔1211连通。环形储液槽1254可将第一进液孔1211流出的冷却液暂时存储。Preferably, due to the smaller diameter of the liquid guide hole 1255, the cooling liquid flows into the liquid guide gap 1253 at a slower speed. In order to prevent the cold zone liquid in the first cooling hole 1211 from flowing around, the outer limit sleeve 1252 is formed with The annular liquid storage tank 1254 communicated with the liquid guide hole 1255, and the annular liquid storage tank 1254 is in communication with the first liquid inlet 1211. The annular liquid storage tank 1254 can temporarily store the cooling liquid flowing out of the first liquid inlet 1211.

优选的，环形储液槽1254与第一进液孔1211相对应。Preferably, the annular liquid storage tank 1254 corresponds to the first liquid inlet 1211.

更优选的，环形储液槽1254设在第一进液孔的正下方，加快第一进液孔1211内的冷却液能够直接流入环形储液槽1254内。More preferably, the annular liquid storage tank 1254 is provided directly below the first liquid inlet hole, so that the cooling liquid in the first liquid inlet hole 1211 can directly flow into the annular liquid storage tank 1254.

优选的，第二冷却腔13设有安装第三轴承33的安装槽133。第三轴承33嵌入安装槽133内部，使得第三轴承33安装更加牢固。Preferably, the second cooling cavity 13 is provided with a mounting groove 133 for mounting the third bearing 33. The third bearing 33 is embedded in the installation groove 133, so that the third bearing 33 is installed more firmly.

上述实施例和图式并非限定本发明的产品形态和式样，任何所属技术领域的普通技术人员对其所做的适当变化或修饰，皆应视为不脱离本发明的专利范畴。The above-mentioned embodiments and drawings do not limit the product form and style of the present invention, and any appropriate changes or modifications made by those of ordinary skill in the art should be regarded as not departing from the patent scope of the present invention.

Claims (24)

1、一种快速散热的切割机，包括切割机主体，所述切割机主体包括主轴箱；其特征在于：所述主轴箱包括储存冷却液的储液腔，对主轴一端轴承进行冷却的第一冷却腔，以及对主轴另一端轴承进行冷却第二冷却腔。 1. A cutting machine with fast heat dissipation, comprising a cutting machine main body, the cutting machine main body including a headstock; it is characterized in that: the headstock includes a liquid storage cavity for storing coolant, and a first cooling device for cooling a bearing at one end of the main shaft A cooling cavity and a second cooling cavity for cooling the bearing at the other end of the main shaft.

2、根据权利要求1所述的快速散热的切割机，其特征在于：所述储液腔处于第一冷却腔和第二冷却腔之间。2. The fast heat-dissipating cutting machine according to claim 1, wherein the liquid storage cavity is located between the first cooling cavity and the second cooling cavity.

3、根据权利要求2所述的快速散热的切割机，其特征在于：所述储液腔的一端与第一冷却腔连通且另一端与第二冷却腔连通。3. The cutting machine with rapid heat dissipation according to claim 2, wherein one end of the liquid storage cavity is in communication with the first cooling cavity and the other end is in communication with the second cooling cavity.

4、根据权利要求3所述的快速散热的切割机，其特征在于：所述储液腔的侧壁设有与第一冷却腔连通的第一连通口，以及与第二冷却腔连通的第二连通口。4. The fast heat-dissipating cutting machine according to claim 3, characterized in that: the side wall of the liquid storage cavity is provided with a first communication port communicating with the first cooling cavity, and a first communication port communicating with the second cooling cavity Two connecting ports.

5、根据权利要求4所述的快速散热的切割机，其特征在于：所述第一连通口包括供冷却液进入第一冷却腔的第一进液口，所述第二连通口包括供冷却液进入第二冷却腔的第二进液口。5. The fast heat-dissipating cutting machine according to claim 4, wherein the first communication port includes a first liquid inlet for cooling liquid to enter the first cooling cavity, and the second communication port includes a first liquid inlet for cooling fluid. The liquid enters the second liquid inlet of the second cooling cavity.

6、根据权利要求5所述的快速散热的切割机，其特征在于：还包括第一分流管道和第二分流管道，所述第一分流管道连通所述第一进液口和所述储液腔；所述第二分流管道连通所述第二进液口和所述储液腔。6. The fast heat dissipation cutting machine according to claim 5, further comprising a first branch pipe and a second branch pipe, the first branch pipe is connected to the first liquid inlet and the liquid storage Cavity; the second branch pipe communicates the second liquid inlet and the liquid storage cavity.

7、根据权利要求6所述的快速散热的切割机，其特征在于：所述第一连通口还具有供冷却液回流至储液腔的第一出液口，所述第二连通口还具有供冷却液回流至储液腔的第二出液口。7. The fast heat-dissipating cutting machine according to claim 6, characterized in that: the first communication port further has a first liquid outlet for the cooling liquid to flow back to the liquid storage cavity, and the second communication port further has The cooling liquid is supplied back to the second liquid outlet of the liquid storage cavity.

8、根据权利要求6所述的快速散热的切割机，其特征在于：所述第一进液口包括第一进液孔和第二进液孔，所述第一分流管道包括第一分流支管和第二分流支管，所述第一进液孔和第一分流支管连接，所述第二进液孔和第二分流支管连接。8. The fast heat-dissipating cutting machine according to claim 6, characterized in that: the first liquid inlet includes a first liquid inlet and a second liquid inlet, and the first branch pipe comprises a first branch pipe And the second branch pipe, the first liquid inlet hole is connected with the first branch branch pipe, and the second liquid inlet hole is connected with the second branch branch pipe.

9、根据权利要求8所述的快速散热的切割机，其特征在于：所述主轴箱还设有连通于所述储液腔和所述第一冷却腔之间的过渡腔。9. The cutting machine with rapid heat dissipation according to claim 8, wherein the headstock is further provided with a transition cavity connected between the liquid storage cavity and the first cooling cavity.

10、根据权利要求9所述的快速散热的切割机，其特征在于：所述过渡腔的侧壁设有连通所述储液腔的夹持孔，所述夹持孔固定第一分流支管与第二分流支管。10. The fast heat-dissipating cutting machine according to claim 9, characterized in that: the side wall of the transition cavity is provided with a clamping hole communicating with the liquid storage cavity, and the clamping hole fixes the first branch pipe and The second branch branch.

11、根据权利要求7所述的快速散热的切割机，其特征在于：所述第一冷却腔包括容置第一轴承的第一容置腔，和容置第二轴承的第二容置腔。11. The fast heat-dissipating cutting machine according to claim 7, wherein the first cooling cavity comprises a first accommodating cavity for accommodating a first bearing, and a second accommodating cavity for accommodating a second bearing .

12、根据权利要求11所述的快速散热的切割机，其特征在于：所述第二容置腔对应所述第二进液孔设置。12. The cutting machine with rapid heat dissipation according to claim 11, wherein the second accommodating cavity is arranged corresponding to the second liquid inlet hole.

13、根据权利要求12所述的快速散热的切割机，其特征在于：所述第二容置腔设在第二进液孔的正下方。13. The fast heat-dissipating cutting machine according to claim 12, wherein the second accommodating cavity is provided directly below the second liquid inlet hole.

14、根据权利要求11所述的快速散热的切割机，其特征在于：所述第一冷却腔还包括将冷却液从第一进液口导向第一容置腔和第二容置腔的导油套。14. The fast heat-dissipating cutting machine according to claim 11, wherein the first cooling cavity further comprises a guide for guiding the cooling liquid from the first liquid inlet to the first accommodating cavity and the second accommodating cavity Oil jacket.

15、根据权利要求14所述的快速散热的切割机，其特征在于：所述导油套对应所述第一进液孔设置。15. The cutting machine with rapid heat dissipation according to claim 14, wherein the oil guide sleeve is arranged corresponding to the first liquid inlet hole.

16、根据权利要求15所述的快速散热的切割机，其特征在于：所述导油套设在第一进液孔的正下方。16. The fast heat-dissipating cutting machine according to claim 15, wherein the oil guide sleeve is arranged directly below the first liquid inlet hole.

17、根据权利要求14所述的快速散热的切割机，其特征在于：所述导油套包括套设在主轴上并抵顶于第一轴承和第二轴承内圈之间的内限位套，以及套设在内限位套外并抵顶于第一轴承和第二轴承外圈之间的外限位套。17. The fast heat-dissipating cutting machine according to claim 14, wherein the oil guide sleeve comprises an inner limit sleeve sleeved on the main shaft and abutting between the inner ring of the first bearing and the second bearing. , And an outer limit sleeve sleeved outside the inner limit sleeve and abutted between the first bearing and the outer ring of the second bearing.

18、根据权利要求17所述的快速散热的切割机，其特征在于：所述内限位套和外限位套之间具有导液间隙，所述外限位套形成有与所述间隙相连通的导液孔。18. The fast heat-dissipating cutting machine according to claim 17, characterized in that there is a fluid-conducting gap between the inner limit sleeve and the outer limit sleeve, and the outer limit sleeve is formed to be connected to the gap. Through the catheter hole.

19、根据权利要求18所述的快速散热的切割机，其特征在于：所述第一轴承和第二轴承的轴承游隙均与所述导液间隙连通。19. The fast heat-dissipating cutting machine according to claim 18, wherein the bearing clearances of the first bearing and the second bearing are both in communication with the liquid conducting gap.

20、根据权利要求19所述的快速散热的切割机，其特征在于：所述第一轴承和第二轴承的轴承游隙均与所述导液间隙相对应。20. The cutting machine with rapid heat dissipation according to claim 19, wherein the bearing clearances of the first bearing and the second bearing both correspond to the liquid conducting gap.

21、根据权利要求20所述的快速散热的切割机，其特征在于：所述外限位套的周面形成有与所述导液孔连通的环形储液槽，所述环形储液槽与所述第一进液孔连通。21. The cutting machine with rapid heat dissipation according to claim 20, characterized in that: an annular liquid storage tank communicating with the liquid guide hole is formed on the peripheral surface of the outer limit sleeve, and the annular liquid storage tank is connected with the The first liquid inlet hole communicates with each other.

22、根据权利要求21所述的快速散热的切割机，其特征在于：所述环形储液槽与所述第一进液孔相对应。22. The cutting machine with rapid heat dissipation according to claim 21, wherein the annular liquid storage tank corresponds to the first liquid inlet hole.

23、根据权利要求22所述的快速散热的切割机，其特征在于：所述环形储液槽设在所述第一进液孔的正下方。23. The cutting machine with rapid heat dissipation according to claim 22, wherein the annular liquid storage tank is provided directly below the first liquid inlet hole.

24、根据权利要求7所述的快速散热的切割机，其特征在于：所述第二冷却腔设有安装第三轴承的安装槽。 24. The cutting machine with rapid heat dissipation according to claim 7, wherein the second cooling cavity is provided with a mounting groove for mounting a third bearing.

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